The whole reason FGTL works is that the fusiform gyrus lets you recognize faces.
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This theoretically resets the fusiform cells and decreases how often and severely a person's tinnitus should happen.
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People with damage to the fusiform gyrus lose their ability to recognize faces, a disorder known as prosopagnosia.
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" Olivia noticed that Charlotte was leafing through a pamphlet titled "Fusiform Gyrus Targeted Lesioning: An Investment In Your Child's Future.
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Brain scans show that a part of our neocortex known as the fusiform gyrus becomes activated when we look at faces.
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To put this another way: Yes, scientists can see our fusiform gyrus light up in brain scans when we recognize faces.
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The left fusiform gyrus, part of the brain that was dedicated to recognizing complicated objects, like faces, became a translator of letters into language.
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The scientists found that the older subjects had more complexity in their brains' supporting structure, in a part of the brain called the fusiform gyrus.
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In people with tinnitus, this synchrony is thrown off-kilter and the fusiform cells fire whenever they please, leading to people hearing sounds that aren't there.
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These sufferers are able to soften their episodes by applying pressure to their head or clenching their jaw—a rudimentary version of keeping their fusiform cells in check, it's thought.
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In observing activity in the fusiform cortex, the region of the brain responsible for visual processing, the researchers found similar activation patterns for subjects show, for example, black male faces and objectively angry faces.
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Zaria Gorvett, the writer of the BBC article, reported that the brain uses an area known as the fusiform gyrus to create a bigger, more broader picture when analyzing the features of a person's face.
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It then goes to the left fusiform gyrus, which translates those abstract symbols into letters, and then to the frontal and temporal lobes, where we figure out how to pronounce it and what it means.
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These neurons, called fusiform cells, are meant to fire when the brain receives input from the outside world, which is one of the first links in an almost simultaneous chain of events that leads to us correctly "hearing" the sound something makes.
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"We worked out in animal studies that specific combinations of sound and pulses could either increase or decrease the activity of these [fusiform] cells that activate the rest of the brain," senior author Susan Shore of the university's Kresge Hearing Research Institute told Gizmodo in an email.
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After the children were taught to print, patterns of brain activation in response to letters showed increased activation of that reading network, including the fusiform gyrus, along with the inferior frontal gyrus and posterior parietal regions of the brain, which adults use for processing written language — even though the children were still at a very early level as writers.
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Thus, the lateral fusiform gyrus is delineated by the OTS laterally and the MFS medially. Likewise, the medial fusiform gyrus is delineated by the MFS laterally and the CoS medially. Importantly, the mid-fusiform sulcus serves as a macroanatomical landmark for the fusiform face area (FFA), a functional subregion of the fusiform gyrus assumed to play a key role in processing faces.
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He was the first to describe the sulcus sagittalis gyri fusiformis (today: mid- fusiform sulcus), and correctly determined that a sulcus divides the fusiform gyrus into lateral and medial partitions. W. Julius Mickle mentioned the mid- fusiform sulcus in 1897 and attempted to clarify the relation between temporal sulci and the fusiform gyrus, calling it the “intra-gyral sulcus of the fusiform lobule”.
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Some researchers think that the fusiform gyrus may be related to the disorder known as prosopagnosia, or face blindness. Research has also shown that the fusiform face area, the area within the fusiform gyrus, is heavily involved in face perception but only to any generic within-category identification that is shown to be one of the functions of the fusiform gyrus. Abnormalities of the fusiform gyrus have also been linked to Williams syndrome.A. L. Reiss, et al.
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Today, the fusiform gyrus is considered to be specific to hominoids. This is supported by research showing only three temporal gyri and no fusiform gyrus in macaques. The first accurate definition of the mid-fusiform sulcus was coined by Gustav Retzius in 1896.
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The mid-fusiform sulcus is a shallow sulcus that divides the fusiform gyrus into lateral and medial partitions. Functionally, the MFS divides both large- scale functional maps and identifies fine-scale functional regions such as the anterior portion of the fusiform face area.
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Cross-activation between the angular and fusiform gyri has been observed in the average brain, implying that the fusiform gyrus regularly communicates with the visual pathway.
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The fusiform face area is located in the lateral fusiform gyrus. It is thought that this area is involved in holistic processing of faces and it is sensitive to the presence of facial parts as well as the configuration of these parts. The fusiform face area is also necessary for successful face detection and identification. This is supported by fMRI activation and studies on prosopagnosia, which involves lesions in the fusiform face area.
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Eggs are fusiform, with a long filament at each pole.
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Recent research has seen activation of the fusiform gyrus during subjective grapheme–color perception in people with synaesthesia.Imaging of connectivity in the synaesthetic brain « Neurophilosophy The effect of the fusiform gyrus in grapheme sense seems somewhat more clear as the fusiform gyrus seems to play a key role in word recognition. The connection to color may be due to cross wiring of (being directly connected to) areas of the fusiform gyrus and other areas of the visual cortex associated with experiencing color.
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The length of the dark white, fusiform shell attains 3.5 mm.
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Preliminary Evidence Of Abnormal White Matter Related To The Fusiform Gyrus In Williams Syndrome: A Diffusion Tensor Imaging Tractography Study.Genes, Brain & Behavior 11.1, 62–68(2012) Fusiform gyrus has also been involved in the perception of emotions in facial stimuli. However, individuals with autism show little to no activation in the fusiform gyrus in response to seeing a human face.
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The fusiform face area is located within the inferior temporal cortex in the fusiform gyrus. Similar to the PPA, the FFA exhibits higher neural activation when visually processing faces more so than places or buildings (Kanwisher et al., 1997). However, the fusiform area also shows activation for other stimuli and can be trained to specialize in the visual processing of objects of expertise.
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Portions of the fusiform gyrus are critical for face and body recognition.
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In the winter, they have been recorded on galls from fusiform rust.
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The Fusiform Face area is an area typically unilaterally, much like the language areas, and localized on the right fusiform gyrus. However, this brain region has been found to be more bilateral in left-handers; that is the left fusiform gyrus responds more to faces in left-handers than in right-handers. However the occipital face area shows no such correlation, and so handedness is thought to impact face processing on a level in the hierarchy which does not involve the occipital face area, however does include the fusiform gyrus.
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Using positron emission tomography (PET) scans and event-related potentials, researchers have located two separate areas in the fusiform gyrus that respond specifically to strings of letters. The posterior fusiform gyrus responds to words and non-words, regardless of their semantic context.(Nobre, Truett & McCarthy, 1994) The anterior fusiform gyrus is affected by the semantic context, and whether letter combinations are words or pseudowords (novel letter combinations that mimic phonetic conventions, ex. shing). This role of the anterior fusiform gyrus may correlate to higher processing of the word's concept and meaning.
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Spores are narrowly fusiform. The spores are smooth, narrowly fusiform (fuse-shaped), and measure 7–12 by 3–5 µm. The basidia (spore-bearing cells) measure 20–28 by 6–8 µm and are hyaline (translucent), four-spored, and narrowly club-shaped, with many internal oil droplets. Cystidia are fusiform, sometimes with a rounded tip, and have dimensions of 30–50 by 9–12 µm.
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Fusiform muscles are wider and cylindrically shaped in the center and taper off at the ends. This overall shape of fusiform muscles is often referred to as a spindle. The line of action in this muscle type runs in a straight line between the attachment points which are often tendons. Due to the shape, the force produced by fusiform muscles is concentrated into a small area.
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The fusiform gyrus has been speculated to be associated with various neurological phenomena.
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The length of the fusiform shell attains 9 mm, its diameter 3 mm.
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The conidia are fusiform (spindle-shaped) or bifusiform, measuring 7–10 μm long.
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The fusiform face area (FFA); (meaning: spindular/spindle-shaped face area) is a part of the human visual system that is specialized for facial recognition. It is located in the inferior temporal cortex (IT), in the fusiform gyrus (Brodmann area 37).
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The areas that showed bilateral activation were the inferior parietal lobes, fusiform gyri, and Brodmann Area 44, among others. The areas lateralized to the left hemisphere were the calcarine and fusiform gyrus, specifically at the location for visual word form.
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In a study that compared the semantic knowledge of category versus attributes, it was found that they play separate roles in how they contribute to recognition. For categorical comparisons, the lateral regions of the fusiform gyrus were activated by living objects, in comparison to nonliving objects which activated the medial regions. For attribute comparisons, it was found that the right fusiform gyrus was activated by global form, in comparison to local details which activated the left fusiform gyrus. These results suggest that the type of object category determines which region of the fusiform gyrus is activated for processing semantic recognition, whereas the attributes of an object determines the activation in either the left or right fusiform gyrus depending on whether global form or local detail is processed.
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Moderately cylindrical. Subequal. Not quite equal. Subexcavated. A little excavated. Subfusiform. Moderately fusiform. Subglobose.
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Many of the obstacles that individuals with ASD face in terms of facial processing may be derived from abnormalities in the fusiform face area and amygdala, which have been shown to be important in face perception as discussed above. Typically, the fusiform face area in individuals with ASD has reduced volume compared to normally developed persons. This volume reduction has been attributed to deviant amygdala activity that does not flag faces as emotionally salient and thus decreases activation levels of the fusiform face area. This hypoactivity in the fusiform face area has been found in several studies.
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It is believed that portions of the left hemisphere fusiform gyrus are used in word recognition.
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The apical labial palpomere cylindrical to fusiform. Ligula shallowly to moderately emarginate, or deeply emarginate or bilobed.
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It has a fusiform body with chaetae along its length, decreasing in length towards front and rear.
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The fusiform gyrus, also known as the lateral occipitotemporal gyrus, is part of the temporal lobe and occipital lobe in Brodmann area 37.Nature Neuroscience, vol7, 2004 The fusiform gyrus is located between the lingual gyrus and parahippocampal gyrus above, and the inferior temporal gyrus below. Though the functionality of the fusiform gyrus is not fully understood, it has been linked with various neural pathways related to recognition. Additionally, it has been linked to various neurological phenomena such as synesthesia, dyslexia, and prosopagnosia.
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The elaters are never fusiform, the apices always abrupt in their acumination, and the sculpture irregular and uneven.
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The larva is a cylindrical-maggot shape, elongated, with the anterior end narrowed a somewhat curved ventrally. It has anterior mouth hooks, ventral fusiform areas and a flattened caudal end. Last instar larvae range from 7.5 to 11.8 mm in length. The venter has fusiform areas on segments 2 through 11.
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Perianth like in males. Ovary fusiform, glabrous. Stigma and staminodes unknown. Fruit 4.5 × 2.5 cm, elliptical to oblong, smooth.
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Conidia are in divergent chains, ellipsoid to fusiform in shape, and smooth walled to slightly roughened. Chlamydospores are absent.
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For those with dyslexia, it has been seen that the fusiform gyrus is underactivated and has reduced gray matter density.
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N. N. Tzvelev & Andrey Aleksandrovich Fedorov, Flora of Russia, Achenes fusiform, transversely rugose, with five broad, rounded ribs. Pappus white.
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The fusiform gyrus has a contentious history that has recently been clarified. The term was first used in 1854 by Emil Huschke from Jena, Germany, who called the fusiform gyrus a “Spindelwulst” (lit. spindle bulge). He chose this term because of the similarity that the respective cerebral gyrus bears to the shape of a spindle, or fusil, due to its wider central section. At first, researchers located the fusiform gyrus in other mammals as well, without taking into account the variations in gross organizations of other species’ brains.
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The eggs are fusiform with two filaments at both ends, often coiled. Three sequences of the cox1 gene has been published.
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The eggs are fusiform with long filaments at both ends, often coiled. Three sequences of the cox1 gene has been published.
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Filaments 4-5 cm long. Anthers liner, attenuate, ca. 1.5 cm long or more. Ovary fusiform, up to 2 cm long.
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The larvae feed on Artemisia campestris. The feeding results in a fusiform swelling on the lateral branches of their host plant.
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The processing starts with visual feature detectors in extrastriate cortex, proceeding through letter detectors and letter-cluster detectors in the posterior fusiform, and then activating lexical representations stored in more anterior multimodal fusiform area. The theory states the function of the VWFA is pre-lexical as it occurs before the word is understood to have meaning.
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The fusiform face area (FFA) is a part of the brain located in the fusiform gyrus with a debated purpose. Some researchers believe that the FFA is evolutionary purposed for face perception. Others believe that the FFA discriminates between any familiar stimuli. Psychologists debate whether the FFA is activated by faces for an evolutionary or expertise reason.
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Brodmann area 37, or BA37, is part of the temporal cortex in the human brain. It contains the fusiform gyrus which in turn contains the fusiform face area, an area important for the recognition of faces. This area is also known as occipitotemporal area 37 (H). It is a subdivision of the cytoarchitecturally defined temporal region of cerebral cortex.
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Rotroff, Susan I. "Fusiform Unguentaria." In "Hellenistic Pottery: The Plain Wares." The Athenian Agora 33 (2006), pp. 137–160. (full text online).
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The pupa is 4–5.5 mm and fusiform. It is greenish yellow in the early pupal stage, changing gradually to dark brown.
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Ceuthophilus fusiformis, the fusiform camel cricket, is a species of camel cricket in the family Rhaphidophoridae. It is found in North America.
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Flowers are growing together and have 3 anthers that are long with 2 lodicules. Fruits are caryopsis, fusiform and have an additional pericarp.
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Nodal tracheary elements are isodiametric to fusiform in shape, and have crowded circular to elongate prominently bordered pits and uniformly thick secondary walls.
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Neural misfiring in the fusiform face area, in the fusiform gyrus (orange), might be a cause of the Cotard delusion. In the cerebrum, organic lesions in the parietal lobe might cause the Cotard delusion. The underlying neurophysiology and psychopathology of Cotard syndrome might be related to problems of delusional misidentification. Neurologically, Cotard's delusion (negation of the Self) is thought to be related to Capgras delusion (people replaced by impostors); each type of delusion is thought to result from neural misfiring in the fusiform face area of the brain, which recognizes faces, and in the amygdalae, which associate emotions to a recognized face.
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The Fusiform body area (FBA) is a part of the extrastriate visual cortex, an object representation system involved in the visual processing of human bodies in contrast to body parts. Its function is similar to but distinct from the extrastriate body area (EBA), which perceives bodies in relation body parts, and the fusiform face area (FFA), which is involved in the perception of faces. Marius Peelen and Paul Downing identified this brain region in 2004 through an fMRI study.; in 2005 Rebecca Schwarzlose and a team of cognitive researchers named this brain region the fusiform body area.
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The emotional processing effects observed in the fusiform gyrus are decreased in patients with amygdala lesions. This demonstrates possible connections between the amygdala and facial processing areas. Another aspect that affects both the fusiform gyrus and the amygdala activation is the familiarity of faces. Having multiple regions that can be activated by similar face components indicates that facial processing is a complex process.
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Señorita (Oxyjulis californica). Animal Fact Files. BBC. 2005. Its body is fusiform, frequently described as "cigar-shaped".Fitch, J. E. and R. J. Lavenberg.
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The length of the shell attains 4.4 mm. The small, solid shell is biconical to cylindro-fusiform. It contains four whorls. The protoconch is blunt.
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The shell has a fusiform shape. The sinus is scarcely apparent. The biplicate columella is nearly straight. The canal is rather short and slightly curved.
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The first larvae appear in March, only shortly after the host plant begins growth. Pupation occurs in a fusiform, multi-layered cocoon of white silk.
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The basidia (spore-bearing cells) are four-spored and measure 28.5–36.5 by 11.5–12.5 µm. Cystidia on the pores are flask-shaped (lageniform) to fusiform, and 39.0–45.5 by 7.5–9.0 µm, while those of the stipe (caulocystidia) are fusiform, club-shaped, or cylindrical, measuring 39.0–54.5 x 9.1–13.5 µm. There are no clamp connections present in the hyphae of L. holopus.
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Anatomically, the fusiform gyrus is the largest macro-anatomical structure within the ventral temporal cortex, which mainly includes structures involved in high-level vision. The term fusiform gyrus (lit. „spindle-shaped convolution“) refers to the fact that the shape of the gyrus is wider at its centre than at its ends. This term is based on the description of the gyrus by Emil Huschke in 1854.
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The right hemisphere fusiform gyrus is more often involved in familiar face recognition than the left. It remains unclear whether the fusiform gyrus is only specific for the recognition of human faces or if it is also involved in highly trained visual stimuli. Acquired prosopagnosia results from occipito-temporal lobe damage and is most often found in adults. This is further subdivided into apperceptive and associative prosopagnosia.
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Because of the complicated lifecycle of Cronaritum quercuum f. sp. fusiforme, the fungal causal agent of Fusiform Rust, the management strategies of pruning diseased stems, reducing fertilization, and discarding infected seed were not sufficient enough to prevent million dollar annual loses. Example of Fusiform Rust symptoms on pine tree bark Rust pathogens are difficult to manage because of their complicated reproductive life cycles. Cronaritum querecuum f. sp.
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The FBA shares overlapping structures with the FFA, both are located in Brodmann area 37, specifically a part of the occipital lobe and temporal lobe known as the fusiform gyrus. The FBA is located on the ventral surface of the brain, on the lateral posterior surface of the fusiform gyrus. Typically activation in the right hemisphere is larger, which suggests a degree of lateralization.
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The fusiform face area (FFA) is associated with facial recognition. It is generally located on the fusiform gyrus in the temporal lobe, but its precise location varies between individuals. The FFA has been found to show a degree of lateralization, or what side of the brain the activity is likely to be found. Typically, it is larger in the right hemisphere of the brain.
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Sakai et al. used fMRI to observe whether activation of the fusiform gyrus correlated with the perception of colour and the after image. The subjects in the Sakai study were placed in the fMRI machine and were subsequently subjected to various visual stimuli. A series of three images were shown to subjects while fMRI was used to focus on the haemodynamics of the fusiform gyrus.
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Human brains have the ability to detect ambiguous images displayed upon the Moon due to the brain's structure. On the left hemisphere of the human brain, the fusiform gyrus (an area linked to recognition), detects the accuracy of how “facelike” an object is. The right fusiform gyrus then uses information from the left fusiform gyrus to conclude whether or not the image is a face. The gyrus's inherent ability to detect faces and patterns in organisms and nature has also led to a phenomenon called Pareidolia, in which the brain detects and recognises faces and patterns in collections of objects where there should be none.
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The name Atractosporocybe is derived from ancient Greek 'atractos' referring to the fusiform shape of the spores ('-sporo') and '-cybe', a reference to head or cap.
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This evidence has led to a particular interest in this area and it is sometimes referred to as the fusiform face area (FFA) for that reason.
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The generally large shells are variegated with spots. The fusiform shell is turriculated with a long, sharp spire. The aperture is ovate. The columellar lip is smooth.
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The species was first described by William Swainson under the name Mitra carinata. The shell is slender, fusiform and brown; the whorls have a single carinated ridge.
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The pupa is 4–6 mm, fusiform and greenish yellow in the early pupal stage, changing gradually to yellowish brown and eventually blackish brown before eclosion (emergence).
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In a colour reaction test with ammonia solution, the flesh turns crimson. The spores are ochre-brown in colour, fusiform, sized 8-10 by 3.5-4.5 μm.
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Lesion studies also supported this finding where patients were able to recognize objects but unable to recognize faces. This provided evidence towards domain specificity in the visual system, as Kanwisher acknowledges the Fusiform Face Area as a module in the brain, specifically the extrastriate cortex, that is specialized for face perception.Kanwisher, N., McDermott, J., Chun, M. (1997). The Fusiform Face Area: A Module in Human Extrastriate Cortex Specialized for Face Perception.
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The length of the shell attains 40 mm, its diameter 13 mm. The white shell has a fusiform shape. It contains 10 whorls. The shell resembles Turricula javana.
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The fusiform shell is thin, smooth, or spirally sculptured. The axial sculpture is less conspicuous. The siphonal canal is nearly obsolete. The columella and outer lip is simple.
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Benthoscolex, is a genus of fireworms belonging to the family Amphinomidae. The genus contains 4 species. Members of the genus have fusiform and flat body. Eyes are absent.
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The length of the shell attains 30 mm. The shell has a fusiform shape. It is slightly translucent but still solid. The spire has an elongated conical shape.
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The length of the shell attains 12 mm. (Original description) The shell is somewhat fusiform. The spire is acuminated. The whorls are rounded, rather gibbous, concentrically ribbed, smooth.
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The fusiform shell is acuminate. The convex whorls of the spire are cancellated with longitudinal ribs and transverse lirae. The aperture is narrow. The outer lip is varicose.
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Recognition of individual chairs, cars, animals can also be impaired; therefore, these object share similar perceptual features with the face that are recognized in the fusiform face area.
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My Brilliant Brain, partly about grandmaster Susan Polgar, shows brain scans of the fusiform gyrus while Polgar viewed chess diagrams. Although it is sometimes found that expertise recruits the FFA (e.g. as hypothesized by a proponent of this view in the preceding paragraph), a more common and less controversial finding is that expertise leads to focal category-selectivity in the fusiform gyrus—a pattern similar in terms of antecedent factors and neural specificity to that seen for faces. As such, it remains an open question as to whether face recognition and expert- level object recognition recruit similar neural mechanisms across different subregions of the fusiform or whether the two domains literally share the same neural substrates.
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The size of an adult shell varies between 25 mm and 40 mm. The elongate-fusiform, turreted shell is rather thin. It contains ten whorls .The sutures are channeled.
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The elongate, fusiform shell has an acuminate spire. Its color is white with red ribs. The whorls are longitudinally ribbed and spirally striated. The outer lip is strongly produced.
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The cerata are moderately long and fusiform in shape. There is a band of white spots halfway up each ceras and a distinct lemon yellow ring towards the tip.
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A.. 8. Price. C. J. (2000). Differential effects of word length and visual contrast in the fusiform and lingual gyri during reading. Proc Biol Sci. 267(1455). 1909-1913.
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The length of the shell attains 25 mm. The thin, white shell has a fusiform shape. It shows a moderately long spire and siphonal canal. It contains about 7 whorls.
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The length of the shell attains 12 mm, its diameter 5 mm. (Original description) The shell is fusiform. It contains nine whorls, including the protoconch. Its colour is dull white.
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A potential mechanism of action is, that androstadienone alters the "emotional face processing". Androstadienone is known to influence the activity of the fusiform gyrus which is relevant for face recognition.
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Slip to the little toe may occasionally be absent, where it may be replaced by a small fusiform muscle arising from the long flexor tendon or from the quadratus plantæ.
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The length of the shell attains 10 mm, its diameter 4 mm. The short shell has an ovate-fusiform shape. It has a pale reddish color. It contains six whorls.
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The length of the shell attains 25 mm, its diameter 8.3 mm. (Original description) The shell is of medium size moderately slender. The spire is fusiform. The whorls are subangulate.
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Tabrizicola fusiformis is a Gram-negative, aerobic, fusiform-shaped and motile bacterium from the genus of Tabrizicola which has been isolated from activated sludge from an industrial wastewater treatment plant.
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Species in this family have thick-shelled, fusiform shells with conical-shaped whorls. The large body whorl ends in a long siphonal canal. The columella contains three to four plaits.
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Scientists are able to distinguish which race face one is viewing at simply by viewing the VT cortex. Additionally, the fusiform cortex plays a vital role in categorizing race faces.
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The length of the shell attains 10 mm. The shell is light yellowish brown. The fusiform shell is slender and attenuated. The sculpture is angular from the ribs being continuous.
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The length of the shell attains 15.8 mm, its diameter 6 mm. (Original description) The small shell is fusiform and turreted. The apex is blunt. The shell contains eight whorls.
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The height of the small shell attains 7 mm. (Original description) The small, solid shell has a narrowly fusiform shape. Its colour is uniform cream. The shell contains nine whorls.
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The height of the small, milky-white shell attains 6 mm, its width 2.25 mm. It has an ovate-fusiform shape. It contains 8 whorls. The body whorl is bicarinate.
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The length of the shell varies between 8.5 mm and 32 mm. (Original description) The moderately thin shell has a fusiform shape. It contains six, rounded whorls. The suture is distinct.
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The length of the shell attains 136 mm, its diameter 52 mm. The turreted, fusiform shell is white. The epidermis is more or less assumed. The spire is elongated and acuminate.
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The length of the shell attains 4 mm, its diameter 1.3 mm. The dark brown, ovate-elongate shell has a fusiform shape. The apex is obtuse. The shell contains six whorls.
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The length of the shell attains 18.5 mm, its diameter 6 mm. A most graceful, dark ocher, fusiform species. It contains seven angulate whorls. The protoconch is vitreous and purple colored.
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After the plant has flowered, it produces a fruit/seed capsule which is long, which is fusiform shaped and contains long seeds which are rugose (wrinkled) with a large aril (coating).
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The holotype and only specimen is long. It depicts a fusiform animal similar in anatomy to Enchodus, with a series of small dorsally placed plates on the roof of its head.
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Since the heat transfer coefficient depends on an animal's body shape, tunas increased their body size, adopted a fusiform shape, and their internal tissue arrangement is based on different thermal conductances.
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The length of the shell attains 13 mm, its diameter 5 mm. (Original description) The small shell is narrowly fusiform. The spire is turreted. The shell contains seven or eight whorls.
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The conidiomata are pycnidial, immersed, and laminal. The shape of the conidia ranges from cylindrical to fusiform (spindle-shaped); they are simple, colourless, and measure 5–8.5 by 1 μm long.
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The article "Separate Face and Body Selectivity on the Fusiform Gyrus" by Rebecca Schwarzlose, Chris Baker, and Nancy Kanwisher named the identified fusiform region by Peelen and Downing (2005) the fusiform body area (FBA). The FBA was again examined through the use of fMRI analysing the mean peak response of the FBA to various stimuli. In this research experiments involving faces, headless bodies, body parts, cars and assorted objects were used as stimuli, and images were gathered across standard resolution and high resolution brain scans. The results of this experiment show that the FBA is selectively responsive to bodies in both the standard and high resolution images, however it is of note that activation at the region of interest is stronger in the high resolution images.
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However, there are some studies that include increased activation in one side over the other. For instance McCarthy (1997) has shown that the right fusiform gyrus is more important for facial processing in complex situations. Gorno- Tempini and Price have shown that the fusiform gyri are preferentially responsive to faces, whereas the parahippocampal/lingual gyri are responsive to buildings. It is important to note that while certain areas respond selectively to faces, facial processing involves many neural networks.
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Consider the conceptual differences in recognizing written words compared to recognizing human faces. These are two qualitatively different tasks and as such it is not surprising that they involve additional, distinct regions of the brain. Recognizing words, for example, involves the visual word form area, a region in the left fusiform gyrus, which is believed to specialized in recognizing written words. Similarly, the fusiform face area, located in the right hemisphere, is linked specifically to the recognition of faces.
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Despite the extensive cortical damage she suffered, patient P.S. exhibited a normal right fusiform face area when compared to age matched controls using a standard fMRI localizer. She was unimpaired with basic-level and within-class object discrimination and recognition tasks. Results like these demonstrate that face information can still be processed in the right FFA despite the absence of the right OFA, thus suggesting the presence of alternate cortical routes between the early visual cortex and fusiform gyrus.
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Fusiform Face Area: The Fusiform Face Area (FFA) is an area that has been studied to be highly active when faces are being attended to in the visual field. A FFA is found to be present in both hemispheres, however, studies have found that the FFA is predominantly lateralized in the right hemisphere where a more in-depth cognitive processing of faces is conducted. The left hemisphere FFA is associated with rapid processing of faces and their features.
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Portraits activate the face area in the fusiform gyrus (FFA) and landscape paintings activate the place area in the parahippocampal gyrus (PPA). Beyond classifying visual elements, these sensory areas may also be involved in evaluating them. Beautiful faces activate the fusiform face and adjacent areas. The question of how much and what kind of valuation takes place in sensory cortices is an area of active inquiry. Looking at paintings that depict actions also engages parts of people’s motor systems.
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Hyperactivity in the core or distributed face areas (without lesions) may be connected to causation. Functional imaging studies in humans have identified an area in the fusiform gyrus which is selectively activated by stimulation when exposed to faces called the fusiform face area (FFA). Another area known to be activated by face stimuli is the superior temporal sulcus (STS). This region is particularly active when having to process facial expressions, especially the expressive features related to the eyes.
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Integrated pest management was designed after Rachael Carson's Silent Spring as a way to manage for pests without overusing pesticides. Chemicals are still used but in a way that focuses on proper use of pesticide application so overuse does not occur. The fungicide triadimefon is applied to loblolly and slash pine seeds to prevent fusiform rust. If the seeds used are not treated for fusiform rust, the stand can lose 1–30% of their trees to the rust.
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The length of the shell attains 13 mm, its diameter 6 mm. (Original description) The stout, solid, fusiform shell is waxy white. it contains nine whorls. The protoconch is brown and smooth.
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The length of the shell attains 5 mm, its diameter 2.5 mm. The delicate, white shell has a fusiform shape. It contains six whorls. The upper ones are turreted and finely striated.
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The small shells have an elongate fusiform shape. They are generally strongly spirally sculptured. The flattened shells are crossed by longitudinal plicae and revolving lirae. The aperture is long and narrowly oval.
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The fusiform shell is not umbilicate, anteriorly rostrate and obliquely folded. The shell is spirally furrowed by lirae. The aperture ends in a short siphonal canal. The simple columella is not folded.
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The fusiform shell is solid, smooth and shining, with numerous whorls. The spire is sharp. The lip lacks an anal sinus. The siphonal canal is short, and exteriorly carinated at the base.
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Under the microscope, the spores appear narrowly ellipsoid to fusiform (spinde-shaped) and measure 13.5–22 × 5–6 μm. The cap cuticle is a trichodermium of septate cylindrical hyphae, often finely incrusted.
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These studies have shown that the P1 is associated with activation in the dorsal occipital areas (Woldorff et al., 1998) and the posterior fusiform gyrus (Mangun, Hopfinger, Kussmaul, Fletcher, and Heinze, 1997).
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The white, fusiform shell is smooth and polished. It grows to a length of 60 mm. The shell is marked with light, yellowish-brown. The interior of the shell is salmon tinted.
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Auxis can reach a length of . They have a strong, fusiform body with a sharpened head. The teeth are small and conical. The two dorsal fins are separated by a wide gap.
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The length of the shell varies between 3.5 mm and 12 mm. (Original description) The small, thin, slender shell is fusiform and prickly. The spire is pagodiform. Its colour is uniform pale brown.
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The length of the shell varies between 50 mm and 65 mm. (Original description) The solid shell is fusiform. The apex is eroded. The surface is white, covered with a blackish olive periostracum.
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The length of the shell attains 6 mm, its diameter 3 mm. The white fusiform shell is wrinkled. It contains seven whorls with a few longitudinal ribs. These ribs are pronounced and ventricose.
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The ovate, fusiform, shell is short and stout. The spire is about the length of the aperture. The columella is straight, very short, axis impervious. The siphonal canal is very short and wide.
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The caudal fin has a notched shape with two points. The rays in the fins are soft and are called "soft rays." Their fusiform body shape is efficient for swimming through moving waters.
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The regions of the diencephalon have shown brain activation when a remote memory is being recovered and the occipital lobe, ventral temporal lobe, and fusiform gyrus all play a role in memory formation.
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The length of the shell attains 62 mm, its diameter 20 mm. (Original description) The thin, shortly fusiform shell has a long spire. It is light yellowish red-brown. The protoconch is wanting.
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The fusiform elimia (Elimia fusiformis) was a species of freshwater snail with an operculum, aquatic gastropod mollusks in the family Pleuroceridae. This species was endemic to the United States. It is now extinct.
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The feeding causes large external masses of pitch. The species overwinters as an early instar larvae at the base of persistent cones, under bud scales or in fusiform galls on branches and stems.
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The term "fusulinid" applies to any of the Fusulinida. The Fusulinida are fusulinids (sensu lato). However, the term "fusulinid" is often applied just to the fusiform Fusulinacea and not to the entire order.
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The inflorescences of B. serrata are generally a duller grey-yellow in colour, have longer (23mm), more fusiform or cylindrical pollen presenters on the tips of unopened flowers and the follicles are smaller.
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The height of the shell attains 53 mm. (Original description) The thin shell has an elongately fusiform shape, with a rather short siphonal canal. its color is dirty white. The nucleus is wanting.
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The length of the shell attains 12 mm, its width 5 mm. (Original description) The small shell has a fusiform shape. The is body longer than the spire. The shell contains eight whorls.
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The size of an adult shell attains 9 mm, its width 2.6 mm. (Original description) The small shell is slender and has a fusiform shape. The spire is elevated. The apex is rounded.
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S-shaped), or fusiform (i.e. spindle-shaped) rod with flagellum at both of its ends (i.e. bipolar flagella) which it uses to dart around.Garrity GM, Brenner DJ, Krieg NR, Staley JT (eds.) (2005).
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Put forward by Cohen and colleagues (2000). The basics of this theory state that the neurons in the ventral occipital-temporal cortex (vOT) – which the posterior fusiform gyrus is a part of – have receptive fields that are sensitive to bigrams, or two letter combinations that commonly occur in words. The neurons sense and process the bigrams, to detect their legality. Here the posterior left fusiform gyrus (part of the vOT), is thought to be one station in a long line of processing areas.
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Evidence from neurophysiology studies with humans and monkeys also support face superiority. Neuroimaging and electrophysiological studies in humans shows the effects of holistic face recognition. In particular, when humans are shown normal upright faces, neuroimaging displays higher brain activity and response rates in the middle fusiform gyrus (MFG), and the inferior occipital gyrus (IOG) than when shown scrambledKanwisher N, McDermott J, Chun MM. The fusiform face area: a module in human extrastriate cortex specialized for face perception. Journal of Neuroscience. 1997;17:4302–4311.
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In 1978, the National Cancer Institute revised and standardized the Schaedler flora, with the help of Roger Orcutt. In what was named altered Schaedler flora, four bacteria of the original mixture were kept: the two Lactobacilli, the Bacteroides, and the EOS fusiform bacterium. Four more bacteria from the microbiome isolates were added: a spirochete bacterium and three new EOS fusiform bacteria. Due to the limited technology of the time, not much was known of the specific bacterial genus and species.
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Given the ease and rapidity with which humans can recognize faces, a great deal of neuroscientific research has endeavored to understand how and where the brain processes them. Early research on prosopagnosia, or "face blindness", found that damage to the occipito-temporal region led to an impaired or complete inability for people to recognize faces. Convergent evidence for the importance of this region in face processing came through the use of fMRI, which found that a region of the fusiform gyrus, the "fusiform face area", responded selectively to images of faces. Intracranial recordings in humans using electrocorticography provide very strong evidence that the fusiform face area is one of the generators of the N170, though other regions of the face processing network may also contribute to the N170.
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The length of the shell attains 25¼ mm, its diameter 12¼ mm. (Original description) The thin shell is broadly fusiform, with a rather short spire. It is light greyish-white. The protoconch is wanting.
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The length of the shell attains 21.5 mm, its diameter 10.1 mm. (Original description) The fusiform shell has an acute spire. The rounded whorls are closely spirally striated. The spire whorls are obliquely plicated.
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The shell grows to a length of 22 mm. The ovate, rather dark brown shell has a squat, fusiform shape. The eight whorls are slightly convex. The spiral sculpture shows shallow, well- spaced grooves.
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The length of the shell attains 6 mm. (Original description) The minute shell is fusiform, turreted, elongate and thin. It is saturated with a reddish chestnut. It contains 6 convex whorls, including the protoconch.
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It has an elongated fusiform body that is spotted brown to olive green except for the underside. Its belly is silvery white. Males tend to be dark than females and develop red pelvic spines.
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Leptotrichia species are typically large, fusiform-shaped, non-sporulating, and non-motile rods. {{cite BhallyHS,LemaC,RomagnoliM,BorekA,WakefieldT,CarrollKC. Leptotrichia buccalis bacteremia in two patients with acute myelogenous leukemia. Anaerobe 2005;11:350—3.
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This fusilier grows up to . Its body is fusiform or spindle-shaped and its caudal fin is forked. The mouth is small and terminal. The protusible mouth can be extended forward to swallow food.
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The height of the shell varies between 12 mm and 97 mm. The fusiform shell has fourteen ribs. The whorls have numerous sharp, laminated varices. The canal is open and turned to the left.
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The PPA is often considered the complement of the fusiform face area (FFA), a nearby cortical region that responds strongly whenever faces are viewed, and that is believed to be important for face recognition.
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The length of the shell attains 60 mm, its diameter 20 mm. The shell has a fusiform shape. Its color is white, but the epidermis is assumed yellowish. The spire is acuminate and turreted.
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Living in running streams. Fusiform. Thick in the middle and tapering at each end. Gelatinous. Like jelly, as the eggs of some mollusks. Gibbous. Very much rounded, as the whorls in some snails. Glandular.
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The length of the shell reaches 23 mm. Its diameter is 8 mm. The very slender, fusiform, turriculate shell has a high spire and a pointed apex. The whorls are short, numerous and convex.
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The length of the dark white, fusiform shell attains 4.5 mm, its diameter 2 mm. The shell contains 7 whorls and is distinctly spirally striated. The aperture is oblong. The sinus is very short.
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This family consists of species with a medium-sized to rather large, fusiform shell. The oblong, pointed spire is rather high. The aperture is oval and mostly white. The operculum has a medio-lateral nucleus.
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The length of the shell attains 12 mm. The white shell has an ovate-fusiform shape and is clathrate. It contains 6 whorls. The longitudinal ribs are eminently pronounced and are crossed by transverse plicae.
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The length of the shell varies between 22 mm and 27 mm. The small, white shell has an elongate-fusiform shape. The shell contains 7 slightly convex whorls. The spire is longer than the aperture.
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The length of the shell attains 4 mm, its diameter 1.5 mm. (Original description) The shell is fusiform. The body whorl measures more than half the length of the shell. The shell contains 6½ whorls.
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The length of the shell attains 22 mm, its diameter 8 mm. (Original description) The thin, finely cancellated shell has a fusiform shape. The spire is acute. The aperture is oblong, slightly channelled in front.
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The length of the shell varies between 5 mm and 8 mm. (Original description) The small, solid, turreted shell is elongately fusiform. It is whitish, pale yellow. It is irregularly zoned, with white and fulvous.
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The elongate-fusiform shell shows somewhat rotund whorls. The ribs are packed together and intersected by thick lirae. The white shell is shiny and is dotted with scattered yellowish-brown dots. Hervier J. (1897 ["1896").
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The shell has a fusiform shape. The siphonal canal is rather long. The genus is characterized by a very heavy outer lip, which is strongly rugose within. The inner lip is more or less wrinkled.
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The shell has a fusiform shape. It is mostly longitudinally ribbed The spire is elongated, turriculated, acuminated. The lip is very finely rugosely denticulated. The lip is thickened and slightly sinuated at the upper part.
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The length of the shell attains 9 mm, its diameter 4 mm. (Original description) The shell is elongate-fusiform. The body whorl measures about half of total length. The whorls are angled at the shoulder.
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Mollusca from three hundred fathoms, off Sydney. Records of the Australian Museum 6: 211-225 The biconical or fusiform shell is medium-sized to rather large. Its periphery is smooth or nodose, angulate or keeled.
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The length of the shell attains 9 mm, its diameter 3.25 mm. (Original description) The small, thin shell has an acute-fusiform shape. It is externally of a greyish colour. It contains about seven whorls.
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The species was first described by William Swainson under the name Mitra bicolor. The shell is smooth, polished, fusiform, white, with a brown central band. It seldom exceeds three-quarters of an inch in length.
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Palea is elliptic and is long and have 2 veines with puberulous surface. Flowers are growing together and have 3 anthers that are long with 2 lodicules. Fruits are fusiform and have an additional pericarp.
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The length of the shell attains mm, its diameter mm. The ovate-fusiform shell is white. The shell contains 6 whorls, of which 2 smooth whorls in the protoconch. The subsequent whorls are slightly convex.
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In addition, evidence has been presented of a link between a specific emotion processing deficit in schizophrenia and the volume of temporal lobe structures, including fusiform gyrus and middle temporal gyrus, as measured using MRI.
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The length of the shell attains 20 mm, its diameter 6 mm. (Original description) The fusiform shell is elongated. The spire is acute. The whorls are carinated, with fine spiral lines, and obliquely plicated anteriorly.
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The length of the shell varies between 20 mm and 35 mm. (Original description) The thin, fusiform shell has a short siphonal canal. It is shining and is light yellowish-white. The protoconch is wanting.
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Fusiform dolichoectatic aneurysms represent a widening of a segment of an artery around the entire blood vessel, rather than just arising from a side of an artery's wall. They can rupture but usually do not.
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The skeleton comprises equiangular and equiradiate triactines and very few tetractines. Actines are conical and straight, with a sharp tip. Diactines and fusiform and slightly curved. They are projected towards the exterior of the tubes.
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The concept of domain specificity is one that has helped researchers probe deeper into the neural substrates of recognition memory. Domain specificity is the notion that some areas of the brain are responsible almost exclusively for the processing of particular categories. For example, it is well documented that the fusiform gyrus (FFA) in the inferior temporal lobe is heavily involved in face recognition. A specific region in this gyrus is even named the fusiform face area due to its heightened neurological activity during face perception.
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In addition, apperceptive sub-types of prosopagnosia struggle recognizing facial emotion. However, they may be able to recognize people based on non-face clues such as their clothing, hairstyle, skin color, or voice. Apperceptive prosopagnosia is believed to be associated with impaired fusiform gyrus. It is interesting that experiments on the formation of new face detectors in adults on face-like stimuli (learning to distinguish the faces of cats) indicate that such new detectors are formed not in the fusiform, but in the lingual gyrus.
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Previous scientific studies have concluded that neurons within the fusiform gyrus react better to faces. An experiment by Massachusetts Institute of Technology brain and cognitive sciences professor Pawan Sinha examined why the right and left fusiform gyrus acknowledges a face, especially when an object greatly resembles a face. In the project Sinha and his students gathered images that resembled human faces and images of genuine faces, which they ran through machine vision systems. This scan resulted in the systems wrongly tagging images as containing faces.
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Location of the Fusiform Face AreaFaces are processed in separate areas of the brain to other stimuli, such as scenes or non-facial objects. For example, the fusiform face area (FFA) is a face- selective region in the brain that is only used for facial processing. The FFA responds more to upright but not inverted faces, demonstrating that inverted faces are not detected the same way that upright faces are. The scene- selective parahippocampal place area (PPA) processes places, or scenes of the visual environment.
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The height of the shell attains 29 mm, its diameter 13 mm. (Original description) The waxen white shell is of moderate size and has a fusiform shape. The spire is acute. The siphonal canal is elongated.
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The length of the shell attains 12 mm. Its characteristics are close to Propebela cancellata (Mighels & C. B. Adams, 1842) The solid elongate-fusiform shell is white. The spire is turreted. The shell contains 7 whorls.
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The length of the shell attains 17.5 mm, its diameter 8 mm. (Original description) The white, shortly fusiform shell is rather thin. It has a short siphonal canal and a pyramidal spire. The protoconch is wanting.
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The length of the shell attains 14 mm, its diameter 5 mm. The fusiform shell shows chestnut markings. It contains nine whorls of which 3½ subhyaline whorls in the protoconch. The subsequent whorls are elegantly rounded.
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The length of the (decollated) shell attains 15 mm, its diameter 7 mm. (Original description) The small shell is short-fusiform and stout. It is white with a pale yellowish periostracum. It contains about seven whorls.
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The length of the shell attains 5 mm, its diameter 2 mm. The small, white shell has an ovate-fusiform shape. It is very elegant in form, fusoid towards the base. The shell contains six whorls.
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The length of the shell attains 6 mm, its diameter 2 mm. The small, pale, straw-white shell has a fusiform shape. It contains eight whorls. The three whorls in the protoconch are ochreous and smooth.
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The shell grows to a length of 22 mm, its diameter 9 mm. The shell has an irregularly fusiform shape. it is pallid, without colour markings. It is obtusely angular, posterior acuminated, anterior rather obliquely subconical.
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The shell size of Euthria cornea varies between 20mm and 80 mm. This mollusk has a robust fusiform shell, with a sharp apex. The opening is oval, wide, with slight striae. The horny operculum is oval.
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The fusiform shell is moderately small. The spire is relatively high and the base is contracted. The spire shows a peripheral cord with gemmules. The anal sinus is deep and its crest reaches the peripheral cord.
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The length of the shell attains 13 mm, its diameter 5½ mm. The small, whitish golden yellow shell has an ovate-fusiform shape. It contains 6⅓ whorls. The convex whorls are slightly excavated near the suture.
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The length of the shell attains 10 mm, its diameter 4 mm. (Original description) The acuminate-fusiform shell is white with red spots. The spire is acuminate and acute. The shell contains eight slightly convex whorls.
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The length of the shell attains 25 mm, its diameter 10 mm. (Original description) The fusiform shell is thin, fragile and shining. It contains six whorls, gracefully sloping. The body whorl is longer than the spire.
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The length of the shell attains 8 mm, its diameter 3 mm. (Original description) This delicate, small shell has an elegantly fusiform shape. It is rather narrow, and gradually attenuate upwards. Its color is white, semidiaphanous.
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Eucalyptus fusiformis was first formally described in 1987 by Douglas Boland and David Kleinig in the journal Brunonia. The specific epithet (fusiformis) is derived from Latin words alluding to the fusiform or spindle-shaped flower buds.
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The length of the shell attains 8.5 mm, its diameter 3 mm. The white shell has a fusiform shape. The acuminate spire has a sharp apex. It contains seven whorls, of which two in the protoconch.
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The size of an adult shell varies between 20 mm and 40 mm. (Original description) The smooth shell is narrowly fusiform. The colour is a dull white under a thin greyish periostracum. The shell contains 7 whorls.
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The length of the shell attains 17.5 mm, its diameter 6.25 mm. (Original description) The thin, delicate shell is elongated, fusiform, waxy white. The protoconch contains three whorls, generally decorticated. The shell contains ten whorls in all.
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The length of the shell attains 16 mm, its diameter 4.5 mm. A. brightly coloured species, in shape attenuate-fusiform. The shell contains 11 whorls, with a small, vitreous, bulbous protoconch. The remainder is suturally considerably impressed.
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The length of the shell attains 46 mm, its diameter 15 mm. (Original description) The shell is large but comparatively thin, fusiform, subturreted and sharply pointed. The spire is produced. The base of the shell is contracted.
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The shell grows to a length of 45 mm. The shiny shell has a fusiform shape and resembles Tomellana hupferi (Strebel, 1912).The color of the shell is a bright brown. The protoconch consists of 1½ whorls.
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The length of the shell attains 9 mm, its diameter 3.5 mm. The barely thick shell has an elongate-fusiform shape. It is white with red, fine thread-like lines. The apex is eroded, six whorls remaining.
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The length of the shell attains 9.3 mm, its diameter 3.3 mm. The thin, white, subhyaline shell has a fusiform shape and a turreted spire with an acuminate apex. It contains eight whorls. The suture is impressed.
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The length of the shell attains 12 mm, its diameter 4 mm. The color of the whitish or straw shell is variegated with darker maculations on some examples. The shell is elegantly fusiform. It contains 8 whorls.
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The length of the shell attains 65 mm, its diameter 20 mm. The reddish-brown shell has a fusiform shape. It shows a pale band above the middle of the whorl. The longitudinal ribs are strongly rounded.
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The shell is fusiform or turriculated. The columella lip has no callosity, except a small posterior tooth. There is no operculum. The surface is cancellated and has a more ventricose form, and a more evident siphonal canal.
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The length of the shell attains 21 mm, its diameter 6.5 mm. The pale shell has a short fusiform shape. The spire is elongate and acuminate. It shows a pale band above the middle of the whorl.
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In this genus, the shell is fusiform, with a well-produced spire. The whorls are coronated with tubercles or short spines at the suture;. The aperture is oval. The columellar lip is smooth, arcuate, and callous behind.
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This medium- sized orchid is epiphytic in forest at higher elevations. It has oblong- fusiform stems (pseudobulbs) carrying deciduous, ridged, many nerved, oblong- lanceolate, acute leaves. The leaves 4–5. Inflorescence arching to horizontal, 8-10 flowered.
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Magnaporthiopsis is characterised by black and globose perithecia with a cylindrical neck, a double-layered perithecial wall, clavate asci with a refractive apical ring, fusiform to fusoid and septate ascospores, simple hyphopodia, and anamorph similar to Phialophora.
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The small shell has an ovate to fusiform shape. The protoconch is small and smooth. The teleoconch is covered with axial ribs. There is a conspicuous tooth-like blunt nodule on the midpoint of the outer lip.
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Species in this family have small to medium-sized fusiform shells that have strong sculpture. The apex is mammillary. The anal sinus is varicose, and touches the sutural ramp. The columella is tuberculated posterior, rugose in front.
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Hindwing with an indistinct sub-basal line. A double medial line and post-medial and sub-marginal series of black specks. Cilia of both wings traversed by a black line. Larva fusiform, where the head is broad.
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The length of the shell attains 9.5 mm, its width 3.5 mm. (Original description) The elongate shell has a fusiform shape. Its colour is uniform ivory-yellow. It contains seven whorls, of which two compose the protoconch.
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The term originally referred to a condition following acute brain damage (acquired prosopagnosia), but a congenital or developmental form of the disorder also exists, with a prevalence rate of 2.5%. The specific brain area usually associated with prosopagnosia is the fusiform gyrus, which activates specifically in response to faces. The functionality of the fusiform gyrus allows most people to recognize faces in more detail than they do similarly complex inanimate objects. For those with prosopagnosia, the new method for recognizing faces depends on the less sensitive object-recognition system.
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Prosopagnosia can be caused by lesions in various parts of the inferior occipital areas (occipital face area), fusiform gyrus (fusiform face area), and the anterior temporal cortex. Positron emission tomography (PET) and fMRI scans have shown that, in individuals without prosopagnosia, these areas are activated specifically in response to face stimuli. The inferior occipital areas are mainly involved in the early stages of face perception and the anterior temporal structures integrate specific information about the face, voice, and name of a familiar person. Acquired prosopagnosia can develop as the result of several neurologically damaging causes.
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The flesh is thick, soft, pale yellow to whitish, usually remaining the same colour when cut, or rarely becoming faintly pinkish-brown above the tubes and at the stem base. It has a sour smell somewhat reminiscent of iodine, more pronounced at the stem base. The spore print is olivaceous- brown. The spores are fusiform (spindle-shaped) or fusiform-ellipsoid, measuring 10–16 × 4–6 μm. Although under an optical microscope they appear perfectly smooth, when viewed with a scanning electron microscope (SEM) fine warts and tiny “pin-pricks” are visible on their surface.
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The authors state that these results are related to deficits in long range coordination of neural activity, as described for contour detection. Another experiment using EEG and structural MRI to examine facial processing abnormalities in schizophrenia found decreased N170 component responses, and this was correlated with decreased gray matter volumes in the fusiform gyrus. There is evidence that the fusiform face area is a visual cortical region that may be specialized for detecting faces. The authors of this study conclude that their data support a specific face processing deficit in schizophrenia.
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The high, narrow, shell grows to a length of 35 mm. This thin shell is translucent white. It is biconically fusiform, scalar and carinated with spiral threads. The sculpture of the shell shows coarse, sinuous, irregular growth lines.
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The length of the shell attains 6 mm, its diameter 2¼ mm. (Original description) The white shell has an elongate- fusiform shape. It contains 5½ slightly convex whorls. The slightly pronounced ribs are crossed by dense, spiral lirae.
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The length of the shell attains 10 mm, its diameter 4.5 mm. This fusiform species is more effuse and inflated than its congeners. The shell contains 9 whorls including 4 apical whorls. The apical whorls are beautifully decussate.
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The length of the shell varies between 4 mm and 7 mm. The smooth, oblong fusiform shell has shouldered whorls. It is longitudinally plicately ribbed. Its color is whitish or yellowish brown, with conspicuous narrow brown revolving lines.
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The length of the shell attains 23 mm, its diameter 9.5 mm. The fusiform shell is dark white or straw-colored. It contains 8–10 whorls (in the holotype the protoconch is lacking). The suture is profoundly impressed.
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The length of the shell attains 4 mm. (Original description) The cylindrically fusiform shell is shining. The apex is very blunt. The shell is very longitudinally strongly ribbed and very transversely ornamented with raised striae, forming deep cancellations.
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The length of this shell attains 23 mm, its diameter 5 mm. The slender, fusiform, delicate shell has a white-gray color. It contains ten whorls of which three in the protoconch. These are brown and completely hyaline.
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The length of the (eroded) shell attains 16.5 mm, its diameter 7.5 mm. (Original description) The short-fusiform shell is white, with a pale olive periostracum. The tip is eroded. The shell contains six or more subsequent whorls.
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The length of the shell varies between 6 mm and 14 mm. The shell is turreted and fusiform. It contains about six convex whorls. They contain longitudinally rather tuberculated ribs that are decussated by coarse, elevated, transverse striae.
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The results showed a greater activity in the left superior occipital cortex and right fusiform gyrus for grammatical stimuli, and greater activity in the left angular gyrus during grammaticality judgments, as compared to a matched recognition control task.
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Therefore, it is still not clear in exactly which situations the fusiform gyrus becomes active, although it is certain that face recognition relies heavily on this area and damage to it can lead to severe face recognition impairment.
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The length of the shell attains 4.5 mm, its diameter 2 mm. The white, minute shell has an ovate-fusiform shape. It contains 8 whorls, of which two vitreous whorls in the protoconch. The oblique aperture is ovate.
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The shell is small to medium sized, solid, stocky to elongate-fusiform. The radula is uniserial with tricuspid teeth. The protoconchs are smooth. They can be large and globose with a short calcarella or small and regularly coiled.
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The shell size attains 8 mm, its diameter 3.6 mm. The small shell has a biconic-fusiform shape with a small, but sharp protoconch. The five teleoconch whorls are convex. The whorls are slightly concave at the shoulder.
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The anterior part of the gyrus includes the perirhinal and entorhinal cortices. The term parahippocampal cortex is used to refer to an area that encompasses both the posterior parahippocampal gyrus and the medial portion of the fusiform gyrus.
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This is named the arcuate nucleus, and is serially continuous above with the pontine nuclei in the pons; it contains small fusiform (spindle-shaped) cells, around which some of the arcuate fibers end, and from which others arise.
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The length of the shell of the shell attains 25 mm, its diameter 7 mm. The white shell has a fusiform shape. It contains 12 whorls, of which two in the protoconch. These two are vitreous and convex.
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The first step the brain does to encode a memory is to process the face. The lateral fusiform gyrus is a facial recognition area of the brain.Ito, T.A. & Bartholow, B.D. The neural correlates of race. Trends Cogn. Neurosci.
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The length of the shell attains 10 mm, its diameter 4.5 mm. (Original description) The white shell has a fusiform, ovate shape. The whorls are somewhat concavely, widely angulated around the upper part. They are longitudinally plicately ribbed.
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Stipitipellis a cutis, hyphae 1.5–9.5 μm diameter, yellowish brown, thin-walled (up to 0.5–0.8 μm thick). Caulocystidia (19–) 22.5–49.5 (–56) × 4–8 (–9.5) μm, cylindrical, lageniform, fusiform or, utriform, or lageniform, hyaline and, thin-walled.
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The length of the shell attains 9.5 mm. The whitish shell has a fusiform shape. The, whorls are slightly shouldered, with longitudinal, waved ribs.G.W. Tryon (1884) Manual of Conchology, structural and systematic, with illustrations of the species, vol.
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The length of the shell attains 4.2 mm, its diameter 2 mm. (Original description) The small, rather solid shell has an ovate-fusiform shape. Its colour is uniform pale buff or uniform pale lilac. It contains six whorls.
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The length of the shell attains 8 mm, its diameter 4 mm. (Original description) The elongate shell has a fusiform shape. It is pale brownish white (dead). The spire is well produced and contains five angulated and convex whorls.
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The length of the shell attains 28 mm, the diameter 11.5 mm. (Original description) The fusiform shell is white, with an olive-gray more or less dehiscent dull periostracum. The nucleus is eroded. There are about seven subsequent whorls.
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Bathytoma viabrunnea (specimen in MNHN, Paris) The solid shell has a fusiform shape. It has a smooth, brown, two-and- a-half-whorled vitreous nucleus. The body whorl has semilunar riblets. And the teleoconch contains eight slightly turreted whorls.
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The length of the shell attains 7 mm. (Original description) The fusiform, solid shell is shining. The whorls are convex, angulated at the sutures and longitudinally regularly and closely ribbed, crossed by regular transverse ridges. The aperture is narrow.
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The length of the shell attains 31 mm, its diameter 14 mm. (Original description) The solid shell is imperforate and acuminately fusiform. It is chalky white, painted with a broad, pale brown, infra-peripheral band. It contains 10 whorls.
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Inflorescence of fool's parsley It has a fusiform root and a smooth hollow branched stem growing to about high, with much divided (ternately pinnate) smooth leaves with an unpleasant smell, and small compound umbels of small irregular white flowers.
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The length of the shell attains 4.9 mm, its diameter 2.6 mm. (Original description) The small, thin, white shell has a fusiform shape. It contains about five whorls beside the (eroded) protoconch. The suture is distinct and slightly appressed.
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The length of the shell attains 28 mm, its diameter 10 mm. (Original description) The fusiform shell has an acute spire. The whorls are slightly carinated with fine spiral lines and transverse ribs anteriorly,. The posterior part is smooth.
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The length of the shell attains 7 mm, its width 2.5 mm. (Original description) The small, solid, pale yellow shell has a narrowly fusiform shape. it is tricarinate. The shoulder is sloping; The base of the shell is contracted.
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The length of the shell varies between 5 mm and 9 mm. The shell has a biconic-fusiform shape. It shows 7-9 axial ribs on the later whorls. The spiral striae can only be seen under a lens.
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The length of the shell attains 7 mm, its diameter 3 mm. (Original description) The small, solid and discolored shell has a fusiform shape. It contains six moderately convex whorls. The protoconch is small, subglobular and smooth (slightly decorticated).
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The spores are olive-brown in mass. When viewed under the microscope they are ellipsoid to fusiform (spindle-shaped), measuring 10–15.5 by 4–5.5 μm. The cap cuticle is a trichodermium of septate cylindrical hyphae, sometimes finely incrusted.
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The white, slender shell has a fusiform shape, and an acuminate, turreted spire. It contains 10 whorls. The protoconch is subglobose and smooth. The subsequent whorls are angulated in the middle, concave in the upper portion and contracted below.
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The length of the shell attains 8.3 mm, its diameter 4 mm. (Original description) The small, fusiform shell is sharply sculptured. Its color is white with an olivaceous periostracum. it contains about four whorls exclusive of the decollate apex.
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The length of the shell attains 14 mm, its diameter 5 mm. (Original description) The small shell has a fusiform shape. Its whorls are bluntly carinate. The spire is moderately sharp, of about the same length as the aperture.
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This disorder often arises after damage to the fusiform face area (FFA). Visual agnosia, or visual-form agnosia, is a brain disorder that produces an inability to recognize objects. This disorder often arises after damage to the ventral stream.
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Caterpillar fusiform (spindle shaped), whereas head is round and narrow. Body translucent green with a dark dorsal line. Body skin polished and glossy in appearance with setae on tubercles. Pupa claviform and cremaster contain a pair of hooked shafts.
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The Mushrooms and Toadstools of Britain and North Western Europe. Microscopically, it has ellipsoid to fusiform spores measuring 11.5–14 × 4–5.5 μm. The hyphal structure of the cap is a trichodermium of interwoven septate hyphae, often finely incrusted.
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The length of the shell attains 7 mm, its diameter 2.5 mm. The small, fusiform shell is twisted. It is straw-coloured with faint rufous longitudinal tints. It contains seven whorls, of which three decussate whorls in the protoconch.
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Cognitive neuroscientists Isabel Gauthier and Michael Tarr are two of the major proponents of the view that face recognition involves expert discrimination of similar objects (See the Perceptual Expertise Network). Other scientists, in particular Nancy Kanwisher and her colleagues, argue that face recognition involves processes that are face-specific and that are not recruited by expert discriminations in other object classes (see the domain specificity). Studies by Gauthier have shown that an area of the brain known as the fusiform gyrus (sometimes called the fusiform face area because it is active during face recognition) is also active when study participants are asked to discriminate between different types of birds and cars, and even when participants become expert at distinguishing computer generated nonsense shapes known as greebles. This suggests that the fusiform gyrus may have a general role in the recognition of similar visual objects.
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The species in this genus are fusiform with an apical anterior concavity and a longitudinal groove. There are two anterior flagellae directed backward. The flagellae arise from parallel basal bodies in a flagellar pocket. The single nucleus has a single nucleolus.
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The length of the shell attains 13.5 mm. (Original description) The shell is translucent, white, thin but firm. It has a fusiform shape. It is moderately stout, with a high, regularly tapered, acute spire, consisting of about six rounded whorls.
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The shell attains a length of 10.5 mm, and its diameter is 4 mm. (Original description) The small, solid shell is whitish in color. Its shape is acute and fusiform. It contains 1½ whorls in the protoconch and six subsequent whorls.
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The length of the shell attains 10.25 mm, its diameter 4 mm. (Original description) The small shell has an acute- fusiform shape. It contains about eight whorls. The initial whorl is extremely minute, the subsequent whorls slowly enlarge and minutely reticulate.
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The length of the shell varies between 6 mm and 12 mm. The whitish shell is somewhat thin, ovately fusiform and subventricose. It contains six whorls, slightly planate above the carina. The aperture is nearly equally contracted above and below.
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The length of the shell attains 54 mm, its diameter 18 mm. (Original description) The rather strong, fusiform shell is yellowish-brown. The protoconch is wanting. The 9 remaining whorls are moderately convex, slightly excavated below the conspicuous but shallow suture.
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Increased neurophysiological activity in the fusiform face area may produce hallucinations of faces, whether realistic or cartoonesque, as seen in Charles Bonnet syndrome, hypnagogic hallucinations, peduncular hallucinations, or drug-induced hallucinations.Jan Dirk Blom. A Dictionary of Hallucinations. Springer, 2010, p. 187.
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The length of the shell attains 31 mm, its diameter 11 mm. (Original description) The rather large and solid shell has a slender fusiform shape. Its contains eleven whorls. Its colour is ochraceous-salmon, with a pale zone on the shoulder.
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The length of the shell varies between 13 mm and 30 mm. (Original description) The slender, fusiform shell is light brown, with whitish nodules. it contains 11 whorls, slowly increasing. The two apical whorls are smooth, forming a large rounded protoconch.
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The length of the shell attains 40 mm. The elongate, ovate-fusiform shell is turreted. The dark white shell has a red band around the suture. It contains 12 whorls of which three, smooth and convex whorls in the protoconch.
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The length of the shell attains 10 mm, its diameter 3 mm. A graceful, attenuate, fusiform species. The shell contains 11 - 12 whorls, of which 3 - 4 ocher whorls in the protoconch. The protoconch is ochraceous, and beautifully microscopically decussate.
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The length of the shell attains 5 mm, its diameter 1.75 mm. The small oblong-fusiform shell is semi-pellucid. It is unicolorous white, or flecked with pale straw-colored spots. It contains six whorls of which three in the protoconch.
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The length of the shell attains 14 mm, its diameter 4 mm. (Original description) The shell is narrowly fusiform, attenuate at both ends. Its aspect is smooth, graceful, thin and translucent. The spire is prominent, acute, equalling the aperture, milky white.
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The length of the shell attains 12 mm, its diameter 5 mm. (Original description) The small shell is fusiform. It is white or pale yellowish on a dull surface. Its protoconch is eroded and is followed by about six subsequent whorls.
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The length of the shell attains 41 mm, its diameter 13.5 mm. (Original description) The large, thin shell is elongate-fusiform. it is white with a very thin translucent periostracum. It contains about eight whorls exclusive of the (lost) protoconch.
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The length of the shell attains 10 mm, its diameter 4 mm. (Original description) The solid, glossy, ivory-yellow shell has a cylindro-fusiform shape. The shell contains 7 whorls, including a two-whorled dome-shaped protoconch. The suture is impressed.
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The length of the shell attains 15 mm, its diameter 7 mm. A pure white, shining, massive little shell with a fusiform shape and 6 - 7 whorls. It shows uniform straight longitudinal ribs. The surface is nearly smooth and shining.
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The length of the shell varies between 15 mm and 25 mm. (Original description) The fusiform shell is pale brown with whitish ribs. It contains 9 whorls. The two whorls in the protoconch are smooth, convex, and form a maminillar apex.
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The species in this genus are characterized by their elongated fusiform spire and a long siphonal canal. The whorls show on their edge spinose projections. Indo-Pacific mollusca; Academy of Natural Sciences of Philadelphia. Delaware Museum of Natural History; v.
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The length of an adult shell attains 26 mm, its diameter 9 mm. (Original description) The small, solid shell has a fusiform shape. The spire is acute and slightly longer than the aperture. It contains ten whorls , beside the (lost) protoconch.
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All species cause brown-rot. Typically, basidiospores are thin- walled, cylindrical, and narrowly ellipsoidal or fusiform in shape. Most species grow on the wood of coniferous trees, except for A. albida, which grows on the dead wood of deciduous trees.
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The length of the shell attains 5.5 mm, the diameter 3 mm. (Original description) The solid shell has an abbreviately fusiform shape. Its color is yellowish white. It contains 6 whorls of which two small, globular belong to the protoconch.
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Pollen-producing cones fusiform (tapering at both ends), microsporophylls (male, pollen-producing) up to 45 mm long. Megasporophylls (female, ovule-producing) up to 30 cm long, each with 2-5 ovules. Seeds flattened to ovoid, orange-brown.Lindstrom, AJ, & KD Hill. 2002.
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The apical whorls of the protoconch are lacking through decollation. The opening is then sealed with a calcareous plug. The sculpture of the ovate fusiform shell shows scattered sigmoidal axial ribs that are crossed by spiral cords. The whorls are broad.
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The high, narrow shell has a biconically fusiform shape. it is subscalar, with angularly convex and longitudinally ribbed whorls. It is thin and tawny. Sculpture : Longitudinals—a little way below the suture is an angulation where narrow, raised, oblique ribs begin.
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The length of the shell attains 25 mm, its diameter 9 mm. The dark white shell has a fusiform shape, and an acuminate, turreted spire. It contains about 10 whorls. The upper portion of the whorl is declining and concave.
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There are both living and fossil species in this genus, which first appeared in the Paleocene. . The fusiform, patterned shell is small to large. The protoconch is smooth and papilliform, often with a calcarella. The columellar plates are weak or absent.
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The spiral cords are strongly equidistant, and do not pass over the riblets. The suture is submargined The white shell has a fusiform shape. It is turriculate, distinctly axially costate and with fine spiral threads. The siphonal canal is very narrow.
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The length of the shell attains 90 mm, its diameter 24 mm. The buff shell has an elongate-fusiform shape. It shows broad, reddish- brown longitudinal flames. The long siphonal canal is straight and unnotched, showing preimary and secondary spirals.
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This section is also more activated when viewing same-race faces, as it is studying the face in greater detail. However, these differences in activation of the fusiform complex diminish when a familiar other-race face is shown, like a celebrity.
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The length of the shell attains 11 mm, its diameter 4 mm. (Original description) The small, solid shell has a cylindro-fusiform shape. It is polished and constricted at the sutures. On decollate specimens six whorls remain, divided by linear sutures.
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The length of the shell attains 8.8 mm. The white, elongate fusiform shell contains 7 whorls of which 2½ in the protoconch. These are intermediary convex with linear sutures, discreetly undulant. The shell shows many longitudinal striae and oblique ribs.
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The length of the shell attains 8 mm, its diameter 4 mm. (Original description) The fusiform, somewhat solid shell becomes attenuate towards the apex. It contains seven whorls. The whorls of the protoconch are imperfect in all the examples examined.
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The fusiform shell has medium to small size. It has an elevated spire and a well-marked siphonal canal. The whorls of the spire are usually angulated near the middle. On this angle they show elongated nodes or axial ribs.
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The excysted metacercarial is oval-shaped with a subterminal sucker and a ventral sucker. The adult form of P. gralli is fusiform shaped. Body surface is covered by small spines at acetabular region. The two suckers are orally and subterminally located.
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The length of the shell attains 12 mm, its diameter 5 mm. (Original description) The fusiform, rather solid shell is white. It contains 8 whorls, of which two are in the protoconch, globular, white, smooth. The remainder are suturally impressed.
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The length of the shell attains 13.5 mm. (Original description) The white shell is translucent, thin but firm. It has a fusiform shape. The shell is moderately stout, with a high, regularly tapered, acute spire, consisting of about six rounded whorls.
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The length of the shell attains 14 mm, its diameter 4.5 mm. The shell is white, pale flesh-colour, or tinged with brown, the ribs themselves usually being white. The shell has a very elegant fusiform contour. It contains 9 whorls.
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The size of an adult shell attains 30 mm, its diameter 8 mm. The attenuated, grayish- white shell has a fusiform shape. It contains 11 whorls, of which two in the protoconch. These two apical whorls are vitreous and dark.
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Decetia subobscurata is a moth of the family Uraniidae first described by Francis Walker in 1862. It is found in South India and Sri Lanka. The caterpillar is fusiform (spindle shaped) with centrally fattest body. Head small and squarely round.
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The length of the shell attains 5 mm, its width 2.5 mm. (Original description) The small shell has a conical-fusiform shape. The spire is well raised and fairly solid. Its colour (dead) is whitish-brown, with a white protoconch.
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They have purple or red corollas and corona lobes that are yellow or orange. Flowering occurs nearly year-round. The long, fusiform shaped fruits are called follicles. The follicles contain tan to brown seeds that are ovate in shape and long.
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The length of the shell attains 9.5 mm, its diameter 3 mm. The attenuate-fusiform shell has a slightly elongate spire. The shell contains eight whorls of which 3½ ochre-coloured whorls in the protoconch. The subsequent whorls are elegantly rounded.
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In 2003, V. S. Ramachandran collaborated with scientists from the Salk Institute for Biological Studies in order to identify the potential role of the fusiform gyrus within the color processing pathway in the brain. Examining the relationship within the pathway specifically in cases of synesthesia, Ramachandran found that synesthetes on average have a higher density of fibers surrounding the angular gyrus. The angular gyrus is involved in higher processing of colors. The fibers relay shape information from the fusiform gyrus to the angular gyrus in order to produce the association of colors and shapes in grapheme-color synesthesia.
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Another study found that there is stronger activity in the FFA when a person sees a familiar face as opposed to an unfamiliar one. Participants were shown different pictures of faces that either had the same identity, familiar, or faces with separate identities, or unfamiliar. It found that participants were more accurate at matching familiar faces than unfamiliar ones. Using an fMRI, they also found that the participants that were more accurate in identifying familiar faces had more activity in their right fusiform face area and participants that were poor at matching had less activity in their right fusiform area.
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Because of these different architectures, the tension a muscle can create between its tendons varies by more than simply its size and fiber-type makeup. ; Longitudinal architecture The fascicles of longitudinally arranged, parallel, or fusiform muscles run parallel to the axis of force generation, thus these muscles on a whole function similarly to a single, large muscle fiber. Variations exist, and the different terms are often used more specifically. For instance, fusiform refers to a longitudinal architecture with a widened muscle belly (biceps), while parallel may refer to a more ribbon-shaped longitudinal architecture (rectus abdominis).
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The specific tuning of intermediate neurons in the ventral stream is less clear, because the range of form variety that can be utilized for probing is nearly infinite.Sakai, K.; Naya, Y.; Miyashita, Y. Neuronal tuning and associative mechanisms in form representation. Learning and Memory 1994, 1:83-105. In the anterior part of the ventral stream, various regions appear to be tuned selectively to identify body parts (extrastriate body area), faces (fusiform face area) (according to a recent paper by Adamson and Troiani (2018) regions of the fusiform face area respond equally to "food"),Adamson & Troiani.
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The fusiform face area, part of the fusiform gyrus is an area some believe to specialize in the identification and processing of human faces, although others suspect it is responsible for distinguishing between well known objects such as cars and animals. Neuroimaging studies have found activation in this area in response to participants viewing images of prototypical faces, but not scrambled or inverted faces, suggesting that this region is specialized for processing human faces but not other material. This area has been an area of increasing debate and while some psychologists may approach the fusiform face area in a simplistic manner, in that it specializes in the processing of human faces, more likely this area is implicated in the visual processing of many objects, particularly those familiar and prevalent in the environment. Impairments in the ability to recognize subtle differences in faces would greatly inhibit emotion perception and processing and have significant implications involving social interactions and appropriate biological responses to emotional information.
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The adult shell grows to a length of 5 mm, its diameter 2 mm. The small shell is fusiform-ovate. It has a reddish color and a darker reddish color at the sutures. The body whorl has a red band in the middle.
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The length of the shell is 5 mm, its diameter 2.2 mm. (Original description) The cylindrical shell has a fusiform shape. It contains 4 whorls, rounded, somewhat tumid. The protoconch is obtuse; on the primary whorl there are 3 faint spiral striations visible.
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The fusiform, translucent white shell is quite shiny and contains 9 - 9½ whorls. The shell is threaded with a somewhat incurved lateral contour. The aperture stands out significantly from the curvature of the body whorl. The protoconch consists of 1 - 1½ smooth whorls.
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The length of the shell reaches 5.5 mm. The shell has a turreted fusiform shape, with a produced spire and deep sutures. The color of the shell is reddish brown. It contains nine, straight ribs, decussated and rendered nodulous by spiral riblets.
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The length of the shell attains 25 mm, its diameter 7 mm. The fusiform, shining shell contains 12 whorls of which 2-3 are in the protoconch. These are smooth and convex. The subsequent whorls are concave at the top, then slightly convex.
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The length of the shell attains 18 mm. (Original description) The shell is elongately fusiform and turretted. The spire is longer than the aperture, shining orange colour. The sutures show a white line, below which there is a band of white nodules.
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The length of the shell attains 11 mm, its diameter 4 mm. This thin, inflated, fusiform shell is almost colourless. It contains 8-9 whorls, of which four in the protoconch. These are ochreous and show a decussating sculpture of the finest character.
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The length of the shell is 5 mm, its diameter 2 mm. (Original description) The small, delicate, thin shell has a fusiform shape. it is white with a partial pale yellow suffusion. It contains 7 whorls, of which three are in the protoconch.
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The length of the shell attains 9 mm, its diameter 3.9 mm. (Original description) The shell has a fusiform shape. The spire is produced, longer than the body whorl. The whorls are rounded, strongly spirally striated, and obliquely ribbed in the centre.
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The length of the shell attains 6 mm, its diameter 2 mm. (Original description) The small, fragile, fusiform shell is slender and prickly. The spire is pagodiform. The shell contains five whorls, plus a three-whorled embryonic protoconch, which is finely longitudinally ribbed.
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Atlantic herring have a fusiform body. Gill rakers in their mouths filter incoming water, trapping any zooplankton and phytoplankton. Atlantic herring are in general fragile. They have large and delicate gill surfaces, and contact with foreign matter can strip away their large scales.
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The length of the shell attains 30 mm, its diameter 14 mm. The white, ovate-fusiform shell contains about eight whorls (the upper ones are broken off). The remaining whorls are concave on top and somewhat convex below. They contains slightly angulate whorls.
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The length of the shell attains 60 mm, its diameter 27 mm. The wide, fusiform shell is white. It contains about ten whorls (the upper ones are broken off). The remaining whorls are concave on top and somewhat angulate in the middle.
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The shell is fusiform and turriculate. It has an elevated and acute spire. The twelve whorls are convex and longitudinally costated (twelve ribs on the body whorl). They are transversally sharply striated with 6-7 elevated lines, which run along the volutions.
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The length of the shell varies between 6 mm and 15 mm. The monochrome dark brown shell has a somewhat elongated, fusiform shape. The spire is long but not very acuminate. The shell contains 10 convex whorls, separated by a rather impressed suture.
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The length of the shell attains 4.5 mm, its diameter 1.8 mm (Original description) The elongate-fusiform shell is fairly solid. The spire is well drawn out. The colour (dead specimen ) is whitish-brown. The shell contains 7½ convex, regularly increasing whorls.
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The length of the shell attains 17 mm, its diameter 5 mm. The thin fusiform shell is gracefully attenuate. It is pale tan-coloured. It contains 9 - 10 whorls, of which the two whorls in the protoconch are pale, shining, and globose.
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The apical whorl is minute, regularly increasing. The aperture is elongated, ovate-fusiform; The outer lip is thin, sharp and regularly curved. The inner margin is regularly arched. The columella is somewhat elongated, its margin sinuous and somewhat excurved at the tip.
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"Fusiform, elongated; head conical, the vertex being prolonged to an acute point projecting forward and anal segment also prolonged to a point projecting backwards. Colour green, with darker dorsal and lateral stripes and a slight ochreous subdorsal stripe" (Moore.) "Feeds on grasses" (Green).
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The narrow, solid and turreted shell has a fusiform shape. The protoconch consists of 4 whorls, with a sinusigera apex. The shell is axially sculptured by numerous slender and continuous riblets. The aperture measures about a third of the length of the shell.
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The length of the shell attains 6.5 mm, its diameter 2.5 mm. The shell has a slightly fusiform shape with a narrow base. Its color is white with spiral yellowish bands (5 in the body whorl). The spiral banding is not very apparent.
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Licania rigida is generally considered a tree, and can reach 15 m in height. Leaves alternate, measuring 12 cm long by 6 wide. Flowers 3 mm in diameter, yellow, arranged in spikes branches. Fruit drupaceous, fusiform or oval, from 2–7 cm.
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The size of the shell attains 23.5 mm, its width 7 mm. Apertural view of a shell of Tropidoturris scitecosta (Original description) The fusiform shell is acuminated at both ends. Its color is light brown without markings. The spire is acutely turreted.
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The length of the shell attains 8 mm. The slender shell has a fusiform shape, attenuated below. Its color is pale yellowish brown. The whorls are rounded, longitudinally ribbed, crossed with white raised lines, banded with darker brown round the upper part.
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The length of the shell attains 16.25 mm, its diameter 5.5 mm. (Original description) The shell has a fusiform shape. It is pale brown, narrowly banded with a deeper shade of the same colour. The shell contains 9 whorls, angular and convex.
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The length of the shell attains 4.5 mm, its diameter 1.5 mm. The fusiform shell is turreted and contains 6-7 whorls. The 1-2 whorls of the protoconch are glassy, shining. The subsequent whorls are ventricose and impressed at the sutures.
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The length of the shell varies between 9.5 mm and 20.7 mm. The pallid brown shell has a fusiform shape. It is cingulated with carinae, of which there are about twelve on the body whorl, subequal, interstices obliquely striate. The aperture is narrow.
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Amoria hunteri is the species with the largest shell in the genus Amoria. The length varies between 90 mm and 190 mm. It is solid and fusiform. The colour pattern is quite variable, the base colour may be white, yellowish or pink.
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The length of the shell varies between 4.5 mm and 9 mm. The small, delicate, fusiform shell has a light or pinkish brown color. It contains 7 whorls, of which two bulbous whorls in the protoconch. The third whorl is slightly crenulate.
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The length of the shell attains 9 mm, its diameter 3 mm. (Original description) The fusiform shell is characterized by its stout build. The 8 whorls are once-angled. They are longitudinally crassicostate with straight ribs and spirally lirate with irregular lirae.
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The length of the ovate, dirty white shell attains 6 mm, its diameter 2.5 mm. A white, fusiform, very delicately-striated shell, with six swollen whorls, impressed at the sutures, obscurely longitudinally ribbed. The aperture is oblong. The outer lip is effuse.
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The length of the shell attains 15 mm, its diameter 6 mm. The glossy, dark-brown shell has a fusiform shape. The angularity, common to the genus Clavus, is scarcely apparent. The shell contains 8 slightly convex whorls and 8 longitudinal ribs.
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The height of the shell attains 5.5 mm, its width 2.5 mm. The white and chalky shell has a fusiform shape. Fresh specimens are pale pink The shell shows no axial sculpture. The whorls contain a smooth upper and a gemmate lower keel.
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The length of the ovate-fusiform, pink to purple, semitransparent shell attains 6 mm, its diameter 2½ mm. It contains 6 whorls. The aperture is small. The outer lip is much thickened and slightly sinuate on top..The columella has a slight callus.
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The size of an adult shell varies between 70 mm and 95 mm. The elongate-fusiform shell is yellowish white, encircled by raised, corded orange-brown ribs, with several intermediate striae. The blunt protoconch contains 1½ -2 whorls. The teleoconch contains 9½ -10 whorls.
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The length of the shell attains 30 mm, the diameter 4½ mm (this may have been more if the peristome was complete). (Original description) The elongately fusiform shell has a rather long siphonal canal. The rather strong shell is yellowish- white. The protoconch is wanting.
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The length of the shell attains 6 mm, its diameter 2.7 mm. (Original description) The small, rather thin shell has an ovate-fusiform shape. Its colour is buff, clouded with pale brown on the periphery. The shell contains 6 whorls , including two of the protoconch.
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The length of the shell varies between 20 mm and 30 mm. The shell has an ovo-fusiform shape. The whorls are tumid, occasionally faintly angulated, occasionally rounded (most frequently the body whorl). The aperture is longer than the spire and not much dilated.
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The length of the whitish, ovate-fusiform shell varies between 7.5 mm and 13 mm. The aperture and the spire have about the same length. The shell contains five whorls. These are longitudinally eroded with angulated and nodulose plicae and transversely by obscure grooves.
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The length of the shell varies between 4.8 mm and 5.5 mm. The very small shell has a fusiform or subovate shape. with four of five convex whorls, a very short spire, and a large body whorl. The sculpture is very finely cancellated or reticulated.
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The length of the shell attains 5.5 mm, its diameter 2.5 mm. (Original description) The small, stout shell has a short-fusiform shape. It is, white, flecked or clouded on the prominences of the sculpture with pale yellow-brown. It contains about five whorls.
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The length of the shell attains 4.5 mm, its diameter 1.5 mm. (Original description) The small, fulvous brown shell is narrowly fusiform and turreted. It contains five whorls, sloping angulate above plicate lengthwise. The interstices are broadly striate, giving the whole shell a cancellated appearance.
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The length of the shell attains 10 mm, its diameter 5 mm. The small, white shell has a fusiform shape. The spire is acute with a papillary apex. The shell contains 5½ slightly convex whorls with many longitudinal ribs crossed by narrow spiral lirations.
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The length of the shell attains 6.5 mm, its diameter 2.6 mm. (Original description) The small, thin shell has a narrow-fusiform shape. It is subturreted, blunt at the apex, and attenuate anteriorly. Its colour is ochraceous-buff, gradually becoming darker towards the apex.
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The length of the shell attains 35 mm, its diameter 12 mm. The fusiform shell is turreted and keeled all over. The keels are nearly of the same size, and almost equidistant. The keel on the middle of the whorls is slightly the largest.
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The length of the shell attains 43 mm, its diameter 20 mm. (Original description) The polished shell is short- fusiform, snow white, eight- whorled. The protoconch is eroded in the specimen. The whorls are full, oppressed in front of the suture, elsewhere gently rounded.
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The length of the shell attains 9.4 mm, its diameter 4.2 mm. (Original description in French) The slender, fragile shell has a fusiform shape. The spire consists of seven convex whorls separated by a rather well- marked suture. The protoconch consists of 5 whorls.
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The length of the shell attains 19 mm, its diameter 7 mm. (Original description) The solid shell has an abbreviately fusiform shape. It is white, the basal third of the body whorl is ochreous. It contains 9 whorls, including the smooth and globular protoconch.
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The length of the shell attains 8½ mm, its diameter 3 mm. (Original description) The strong shell has an elongately fusiform shape. It has a rather dark, uniform reddish-brown color. It contains 8 whorls, of which 3 form a smooth, red-brown protoconch.
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The genus includes two species, Leucangium ophthalmosporum Quél. (the type of the genus) and L. carthusianum (Tul. & C. Tul.) Paol., and both of them produce sequestrate ascoma, globose to ellipsoidal ascus (inamyloid and eight-spored), and dark olive-colored to grayish green, smooth, fusiform ascospores.
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The length of the shell attains 95 mm, its diameter 32 mm. The large, white shell has a fusiform shape with a pale olive periostracum. The acute spire contains eight whorls, exclusive of the (lost) nucleus, each carrying a peripheral keel. The suture is distinct.
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The length of the shell attains 10 mm, its breadth 3.75 mm. (Original description) The small, white shell has a fusiform shape. It contains seven whorls. The top ones are left-handed and convex, the others slightly concave above the rest, with rounded angles.
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The length of the shell attains 9 mm, its breadth 3.5 mm. (Original description) The small, white shell has a fusiform shape. It contains eight whorls.with the top ones obliquely concave, the middle ones obtusely angulated and narrowing within the angle and barely convex.
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The length of the shell attains 11.5 mm, its diameter 7.5 mm. (Original description) The small, short shell has an ovate-fusiform shape. it is moderately stout, with slightly shouldered, convex whorls, and a regularly tapered, acute spire. The Suture is shallow, but well-marked.
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The length of the shell attains 11 mm, its diameter 4.5 mm. (Original description) The shell has a fusiform shape. It is variable in contour, colour, and development of sculpture. It contains 5½ whorls, including a two-whorled protoconch, rapidly increasing and slightly shouldered.
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The length of the shell attains 8 mm, its diameter 3 mm. A small, delicate, white shell with a fusiform shape. It is eight-whorled of which three in the protoconch. The first two are globose and vitreous, the third apical being beautifully cancellate.
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Wade, N. "Gay Men are found to have Different Scent of Attraction." NY Times, 9 May 2005 In 2008, it was found using functional magnetic resonance imaging that the right orbitofrontal cortex, right fusiform cortex, and right hypothalamus respond to airborne natural human sexual sweat.
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The forelimbs are paddle-like flippers which aid in turning and slowing. Manatees generally glide at speeds of , but can reach speeds of in short bursts. The body is fusiform to reduce drag in the water. Like cetaceans, the hind limbs are internal and vestigial.
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The species can grow up to . They have a fusiform body shape with silvery sides with blue and green lateral iridescent stripes and transparent fins. Their pectoral and pelvic fins are in the abdominal region. They have a pointed snout with a terminal mouth position.
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Brugmansia versicolor is a hermaphrodite that reproduces perennially. It has long, narrow, fusiform berries that are up to in length. Brugmansia reproduce by the production of seeds. The major pollinators are thought to be various species of insects, though this has yet to be proven.
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The shell size varies between 30 mm and 66 mm. This shell is usually white with black or dark brown spiral bands, but the basic color may also be cream or orange. The interior is white. The shape is fusiform, with various nodulose spiral ribs.
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The length of the shell attains 7 mm, its diameter 2.5 mm. (Original description) The fusiform, elongated, slender shell is dark chestnut-brown throughout. It contains six whorls, slightly convex, separated by narrowly impressed sutures. The earlier two whorls are smooth, the remainder strongly latticed.
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Leiomyomatous hamartoma is a hamartoma which appears as a painless, soft polypoid (polyp-like) mass. It usually is found on the tongue, around the nasopalatine foramen, or in the nasopharynx. The lesion is composed of a proliferation of fusiform and spindle smooth muscle cells.
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The shell of Ericusa fulgetrum can reach a length of . It is solid and fusiform. The colour pattern is quite variable, the base colour may be yellowish, pale brown or reddish. It has a glossy marbled surface, sometimes with dark brown zig-zag bands.
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The length of the shell attains 22.5 mm, its diameter 9.5 mm. (Original description) The thin shell is broadly fusiform, with a pyramidal spire and a rather long, slender siphonal canal. Its color is yellowish grey. The protoconch of the largest specimen is wanting,.
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Chaetomium iranianum is a fungus species in the Chaetomium genus, first isolated from Iran. It shares features such as peridium structure, ascospore morphology and germ pore position with its cogenerates. This species in particular can be characterized by spirally coiled ascomatal hairs and fusiform ascospores.
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Chaetomium truncatulum is a fungus species in the Chaetomium genus, first isolated from Iran. It shares features such as peridium structure, ascospore morphology and germ pore position with its cogenerates. This species in particular can be characterized by spirally coiled ascomatal hairs and fusiform ascospores.
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The length of the shell attains 5 mm, its diameter 2 mm. This is a solid whote shell with a short fusiform shape. It contains 8 whorls of which 2½ smooth, vitreous whorls in the protoconch. The subsequent whorls are much impressed at the suture.
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The length of the shell attains 6.3 mm, its diameter 2.5 mm. (Original description) The shell is ovately fusiform. The color is light brown, whitish at the base of the body whorl and outer lip. It contains 6 whorls with 1½ whorls in the apex.
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Psilocybe cyanofibrillosa basidia each produce four spores, and rarely only two spores. The cheilocystidia are fusiform to lanceolate and 22–33 x 5.5–7 μm, with an elongated, forking neck and are 1–1.5 μm thick at its apex. Pleurocystidia are absent in Psilocybe cyanofibrillosa.
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Shells of Mitra papalis can reach a length of about . The form of these large shells is similar to a Papal mitre (hence the common name). They are elongate to ovate, fusiform and smooth but without axial streaks on the surface. Sutural coronations are present.
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The length of the shell reaches 3 mm, its diameter 1 mm. The white, minute, short shell has a rhomboid-fusiform shape and contains six whorls. The shell shows eight conspicuous ribs and dense, spiral threads. The body whorl measures half the total length.
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The length of the shell attains 8 mm, its diameter 2.5 mm. The small shell has a fusiform shape. It contains 8 whorls, of which two or three vitreous and globular whorls in the protoconch. The subsequent ventricose whorls are considerably impressed at the suture.
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This is a minor form of Pseudodaphnella tincta (Reeve, 1846). The longitudinal ribs are swollen, with white ribs alternating with golden yellow ribs. The elongate-fusiform shell shows a broader, golden-yellow band in the depression near the siphonal canal. Hervier J. (1897 ["1896").
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The Little Colorado sucker has a fusiform, chubby body and is harshly two-toned, with dark gray-black topside and whitish-yellow underside (both in adults and juvenile fish).Minckley, W.L 1973. Fishes of Arizona. Arizona Game and Fish Department, Phoenix. pp.158-159.
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The size of the fusiform shell varies between 6 mm and 8.5 mm, its diameter 3.4 mm. The shell contains 8 whorls of which the first two in the protoconch. The aperture spans about ⅓ of the whole length. The sinus is of mediocre size.
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Put forward by Kronbilcher et al. (2004), was based on functional imaging data that showed, in a parametric fMRI study, that a decrease in activation in the left fusiform gyrus was seen in response to an increase in the frequency of the word - where the frequency is how common the word is. This data refutes the previous pre-lexical theory as if the VWFA was pre-lexical one would expect equal activation throughout all frequencies. Instead a lexical theory was proposed where the left fusiform gyrus neurons are thought not to detect words by attempting to match them to stored representations of known words.
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Devlin et al. (2006) state that the left posterior fusiform gyrus is not a 'word form area' as such, but instead hypothesizes that the area is dedicated to determining word meaning. That is to say, that this area of the brain is where bottom-up information (visual shapes of words (form), and other visual attributes if necessary) comes into contact with top-down information (semantics and phonology of words). Therefore, the left fusiform gyrus is thought to be the interface in the processing of the words not a dictionary that computes a word based on its form alone, as the lexical word form hypothesis states.
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They are particularly related to the proper function of the SOC, and there is increasing evidence that morphological abnormalities within the brainstem, namely in the SOC, of autistic individuals are a cause of the hearing difficulties. The neurons of the MSO of individuals with autism display atypical anatomical features, including atypical cell shape and orientation of the cell body as well as stellate and fusiform formations. Data also suggests that neurons of the LSO and MNTB contain distinct dysmorphology in autistic individuals, such as irregular stellate and fusiform shapes and a smaller than normal size. Moreover, a significant depletion of SOC neurons is seen in the brainstem of autistic individuals.
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Therefore, it has been suggested that the prominent eyes (which is a typical feature in the facial perceptions) in the distortions recorded is more in accordance with increased activity (which would cause an over-representation of the eyes) within the STS rather than the fusiform face area. Other studies, however, have found that stimulation of the posterior and mid-fusiform face selective regions in a patient with medication-resistant epilepsy resulted in perceptions consistent with that of facial metamorphoses (patient noted that the experimenter's face started to droop). This study found that the perceived distortions correlated with signal changes in the patient's FFA and not in the STS.
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The length of the shell varies between 20 mm and 40 mm; maximum diameter 14 mm. The fusiform shell contains 10 slightly convex whorls. The shell is clothed with a smooth, thickish, olive epidermis. The shell is covered with very narrow spiral striae and incremental flexuous stripes.
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The length of the shell attains 37 mm, its diameter 9 mm. The biconical-fusiform shell contains nine whorls. The first two are smooth and globose. The others are protruded, with the carina almost in the middle, but gradually attenuated to the base of the body whorl.
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The length of the shell attains 7.5 mm, its diameter 2.5 mm. (Original description) The buff, fusiform shell is narrowly oblong. It contains 7 whorls of which two in the protoconch. The whorls of the teleoconch are slightly convex and are covered with raised longitudinal ribs.
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The length of the shell attains 5.7 mm, its diameter 2.1 mm. (Original description) The narrow shell has a fusiform shape. It contains 6 whorls, including the protoconch of 2 smooth convex whorls, with simple suture. The whorls of the spire are convex, with simple suture.
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The adult shell grows to a length of 10 mm, its diameter 4.25 mm. (Original description) The shortly fusiform shell has a short siphonal canal. It is smooth and shining. It is yellowish-while, with more or less conspicuous traces of red-brown streaks on rihs.
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The size of an adult varies between 17 mm and 38 mm. (Original description) The solid shell is fusiform and biconical. Each spire whorl is prominently angled at its centre by a tuberculate keel. In the series before us the proportion of length to breadth varies considerably.
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The size of the shell varies between 5 mm and 8.5 mm; its diameter 3 mm. The solid shell is very elongated and has a fusiform-subcylindrical shape. The spire contains 8 whorls; the first ones smooth and convex, the others slightly convex. The suture is appressed.
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The size of the shell varies between 40 mm and 75 mm. (Original description) The fusiform shell is much elongated. The siphonal canal is nearly as long as the spire . The color of the shell is dull brown, with an ill-defined light band around the middle.
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The length of the shell attains 34 mm, its diameter 12 mm. The white shell has a fusiform shape. The length of the narrow aperture equals almost half of the length of the shell. The labral sinus is broad, rather deep and situated at the suture.
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The length of the shell attains 26 mm, its diameter 10 mm. (Original description) The fusiform shell is gradually attenuate and incrassate. it is of a rich siennabrown in colour. it contains 12 whorls, including three whorls of the protoconch, smooth, shining brown, semidiaphanous, centrally carinate.
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The length of the shell varies between 28 mm and 70 mm. (Original description) The fusiform shell has a long, acute spire. It is yellowish-brown, alternating with red-brown. It contains 13 or 14 whorls which at least 2 (uppermost whorl broken) form a smooth protoconch.
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The size of an adult shell varies between 30 mm and 40 mm. The fusiform shell is moderately long. The ground color of the shell is yellow, superimposed with blotches and streaks of chestnut brown. The space between the sutures is brown in the anterior half.
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The length of the shell varies between 10 mm and 25 mm. The white, ovate-fusiform shell contains 9 whorls. The superior half of the whorls is concave, the lower half slightly convex. The deep pinkish-brown line above the suture is most apparent between the ribs.
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The length of the shell varies between 30 mm and 50 mm. The small, solid shell has a fusiform shape. When the ribs and the smooth spiral lirae come together, they create axial nodes on the shoulder of each whorl. The depressed sutures lack a subsutural cord.
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The length of the shell attains 8.5 mm, its diameter 3 mm. (Original description) The small shell has an elongate- fusiform shape. Its colour is uniform pale yellow, except the apex, which is buff. The shell contains ten rounded whorls, including those of the elevated protoconch.
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The length of the shell attains 13.5 mm, its diameter 5.25 mm. (Original description) The thin, polished shell is more or less translucent white and short-fusiform. it contains 10 whorls. The protoconch is thin, very minute, inflated, clear transparent brown and shows a shining surface.
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The length of the shell attains 8 mm, its diameter 4 mm. (Original description) The small, translucent white shell is very thin and fusiform. The protoconch is eroded, with four subsequent whorls. The suture is distinct, whorl in front of it shows a narrow, thickened margin.
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The length of the shell attains 31.5 mm, its diameter 11.5 mm. (Original description) The small, slender shell is fusiform. The columella is suffused with yellowish pink, the exterior white, with a thin, pale epidermis. The shell contains seven or eight whorls, without counting the protoconch.
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The size of an adult shell varies between 8 mm and 20 mm. The short, purplish-pink colored shell has a fusiform shape. The base of the shell has a pale color. The shell consists of seven whorls, of which two in the large and obtuse protoconch.
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The length of the shell attains 5 mm, its diameter 1.5 mm. It is a smooth, shining, fusiform shell of pomegranate-pink color. It contains 6 whorls, of which two in the protoconch. The sculpture consists of few ribs, numbering 7 close to the body whorl.
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The length of an adult shell varies between 4.5 mm and 6 mm; its diameter 2.2 mm. (Original description) The narrow, fusiform shell is truncated anteriorly. The aperture measures one- third the length of the shell. The shell contains 9 whorls, of which the protoconch forms four.
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The length of the shell attains 4 mm, its diameter 2.8 mm. (Original description) The shell has an ovate fusiform shape with the spire rather depressed. Its colour is white, with a chestnut- brown protoconch. The shell contains six somewhat convex whorls with a suture well-marked.
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The length of the shell attains 8.5 mm, its diameter 3 mm. (Original description) The white, fusiform shell is acuminate on both sides. It contains 8 whorls, of which 3 polished whorls n the protoconch. The others are obtusely angulate and crossed by many spiral lirae.
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The length of the shell attains 13.8 mm, its diameter 5.1 mm. The uniform white shell has an oblong-fusiform shape with a narrow base. It contains 7 whorls, of which two smooth conical whorls in the protoconch. The rest are strongly convex with a shallow suture.
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The length of the shell attains 14 mm, its diameter 7 mm. (Original description) The turreted shell is fairly solid and has a fusiform shape. It contains 7 whorls, nearly flat and strongly carinated. The body whorl is tumid, about as long as the spire , excavated below.
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The size of the shell attains 20.4 mm. (Original description) The fusiform shell is acuminated at both ends. Its color is pale fulvous, obscurely spotted with brown, here and there tinged with light purple, and coloured anteriorly with a purplish band. The spire is acute, gradately turreted.
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The length of the shell attains 10.9 mm, its diameter 3 mm. (Original description) The small, solid shell has an elongate-fusiform shape. The spire is elevated with a mammilliform apex. It contains six whorls, only slightly convex, with about ten low, rounded, slightly oblique, transverse ridges.
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The length of the shell attains 38 mm, its diameter 11.4 mm. (Original description) The shell is of moderate size for the genus, fusiform, the maximum diameter in front of the median horizontal. The aperture is approximately half the total altitude. The shell contains about 11 whorls.
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The ghost shiner (Notropis buchanani) is a North American species of freshwater fish of the family Cyprinidae. It is generally characterized as being a small bodied, silvery and fusiform shaped cyprinid.Holm, E. and J. Houston. 1993. "Status of the ghost shiner, Notropis buchanani, in Canada". Can.
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Pectoral and pelvic fins are variously absent in some species. Some fish have small eyes and reduced or absent pectoral and pelvic fins for a burrowing lifestyle. A few species are blind. Within the family Clariidae, body forms range from fusiform (torpedo-like) to anguilliform (eel-like).
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Shells of Cymbiola imperialis can reach a size of . These large and glossy shells are elongate and fusiform, light to heavy in weight. The basic color is whitish. The spire is high, with canaliculate sutures, strong red-brown axial ribs and narrow red-brown spiral lines.
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Shell elongately fusiform with a high gradate spire and rounded body whorl tapering gently to the anterior canal. Sutural groove narrow but forming a prominent shoulder on the adult whorls. No sutural nodules. Thin axial costae present only on the first whorl, absent from the succeeding whorls.
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ASF 457 is later named Mucispirillum schaedleri. The species is related to the Flexistipes phylum with iron-reducing environmental isolates. EOS fusiform bacteria make up the majority of the intestinal microbiota, and are mainly found in the large intestine. They vastly outnumber facultative anaerobic and aerobic bacteria.
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The length of an adult shell varies between 16.6 mm and 24.7 mm. The diameter varies between 7.4 mm and 10.7 mm. (Original description) The solid shell is small and has an ovate-fusiform shape. Its colour is pale yellow, with a rusty tinge at the suture.
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The length of the shell attains 9 mm, its diameter 4 mm. The small, whitish shell has a broadened fusiform shape. It contains 7 whorls, of which two vitreous and globular whorls in the protoconch. The shell shows a conspicuous central acute angle in the lower whorls.
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The length of the shell attains 5 mm, its diameter 1.75 mm. This white shell is a scalate Leiocithara .It has an ovate fusiform shape and contains 5 whorls. It is principally conspicuous for its thickened longitudinal ribs, 9–10 in number on the body whorl.
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The height of the shell is 18 mm, its width 8 mm. (Original description) Shell is moderately large, biconic-fusiform, imperforate, slightly turreted, with a very broad smooth shoulder, spirally striated below it. The axial ribs are rather inconspicuous. The columella has 2 very distinct plaits.
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The length of the shell attains 19 mm, its diameter 6 mm. The pale shell has a short fusiform shape. The spire is elongate and acuminate. The shell contains about 11-12 whorls, These are slightly concave above the suture and then slightly convex or almost flat.
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They are hyaline in colour and possesses a smooth surface and ellipsoidal (i.e. shaped like a football) to fusiform (i.e. spindle) in shape. They are 8-22 x 2.2-3.5 µm in width and they gradually become thinner reaching 0.8-1.4 µm in width at their apex.
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The length of the shell attains 18.5 mm, its diameter 6 mm. (Original description) The elongately fusiform shell has a long siphonal canal. it is thin and yellowish-white. The shell contains eight whorls, of which about 2 (if normal) form a smooth, slightly inflated, reddish-brown protoconch.
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The length of the shell attains 4.3 mm, its diameter is 2. mm. The small shell has a fusiform-ovate shape. Its color varies from blackish to reddish with a white zone above the middle of the whorl. It is ornated everywhere with white or blackish to reddish granules.
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The length of the shell attains 16 mm, its diameter mm. (Original description) The thin, white shell has a fusiform shape, with a moderately long siphonal canal. The protoconch is eroded. The shell contains 8 angular whorls, separated by a conspicuous, slightly waved suture, the upper part is excavated.
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The shell grows to a length of 25 mm. The pale yellow, fusiform shell is turreted and rather smooth. The whorls are flat, with flexuous longitudinal lines, slightly angulated round the upper part. The lower portion of the last whorl is contracted and has several regular, distant revolving ridges.
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The shell grows to a length of 25 mm. The pale, yellow, fusiform shell is turreted and rather smooth. The whorls are flat, with flexuous longitudinal lines, slightly angulated round the upper part. The lower portion of the last whorl is contracted and with several regular, distant revolving ridges.
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The length of the shell attains 23 mm, its diameter 6.5 mm. (Original description) The thin, white shell is translucent. It is very slender, elongated, narrow, fusiform, with a long, narrow, tapered, nearly straight siphonal canal, and a tall, gradually tapered, acute spire. It contains eight, evenly rounded whorls.
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The length of the shell attains 18.5 mm, its diameter 7.5 mm. (Original description) The white, fusiform shell has a moderately long siphonal canal. It is very thin, fragile and hyaline. It contains eight whorls, of which about 2½ form the protoconch, with convex whorls and criss-cross sculpture.
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The length of the shell attains 8 mm, its diameter 3 mm. (Original description) The shell is acuminately fusiform, very smooth and glittering. It is white, slightly and irregularly marbled with pale brown here and there between the ribs and especially behind the outer lip. The suture is distinct.
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The length of the shell attains 6 mm, irts diameter 2 mm. The small shell has an ovate-fusiform shape. It contains 6-7 subconvex whorls crossed by oblique, obtuse longitudinal plicae (5-7 in penultimate whorl and fewer in the body whorl). The small aperture is ovate.
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The mericarps are pale brown with longitudinal lines outside. Inside it is whitish inside and fusiform, tapering at each end; spindle-shaped, at . The mericarps are acute, having a sharp point or tip, at the apex and are pubescent with short hairs. The fruit wall is approximately thick.
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The size of the shell varies between 17 mm and 27 mm. The shell has a narrow fusiform shape with longitudinally irregular brown spots and punctuated, transverse grooves. The elongate, white, coronate spire is spotted with brown. The body whorl contains about 30 finely punctured or pitted grooves.
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The leaves are needle-like, 10-20 mm long, flattened in cross-section, dark blue-green above, and blue- white below. The cones are long, fusiform (spindle-shaped, broadest in the middle), dark purple (almost black) when young, maturing dark brown 5-7 months after pollination, with stiff scales.
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The length of the shell attains 12 mm, its diameter 3 mm. (Original description) This is one of the most widespread and variable of Australian marine temperate gastropods. . The short fusiform shell contains 7–8 obtusely angulated whorls. This species may be distinguished by its thick, rounded, straight ribs.
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The length of the shell attains 59 mm. (Original description) The thin shell has a fusiform shape. Its color is white with a very thin straw-colored epidermis. The 1½ whorls in the protoconch are white and vitreous, polished, nearly smooth with faint spiral lines and lines of growth.
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The length of an adult shell attains 36 mm, its diameter 13 mm. (Original description) The elongate, white shel is acutely fusiform. It contains nine rather rounded whorls following the (lost) protoconch. The general aspect recalls Fusiturricula fusinella but is larger and with a proportionally more swollen body whorl.
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The paraphyses are sparingly branched and anastomosing with tips that are clavate and brown-pigmented. Ascospores range in shape from ellipsoid to fusiform (spindle-shaped) to elongated, and are not surrounded by a transparent coat (non-halonate). Pycnidia are immersed and spherical. The conidia have a bacilliform shape.
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Aberoptus championus is a species of mite belonging to the family Eriophyidae. It is only known from females collected from underneath the leaves of Bauhinia championii in central Taiwan. This is a virtually microscopic animal, with a length of only 120 μm. It is flattened and fusiform in shape.
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The length of the shell attains 24.4 mm, its diameter 8 mm. (Original description) The shell is medium in size, slender, fusiform. The protoconch is not preserved. The whorls of the spire show a strong median keel-like projection composed of rounded nodes that are inclined to the right.
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The Myxotrichaceae are a family of fungi in the Ascomycetes class, and has seven genera. Fungi in this family are mostly found in soil. Indoors, they can be found in paper substrates, damp drywall, and decomposing materials. They produce black, mesh-like, setose ascocarps with small, fusiform ascospores.
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The length of the shell attains 25.3 mm, its diameter 8 mm. (Original description) The slender, fusiform shells has a moderate size. The aperture is a little less than half as high as the entire shell. The shell contains approximately 11 whorls in the adult, increasing regularly in size.
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Magnaporthaceae that reproduce sexually, have perithecial ascomata that are immersed in host tissue, frequently with long necks. Asci are cylindrical and stain positive in Meltzer's reagent. Ascospores are curved to sigmoid and contain septa. They show variability in their morphology and can be filiform (Gaeumannomyces) or fusiform (Nakataea = Magnaporthe).
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The length of the shell attains 32 mm, its diameter 10 mm. The tender, dark white shell has a fusiform shape and is almost transparent. The shell contains 9 whorls, of which 1½ smooth, globose and vitreous whorls in the protoconch. The whorls are impressed at the suture.
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The length of the shell attains 28.5 mm, its diameter 8 mm. (Original description) The moderately solid shell has an elongately fusiform, shape. It is light yellowish-brown, lighter on the siphonal canal. it contains about 11 whorls, of which about 1½ form a smooth, inflated, laterally inclined protoconch.
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The shell size varies between 2 mm and 4 mm. Its color varies from white to pale yellow, a few times even dark brown. The shell shows typically two indistinct brown bands below the suture and at the base. The shell is elongate, fusiform with a narrow, pointed apex.
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The length of an adult shell attains 16.5 mm, its diameter 6.5 mm. It is superficially similar to Benthofascis conorbioides, but it does not resorb the inner whorls. (Original description) The biconic, moderately thick shell has an ovately fusiform shape. Its surface is spirally furrowed, smooth and shining.
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The superior oblique muscle, or obliquus oculi superior, is a fusiform muscle originating in the upper, medial side of the orbit (i.e. from beside the nose) which abducts, depresses and internally rotates the eye. It is the only extraocular muscle innervated by the trochlear nerve (the fourth cranial nerve).
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The length of the shell attains 46 mm, its diameter 15.75 mm. (Original description) The shell has a fusiform shape, with a strictly pyramidal spire and a rather long, slender siphonal canal. The shell is, thin, rather smooth and greyish-white. The protoconch is wanting, remaining 9 straight whorls.
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Their bodies are elongated and fusiform, with spinous and soft dorsal fins widely separated. Their tail fins are large and deeply forked; indicating speed and agility. The mouth is large and inferior; a blunt snout projects far ahead. The jaws and palate possess bands of villiform (fibrous) teeth.
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Friends and foes are represented differently in the brain. The fusiform cortex, posterior cingulate gyrus, amygdala, and areas involved in motivational control were differentially activated as a function of previous social encounters. In general, these areas were more active when faces were perceived as foes rather than friends.
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Iris maracandica Iris maracandica is similar in form to Iris bucharica. It has bulb (approx.) 2 cm in diameter, with thickened fusiform roots (spindle-like). It has falcate shaped leaves, that are 1.5 – 2 cm wide close to the base of the plant. The leaves have a silver edge.
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The shape of the shells is more or less fusiform. The whorls are elongate to broadly conical. Turrids are carnivorous, predatory gastropods. Most species have a poison gland used with the toxoglossan radula, used to prey on vertebrates and invertebrate animals (mostly polychaete worms) or in self-defense.
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The pseudobulbs are fusiform (spindle- shaped) and homoblastic (created from several internodes). Oeceoclades ambrensis is most similar to O. pulchra but it differs in the structure of the labellum, having rounded lobes.Bosser, J., and P. Morat. 2001. Contribution à l'étude des Orchidaceae de Madagascar et des Mascareignes. XXXI.
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Barringtonia lanceolata grows as a tree up to tall, with a trunk diameter of up to . The bark is brown, grey or reddish brown and has been used as fish poison. The fruits are ovoid or fusiform, up to long. Habitat is forest from sea level to altitude.
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The thin shell is fusiform or subcylindrical. The colour ranges from uniform buff, with or without chocolate spiral lines or bands, to entire chocolate. The protoconch consists of two or three smooth helicoid whorls. Fasciole don't interrupt the sculpture, and are scarcely indicated by the curvature of growth lines.
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The height of the shell attains 5 mm, its width 1.9 mm. (Original description) The shell is small, rather solid, slender and has a fusiform shape. It contains 8½ whorls of which six form the protoconch. The colour of adult whorls is straw yellow, the protoconch cinnamon brown.
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There are several parts of the brain that play a role in face perception. Rossion, Hanseeuw, and Dricot used BOLD fMRI mapping to identify activation in the brain when subjects viewed both cars and faces. The majority of BOLD fMRI studies use blood oxygen level dependent (BOLD) contrast to determine which areas of the brain are activated by various cognitive functions. They found that the occipital face area, located in the occipital lobe, the fusiform face area, the superior temporal sulcus, the amygdala, and the anterior/inferior cortex of the temporal lobe, all played roles in contrasting the faces from the cars, with the initial face perception beginning in the fusiform face area and occipital face areas.
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Over the past few decades there have been vast amounts of research into face recognition, specifying that faces endure specialized processing within a region called the fusiform face area (FFA) located in the mid fusiform gyrus in the temporal lobe. Debates are ongoing whether both faces and objects are detected and processed in different systems and whether both have category specific regions for recognition and identification. Much research to date focuses on the accuracy of the detection and the time taken to detect the face in a complex visual search array. When faces are displayed in isolation, upright faces are processed faster and more accurately than inverted faces, but this effect was observed in non-face objects as well.
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The length of the shell attains 43 mm, its diameter 11 mm. The elongated shell is turreted and has a fusiform shape. This species is of uniform reddish or purplish brown. The upper half of the whorls is concave and devoid of spiral lirations, which exist only on the lower portion.
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The length of the shell varies between 30 mm and 75 mm. (Original description) The decollate, fusiform shell is moderately large, slender and solid. The spire is longer than the aperture . The shell has a broad, somewhat constricted anal fasciole and closely appressed suture, the fasciole chiefly sculptured by incremental lines.
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The length of the shell attains 8 mm, its diameter 2.5 mm. This is a small highly coloured, fusiform species, with a conspicuous, spiral, swollen, nodulous angle just above the centre of the whorls. It contains eight whorls, of which two in the protoconch. The aperture has a square-ovate shape.
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The length of the shell attains 4 mm, its diameter 1.7 mm. (Original description) The small, solid shell is ovate- fusiform, rather turreted and constricted at the base. Its colour is white, the protoconch buff. On the upper whorls an orange line runs along the second spiral below the angle.
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The length of the shell attains 15 mm, its diameter 4⅓ mm. (Original description) The fusiform shell is whitish, faintly banded with light brown. It is spirally ridged and striated and marked with the flexuous lines of growth. This species is peculiar on account of the absence of longitudinal ribs.
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The length of the shell attains 18 mm. (Original description) The rather solid shell has an ovately fusiform shape. It is of a dull chalky- grey colour. The shell contains 7 whorls, angulated at the upper part, closely longitudinally ribbed and transversely ridged, forming flattened nodules at the points of intersection.
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The size of the shell varies between 15 mm and 35 mm. (Original description) The fusiform shell is biconical, with an expressed rounded keel angulating the whorls, and a broad prominent lopsided beak. Sculpture : There are no axial ribs. The lines of growth are strong, hair-like, unequal, and close-set.
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The length of the shell varies between 5 mm and 10 mm. The elongated, fusiform shell has a pointed spire. The shell contains 7 convex whorls, of which two smooth whorls in the protoconch. They show many pronounced axial ribs and smaller decurrent, lamellar threads forming a reticulation with nodules.
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The length of the shell attains 13 mm, its diameter 5½ mm. The fusiform shell is elongated with impressed sutures. The high, pointed spire contains 7 whorls, of which two smooth whorls in the protoconch. The subsequent five whorls are convex, cancelled by numerous axial ribs and lamellar decurrent threads.
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The length varies between 12 mm and 14 mm, its diameter between 5 mm and 5.5 mm. The shell has a fusiform shape and a rather high acuminate spire. The body whorl is bulbous. The whorls are covered with regular longitudinal ribs forming small reticulations, when crossed by the spiral riblets.
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The length of the shell varies between 5 mm and 15 mm. The protoconch is multispiral. (Original description) The reddish-brown shell has an oblong-fusiform shape. The six whorls show about 20 pronounced axial ribs, crossed by transverse riblets (about 5 in the upper whorls) forming a latticed structure.
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The length of the shell reaches 9 mm. The very slender, fusiform, turriculate shell has a high spire and a pointed apex. It contains 7 convex whorls, of which two in the protoconch. They show longitudinal ribs, lamellar, spaced, narrow, elevated, and smaller decurrent threads forming a reticulation with nodules.
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The length of the shell attains 10 mm, its diameter 3 mm. (Original description) smooth, shining, white shell is shortly fusiform. It contains 6 to 7 whorls, of which about 2 form a smooth, convexly-whorled protoconch. The subsequent whorls are slightly convex, with a narrow depression below the simple suture.
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The length of the shell attains 15 mm, its diameter 7 mm. (Original combination) The small shell is pretty regularly fusiform. It has an elevated, rather acute spire, which forms nearly one-half the total length of the shell. It contains six to seven moderately convex whorls, with an impressed suture.
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The length of the shell attains 6 mm, its diameter is 3 mm. (Original description) The shell is moderately elongate, somewhat fusiform in shape, the spire well raised. Its colour is white, the protoconch stained with chestnut. The shell contains about 7 whorls, rather flattened, with a well-marked suture.
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Larva. "Fusiform; head conical, the vertex pointed and projected forward, anal segment pointed and projected hind ward. Colour pale green, with paler transverse lines on each segment; a lateral and a sublateral pale- bordered reddish stripe extending the whole length including the anal segment. Feeds on bamboo." (After Frederic Moore) Pupa.
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The length of the shell attains 11.2 mm, its diameter 4.3 mm. The shell has an ovate fusiform shape with a narrow base. Its color is dirty white There is a faint indication of spiral banding . The shell contains 8 whorls, of which two smooth conical whorls in the protoconch.
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The shell has a prominent columella with a rounded ridge in the fasciole. Color translucent white with a white blunt round apex. Locality: Arafura Sea, between the northern part of Australia and southern Indonesia, west of Irian Jaya. Ancillista fusiformis Petterd, 1886 The shell is solid with broadly ovate-fusiform.
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The length of the large, elongate, conical shell varies between 60 mm and 244 mm. There is a thick, chalky periostracum on the shell. The axis of the triangular-fusiform aperture makes a 45° angle with the shell. The shell has a sinuous outer lip and a central siphonal canal.
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The length of the shell attains 5 mm, its diameter 2 mm. (Original description) The narrow shell has an ovate-fusiform shape. It is turreted and sharply angled below a sloping shoulder. Its colour is white, from the suture to the angle opaque, below the angle hyaline with opaque beads.
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The length of the shell attains 23.5 mm, its diameter 6 mm. The strong shell is elongately-fusiform, with long, slender spire and a short siphonal canal. It is yellowish-grey. The shell contains 11 whorls, of which about 3 form a convexly-whorled protoconch, with the common criss-cross lines.
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The inflorescence is unbranched or sparsely branched, with many slightly fragrant, upturned, cup-shaped flowers less than in diameter. The petals are fleshy, and are yellow with purplish-brown stripes; they have a thick, white, three-lobed lower lip, and a short spur. They are followed by cylindrical or fusiform capsules.
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Oikobesalon is an ichnogenus of unbranched, elongate burrows (a type of trace fossil) in originally soft substrate. The burrows are unbranched and straight, single-entrance with circular to elliptical cross-section. They are covered with thin mineralized lining. The burrow lining has a transverse ornamentation in the form of fusiform annulation.
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The shell length attains 11 mm; its diameter 4 mm. The slender, glossy shell is fusiform. It contains 7 whorls, of which 1½ compose a small, smooth, helicoid protoconch. Its colour is white, ornamented with four to six pale orange bands, appearing only in the interstices, not on the ribs.
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The length of the shell attains 10 mm, its diameter 4 mm. (Original description) The small shell has a fusiform shape. The spire is elevated with a rounded apex. It contains six whorls, slightly convex, with six sharp, slighdy oblique, transverse ribs arranged in slightly twisted lines radiating from the apex.
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The length of the shell varies between 31 mm and 62 mm. The white, slender shell has a fusiform shape It contains 9 -10 whorls. The whorls are angulated in the middle, concave in the upper portion and convex below. The whorls are bordered below the suture with a thickened margin.
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The size of the fusiform, varicose shell varies between 25 mm and 42 mm. The spire is higher than the other species in this genus and consists of six whorls. The hollow sutures are visible when not hidden by the subsequent whorl. The body whorl is rather broad and spindle- shaped.
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The length of the shell varies between 12 mm and 20 mm. (Original description) The shell has an elongately fusiform shape, with a high spire and moderately long siphonal canal. It is smooth, shining, pellucid and white. It contains 8 whorl, of which 3½ seem to form a convexly whorled protoconch.
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The length of the shell attains 17 mm, its diameter 8 mm. The fusiform shell is slender and has a dark white color. The damaged holotype contains six whorls, including two smooth apical whorls. The others are impressed at the suture, swollen and contain spiral lirae (12 on the body whorl).
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The Yaqui sucker's body is fusiform and somewhat elongated, with relatively large head and eyes. The lips can be distinguished in that they are less fleshy than other Arizona suckers. The high dorsal fin has twelve fin rays. Anal, pelvic, and dorsal fins are all particularly larger in males than females.
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The length of the shell attains 4.5 mm, its diameter 2 mm. (Original description) The small, rather solid shell has a fusiform shape. Its colour is buff, with an indistinct pale ferruginous band on the shoulder. It contains six whorls, rounded above, constricted at the sutures, and contracted at the base.
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A difficulty in recognizing faces can be explained by prosopagnosia. Someone with prosopagnosia cannot identify the face but is still able to perceive age, gender, and emotional expression. The brain region that specifies in facial recognition is the fusiform face area. Prosopagnosia can also be divided into apperceptive and associative subtypes.
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The length of the shell attains 6 mm, its diameter 2.3 mm. (Original description) The solid, cream-colored shell is narrowly fusiform. It contains seven whorls, including a small, smooth, two-whorled protoconch. The sculpture shows about eight prominent curved ribs that undulate the suture, and extend to the base.
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Dermal dendrocyte hamartoma is characterized by a rounded, medallion-like lesion on the upper trunk in which there is a proliferation of fusiform CD34, factor XIIIa-positive cells in the mid and reticular dermis.James, William; Berger, Timothy; Elston, Dirk (2005). Andrews' Diseases of the Skin: Clinical Dermatology. (10th ed.). Saunders. .
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The length of the shell attains 6 mm. (Original description) The small, compact shell has a gradately fusiform shape. It contains 8 whorls, of which the uppermost two are nuclear, smooth, white, globular. The remainderare plicately ridged spirally at the sutures, and, below these, angularly sloping and closely longitudinally ribbed.
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A siphon whelk Penion cuvierianus jeakingsi, collected from Golden Bay in New Zealand. The shells of species in this family are moderate to large in size, conical to fusiform in shape. The shell often has deep sutures. The shell surface is generally smooth, sometimes with a spiral and/ or axial sculpture.
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The reproductive organs include an anterior genital atrium, armed with 12-14 hooks, a paired vaginae ventrolateral, near the genital atrium, a foldedovary and 12-18 testespost-ovarian, located between the intestinal branches and extend posteriorly to the anterior part of the haptor. Eggs are fusiform, with filaments at both ends.
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Most epipelagic fish have streamlined bodies capable of sustained cruising on migrations. In general, predatory and forage fish share the same morphological features. Predator fish are usually fusiform with large mouths, smooth bodies, and deeply forked tails. Many use vision to prey on zooplankton or smaller fish, while others filter feed on plankton.
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Above the middle of each whorl, there is a strong carination that projects slightly. The body whorl shows a tendency to a second carination. The whole surface is covered with unequal and irregular threads as well as by somewhat broken microscopic lines. (Original description) The high, narrow shell has a biconically fusiform shape.
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The length of the shell attains 6 mm, its diameter 3 mm. (Original description) The small, dull white shell is fusiform, with a large smooth white protoconch of 1½ whorls and 3½ subsequent whorls. The suture is distinct. The whorls are moderately rounded, sometimes with a shoulder in front of the suture.
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The narrow shell aperture, which is ovate and pointed on the top, can be closed with an operculum. The thick shell is oviform to fusiform, with a short (sometimes sunken) conical apex. They have spiral sculpturing. The elongated aperture opens up from narrow at the posterior notch to enlarged at the base.
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The length of the shell attains 13 mm, its diameter 5 mm. (Original description) The shell is rather large and thin, regularly fusiform. Its colour is a pale yellow-orange, with a zone of alternate brown and buff beneath the suture. It contains 8 whorls, of which three are included in the protoconch.
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The length of the shell varies between 6 mm and 12 mm. (Original description) The fusiform shell is white, tinged more or less with reddish brown. It shows numerous crowded small ribs, which become obsolete near the outer lip, and crowded spiral striae, which are finer on the spire. The: apex is cute.
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The shell grows to a length of 40 mm. (Original description) The robust shell is fusiform. The whorls slope from the summit and the periphery to a depressed line midway between the sutures. The portion posterior to the median line is smooth excepting the strongly retractive lines of growth and spiral striations.
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The length of the shell attains 11.5 mm, its diameter 3.5 mm. The white fusiform shell contains 9 whorls, of which two dull, shining whorls in the protoconch. The other whorls are convex with oblique, acute, longitudinal ribs (11 in the body whorl). Three spiral lirae form nodules when crossing the ribs.
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The length of the shell attains 18 mm, its diameter 8 mm. The fusiform shell has an elongate, acute spire and contains 8½ whorls of which two in the protoconch. The subsequent convex whorls are somewhat angular and show numerous rounded, obtusely angulated longitudinal plicae. The shell is finely spirally lirate throughout.
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The length of the shell attains 18.5 mm, its diameter 6.5 mm. (Original description) The shell is ovately fusiform, turreted, pale fleshy brown. It contains 8 whorls. The first are globular, glassy, smooth, the rest concave above, angled at the middle and a little concave below the angle, longitudinally flexuously obsoletely plicated.
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The shell grows to a length of 11.5 mm; its diameter 3.5 mm. The fusiform shell contains nine whorls, of which two dull, shining whorls in the protoconch. The other whorls are convex with oblique, acute, longitudinal ribs (11 in the body whorl). Three spiral lirae form nodules when crossing the ribs.
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The length of the shell varies between 5.32 mm and 8.04 mm. (Original description) The fusiform, shining shell is longitudinally coarsely ribbed (14 on the body whorl) and crossed by coarse raised striae. The protoconch consists of three brown conical whorls. The five whorls of the teleoconch are rounded at the sutures.
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The length of the shell attains 11.5 mm, its diameter 7 mm. (Original description) The small shell is translucent white or yellowish, of porcellanous texture. The protoconch has a sinusigerid (or diagonally cancellate) structure, followed by 5½ normal whorls. The general shape is elegantly fusiform, but with a rather blunt-ended siphonal canal.
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It has been speculated that, like the Steller's sea cows, the front limbs were used as holdfasts. The Cuesta sea cow was among the largest of the sirenians to have ever lived, reaching up to in length and possibly . The body was fusiform, being tapered at both the head and the tail.
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The length of the attains 8.5 mm, its diameter 3 mm. The solid, rugged shell has an elongate-fusiform shape. It contains whorls, including the protoconch of one whorl and a half, smooth, round, and blunt. The whorls on the spire are sloping, scarcely concave in the upper part, convex in the lower.
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The shell reaches a length of 7⅔ mm and a diameter of 3 mm. The ovate-fusiform shell is slighly pink with a reddish line around the body whorl. The shell contains eight whorls, including three smooth, convex whorls in the protoconch. The subsequent whorls are convex and somewhat shouldered above the middle.
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The white, fusiform shell is not very solid. The turreted spire is fairly high. The shell contains seven convex whorls, separated by a well-marked suture. The only remaining whorl of the protoconch is adorned at the top with arched longitudinal costules and, below, with a very fine and tight diagonally cancellated sculpture.
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The length of the shell attains 39 mm, its diameter 18 mm. (Original description) The thin, fusiform shell is white, with a pale yellowish periostracum,. It contains six whorls rounded, flattened a little over the anal fasciole in front of the suture, which is very distinct but not channelled. The protoconch is eroded.
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The length of the shell attains 8.5 mm, its diameter 4 mm. (Original description) The small shell is lanceolate-fusiform. Its colour is buff, stained with ferruginous at the extremities. The shell contains eight whorls, the first three minute, smooth, forming the protoconch, the rest sculptured, gradate and rapidly increasing in size.
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The size of an adult shell varies between 30 mm and 90 mm. The fusiform shell is less carinated and has more rounded revolving ribs than other species in this genus. The sutures are characterized by large spots and smaller ones elsewhere, coalescing into longitudinal streaks.George Washington Tryon, Manual of Conchology VI, p.
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The length of the shell attains 9 mm, its width 3 mm. (Original description) The shell is elongately fusiform, with a rather short siphonal canal. It is rather strong, yellowish-white, with traces of red-brown bands (bleached). It contains scarcely 9 whorls, of which about 3 form a convexly whorled protoconch.
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The length of the shell attains 12 mm, its diameter 5 mm. (Original description) The shell is fusiform, attenuate at both ends, ivory white, between the lirae tinged with very pale red. The spire is raised and longer than the aperture. The shell contains 7 whorls, convex, angular behind and excavate above.
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The ascospores have a longitudinal rim or are otherwise described as smooth. This species was initially isolated from rotten black spruce wood found under Sphagnum peat in Canada. Pseudogymnoascus bhattii Samson has single-celled, hyaline to yellow fusiform ascospores which are described as flattened on one side. No anamorph (asexual state) was described.
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An adult individual could reach over . Eurhinosaurus followed the regular body morphology, with a fish-like fusiform body including well developed dorsal fin, hypocercal caudal fin, Crofts S. B., Shehata R. and Flammang B. E. 2019. Flexibility of Heterocercal Tails: What Can the Functional Morphology of Shark Tails Tell Us about Ichthyosaur Swimming?.
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Like other ichthyosaurs, Eurhinosaurus was a high-speed swimmer. Eurhinosaurus used the lateral oscillation of their caudal fluke on a flexible tail stock for swimming. Eurhinosaurus had a slender fusiform body with long limbs and fluke. Eurhinosaurus in the Urweltmuseum Hauff Neural spines of fluke vertebrae were very short and almost erect.
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Fins contain decorative markings. Its body shape is fusiform and robust, round in cross-section. Typical adult size is 100–150 mm TL (4–6 in), with a maximum of about 225 mm (9 in). It has a forked tail and a single relatively short dorsal fin with 8 rays and without spines.
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The shells of Turbinella angulata can reach a size of . These large shells are heavy and fusiform, with a sculpture of 8 to 10 prominent ribs angled at shoulder. Columella shows three strong folds. The basic colour of the external shell surface is white, while the inner are may be pink or orange.
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The white shell has a fusiform shape. It measures up to 15 mm, with a moderately high spire of shouldered whorls. The protoconch is small and consists of little more than one whorl. The teleoconch shows a sculpture of axial lamellae and spiral cords (4–5 on penultimate whorl) forming a coarse lattice.
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The shells of Actinoceras are generally straight and long, although some are breviconic. Some are fusiform with the diameter decreasing from the anterior end of the phragmocone toward the aperture. Chambers are short and contain cameral deposits which are more concentrated apically and ventrally. Septa are close spaced, sutures are mostly transverse.
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The texture varies from suede-like to floccose in texture. The species also have an olivaceous to black reverse. The conidia from which the hilum extends, are either straight, curved, slightly bent or ellipsoidal to fusiform. and are formed on the top through a pore (poroconidia) on an elongated sympodial angled conidiophore.
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Shells of Amoria undulata The length of the shell varies between 60 mm and 120 mm. These shells are elongated, fusiform, smooth and solid and roundly shouldered, with long pointed conical spire. Suture shows a callous edge. The aperture is elongate, salmon to orange in colour, with smooth outer lip, thickened in adults.
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The length of the shell attains 7 mm, its diameter 2 mm. (Original description) The solid, fusiform shell has a whitish color or is flesh-colored. It contains 9 whorls, of which two globose and almost translucent whorls in the protoconch. The third and sometimes the fourth whorl show simple spiral carinae.
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Fruit bodies are effused, thin, and whitish. Microscopically they have colourless hyphae, 3 to 8 μm wide, without clamp connections. The basidia are ellipsoid to broadly club-shaped, 10 to 12 by 7 to 8 μm, bearing 4 sterigmata. The basidiospores are narrow and fusiform, 9 to 13 x 3 to 5 μm.
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All four fusiform belong to the low G+C content, Gram-positive bacteria group. ASF 356 is of the Clostridium species, closely related to Clostridium propionicum. ASF 502 is most related to Ruminococcus gnavus. ASF 492 is confirmed by 16S rRNA sequences as Eubacterium pexicaudatum, and is closely related to Roseburia ceciola.
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The Pyriculariaceae that reproduce sexually form perithecial fruiting bodies (ascomata), which are immersed, black and with long cylindrical necks covered in setae. Asci are subcylindrical, unitunicate, short-stipitate and with a large apical ring staining in Meltzer's iodine reagent. Ascospores are septate and fusiform. Asexual morphs are hyphomycetes with simple, branched conidiophores.
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This family is a rather heterogenous group, with wide-ranging varieties in their properties. The medium- to large- sized shells are fusiform to biconic in shape. Their size has a wide range (between 5 mm and 80 mm). The shell can be longitudinally coarsely ribbed, but axial ribs are sometimes obsolete to absent.
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The smell is weak and pleasantly musky in young fruit bodies, but becomes increasingly putrid in older specimens, reminiscent of carrion. Young specimens have a reportedly pleasant, nutty taste. The spore print is olivaceous green. The spores are fusiform (spindle-shaped) when viewed under a microscope and measure 10–16 × 4.5–7.5 μm.
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During the cross images, the subjected perceived an after-image. The results of the experiment showed that there was a significant increase of activity in the fusiform gyrus when the subject viewed the colour image. This provided more evidence to the existence of the colour centre outside of the primary visual cortex.
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The fusiform face area: A module in human extrastriate cortex specialized for face perception. [Article]. Journal of Neuroscience, 17(11), 4302-4311. the occipital face area (OFA), and the face-selective region of the superior temporal sulcus (fSTS). The FFA serves low level tasks, such as distinguishing details between similar well-known objects.
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The length of the shell attains 6 mm, its diameter 2 mm. (Original description) The small shell has a narrowly fusiform shape and a slender spire.Its colour is light reddish-brown or dull- chestnut. It contains 5½ whorls, rounded or obscurely angled above the periphery, adorned with fine spiral and longitudinal sculpture.
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The size of the shell attains 32 mm, its width : 12 mm. The not very solid, whitish shell has a fusiform shape. The rather high shell is turriculate and contains seven convex whorls, subangular at the periphery, separated by a simple suture. The whorls contain longitudinal, nodulose ribs (13 on the penultimate whorl).
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The length of the shell varies between 15 mm and 22 mm. (Original description) The fusiform shell contains ten to eleven whorls, the apical 1½ whorls being glassy and globular, the remainder are strongly longitudinally ribbed. The ribs number ten round the body whorl. The aperture is ovate-oblong, within purplish fuscous.
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The length of the shell attains 5 mm, its diameter 2 mm. This small, brownish shell has a fusiform-ovate shape. It contains 6 whorls, including two convex whorls in the protoconch. It shows 10-12 ribs, Their superior part is almost obsolete and they are almost indistinctly subnodose at the sutures.
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G. okinawae have a generally fusiform shape with seven dorsal spines, ten soft dorsal rays, one anal spine, and nine anal soft rays. At maturity they can reach a length of 3.5 cm.Gobiodon okinawae, Fishbase.org, retrieved 4 November 2007 Another species, Gobiodon citrinus, the citrus goby, has a similar appearance to Gobiodon okinawae.
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Furthermore, Arcurio, Gold, and James used BOLD fMRI mapping to determine the patterns of activation in the brain when parts of the face were presented in combination and when they were presented singly. The occipital face area is activated by the visual perception of single features of the face, for example, the nose and mouth, and preferred combination of two-eyes over other combinations. This research supports that the occipital face area recognizes the parts of the face at the early stages of recognition. On the contrary, the fusiform face area shows no preference for single features, because the fusiform face area is responsible for "holistic/configural" information, meaning that it puts all of the processed pieces of the face together in later processing.
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African-American and European-American subjects looked at images of unfamiliar African-American and European-American faces while getting fMRI scans. There was 1.5 times more activation in the right hemisphere of the brain, specifically the fusiform face areas (FFAs), when looking at same-race faces. Another finding was that memory recognition was greater for recognizing same-race faces in European-Americans which showed higher activation in the left fusiform cortex and the right hippocampal and parahippocampal regions. This demonstrates that own- and other-race faces stimulate differential activation in the FFAs, however it does not explain why activation for same-race faces takes place in right side of the brain and memory encoding takes place in the left side of the brain.
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One brain area frequently investigated by Gauthier and colleagues using fMRI is the fusiform face area (FFA). The FFA is believed to play an important role in face recognition, but Gauthier’s research has examined the role that FFA may play in the expert perception of non-face objects, such as cars in car experts.
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The length of the shell attains 4 mm. (Original description) The short shell has a fusiform shape. Its color is orange or wax yellow, white along the upper part of the whorls and anteriorly. It shows very strong transverse ribs, about nine on each whorl, smooth on the summits, with unequal microscopic spiral elevated lines.
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The length of the shell varies between 6.5 mm and 16 mm. (Original description) The small shell has a short- fusiform shape. It is whitish or feebly dotted with brown, with three brown whorls in the protoconch and four subsequent whorls. The apex of the protoconch is very small, smooth, the other two microscopically rugose.
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In a similar vein, people have looked for other category-specific areas and found evidence for regions representing views of places (parahippocampal place area) and the body (Extrastriate body area). However, more recent research has suggested that the fusiform face area is specialised not just for faces, but also for any discrete, within-category discrimination.
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The length of the shell varies between 25 mm and 43 mm. The shell has a narrowly fusiform shape. Its surface is rather dull and blackish-fuscous. It contains 11 whorls, of which the apical are smooth, shining, apparently carinate centrally, but the type specimen is a little worn and imperfect in this particular.
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The length of the shell attains 11 mm, its diameter 3.5 mm. The ovate-fusiform shell contains nine whorls, of which two smooth and polished whorls in the protoconch. The third whorl has a fine reticulation. The other whorls slope down in their upper part in a tabulate manner; the inferior part is very flat.
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The length of the shell attains 7.4 mm, its diameter 2.9 mm. (Original description) The thin shell is ovate- fusiform and has an acuminate spire. it contains five whorls of which two in the protoconch, the latter subulate with spiral punctate grooves. The colour of the shell is dead white except a cinnamon protoconch.
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The length of the shell attains 5.5 mm, its diameter 2 mm. (Original description) The slender, fusiform shell is excavate at the base and below the suture. Its colour is burnt sienna, with a cream zone on the shoulder of the body whorl. A tall and narrow protoconch contains four whorls, delicately radially ribbed.
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The length of the shell attains 17 mm, its diameter 8 mm. (Original description) The fusiform shell is moderately stout, with a high, regularly tapered spire, and very convex, shouldered whorls. These have strong, oblique, transverse ribs rendered nodulous by well- developed, raised cinguli. The shell contains six whorls, below the chestnut- colored protoconch.
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The size of an adult shell varies between 35 mm and 90 mm. The fusiform shell is somewhat less ridged and striated and has a long siphonal canal. The shoulder angle is very slight, the central ridge forming a carina. The other revolving ridges are smaller and closer than other species in this genus.
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The size of an adult shell varies between 25 mm and 32 mm. The shell is narrowly fusiform, with an elevated, acuminated spire and a long, narrow, twisted siphonal canal. The anal sinus is rather shallow and wide. The whorls show a shelf below the sutures, and a central revolving carina of small nodules.
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This evidence has led to a particular interest in this area and it is sometimes referred to as the fusiform face area (FFA) for that reason. It is important to note that while certain areas of the brain respond selectively to faces, facial processing involves many neural networks which include visual and emotional processing systems.
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The elongate, fusiform shell has a narrow aperture that is nearly half the length of the shell. The protoconch consists of two whorls. But only in a few species the sculpture of the protoconch is coarsely diagonally reticulate. The shell structure is reticulate with glossy nodules on the intersections of the ribs and lirae.
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The length of the shell attains 4.5 mm, its diameter 1.25 mm. (Original description) This neat little species has the usual fusiform shape,. It contains five whorls, exclusive of the apical, not present in our specimens. The whorls are clathrate, with longitudinal ribs and spiral lirae, these being pale ochreous-white, the interstices darker ochreous.
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They have refringent contents and are hyaline (translucent). The pleurocystidia (cystidia on the gill face) are 41.8–75 by 11.8–24 µm, frequent, scattered, and flask-shaped with short or elongated necks. Some pleurocystidia are somewhat fusiform (tapered on each end) or somewhat utriform (shaped like a leather bottle or flask), thin-walled, and hyaline.
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The length of the shell attains 5.8 mm, its diameter 2.42 mm. (Original description) The small, fusiform, fragile shell shows shouldered whorls. The body whorl is slightly shorter than the spire and ends in a rather short open siphonal canal. The sculpture consists of longitudinal and spiral threads and riblets, the former inclined slightly backward.
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The length of the shell attains 12 mm, its diameter 4.2 mm. (Original description) The small shell has an elongate-fusiform shape. The spire is elevated with a rounded apex It contains seven whorls, evenly convex, with about eleven slightly transverse, rounded ribs, which become obsolete at the sutures. The spiral sculpture is obsolete.
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Phaeodactylum tricornutum is a diatom. It is the only species in the genus Phaeodactylum. Unlike other diatoms P. tricornutum can exist in different morphotypes (fusiform, triradiate, and oval), and changes in cell shape can be stimulated by environmental conditions. This feature can be used to explore the molecular basis of cell shape control and morphogenesis.
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These parasites are generally considered non- pathogenic, and have been described in the red blood cells of desert tortoises. They are elongate to fusiform oval organisms found in the red blood cells. Although the size varies, they are larger than the cell's nucleus. The organism stains a basophilic colour and has a surrounding clear zone.
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Gamma efferents from small multipolar cells from anterior gray column innervate it. These form a part of neuromuscular spindles. Intrafusal muscle fibers are walled off from the rest of the muscle by an outer connective tissue sheath consisting of flattened fibroblasts and collagen. This sheath has a spindle or "fusiform" shape, hence the name "intrafusal".
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Following flowering firmly chartaceous to thinly coriaceous, dark greyish brown coloured seed pods form that have and oblong or fusiform shape with a length of and a width of that have long wings. The elliptical seeds inside are arranged longitudinally with a length of and a width of have a small white creamy aril.
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The height of the oblong, fusiform shell varies between 50 mm and 150 mm. The short spire of the shell consists of eight to nine ventricose whorls that become flat-shouldered and thick with age. They are transversely ridged and striated. They show six to seven frondose varices, with the fronds elevated and recurved.
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Capnocytophaga spp. are fusiform Gram-negative bacilli, and are part of the oral commensal flora. Microscopic observation revealed a high degree of polymorphism, with a variation in the size and appearance depending on the strain and culture conditions. This polymorphism is also reflected in the observation of colonies (orange-pigmented colonies, spreading on agar, etc.).
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The length of the shell attains 2¾ mm, its diameter 1½ mm. (Original description) The minute, ovate-fusiform shell contains 5 slightly convex whorls, including 1½ smooth whorls in the protoconch. Its color is blackish to reddish with below the suture a series of white granules. The 12–14 longitudinal ribs are slightly oblique.
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Spindle with yarn. lemon in geometry. Fusiform means having a spindle-like shape that is wide in the middle and tapers at both ends. It is similar to the lemon-shape, but often implies a focal broadening of a structure that continues from one or both ends, such as an aneurysm on a blood vessel.
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The parallel muscle architecture is found in muscles where the fibers are parallel to the force-generating axis. These muscles are often used for fast or extensive movements and can be measured by the anatomical cross-sectional area (ACSA). Parallel muscles can be further defined into three main categories: strap, fusiform, or fan-shaped.
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The extrastriate body area (EBA) is a subpart of the extrastriate visual cortex involved in the visual perception of human body and body parts, akin in its respective domain to the fusiform face area, involved in the perception of human faces. The EBA was identified in 2001 by the team of Nancy Kanwisher using fMRI.
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The stipe measures long by thick, and is roughly the same color as the cap or paler. The fusiform (spindle-shaped), thin-walled spores typically measure 8.2–12 by 3–4 µm, and contain a single oil droplet. T. oradivensis fruit bodies are similar in morphology to the eastern North American bolete Tylopilus balloui.
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Cerebral achromatopsia occurs after injury to the lingual or fusiform gyrus, the areas associated with hV4. These injuries include physical trauma, stroke, and tumour growth. One of the primary initiatives to locating the colour centre in the visual cortex is to discover the cause and a possible treatment of cerebral achromatopsia. Simulation of cerebral achromatopsia.
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The height of the shell attains 7.5 mm, its width 3 mm. (Original description) The strong, whitish shell has a fusiform shape. It contains six whorls, of which three form a large, convexly-whorled, smooth and shining protoconch. The whorls of the teleoconch are moderately convex, slightly concave below a strong, yellowish, subsutural spiral.
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The length of the shell attains 14 mm; its width 4.5 mm.. (Original description) The shell has a shortly fusiform shape. Its color is a uniform pale brown or luteous tint. It contains 9 whorls, the first globular, glassy, rather large, the rest encircled with three distinct keels. The uppermost is just beneath the suture.
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The length of the shell attains 21 mm, its diameter 8 mm. (Original description) The solid, oblong- fusiform shell is yellow or ochreous-brown. It contains 8-9 whorls, of which the two whorls in the protoconch are smooth, globose and blunt at the actual apex. The remainder is suturally impressed, angled, longitudinally multicostate.
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Shells of Distorsio reticularis can reach a length of . These shells are fusiform, inflated and roughly sculptured with axial and spiral ribs and low axial varices. Spire whorls are irregular, with a wavering suture. The aperture is narrow and distorted (hence the genus name), with strong teeth on the lips and a moderately developed callus.
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The length of the shell attains 24 mm, its diameter 9.7 mm. (Original description) The shell is fusiform with the spire longer than the aperture. It is chalky, apically eroded, with a pale gray, very thin periostracum and about five remaining whorls. The suture is appressed with a slightly constricted anal fasciole in front of it.
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The length of the shell varies between 5 mm and 13 mm. The shell has an ovate-fusiform shape, with a moderate, scarcely turreted spire. It contains six or seven round-shouldered whorls. The sculpture consists of about 24 sigmoid longitudinal ribs, evanescing about the middle of the body whorl, and close revolving striae across the ribs.
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The length of the shell attains 4.5 mm, its diameter 2.3 mm. (Original description) The small shell has a short fusiform shape. It contains about five whorls with a minute smooth protoconch of a 1½ whorl. its color is a color pale brown, darker in the spiral interspaces which show in the aperture as dark lines.
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The white, slightly translucent fusiform shell has convex whorls with prominent, longitudinal costae about the whole length and sloping, equidistant striae. The shell grows to a length of 4 mm to 5 mm. The oblong aperture is somewhat rounded and its length is slightly less than the total length of the shell. The siphonal canal is wide open.
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Leaves Stem The inflorescence flowers are bracteolate, axillary clusters or short racemes. The fruits are crimson in color, small sphere in shape and fusiform drupe. The mature leaves are broadly oval-oblong and base cordate to rounded in shape and glossy on the upper side. The young leaves are light green in color, turning dark green as they mature.
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The length of the shell attains 9 mm, its diameter 6½ mm. The fusiform shell is grayish-white with red spots within the suture and elongated flammules on the body whorl. The shell contains 10½ whorls of which 1½ in the vitreous, convex protoconch. The whorls of the teleoconch are slightly concave below the distinct suture.
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The length of the shell attains 17 mm. The shell is broadly fusiform. The posterior two-fifths of the whorls between the sutures shows a strongly excavated channel. The anterior three-fifths are marked by 10–12 prominent, broad, low, rounded, somewhat protractive axial ribs which are truncated posteriorly by the channel, their terminations forming cusps.
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The length of the shell attains 20 mm, its diameter 7 mm. This ovate-fusiform species contains 9 whorls. It is very remarkably coloured. The seven white stripes radiating from the apex down the blunt, continuous ribs as far as the middle of the body whorl contrast very markedly with the deep-brown ground- colour of the shell.
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The length of the shell attains 29 mm, its diameter 9 mm. Like Ptychobela suturalis (Gray, 1838), this fusiform, turreted species has a raised fillet at the suture. But it may be distinguished by its shorter body whorl, its more pronounced ribs, and the difference of colour. The shell contains 12 whorls; the first two are smooth and globose.
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The mid-fusiform sulcus was first identified in 1896 by Gustav Retzius. Retzius is known for many other discoveries such as Cajal-Retzius cells. He first identified the MFS as the sulcus sagittalis gyri fusiformis. Since his label, there have been several other proposed labels, but the MFS nomenclature is the most widely accepted in present day.
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The length of the shell varies between 8 mm and 26 mm. (Original description) The ovately-fusiform shell has a sharp spire and a short siphonal canal. It is moderately strong, yellowish, with a faint red-brown band at the base of the body whorl. The shell contains 9 whorls, of which about form a protoconch with obscure sculpture.
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The length of the fusiform shell is 53 mm and its diameter 16 mm. The shell is rather narrow with a very long spire and short siphonal canal. It is corded with larger and smaller riblets and raised lines. The shell is very slightly angulated on each whorl by a somewhat larger rib, which is occasionally bipartite.
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The length of the shell attains 3.4 mm, its diameter 1.4 mm. (Original description) The minute shell is narrowly fusiform, thin, semitransparent and spirally lirate. Sculpture : The protoconch is microscopically finely spirally striate, the succeeding whorls have 3 and the body whorl 10 to 12 equidistant fine spiral lirae. The interstices are smooth and slightly broader than the threads.
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The color of the shell is yellowish-brown, sometimes indistinctly marbled or variegated.George Washington Tryon, Manual of Conchology VI, p. 174; 1884 The length of the fusiform shell is 65 mm, the diameter 20 mm. The shell is covered with sharply carinated whorls, the carina (= a prominent knife-edge ridge) consisting of a pair of narrow ribs.
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The ribs are broad and low, crowded above, and becoming more spaced as growth proceeds. They become evanescent on the last half whorl, discontinuous from whorl to whorl, amounting to eight on the penultimate, sometimes lightly impressed and sometimes interrupted by the fasciole, which is not otherwise apparent. The suture is sinuate. The aperture is fusiform.
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The length of the shell of the shell attains 27 mm, its diameter 8 mm. The shell has a turreted fusiform shape. It contains 10 whorls. The few rounded oblique ribs, which do not extend to the suture above, and the uniform bright reddish brown or fulvous colour are the characters which chiefly distinguish this species.
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After the iris has flowered, between June and July, or up to August, it produces an ovoid, or fusiform (spindle shaped), seed capsule. That is between long, and 1.5–2 cm in diameter. It has a beak like top, attached to the remains of the perianth tube. Inside the capsule are roundish, or pear shaped (pyriform), seeds.
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The maxillary lobe(s) not stylet-like and have a pulp that is without complex organ. The apex of galea or maxillary lobe densely setose or spinose; without heavily sclerotized teeth or hooks. Lacinia without hook(s) or spine(s). Apical maxillary palpomere cylindrical to fusiform; at least as wide as or longer than preapical one.
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The size of the shell varies between 6 mm and 14 mm. The shell has a white color turning to light fawn at the top of the spire. (Original description, translated from French into English) The solid shell has a fusiform shape. It consists of one turreted and elongated, conical spirewith 7 1/2 barely convex whorls.
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The size of the small, fusiform shell varies between 5 mm and 9 mm. It has a white to pale brown color. The paucispiral protoconch has an elaborate sculpture that is different from the teleoconch. This teleoconch has up to five whorls with broad round, spiral ridges (between 2 and 11), crossed by 8 to 14 rounded, axial ribs.
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The darter characine is a small, fusiform fish growing to a maximum length of . Like other characids, it has a mouth on the underside of the head with a poorly developed upper lip. There are no dentary teeth and the pectoral fins have a single, unbranched fin-ray which the fish uses to prop itself up on the substrate.
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Other areas, such as the fusiform gyrus have inputs from higher brain areas and are considered to have top-down influence.Ramskov (2008), p. 81. The study of visual attention provides an example. If your attention is drawn to a flower in a field, it may be because the color or shape of the flower are visually salient.
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28-32 (Description by Dall) The larval shell is multispiral. The adult shell shows a small blunt protoconch of several (usually) swollen whorls, closely arcuately axially ribbed. This protoconch is dark and sculptured with criss-cross lines, strongly contrasting with the rest of the shell. The succeeding short-fusiform whorls have an axial and (fainter) spiral sculpture.
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It produces small inconspicuous bisexual flowers (diameter: 2 mm), which are pubescent, with ovate tepals clustered in axillary or subterminal panicles (length: 6 cm). The inflorescence and perianth are sparsely pubescent. The fruit is obovoid, subglobose, ellipsoid to fusiform, and mucronate, and measures about 35–60 mm long. It is scarlet or purplish brown when ripe.
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The length of the shell attains 7.5 mm, its width 3 mm. (Original description) The fusiform, pellucid, white shell has a rather short siphonal canal. It contains about 8 whorls, of which about 3 form the protoconch, which is large, convexly-whorled, at first smooth and then axially ribbed;. The teleoconch whorls are angular and concave above.
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The phallosome is rarely complex in structure. The larva is small, rarely over 10.0 mm long and typically has 12 visible segments. The shape varies from fusiform with inconspicuous projections on posterior segments to short, broad, and flattened with conspicuous dorsal and lateral plumose projections especially on the terminal segment. The colour is whitish, yellowish white, or grey.
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After the iris has flowered, between July and August, it produces a fusiform (spindle shaped), trigonal, or oblong seed capsule. It is longer than the seed capsule of Iris germanica. The capsule is loculicidal (has chambers), with 3 cells, that hold dark brown, or brown seeds. The seeds are normally lined up like rolls of coins.
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An 1835 illustration of the Atlantic mackerel. The Atlantic mackerel has an elongate, fusiform body with a long, pointed snout. The eyes are large and covered by an adipose eyelid, while the teeth are small, sharp, and conical. Scales are also small, with the exceptions of those immediately posterior to the head and around the pectoral fins.
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Pseudogymnoascus alpinus Müller ascospores are described as navicular-fusiform in shape and hyaline to yellow in color. Typically, one side of the ascospore is flattened with 3 longitudinal rims. Müller collected P. alpinus from soil below Winter Heath in Switzerland. Pseudogymnoascus appendiculatus Rice & Currah differs from other Pseudogymnoascus species by the presence of long, pigmented, branched peridial appendages.
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This species was first isolated from infected hibernating bats in New York state. Recently, this species has been isolated from cave environments no longer inhabited by hibernating bats. Pseudogymnoascus roseus Raillo has smooth ascospores that are ellipsoid to fusiform and can vary from yellow to reddish brown. Conidia are typically hyaline in color and globose to ellipsoid in shape.
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They mine the leaves of their host plant. The mine has the form of a tentiform mine on the underside of the leaf. The mine is very small, almost circular and is not visible on the upperside as an inflated swelling. The dense white fusiform cocoon, suspended hammock-like in the mine, has a smooth surface.
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The only other form of fish closely related to Gila longfin dace is the Yaqui longfin dace, which also occurs in Arizona. The body is “fusiform,” meaning that it is spindle-shaped (wide in the middle and tapers at both ends). The scales are small. A typical Gila dace has an average length of 3.5 inches.
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Hemifusus ternatanus has a shell that reaches a length of 70 – 270 mm. The shape of this shell is slender, fusiform, with a tall spire and a long siphonal canal, but it shows high degree of geographical variations in sculpture and color. The colour is usually light brown, while the aperture is light cream to whitish.
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The bigeyed sixgill shark (Hexanchus nakamurai) is a cow shark of the family Hexanchidae. Its dorsal surface has a brownish-gray color, and is sharply separated from the light coloring of its ventral surface. The eyes are a fluorescent green while the shark is alive. The body of this shark is small, slim, and fusiform in shape.
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The cap diameter can reach 15 cm, and as it matures, it flattens out. The white gills are thick, distant and have an adnate to weakly decurrent attachment to the stem. The white stem is tall, fusiform, thick and robust. It is ornamented by numerous whitish flakes which are covered in a thick layer of slime.
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The Zuni bluehead sucker has a slender fusiform body with a subterminal mouth. The fish’s mouth contains fleshy lips and protuberances, mainly on the lower lips. Both lips are notched laterally, and the middle separation of the lips extends all the way to the fish’s anterior margin. The position of the lips is unique to this species.
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The length of the shell attains 6.5 mm, its diameter 2.75 mm. The small shell has a fusiform shape. The rather short shell contains 6 convex whorls, separated by a deep and undulating suture. They show 12 thick and rounded axial ribs between the sutures, but not succeeding each other from one whorl to the next.
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The plants produce one peduncle with one solitary flower or 2-5 flowered cymes. Fruits in heads fusiform in shape, with 7–20 cm long pedicels. Fruits called achenes measure 2.5-3.5 mm long and 2–2.5 mm wide with a rounded outline and flat in shape, densely woolly, not winged also with straight 1.5 mm long beaks.
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The length of the shell attains 15 mm, its diameter 6 mm. (Original description) The shell is rather large for the genus, regularly fusiform, thin and translucent. It is bluish white, with a roughened surface of waxy lustre, and a shining tip of a delicate yellow tint. The spire measures about half the length of the shell.
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The fusiform shell is of moderate size and its length varies between 16 mm and 40 mm. The color of the shell is somewhat white with spiral bands with a reddish-brown to bluish-black color on the leading edge of each varix. The shell has a rather short, subacute, conical spire. There are five convex whorls.
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Fruit bodies have grayish- yellow to brownish-orange caps measuring in diameter. The pore surface on the cap underside is initially orange to red, later becoming brownish in age. Pores are small, measuring 1–2 mm in diameter. Spores are fusiform (tapered at both ends) to cylindrical with smooth walls, measuring 7–8 by 3.5–4 μm.
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The basidiocarps (fruit bodies) are effused, thin, and whitish. Microscopically they have colourless hyphae, 3 to 9 μm wide, without clamp connections. The basidia are ellipsoid to broadly club-shaped, 9 to 14 by 8 to 12 μm, bearing four sterigmata. The basidiospores are ellipsoid and broadly fusiform (spindle-shaped), measuring 6 to 11 by 4 to 6 μm.
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The length of the shell attains 6 mm, its diameter 2 mm. (Original description) The slenderly fusiform shell is pale yellowish brown, blotched here and there with light chestnut. It contains 7 whorls, convex, angled above. The first two are horny, the later whorls sculptured with transverse ridges and fine spiral striae, presenting a finely cancellate appearance.
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The size of the shell varies between 28 mm and 51 mm. The smooth shell is ovate, oblong and fusiform. It is, whitish, slightly diaphanous, surrounded by two brown bands, interrupted by very prominent chestnut-colored spots upon the lowest whorl of the spire. A band of the same color, but less distinct, exists upon the other whorls.
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Antisocial behavior may be related to head trauma. Antisocial behavior is associated with decreased grey matter in the right lentiform nucleus, left insula, and frontopolar cortex. Increased volumes have been observed in the right fusiform gyrus, inferior parietal cortex, right cingulate gyrus, and post central cortex. People that exhibit antisocial behavior demonstrate decreased activity in the prefrontal cortex.
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Shells are fusiform with a tall spire of roughly equal height to the aperture and siphonal canal combined. Protoconch morphology is also highly variable, from 1.5 - 4.0 whorls in height. The siphonal canal of the shell is often long to protect the elongated siphon. Small shells (or fossils) can be confused with those of Aeneator or Antarctoneptunea.
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The length of the shell attains 9 mm, its diameter 2 mm. (Original description) A very attenuate, fusiform, solid species. It is eight-whorled, inclusive of the two glassy shining apical, longitudinally strongly ribbed. The shell contains few ribs, seven on the body whorl, crossed spirally with few intersecting lirae, and between these run many fine striations.
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Cylindrical asci are released by oozing. There are eight ascospores which are 1-septate and ellipsoidal to fusiform. Because peritheca have not been observed in the field, it is not thought that ascospores are an important route for infection. The infection is usually carried from tree to tree by the rain, the wind or by bark-feeding insects.
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At the broadest level, their body is divided into head, trunk, and tail, although the divisions are not always externally visible. The body is often fusiform, a streamlined body plan often found in fast-moving fish. They may also be filiform (eel-shaped) or vermiform (worm- shaped). Fish are often either compressed (laterally thin) or depressed (dorso-ventrally flat).
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The lacunae are situated between the lamellae, and consist of a number of oblong spaces. In an ordinary microscopic section, viewed by transmitted light, they appear as fusiform opaque spots. Each lacuna is occupied during life by a branched cell, termed an osteocyte, bone-cell or bone-corpuscle. Lacunae are connected to one another by small canals called canaliculi.
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The maximum shell length for this species is 18 cm, usually to 14 cm. Like in all Mitridae, the shell is elongate, somewhat fusiform, with a high spire. The aperture is elongate and narrow, and the outer lip is smooth and not lirate (grooved). Unlike other species of the genus Mitra, the spire is not strongly shouldered.
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The length of the shell attains 7.5 mm, its diameter 3.2 mm. (Original description) The small shell has an elongate- fusiform shape. It is thin and fragile, white, turreted, axially costate and spirally striated. The sculpture consistis of narrowly rounded, slightly oblique axial riblets, about 16 on the body whorl, nearly continuous over the whorls, obsolete on the base.
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The length of the shell reaches 29 mm. (Original description) The long, narrow shell has a , biconically fusiform shape, sharply carinated and tubercled on the keel, polished, thin, white. Sculpture. Longitudinals—there are very many, fine, close-set, slightly raised flexuous lines of growth. Spirals—there is a sharp keel which lies about down the whorls.
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The length of the shell attains 7.5 mm, its diameter 3 mm. (Original description) The small, solid shell has a fusiform shape. It is angled at the shoulder, contracted at the sutures and at the base. Its colour is crystalline white, with or without a dorsal blot and zone of ochraceous- orange only on the body whorl.
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Lugaro cells are primary sensory interneurons of the cerebellum, that have an inhibitory function. They are fusiform, having a spindle shape that tapers at each end. They were first described by Ernesto Lugaro in the early 20th century. Lugaro cells are found just beneath the layer of Purkinje cells between the molecular layer and the granular layer.
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A chaste pale violet species, with occasional brown dorsal shading. Sometimes, indeed, the ground colour is pale-brown or ochre, while other specimens are pure white The length of the small shell attains 5 mm, its diameter 3 mm. The shell has a thickened fusiform build. It is longitudinally thickly costate, the ribs few in number.
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The length of the shell attains 5.5 mm, its width 1 mm. (Original description) The small shell has a fusiform shape. It is blunt at each end, rather thin, scarcely opaque. It consists of 5½ whorls, the first two constituting a glassy dome-shaped protoconch, the rest are rather inflated, constricted at the sutures and excavate at the base.
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Sonora suckers have a fusiform body, with large heads and chubby figures. They have generally large lower lips, with no fleshy lobes. Sonora suckers have unique square dorsal fins, and relatively large scales (but fewer than most fish in the genus Catostomus). Their coloration is distinctly bi-colored, with a yellow underside and brownish dorsal side.
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The falls have a central yellow crest. The standards are narrow and oblanceolate, and 3 cm long and 4 mm wide. It has a 2 cm long perianth tube, 2.2 cm long stamens, 1.5 long and 0.5 cm wide, fusiform (spindle-shaped) ovary and 3 cm long style branches. The styles branches have narrowly triangular lobes.
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The small shell seldom exceeds 10 mm and has usually a fusiform-biconical shape. The axial riblets in the bluntly domed protoconch are absent or restricted to the terminal half-whorl. The sculpture consists of strong spiral lirae or cords with fine collabral threads crossing spiral lirae. It often contains a peripheral keel but never a conspicuous shoulder angle.
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There is strong evidence that the use of psychedelic drugs tends to induce or enhance pareidolia. Pareidolia usually occurs as a result of the fusiform face area—which is the part of the human brain responsible for seeing faces—mistakenly interpreting an object, shape or configuration with some kind of perceived "face-like" features as being a face.
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The length of the fusiform shell attains 10 mm, its diameter 3.75 mm. It contains 10½ whorls, of which 1½ in the protoconch. This species is conspicuous for its exactly continuous longitudinal ribs, those of whorl succeeding whorl descending in a perfectly straight line to the base. These whorls are slightly once-angled beyond the centre.
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Longleaf pine is naturally resistant to fusiform rust so their seeds are not treated with triadimefon. Southern pine nurseries fumigate the soil every four years and hardwood nurseries fumigate yearly. Fumigation promotes growth of beneficial fungus Trichoderma and less of the harmful Phythium fungus. In forest integrated pest management, insecticides are not applied until an infestation is observed.
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The length of the shell attains 13 mm, its diameter 4 mm. A most graceful white fusiform species, resembling a mitra of the genus Cancilla. It contains nine whorls of which three straw-colored in the protoconch. On the fourth and fifth whorls the longitudinal ribs are fewer and more incrassate than on the penultimate and body whorl.
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At maturity, they take on a silver-blue sheen. The easiest way of identifying them as an adult is by the black spots predominantly above the lateral line, though the caudal fin is usually unspotted. When they reproduce, males take on a slight green or red colouration. The salmon has a fusiform body, and well-developed teeth.
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Additionally, some processing of the visual field that corresponds to the ventral stream of visual processing occurs in the lower portion of the superior temporal gyrus closest to the superior temporal sulcus. The medial and ventral view of the brain – meaning looking at the medial surface from below the brain, facing upwards – reveals that the inferior temporal gyrus is separated from the fusiform gyrus by the occipital-temporal sulcus. This human inferior temporal cortex is much more complex than that of other primates: non-human primates have an inferior temporal cortex that is not divided into unique regions such as humans' inferior temporal gyrus, fusiform gyrus, or middle temporal gyrus. This region of the brain corresponds to the inferior temporal cortex and is responsible for visual object recognition and receives processed visual information.
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The length of the shell attains 31 mm, its width 11.2 mm and contains 10 whorls. The elongate fusiform spire is rather broadly conical with a prominent granulose basal keel and a heavier, rounded peripheral keel above one third of the height of the whorl. The siphonal canal is long and straight. Indo-Pacific mollusca; Academy of Natural Sciences of Philadelphia.
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The shell can grow to a length of . It is fusiform and fairly thick, with a spire angle of 40-42°. The protoconch has one and a half smooth, conical whorls, while the teleoconch has eight whorls which are moderately convex. Each whorl has three elaborately sculptured varices (thickened protruding ridges) with nine to twelve fluted cords extending onto the varices.
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The length of the shell attains 9 mm, its diameter 5 mm. (Original description) The white, translucent shell is of moderate size, stout-fusiform, with swollen, angulated whorls, and a distinctly turreted, rapidly tapering spire. The sculpture consists of rather distant ribs and much finer spiral cinguli. The largest specimen, which is probably immature, has four whorls below the protoconch.
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The length of the shell attains 9 mm, its diameter 3.5 mm. (Original description) The strong, fusiform shell has a rather long siphonal canal. it is light yellowish-brown, with faint red-brown bands, interrupted by the ribs. There is one rather broad band, just below suture, the second below the periphery, a third near the base of the body whorl.
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The length of the shell attains 16¾ mm, its diameter 6½ mm. (Original description) The thin, fusiform shell is transparently white. It contains about 9 whorls of which about 3 form a reddish-brown protoconch, with crossed riblets. The subsequent whorls are angular, the upper part excavated, with remote, faint, axial plicae below the suture, nearly lacking in the body whorl.
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The length of the shell attains 6.5 mm, its diameter 2.5 mm. The ovate-fusiform shell is turreted. Its color is dark white with very indistinct spiral reddish lines, of which there appear to be three on the body whorl. The shell contains six whorls with a distinct peripheral angle as the result of the presence of a weakly developed peripheral cord.
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The length of the shell is 4.1 mm, its diameter 1.6 mm. (Original description) The uniform light brown shell is small, narrow, somewhat solid and has a fusiform shape. It is composed of 5½ slightly convex whorls, with a well impressed suture. The embryonic portion consists of 1½ whorl smooth and slightly swollen from the dorsal aspect, and apparently with an exsert tip.
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The size of the shell varies between 25 mm and 42 mm. (Original description) The shell has a fusiform shape. The whorls are marked by a narrow, obscurely nodulous spiral keel at the summit, which is followed by a depressed spiral sulcus that equals the keel in width. The two comprise the posterior two-fifths of the whorls between the sutures.
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The length of the shell varies between 10 mm and 27 mm. The dark sienna-brown shell is elegantly fusiform. It contains 8 whorls (the protoconch is imperfect in the specimens). The remainder are very closely and finely longitudinally costate, about sixteen on the body whorl, slightly oblique, warm-brown in colour, with a spiral white band just below the sutures.
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The length of the shell attains 50 mm, its diameter 35 mm. The fusiform and turreted shell contains 12 whorls. These are excavated above, carinated and angulated in the middle and below the angle obliquely plicated. The upper half of each whorl is nearly smooth, as the plications extend scarcely beyond the central large spiral liration which marks the angulation of the whorls.
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The length of the shell attains 10 mm, its diameter 3 mm. A very delicate flesh-coloured shining shell with oblong aperture and produced siphonal canal. This attenuate-fusiform shell contains 7 whorls, including two decussated and alveolate apical whorls. They are much impressed at the sutures, longitudinally few-ribbed, there are but seven on the body whorl, and spirally obscurely lirate.
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The length of the shell attains 16.5 mm, its diameter 5 mm. (Original description) The strong, ovately-fusiform shell has a very short siphonal canal. It is yellowish-grey, with a few of the lirae reddish-brown. It contains 9 or 10 whorls, (the topmost one broken) of which the upper one is nearly smooth, but with traces of criss-cross lines.
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The length of the shell attains 23 mm, its diameter 11 mm. The white ovately fusiform shell contains 10 whorls. In some of the upper whorls the upper margin just beneath the suture is also more or less nodose. The tubercles just above the suture are crossed by two or three sulci, so that each of them is tripartite or quadripartite.
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The suture is very finely obliquely striated and with a spiral rib. The aperture is oval. The siphonal canal is short.F.W. Hutton, Catalogue of the Tertiary Mollusca and Echinodermata of New Zealand in the Collection of the Colonial Museum; New Zealand Geological Survey, 1873(described as Pleurotoma wanganuiensis) (Description by Henry Suter) The small, fairly solid, whitish shell has a fusiform shape.
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The length of the shell attains 73 mm, its diameter 30 mm. (Original description) The large, fusiform shell is of a rich reddish brown. It is deepest on the columella, with a closely adherent, very thin, polished epidermis. The shell contains seven whorls, without the protoconch, which is lost in the specimen, while the outer coat of the apical whorls is much eroded.
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The size of an adult shell varies between 15 mm and 30 mm. The elongate, ovate-fusiform shell has a buff color. It differs from Typhlodaphne purissima (Strebel, 1908) by being slender, having a smaller protoconch (1½ whorls) and showing flexuous, closely spaced, subobsolete axials (numbering 18 to 24) over the 5 whorls of the teleoconch. The shoulder is slightly concave.
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The size of an adult shell varies between 20 mm and 40 mm. (Translated from the French original description) The solid, shiny shell has an extended fusiform shape. The high, turreted spire consists of 11 almost flat whorls (the first one is missing). They show at their top an angular keel and at the bottom a large bead with obliquely lined nodules.
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The remainder are waxy white, with the peculiar waxy lustre of abyssal shells. The shell is rather short-fusiform, the spire subturreted by the concave ante-sutural band. The spiral sculpture consists of about twenty-four flattened threads, with wider interspaces, before the band on the body whorl. Only two or three of these threads are visible on the upper whorls.
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The shell grows to a length of 25 mm, its diameter 10 mm. (Original description) The shell has an elongated-fusiform shape, with a high, somewhat turreted spire, and a moderately elongated, slightly curved siphonal canal. The posterior sinus is situated considerably below the suture, close to the shoulder. The whorls are moderately convex and strongly angulated near the middle.
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Infectious tenosynovitis occurs between 2.5% and 9.4% of all hand infections. Kanavel's cardinal signs is used to diagnose infectious tenosynovitis. They are: tenderness to touch along the flexor aspect of the finger, fusiform enlargement of the affected finger, the finger being held in slight flexion at rest, and severe pain with passive extension. Fever may also be present but is uncommon.
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The psoas major ( or ) is a long fusiform muscle located in the lateral lumbar region between the vertebral column and the brim of the lesser pelvis. It joins the iliacus muscle to form the iliopsoas. In animals, this muscle is equivalent to the tenderloin. Its name derives from Greek ψόας, psóās, meaning 'of the loins' (genitive singular form of ψόα, psóa: 'the loins').
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Isabelia have unifoliated ovoid to fusiform pseudobulbs, linear or acicular leaves, and erect apical inflorescence bearing one of few flowers. The flowers have petals, sepals and labellum of the same color, which can be white, pale pink or magenta. Their sepals are widely elliptical to ovate; the petals can be narrower and oblong or wider elliptic. The labellum is entire and oblong.
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This theory hypothesizes that an early developmental failure involving the amygdala cascades on the development of cortical areas that mediate social perception in the visual domain. The fusiform face area of the ventral stream is implicated. The idea is that it is involved in social knowledge and social cognition, and that the deficits in this network are instrumental in causing autism.
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The Fusulinidae is a family of fusulinacean foraminifera from the upper Carboniferous (Lower Pennsylvanian, Morrowan) to the Upper Permian (Guadalupian), tests of which are fusiform to subcylindrical with walls of two to four layers. Are planispirally coiled throughout or with early whorls at a distinct angle to the later plane of coiling. Septa, flat to well fluted; tunnel, single; chomata variable in development.
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Its cells are pale to medium in staining. Layer V is wide and contains two distinct sublayers, Va and Vb. The density of cells Va is greater than in Vb and have darker staining. Layers IV and V make up 40% of cortical thickness. Layer VI below layer V and above the white matter contains dark pyramidal and fusiform neurons.
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The stipe color is dark beige to dark mouse gray, cap-colored at maturity. Smell and flavor is sweet. Basidia with four sterigmata, basidiospores ellipsoid, smooth, amyloid, (6) 7–9 (10) × 4–5 μm. Cheilocystidia present, clavate to broadly fusiform; subcylindrical to spindle-shaped or sometimes with one or two protuberances; smooth or with low incrustation at apex in KOH.
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The fully grown larva is green, fusiform and having small black spots. It has a pair of osmeterium and black spines on each thoracic segment, the third pair being orange yellow. A fourth pair is situated on the last segment. The caterpillars undergo five instars over a period of 15–16 days, during which many are attacked by parasitoid wasps.
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However, empirical evidence has been undertaken to confirm the authenticity of this claim. Studies have shown this integration of differing brain systems by undertaking neuroimaging research. Activation in the middle temporal area, as well as the fusiform face area was seen when subjects were asked to attend to a moving face.Kastner, S., Pinsk, M., De Weerd, P., Desimone, R., & Ungerleider, L. (1999).
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The length of the shell attains 5 mm, its diameter 3 mm. The delicate, white, ovate-fusiform shell is extremely highly sculptured, with many oblique, spiral carinae (two at the antepenultimate whorl, three at the penultimate and five at the body whorl), one being especially conspicuous at the periphery. The cross cancellations are pronounced and fine. The shell contains eight whorls.
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131, 117-135 (1987). The body shape of a swimming organism affects the resulting drag. Long, slender bodies reduce pressure drag by streamlining, while short, round bodies reduce frictional drag; therefore, the optimal shape of an organism depends on its niche. Swimming organisms with a fusiform shape are likely to experience the greatest reduction in both pressure and frictional drag.
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The length of the shell attains 8½ mm, its diameter 2½ mm. (Original description) The shell is elongately fusiform, strong and reddish brown. It contains 7 whorls, of which about 1⅓ form a smooth protoconch. The remaining whorls are moderately convex with a strong liration below the suture and from 3 to 4 lirae on their lower part, 11 on the body whorl.
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Ancillista lineata Kiener, 1844 The shell is solid and has a shape similar to Ancillista fusiformis Petterd, 1886 that is broadly ovate-fusiform. Spire is moderately tall and rounded. The apex color varies from yellow to white. The pattern of the body also varies, ranging from no pattern with yellow apex to a substantial band marked with thick, brown, irregular axial dashes.
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There is an elongate spot on the costa at the base, a semi-fusiform spot before the middle, and a semi-oval spot beyond the middle. There are trifurcate marks in disc at one-third and two-thirds, the second connected with third the costal spot. There are a few blackish specks around the apical margin. The hindwings are grey-whitish.Exot. Microlep.
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The length of the shell attains 21.4 mm, its diameter 6.4 mm. (Original description) The shell has a fusiform shape, acuminated at both ends and obtusely angled in the middle. It is somewhat obscurely banded with light and dark brown, with narrow whitish interstices, dark purplish brown between the angle and the suture. The spire is rather long and acute.
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This subfamily has been delineated based on the characteristics of the operculum and the radula. The shell is wide in the middle and tapers at both ends, making it fusiform to biconic. The size of the shell varies in length between 5 mm and 85 mm. Its color is white or brown, covered with subdued shades of brown, orange, red or purple markings.
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The length of the shell attains 15 mm, its diameter 4 mm. The white shell has a fusiform shape with 9 whorls, of which 2–3 in the protoconch. The spire is rather elongate, occupying rather more than half the entire length of the shell. Between the ribs, above the angle, the whorls are faintly stained with a very pale dirty olive tint.
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Idalina is a genus of foraminifera included in the Hauerinidae, (Miliolida), that lived during the latter part of the Late Cretaceous. The adult test is ovoid to fusiform . Ontogeny goes through an early quinqueloculine stage immediately following the proloculus, followed in sequence by triloculine and biloculine stages and finally to an adult stage with completely enveloping chambers. Wall, calcareous, imperforate, porcelaneous.
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It has been found that grapheme–color synesthetes have more grey matter in their brain. There is evidence of an increased grey matter volume in the left caudal intraparietal sulcus (IPS). There was also found to be an increased grey matter volume in the right fusiform gyrus. These results are consistent with another study on the brain functioning of grapheme–color synesthetes.
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Grapheme–color synesthetes tend to have an increased thickness, volume and surface area of the fusiform gyrus. Furthermore, the area of the brain where word, letter and color processing are located, V4a, is where the most significant difference in make-up was found. Though not certain, these differences are thought to be part of the reasoning for the presence of grapheme–color synesthesia.
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The length of the shell attains 5 mm, its diameter 2 mm. (Original description) This small, slightly fusiform species is remarkable for the peculiar truncate apex, the pleurotomoid labral sinus, and the columellar plaits being two only in number. Its color is white, sometimes rose-tinged. The shell contains 6 slightly convex whorls, including 2 vitreous whorl in the protoconch.
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B. muscus is a colonial hydroid forming irregular, straggling branched bushes. The individual polyps have two rings of tentacles pointing alternately upwards and downwards. The colony may grow to about 120 millimetres in height with polyps up to three millimetres long.Encyclopedia of Marine Life of Britain and Ireland The hydranths are cylindrical or fusiform and are bright red or pink.
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G.W. Tryon was of the opinion that this was a more highly colored adult of Drillia putillus (synonym of Clavus putillus (Reeve, 1845)) with the peripheral row of tubercles whitish. He couldn't find other differences. G.W. Tryon (1884) Manual of Conchology, structural and systematic, with illustrations of the species, vol. VI; Philadelphia, Academy of Natural Sciences The fusiform shell consists of ten whorls.
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The black ruff has a robust fusiform body shape. Its maximum length is but a more common length is . The dorsal fin has five spines and 37 to 41 soft rays, the anal fin has three spines and 20 to 24 soft rays. The bases of these fins have a fleshy sheath clad with scales that partially conceals the rays.
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Late fibrosis stage. It is the stage of healing by which the fibrosis of the Aschoff nodules occur in 12 to 16 weeks after the illness. The nodule becomes oval or fusiform in shape about 200 micrometer x 600 micrometer in width and length. With passage of months and years the Aschoff nodules becomes less cellular and collagenous tissue is increased.
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The spores are spindle (fusiform) or almond (amygdaloid) in shape, with dimensions of 9-13 to 5-7; µm. The similar species Lepiota ventriosospora and Lepiota cristata lack the orange colouring on the ring. L. ignivolvata belongs to the section Fusisporae within genus Lepiota, whose members are characterized by long spindle-shaped spores and a fluffy stem beneath the ring.
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The length of the shell attains 4 mm, its diameter 1.5 mm. The small, fusiform shell is slightly elongated. The thickened shell is shiny, with a purple lilac coloration on the upper whorls, below the yellow protoconch. On the penultimate whorl and the body whorl, a light white band occupies the middle, becoming more intense on the dorsal part of the body whorl.
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The length of the shell attains 5.5 mm, its diameter 2.5 mm. The white, elongate fusiform shell contains 6- 7 whorls of which 2 in the protoconch. These are intermediary convex with linear sutures, discreetly undulant. The shell shows many longitudinal striae and oblique ribs. It shows manyrounded ribs, 12-146 in the penultimate whorl and 10-12 on the body whorl.
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Most species of Boletaceae produce large, fleshy mushrooms, with a more or less central stipe. The fruit bodies typically have tubular hymenophores, although a small number of species (e.g. Phylloporus) are lamellate. The spore deposit colours are commonly olivaceous (yellowish- green), yellowish, brownish, or vinaceous (red-wine coloured), and when viewed under the microscope spores are usually fusiform or subfusiform.
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Radiospongilla sceptroides is a species of freshwater sponge in the family Spongillidae. It was described as Spongilla sceptroides by Scottish-born Australian zoologist William A. Haswell in 1883, who discovered it growing on submerged wood in a pond in the vicinity of Brisbane. He described it as "Sponge green, encrusting, smooth, moderately elastic, not crumbling." He noted the spicules were fusiform and pointed.
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The standards are narrow, oblanceolate, with a short claw (section closest to the stem). They are long, with darker veins. It has a perianth tube that is hypanthial (cup shaped) or infundibuliform (funnel shaped) and 5-12mm, and 3 cornered oblong ovary. After the iris has flowered, in July–September, it produces an oblong or fusiform (spindle shaped) seed capsule.
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This is a list of species in the foliose lichen genus Xanthoparmelia. It is the most speciose lichen genus, containing an estimated 822 species as of 2020. The key characteristics of Xanthoparmelia include the cell walls containing Xanthoparmelia-type lichenan, the pored epicortex, margins without cilia, simple rhizines, small, ellipsoidal spores and bifusiform or rarely weakly fusiform or bacilliform conidia.
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In this study, people who would see colours upon hearing words were studied to see if the colour reaction could be traced to a specific cortical area. fMRI results showed that the left fusiform gyrus, an area consistent with V4, was activated when the subjects spoke. They also found a simultaneous activation of V4α. There was little activity in areas V1 and V2.
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Gila ditaenia, the Sonora chub is one of seven species of chub native to Arizona. This particular species is one of the smaller species of chub, rarely exceeding 200 millimeters in length. Most specimens in the United States never even exceed 125 millimeters. The Sonora chub's body is typically very chubby, hence its name, with fusiform and terete implications in some species.
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Fruit bodies have hemispherical to convex brownish caps measuring in diameter. The roundish pores on the cap underside are pale yellow, numbering about 1–2 per mm, while the tubes are 6–8 mm long. The fresh spore print is dark pink to purplish gray. Spores are smooth, ellipsoid to fusiform (spindle-shaped), and typically measure 33–43 by 4–8 µm.
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The length of the shell attains 12 mm, its diameter 4 mm. (Original description) The small shell is rather broadly fusiform, with a moderately long spire, subpellucid. It is whitish, painted with purplish red-brown. It contains 9 whorls, of which about 3 form a smooth protoconch, with slightly convex sides and 3 or 4 ribs at the end of last nuclear whorl.
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The length of the shell attains 6.5 mm, its width 3.0 mm. (Original description) The small shell is turreted and has an ovate-fusiform shape. Its colour dull is white, the glassy opaque protoconch contrasts with the dull texture of the rest of the shell. The shell contains six whorls, inclusive of a two-whorled protoconch, rather inflated, sharply angled at the shoulder.
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1 (described as Pleurotoma fragilis) (Renamed by Hedley) The shell is slender-fusiform, slightly contracted at the base. The spire is produced. Colour: On a buff ground the whole surface is irregularly clouded or mottled with burnt umber, the dark spaces often predominating. The shell contains six whorls, plus the protoconch, rounded, wound obliquely, excavated at the fasciole, and angled below it.
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The visual word form area (VWFA) is a functional region of the left fusiform gyrus and surrounding cortex (right-hand side being part of the fusiform face area) that is hypothesized to be involved in identifying words and letters from lower-level shape images, prior to association with phonology or semantics. Because the alphabet is relatively new in human evolution, it is unlikely that this region developed as a result of selection pressures related to word recognition per se; however, this region may be highly specialized for certain types of shapes that occur naturally in the environment and are therefore likely to surface within written language. In addition to word recognition, the VWFA may participate in higher-level processing of word meaning. In 2003, functional imaging experiments have also raised doubts about whether the VWFA is an actual region.
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The length of the shell attains 6.2 mm, its diameter 2.7 mm. (Original description) The fusiform-turreted shell contains about 8 whorls. These are sharply angulate, spirally lirate, the strongest thread forming the angle of the whorls and rising like the other threads into knobs upon the longitudinally elongate or variciform tubercles. The surface of the whorl above the keel is minutely lirate by fine spiral threads.
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The length of the shell attains 60 mm, its diameter 26 mm. (Original description) The large, solid shell is white and has a fusiform shape. It contains about five whorls (nucleus eroded) covered with a pale straw-colored epidermis. The whorls are rounded, with rather distinct lines of growth crossed by numerous very sharp, narrow, prominent subequal spiral ridges with about equal or narrower interspaces.
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The length of the shell attains 10.3 mm, its diameter 3.9 mm. (Original description) The fusiform shell is slender and fragile The spire and the body whorl are of about the same length. The whorls with a spiral keel bear small nodules The siphonal canal is long. Sculpture : The whorls are strongly keeled at the periphery and with a row of gemmules set slightly oblique thereon.
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The length of the shell varies between 6 mm and 9 mm. (Original description) The shell has a short-fusiform or subovate shape, with a short, blunt spire, and with five or six convex, but slightly angled or carinated whorls, which have a slightly flattened subsutural band. The suture is impressed and slightly channelled. The sculpture shows numerous small, regular, raised, spiral ridges, separated by wider grooves.
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Species within the genus Charonia have large fusiform shells, usually whiteish with brown or yellow markings. The shell of the giant triton Charonia tritonis (Linnaeus, 1758), which lives in the Indo-Pacific, can grow to over half a metre (20 inches) in length. One slightly smaller (shell size but still very large species, Charonia variegata (Lamarck, 1816), lives in the western Atlantic, from North Carolina to Brazil.
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Turricula nelliae spuria (Hedley, 1922) The size of an adult shell varies between 30 mm and 40 mm. The turreted shell has a fusiform shape. It contains 12 strongly excavated whorls. A species of charming form and purity, with whorls strongly excavated above, and a row of upright oblong tubercles encircling their bases, and two small contiguous keels around them just below the suture.
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The length of the shell attains 21 mm, its width 8 mm. (From the original description) The fusiform shell is one of striking character. The spire is acutely turreted and contains 10 whorls. The whorls are unusually concave, with a stout prominent keel, crossed by numerous oblong somewhat oblique white tubercles or short plicae, which are rendered more conspicuous by a brown intersecting spiral line.
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The length of the shell attains 4 mm, its diameter 1.5 mm. The small delicate, white shell has an ovate-fusiform shape. It contains 8 whorls of which 2½ in the protoconch, with a pale straw color, globose and microscopically cancellate ribs. The subsequent whorls contains thick, rounded ribs, crossed everywhere by rough, spiral lirae; nine ribs and nine lirae in the body whorl.
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The length of the shell attains 8 mm, its diameter 4.25 mm. (Original description) The solid, fusiform shell contains six whorls. The protoconch is pitchy black, the remainder are with bright ochreous tinting. In the younger specimens transverse shining white rows of large gemmae cross the whorls just above the sutures, and in the middle of the body whorl, below, there are ochre bands.
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The length of the shell attains 4.6 mm, its diameter 1.7 mm. (Original description) The small shell is fusiform, somewhat thin, with fine spiral and usually somewhat obsolete longitudinal riblets. Its colour is light reddish-brown, sometimes a pale band around the periphery and occasionally a narrow darker band at the sutures. Its 5 whorls are lightly rounded, the last longer than the spire.
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The length of the shell attains 22 mm, its diameter 8 mm. (Original description) The shell has an elongated fusiform shape. It is deep reddish brown. It contains 7 whorls, rather flat, sculptured with regular closely set rows of small white tubercles and bearing a single, infra-sutural row of coarser tubercles between which and the remaining smaller rows there is a broad but shallow groove.
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The length of the shell attains 9.25 mm, its diameter 2.5 mm. A little whitish species of oblong fusiform shape and of bold contour. It is very distinct in both sculpture and painting of the spiral straw-coloured lirae surrounding the 7 whorls, which are not costulate. One spiral lira, acute and prominent, is especially noticeable at the base of each whorl, just above the sutures.
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The shell of an adult shell varies between 10 mm and 15 mm. The fusiform shell is yellowish- or reddish-brown, sometimes partitioned over the spire whorls by a spiral line separating darker and lighter areas. The whole surface, including the sculpture, is smooth and glossy without any spiral element and is sometimes banded. The protoconch is markedly cyrtoconoid, with 2–3 smooth whorls.
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The length of the shell attains 16.5 mm, its diameter 5¾ mm. (Original description) The strong shell is broadly fusiform It is yellowish, painted and spirally lineated with red- brown. It contains nine whorls, of which about 2 form a smooth protoconch. The post-nuclear whorls are convex, with an undulated suture, accompanied by a subsutural rib or keel, below this a slight excavation.
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The length of the shell of the shell attains 25 mm, its diameter 8 mm. The white, corneous shell has a turreted fusiform shape. It contains 11 whorls, The spiral lirations in this species are particularly prominent, especially upon the ribs, where in the body whorl they are developed into little nodules. The narrow, oval aperture measures about half the length of the shell.
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In 1896 he published his findings in an article called Über das Fibrosarcoma ovarii mucocellulare (carcinomatodes). Later, his interest turned to ophthalmology, and eventually he returned to Halle where he opened a private practice. The ophthalmic term "Krukenberg's spindle" is named after him, which is a vertical, fusiform deposition of melanin pigmentation in the deep layers of the cornea. Krukenberg was an avid skier throughout his life.
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Some graves contain multiple unguentaria, in one case numbering 31 of the fusiform type, while others hold a single example.Cedric G. Boulter, "Graves in Lenormant Street, Athens," Hesperia 32 (1963), pp. 125–128. Grave gifts sometimes consisted of nothing but unguentaria.Susan I. Rotroff, "Hellenistic Pottery: Athenian and Imported Wheelmade Table Ware and Related Material," part 1: text, The Athenian Agora 29 (1997), p. 183.
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These networks include visual and emotional processing systems as well. Emotional face processing research has demonstrated that there are some of the other functions at work. While looking at faces displaying emotions (especially those with fear facial expressions) compared to neutral faces there is increased activity in the right fusiform gyrus. This increased activity also correlates with increased amygdala activity in the same situations.
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The FFA is located in the ventral stream on the ventral surface of the temporal lobe on the lateral side of the fusiform gyrus. It is lateral to the parahippocampal place area. It displays some lateralization, usually being larger in the right hemisphere. The FFA was discovered and continues to be investigated in humans using positron emission tomography (PET) and functional magnetic resonance imaging (fMRI) studies.
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The length of the shell attains 14 mm, its diameter 5 mm. H. Suter in his "Manual of New Zealand Mollusca" (1913) had no doubt that Mangilia protensa and Pleurotoma (Drillia) amoena are one and the same species. The following is the description given by H. Suter for Mangilia protensa: The shell is fusiform, elongated, turreted, thin and fragile. It is lightly axially costate and spirally lirate.
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Past models of visual processing have distinguished certain areas of the brain by the specific stimuli that they are most responsive to; for example, the parahippocampal place area (PPA) has been shown to have heightened activation when presented with buildings and place scenes (Epstein & Kanwisher, 1998), whereas the fusiform face area (FFA) responds mostly strongly to faces and face-like stimuli (Kanwisher et al., 1997).
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The length of the shell attains 12 mm, its diameter 4.5 mm. The fusiform shell had an acuminate spire. It shows 9 flattened whorls with shallow sutures, however the penultimate whorl is subconvex..The 2 whorls of the protoconch are white and smooth. The shell is obliquely longitudinally costate, the costae fading towards the upper part and the base of the body whorl, with close revolving lines.
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Molpadiida is an order of sea cucumbers. The body shape is fusiform and unlike other sea cucumbers, their hind body is narrowed to form a distinct tail. Although they possess tentacles around the mouth derived from the water vascular system, they have no true tube feet, and are therefore believed to be related to the Apodida. They have fifteen much branched tentacles and a stout body.
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G.W. Tryon (1884) Manual of Conchology, structural and systematic, with illustrations of the species, vol. VI; Philadelphia, Academy of Natural Sciences The fusiform shell, has an elongated oblong shape. It appears to be one of the largest species of its kind. Its coloring is yellowish-white in the upper part of the whorls, and is of a light fawn tone in the lower part.
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With its medial boundary corresponding approximately to the rhinal sulcus it is located primarily in the fusiform gyrus. Cytoarchitecturally it is bounded laterally and caudally by the inferior temporal area 20, medially by the area 35 and rostrally by the temporopolar area 38 (H) (Brodmann-1909). Its function is part of the formation/consolidation and retrieval of declarative/hippocampal memory amongst others for faces.
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Located 10 km northwest of the city of Juliaca, in the area corresponding to the towns of Kokan and Chacas. It is a lagoon surrounded by vast hills, like the Iquinito (which is the highest in the area), the lagoon has a fusiform shape and an area of approximately 6.2 km 2 . In this abundant lagoon the local flora and fauna, mainly during the summer (rainy season).
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M. beninensis is a fleshy, robust fish that grows to a maximum length of . It has a fusiform body (tapered at both ends) with a large head and a thick caudal peduncle. The eyes are small and slit-like, and the jaws are either of equal length, or the lower jaw is slightly longer than the upper. There are three pairs of sensory barbels around the mouth.
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The collateral fissure (or sulcus) is on the tentorial surface of the hemisphere and extends from near the occipital pole to within a short distance of the temporal pole. Behind, it lies below and lateral to the calcarine fissure, from which it is separated by the lingual gyrus; in front, it is situated between the parahippocampal gyrus and the anterior part of the fusiform gyrus.
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Restoration of P. bennisoni Plotosaurs possessed several adaptations to marine life not seen in other mosasaurs. Compared with their relatives, they had narrower flippers, large tail fins and a streamlined fusiform body shape. These features probably enabled them to be faster swimmers than most other mosasaurs. They also had relatively large eyes for keen eyesight, and impressions found with their fossils suggest that they had scaly skin.
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Each umbel has five to seven umbellets. The fruit is a lateral fusiform or ovoid achene 4–5 mm (– in) long, containing two mericarps with a single seed. Cumin seeds have eight ridges with oil canals. They resemble caraway seeds, being oblong in shape, longitudinally ridged, and yellow-brown in colour, like other members of the family Apiaceae (Umbelliferae) such as caraway, parsley, and dill.
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The length of the shell varies between 11 mm and 19 mm. The fusiform shell has a moderately high spire and a deep suture. The globose and smooth protoconch contains 1 1/2 whorl. The teleoconch shows strong, elevated, and rounded axial varices set quite far apart from each other (about 6 on the body whorl) and flat spiral cords which overrun the varices.
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The length of the shell attains 5 mm, its diameter 1.5 mm. (Original description) The shell is small, slender and cylindro-fusiform. Its colour is pale buff, with a few broken ferruginous lines on the back of the body whorl, on the varix, and in the subsutural intercostal spaces. The shell contains 7 whorls, rounded, constricted at the suture, and subangled at the shoulder.
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Its shell is relatively small for the genus, around 11 mm in length, slender shaped, thick, solid and semi-fusiform, early four whorls elate, acuminate spire, well swollen periphery. The body whorl is half of the shell length, with a protoconch of about 1.5 whorls. The teleoconch consists of around 5 to 6 convex whorls with a tall spire. Narrow axial ribs reach from suture to suture.
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The stoma cells are distributed in such a way that the tissue appears to be whorled. Stromal cells associated with maturing follicles may acquire endocrine function and secrete estrogens. The entire ovarian stroma is highly vascular. On the surface of the organ this tissue is much condensed, and forms a layer (tunica albuginea) composed of short connective-tissue fibers, with fusiform cells between them.
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The fusiform shell consists of ten whorls. The angular whorls are crossed by delicate, spiral striae and longitudinal obtuse ribs. The whorls are tuberculated in the middle, the tubercles developing from more or less indistinct oblique folds or ribs, everywhere closely encircled by striae. The dark fulvescent shell shows a banded white zone that passes over the nodules upon the angle in the center of each whorl.
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Berne & Levy. Physiology, 6th Edition Smooth muscle is fundamentally different from skeletal muscle and cardiac muscle in terms of structure, function, regulation of contraction, and excitation-contraction coupling. 350px Smooth muscle cells known as myocytes, have a fusiform shape and, like striated muscle, can tense and relax. However, smooth muscle tissue tends to demonstrate greater elasticity and function within a larger length- tension curve than striated muscle.
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The pseudobulbs are fusiform, cylindrical to conical, carrying three to eight leaves. These are apical, deciduous, upright, leathery and pointy. The base of the leaves clasps the pseudobulb from the upper third till the apex. The inflorescence is a long raceme, growing from the apex of the pseudobulb, with an undefined number of small white to pink flowers, opening in a consecutive manner clustered at the apex.
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Squamanita citricolor is a species of fungus in the family Tricholomataceae. Found in Zaire, it was first described as new to science in 1998. Fruit bodies of the fungus have a yellow cap, and a whitish to yellowish stipe originating from a yellowish, deeply rooting basal bulb in the shape of an inverted cone. Microscopically, the fungus features very thick-walled spindle-shaped (fusiform) pleurocystidia and cheilocystidia.
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A Southern Hemisphere porbeagle showing the white patch on the rear tip of the first dorsal fin, which is unique to the species. The porbeagle is a very stout-bodied shark with a fusiform (spindle-like) shape. The long, conical snout tapers to a sharp point, and is supported by enlarged, highly calcified rostral cartilages. The eyes are large and black, without nictitating membranes (protective third eyelids).
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The superior ovary has 5 chambers with a style under 2 mm and a disk-like stigma. The short nectary is disk-like as well with 10 lobes. The fruit of A. virgata are capsules which dehisce lengthwise through the ovary wall near the center of each of the 5 chambers. This dehiscence allows the many fusiform seeds from each chamber to be dispersed.
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For example, one combination could include Escherichia coli, Streptococcus fecalis, Lactobacillus acidophilus, L. salivarius, Bacteroides distasonis, Clostridium spp., and some anaerobic fusiform bacteria. Certain defined microflora are able to restore germfree mice to resemble normal mice with reduced cecal volume, restored reproductive ability, colonization resistance, and well developed immune system. So named Schaedler flora, the defined microflora combinations was widely used in gnotobiotic studies.
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Kanavel's sign is a clinical sign found in patients with infection of a flexor tendon sheath in the hand (flexor tenosynovitis), a serious condition which can cause rapid loss of function of the affected finger. The sign consists of four components: # the affected finger is held in slight flexion. # there is fusiform swelling over the affected tendon. # there is tenderness over the affected tendon.
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Nanchangosaurus resembled a cross between an ichthyosaur and a crocodilian. It had a fusiform body, similar to a dolphin or an ichthyosaur, paddle-like limbs, with forelimbs being larger than hindlimbs, and a crocodilian-like tail for swimming through the water. It had bony scutes on its back, like an alligator, but had a long snout filled with teeth, like an ichthyosaur or a river dolphin.
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The length of the shell attains 4.75 mm, its diameter 1.5 mm. The short, solid shell has a fusiform shape. It is corrugate. The shell contains six to seven, slighly ventricose whorls with squarely crossed ribs, both longitudinal and transverse of equal thickness, not many in number, say thirteen on the body whorl, crossed by eleven, of which two spiral lirae below the suture are approximate.
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The length of the shell attains 7.5 mm, its diameter 3 mm. (Original description) The inner or columellar margin of the lip possesses seven or eight close and minute plicae. There is also one minute process at the parietal sinus. It is of a graceful attenuate fusiform shell, six-whorled, or perhaps seven, but the apex is broken off in the only specimen we have.
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Distinct and overlapping fusiform activation to faces and food. Neuroimage 2018, 174: 393-406 moving bodies (posterior superior temporal sulcus), or even scenes (parahippocampal place area). Neuronal tuning in these areas requires fine discrimination among complex patterns in each relevant category for object recognition. Recent findings suggest that this fine discrimination is a function of expertise and the individual level of categorization with stimuli.
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The person may be able to see certain colours. However, there are many cases where there is no recovery. Finally, a person with hemiachromatopsia see half of their field of vision in colour, and the other half in grey. The visual hemifield contralateral to a lesion in the lingual or fusiform gyrus is the one that appears grey, while the ipsilateral visual hemifield appears in colour.
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Hupehsuchians display an unusual combination of characteristics. The overall shape of the body is fusiform, with a long tail and large, paddle-like limbs. The skull is elongated and the jaws are edentulous. The rostrum is flatteded with the premaxilla thought to form most of the dorsal and lateral surface, while the maxilla is mostly restricted to the ventral surface beyond the base of the rostrum.
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Triplofusus papillosus at the National Museum (Prague) This species shell length can reach 24 inches (60 cm). The outline of the shell is somewhat fusiform, with a long siphonal canal, and having up to 10 whorls. Its sculpture present several spiral cords and axial ribs, some of which can form knobs on the whorls' shoulders. The shell color is bright orange in very young individuals.
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Patient C.K. provided evidence for a double dissociation between face processing and visual object processing. Patients with prosopagnosia have damage to the Fusiform Face Area (FFA) and are unable to recognize upright faces. C.K. has no difficulty with face processing and matches the performance of controls when tasked with identifying upright famous faces. When shown inverted faces of famous people, C.K. performs significantly worse than controls.
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Typical cyathaspidid heterostracans were fusiform or cigar-shaped animals. Their fossils are found in Silurian and early Devonian marine and marginal marine strata of North America, Europe, and the Ural Mountains. Kiangsuaspis, from Silurian Chinese marine strata, was originally thought to be a Chinese cyathaspidid, until it was then reappraised as a phyllocarid crustacean. Currently, the taxa of this suborder are divided into three families.
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Growing obliquely form the apex of a phialide are long chains of conidia (singular conidium). Like phialides, they have a smooth surface and are ellipsoidal to fusiform in shape. Their apex is sharply pointed and round at the base, on average 5.3 x 2.7 µm and reaches a maximum of 9.0 x 4.0 µm in width. The two varieties of Mariannaea elegans, M. elegans var.
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The fusiform shell with a high spire and a truncate base is light-built with a deep, reverse "U-shaped" anal sinus on the shoulder slope and a tall, straight-sided conical spire. The apex is truncate. The sculpture of the shell shows strong spiral lirae and spiral keels with fine axial threads in the interstices. There is a spiral ridge at the lower columella.
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It has a 2.5 cm long pedicel, 3 cm long perianth tube, 2.5 cm long stamens and bright yellow anthers. After the iris has flowered, in May and June, it produces a fusiform (spindle shaped) seed capsule, which is three angled and has a long beak on the end (almost as long as the capsule). It is long and wide. Inside, are 4-5mm diameter globose (spherical) seeds.
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The length of the shell attains 10 mm. (Original description) The pure white shell is fusiform and slender.. The longitudinal sculpture shows six narrow subacute prominent ribs on each whorl, which are sinuated posteriorly on the right side, and which are continuous along the spire like a species in the genus Murex.The spiral sculpture consists of very numerous microscopic spiral striae in the intercostal spaces. The apex is acute.
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The length of the shell attains 18.6 mm, its diameter 4.5 mm. (Original description) The solid, narrow shell has an elongate-fusiform shape. It consists of 9 whorls, including the protoconch of 3 convex smooth whorls, with a deep impressed suture. The -whorls of the spire are convex, roundly angled below the middle in the early whorls, above it in the later, slightly adpressed below the linear suture.
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The length of the shell attains 11 mm, its diameter 4 mm. (Original description) (The described shell is evidently not quite adult) The shell is fusiform, with a pyramidal spire and a short siphonal canal. The shell is thin, smooth, shining, yellowish-white with red- brown blotches in three more or less interrupted bands. The shell contains 9 whorls, of which about 2 form a smooth, convexly-whorled nucleus.
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Platyallabes tihoni is the only species in the genus Platyallabes of catfishes (order Siluriformes) of the family Clariidae. This species is found in the Malebo Pool. P. tihoni has a body plan that is intermediate to the generalized, fusiform (torpedo-shaped) type such as Clarias species and the anguilliform (eel-shaped) type such as Gymnallabes. This species is known to grow up to 52.8 centimetres (20.8 in) TL.
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Edaphoceras is a genus of koninckioceratid nautilids from the Mississippian of North America, named by Hyatt, 1884, with depressed whorls just in contact. The shell, as typical for the family, is evolute; whorl section is fusiform with broadly rounded venter and dorsum meeting at a narrow angle on either side. Its suture has a distinct ventral and dorsal lobe and an angular lateral saddle. The siphuncle is small and near central.
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The length of the shell attains 8¼ mm, its diameter 3 mm. (Original description) The white shell is elongately-fusiform, thin and transparent. It contains about 9 whorls, of which about 3 form a reddish-brown protoconch, composed of convex whorls, with riblets in different directions, but the protoconch being rather worn, the sculpture is not prominent. The subsequent whorls are convex, with a narrow, excavated part below the deep suture.
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The fusiform shell reaches a length of 35 mm and a diameter of 12–15 mm. The shell is rather stout, with a prominent shoulder keel, composed of two approximate ribs, and less prominent revolving ribs and lines below it, articulated with dark chestnut spots. The shell is above the keel concave, with a strong rounded sutural rib, marked by large dark chestnut spots.George Washington Tryon, Manual of Conchology VI, p.
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The length of the shell of the holotype attains 32 mm, its width 11 mm. Apertural view of a shell of Gemmula gilchristi (museum specimen at Naturalis Biodiversity Center) (Original description) The elongately fusiform shell is posterior longer than the anterior. It is whitish tinged, and banded with pale yellow- The spire is elongately turreted, slightly convex at the sides, acute at the apex. It contains 12 whorls.
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The length of the shell attains 6 mm, its diameter 2 mm. This little, fusiform shell contains 7-8 whorls, including a three to four ventricose-whorled, beautifully cancellate, ochre-colored protoconch. The whorls of the spire are impressed at the suture and angulate in their middle. The few longitudinal ribs are remarkably incrassate, and are crossed by the spiral lirae, which give a roughened appearance to the whole surface.
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The submandibular ganglion is small and fusiform in shape. It is situated above the deep portion of the submandibular gland, on the hyoglossus muscle, near the posterior border of the mylohyoid muscle. The ganglion 'hangs' by two nerve filaments from the lower border of the lingual nerve (itself a branch of the mandibular nerve, CN V3). It is suspended from the lingual nerve by two filaments, one anterior and one posterior.
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The designation Pleurotoma arcuata Reeve, 1843 was poorly defined. It was accepted by Olsson as Cruziturricula panthea (Original description as Turricula (Surcula) panthea ) The solid shell is acute and has a fusiform shape It is, white or cream, with pale brown blotches between the ribs (the protoconch lost). The high spire contains about 14 whorls. The suture is closely appressed, obscure with a rounded thread in front of it.
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This genus has green phyllaries in two to three generally equal series, lanceolate to obovate, with margins widely scarious, and a naked receptacle. The white, yellow or red corolla may be simplified to a tube. The disk shaped flowers manifest linear, acute style tips. Fruits are 1.5 to 3.0 millimeters in diameter and are generally compressed in an oblong-fusiform shape and are typically covered with small hairs.
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The yellow corollas are five-lobed, and each of the 16 to 38 disk shaped florets (per head) has linear, acute style tips. They may be slightly red-tinged underneath. Fruits are 1.5 to 3.0 millimeters in diameter and are generally compressed in an oblong to fusiform shape; they are typically covered with small hairs. The plant presents fragile pappuses with five or fewer slender bristles, slightly expanded at the base.
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Upper Carboniferous - Lower Permian (Wolfcamian/Sakmarian) Eofusulininae, Rauzer- Chernousova & Rosovskaya, 1959. Early Fusulinidae from the Upper Carboniferous (Moscovian), commonly with only three or four whorls, thin and weakly differentiated walls, inconsistent outer tectorium, prominent axial fillings and a possibility of chomata. Wedekindellininae, F. Kahler & G Kahler, 1966 Middle and Upper Pennsylvanian ( U Carb) Fusulinidae; test fusiform; septa flat with little or no fluting; wall of 3 or 4 layers; chomata prominent.
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Most turrids are rather small, with a height under 2 cm, but the adult shells of different species are between 0.3 and 11.4 cm in height. The shape of the shells is more or less fusiform, varying from very high-spired to broadly ovate. The whorls are elongate to broadly conical. The sculpture is very variable in form, but most have axial sculpture or spiral sculpture (or a combination of both).
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Increased activity in human visual cortex during directed attention in the absence of visual stimulation. Neuron. 22, 751-761. The middle temporal area is involved in the perception of motion, while the fusiform face area is involved in facial recognition, showing the integrated systems of the brain in Biased Competition Theory. Ferrera and Lisberger Ferrera V.P., & Lisberger S.G. (1995) Attention and target selection for smooth pursuit eye movements.
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It has 1.8 cm long stamens, 1.5 – 2.8 cm long ovary, that is fusiform (spindle shaped), and a lavender or pale purple style branch, that is 3.5 cm long. After the iris has flowered, between mid to late summer, or June to August, or June to July. It produces an ovoid, or cylindrical spindle, or oblong shaped seed capsule. Which is long and 2.5–3 cm in diameter.
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The body is fusiform and somewhat elongate. It is usually 100 to 175 mm (4 to 7 in) long, where the maximum length is approximately 225 mm (9 in). The back is olive-brown or dark brown, and the sides are leaden silver, hence the word plumbeus, referring to lead, in the scientific name of this fish. The snout is blunt and projects slightly beyond the upper lip.
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There is one generation of this butterfly which is on the wing between April and September, and is most commonly seen from May to July. The eggs are laid on broad-leaved grasses, often at the foot of walls or rocks. The caterpillars are fusiform, green with longitudinal yellowish and pale green stripes. Having overwintered as caterpillars, they pupate in the spring among the vegetation before emerging as adults.
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Attaining a maximum length of 2 m (78 in) and maximum weight of 78 kg (172 lb), the cobia has an elongated, fusiform (spindle-shaped) body and a broad, flattened head. The eyes are small and the lower jaw projects slightly past the upper. Fibrous villiform teeth line the jaws, the tongue, and the roof of the mouth. The body of the fish is smooth with small scales.
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The Galapagos shark (Carcharhinus galapagensis) is a species of requiem shark, in the family Carcharhinidae, found worldwide. It favors clear reef environments around oceanic islands, where it is often the most abundant shark species. A large species that often reaches , the Galapagos reef shark has a typical fusiform "reef shark" shape and is very difficult to distinguish from the dusky shark (C. obscurus) and the grey reef shark (C. amblyrhynchos).
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Flow diverters are treatment for intracranial aneurysms alternative to endosaccular coil embolization (although the techniques can be combined, especially in large/giant aneurysms). It is mainly effective in wide neck unerupted saccular aneurysms, that are difficult to coil because of the tendency of the coils to fill the parent artery (referred to as prolapse). Another situation is fusiform shape or circumferential aneurysms. Prior to flow diverters many intracranial aneurysms went untreated.
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Most species in the Physalacriaceae form fruit bodies with caps and stipes. They have a monomitic hyphal system (wherein only generative hypha are produced), and clamp connections are present in the hyphae. Basidia (spore-bearing cells) are club-shaped with two to four sterigmata. The basidiospores generally have ellipsoidal, spindle-like (fusiform), cylindrical, or tear-drop (lacrimiform) shapes; they are thin-walled, hyaline, and do not react with Melzer's reagent.
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Pseudallescheria boydii is a saprotrophic fungus with broad hyphae growing up to 2–5 μm in width. Colonies change in colour from white to pale brown and develop a cottony texture with maturity. After a 2–3 week incubation period, cleistothecia may form containing asci filled with eight fusiform, one-celled ascospores measuring 12–18 × 9–13 μm in diameter. This fungus grows on most standard media, maturing in 7 days.
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Further, several fMRI studies have reported prefrontal cortex (PFC) activity during study predictive of subsequent memory, as well as activity in fusiform gyrus. Taken together, these findings from complementary cognitive neuroscience methods suggest the neural events at encoding that lead to successful later memory are diffuse in the brain and unfold on multiple time scales. The Dm effect seen in ERPs likely represents a subset of these encoding processes.
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It is located primarily in the caudal portions of the fusiform gyrus and inferior temporal gyrus on the mediobasal and lateral surfaces at the caudal extreme of the temporal lobe. Cytoarchitecturally, it is bounded caudally by the peristriate Brodmann area 19, rostrally by the inferior temporal area 20 and middle temporal area 21, and dorsally on the lateral aspect of the hemisphere by the angular area 39 (H) (Brodmann-1909).
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Depending on their surface, they are classified as bread-crust, discoidal and ellipsoidal in shape. Volcanic bombs are found in a large numbers on the slopes of volcanoes (Aragats, Arailer) and on the slag cones of the Geghama, Vardenic and Syunik highlands. Besides the fusiform bombs one can see twisted along bodies withdrawn-off edges, sometimes having an open longitudinal fracture, as well as lemon-like and spherical ones.
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Cross-section of an arterial aneurysm, showing most of the area consisting of organized mural thrombus (tan-brown area). Aneurysms can also be classified by their macroscopic shape and size and are described as either saccular or fusiform. The shape of an aneurysm is not specific for a specific disease. The size of the base or neck is useful in determining the chance of for example endovascular coiling.
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Geoglossum species are characterized by dark, club-shaped, terrestrial ascocarps with a fertile hymenium continuing downward from the apex of the ascocarp along the stipe, eventually intergrading with a sterile stipe. The ascospores of Geoglossum range from translucent to dark brown, and are fusiform, and multiseptate. Identification of species is based on the gross morphology of the ascocarp, color and septation of the ascospores, and shape and ornamentation of the paraphyses.
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Sonderegger pine is not resistant to fusiform rust like its parent, longleaf pine. Because this hybrid pine possesses heavy limbs and long-needled foliage like the longleaf pine, one may confuse Sonderegger pine with longleaf pine. However, the striped brown bud of Sonderegger pine is a distinguishing characteristic, as longleaf possesses a white bud. Also, intermediate in size, the cone is armed similarly to a cone of the loblolly pine.
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The length of the shell varies between 4 mm and 5.5 mm. (Original description) The shell is regularly and conically fusiform, of rather dark brown colour with bright lilac granules. It contains seven rounded whorls, reticulated with very thick somewhat distant ridges, forming at the points of intersection, three rows of large, pearl-like, slightly oblong granules. On the body whorl these three rows of granules are repeated.
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The inferior colliculi of the midbrain are located just below the visual processing centers known as the superior colliculi. The inferior colliculus is the first place where vertically orienting data from the fusiform cells in the dorsal cochlear nucleus can finally synapse with horizontally orienting data. Sound location data thus becomes fully integrated by the inferior colliculus. IC are large auditory nuclei on the right and left sides of the midbrain.
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It consists of irregular volcanic blocks and rare bipolar fusiform bombs interlayered with vesicular agglutinate. A breach on the southeast side of the cone drained a central lava lake. The lava flowed southwest into the Spanish Creek valley, carrying rafts of agglutinate from the wall of the cone. Renewed volcanism on the southwestern flank of the volcano created a parasitic cone composed of loosely consolidated vesicular volcanic blocks interlayered with agglutinate.
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In the mid-1960s, Russell W. Schaedler isolated and grew bacteria from normal and SPF mice. Aerobic and less oxygen-sensitive anaerobic bacteria are easy to culture. Fusiform and EOS bacteria are difficult to culture, even though they represent the majority of the normal rodent microbiota. He selected for the bacteria that dominated and can be isolated in culture, and then colonized germfree mice with different bacteria combinations.
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Detectors of complete biological motion patterns The following detectors sum the output of the optic flow pattern detectors in order to selectively activate for whole movement patterns (e.g. walking right vs. walking left). These detectors model similar neurons that optic flow pattern detectors model: Superior temporal sulcus and Fusiform face area The input of these detectors are the activity of the optic flow motion detectors, H_l^l(t).
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Fusiform gyrusThe Occipital Face Area is located on the inferior surface of the Occipital LobeSuperior Temporal Sulcus Within the brain, visual stimuli are processed along many different neural circuits. Due to the evolutionary importance of being able to recognize faces and associate information with others based on this recognition, humans have evolved a distinct neural circuit for the processing of facial stimuli.Hole, G. (2010). Face Processing: Psychological, Neuropsychological, and Applied Perspectives.
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Within the ventral stream, various regions of proposed functional specialization have been observed in functional imaging studies. The brain regions most consistently found to display functional specialization are the fusiform face area (FFA), which shows increased activation for faces when compared with objects, the parahippocampal place area (PPA) for scenes vs. objects, the extrastriate body area (EBA) for body parts vs. objects, MT+/V5 for moving stimuli vs.
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Cretalamna was a medium-sized shark with an estimated total length of 2.3 – 3m. It is presumed to have had a fusiform-like body comparable to those of modern lamniformes. This is evidenced by the circular vertebra centra of Cretalamna. Given the size of Cretalamna teeth relative to its body size, it is likely that its caudal fin was not used for stunning prey (as is the case for thresher sharks).
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Flower 1962 Notes on the Michelinoceratida, Part II Memoir 10, State Bureau of Mines and Mineral Resources, Socorro New Mexico True Spyroceras is a Pseudorthoceratid from the Devonian. Middle Silurian genera related to Kionoceras studied by Barrande show a general internal similarity. Anterior siphuncle segments tend to become fusiform, some being constricted at the septal openings. Cameral deposits are confined apically and, where observed, siphonal deposits are simple annuli.
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The tiny fruitbodies, measuring 1−2.3 cm by 0.8−1.1 cm, are black, dry, and consist of a lobed or club-shaped head and a minutely squamulose stipe. The spores are fusiform to subfusiform and measure (28−) 31−44 (−53) by (7−) 8−10 (−12) μm. At maturity they develop 2−3, or very rarely 1−4 septa. The paraphyses are highly polymorphic and often moniliform, hooked, branched, or contorted.
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Each adult contains male and female reproductive organs. The reproductive organs include an anterior genital atrium armed with a single circle of curved terminally bifurcated spines, one row of ventrolateral vaginal openings on each side of the body behind the level of gonopore, each opening surrounded by muscles, a foldedovary and numerous large irregularly shaped testespre, para and post- ovarian. Eggs are fusiform, with filaments at both ends.
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The length of the shell attains 13 mm, its diameter 4.5 mm. This delicate, white, fusiform shell contains 9½ whorls, of which 2½ in the protoconch. It is beautifully encircled with microscopic , which are gemmuled at the points of junction, giving a sericeous appearance to the surface when examined with an ordinary lens of low power. Under a higher objective the protoconch is perceived to be vitreous, most delicately cancellate throughout.
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Stained Xylem Vessel in Red/Orange (x400 magnification)In secondary xylem – the xylem which is produced as a stem thickens rather than when it first appears – a vessel element originates from the vascular cambium. A long cell, oriented along the axis of the stem, called a "fusiform initial", divides along its length forming new vessel elements. The cell wall of a vessel element becomes strongly "lignified", i.e. it develops reinforcing material made of lignin.
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The maximum length is 9 mm. (Original description) The thin, white shell is narrowly oblong or fusiform, with a longish, scarcely tumid body whorl, a shortish, conical, convexly whorled, small-pointed, shallow- sutured, conical spire, and a long conical base. Sculpture. Longitudinals : there are delicate threadlike curved lines of growth, which are strongest near the top of the whorls. Spirals: the whole surface is equably covered with fine, faintly raised, rounded threads.
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The length of the shell varies between 5.5 mm and 10.5 mm. (Original description) The shell is small, sub-fusiform, too short ovate. It contains about five or six turreted, flattened whorls, which are angularly shouldered just below the suture. The subsutural band arises abruptly from the suture, nearly at right angles, and its surface is flat or slightly eoncave, marked by strongly recurved lines of growth, but mostly without spiral lines.
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The size of an adult shell varies between 39 mm and 75 mm. (Original description) Shell.—Fusiform, biconical, very slightly and bluntly angulated, with a scarcely convex base, elongated into a largish, slightly reverted, rather equal-sided snout. Sculpture. Longitudinals :there are no ribs; but the close-set, hair-like lines of growth, at nearly regular intervals over the whole surface, rise into thread- like folds which score the shell rather markedly.
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The length of the shell attains 6.2 mm, its diameter 2.5 mm. (Original description) The small, fusiform, short, stout shell is whitish, with three obscure pale brownish spiral bands on the body whorl. The protoconch is minute, translucent, and contains about one whorl with somewhat over four subsequent whorls in the teleoconch The suture is appressed and obscure. The spiral sculpture consists of numerous very fine equal close-set threads over the whole surface.
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Armoricaphyton is an extinct monospecific genus of vascular land plants described from Early Devonian (late Pragian-earliest Emsian) outcrops of the Chalonnes Formation in western France. The plant consists of small, leafless, longitudinally-ribbed axes that branch pseudomonopodially. Pairs of fusiform- shaped, twisted sporangia preserved as adpressions were found in association with the axes and may belong to this species. Permineralized specimens reveal the oldest documented wood or secondary xylem of any known fossil plant.
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The length of the shell attains 4 mm, its diameter 1.7 mm. (Original description) The small, solid shell has a fusiform shape. It is gray-white with five black-brown and the same number of white longitudinal stripes on the ribs, sometimes continuous, sometimes dislocated. The sculpture consists of 10 strong longitudinal ribs crossed by spiral threads which swell into tubercles on the ribs, and are 9 or 10 in number on the body whorl.
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The length of the shell attains 10½ mm, its diameter 4¼ mm. (Original description) The white, fusiform shell is gradate and moderately strong. It contains 8 whorls (the uppermost broken), of which 2 form a reddish-brown protoconch, with convex whorls (their number probably will have been 4 of which 2 are wanting). The whorls are sculptured by curved riblets, crossed by oblique finer ones in the lower part, which is consequendy finely reticulated.
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The length of the shell varies between 17 mm and 30 mm. (Original description) The rather large shell has a fusiform shape. It is, pale brown, excepting the large median keel between summit and suture and a broad area that extends over a little more than half of the posterior part of the columella, which are white. The tops of the other spiral keels are also a trifle paler than the spaces between them.
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The length of the shell attains 12 mm, its diameter 4 mm. (Original description) The small, narrow shell has a fusiform shape and is of rude sculpture. It is dusky-brown with a rufous tinge over the body whorl and orifice. The shell contains 7-8 whorls (the nepionic being imperfect in the specimens seen), the remainder longitudinally furnished with obtusely-rounded, strong, and frequent ribs, say about fourteen on the body whorl.
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63; Susan I. Rotroff, "Fusiform Unguentaria," in "Hellenistic Pottery: The Plain Wares," The Athenian Agora 33 (2006), p. 139. There is no standard assemblage of grave goods for which an unguentarium was required. Unguentaria often appear among articles for personal grooming; in one example, with a stone cosmetics pallet, strigils, tweezers and a pyxis,George H. McFadden, "A Tomb of the Necropolis of Ayios Ermoyenis at Kourion," American Journal of Archaeology 50 (1946), p. 463.
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Some neuroscientists contend that both the left inferior frontal cortex (Brodmann area 47) and the occipitotemporal junction are implicated in facial memory. The right inferior temporal/fusiform gyrus responds selectively to faces but not to non-faces. The right temporal pole is activated during the discrimination of familiar faces and scenes from unfamiliar ones. Right asymmetry in the mid temporal lobe for faces has also been shown using 133-Xenon measured cerebral blood flow (CBF).
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Boletellus emodensis, commonly known as the shaggy cap, is a species of fungus in the family Boletaceae. It was described by English mycologist Miles Joseph Berkeley in 1851 as Boletus emodensis, and transferred to Boletellus by Rolf Singer in 1942. Characterised by a distinctive reddish shaggy cap, it grows in eucalypt woodlands. It produces a brown spore print, and has fusiform (spindle-shaped) spores that are 16–20 by 7–9 μm with longitudinal grooves.
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The length of the shell attains 39 mm, its diameter 11 mm. The elongate, fusiform, turreted shell is very characteristically coloured. The reddish-ochre colour is uniform, except where the transverse lirations (5 in the penultimate whorl and about 22 in the body whorl) cross the ribs or plications (14 in the body whorl), where they are white and slightly nodulous. The suture is well defined by the sudden termination of the ribs.
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The spot-fin beachsalmon is characterized by a deep, laterally compressed, and fusiform body. The dorsal fin is also reduced and begins behind the middle of the body; it contains four spines and 16-18 soft rays. The anal fin originates at about the middle of the body and contains three spines and 26-30 soft rays. The maxillae extend well beyond the small eyes; the preorbital is serrated, and the adipose lid is present.
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Alveolinella is a genus of larger fusiform porcelaneous alveolinids from the Miocene to Recent with apertures on the septal face in multiple rows and aligned partitions (septula) dividing the primary chambers. Aveolinella is a larger foraminifer from the milioline family Alveolinidae. Like other miliolines, they have imperforate porcelaneous walls. In the Pacific Ocean Alveolinella is found between depths of 10 to 80 meters, often associated with other miliolids, in carbonate areas of warm tropical seas.
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Cystidia of Melanoleuca communis Spores of Melanoleuca in a scanning electron microscope The spores of Melanoleuca are 7.0–11.0 x 4.0–6.0 µm, thin-walled, ellipsoid, amyloid with ornamented warts. They look very similar to the spores of Leucopaxillus, however, Melanoleuca spores present a plage. Basidia are usually 4-spored, cylindrical to clavate. Pleurocystidia and cheilocystidia are present or absent, if present they are urticoid, thin-walled or fusiform to lageniform, thick-walled.
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Its body is spirally coiled and darkly coloured (due to eel blood inside the nematode's intestine). It is fusiform, tapering to both ends; anterior end of the body is bottle-shaped, while the posterior end is narrowed and conical. The epicuticle is finely wrinkled, with a network structure, forming an irregular fine transparent coating. The cuticle of the anterior and posterior parts of its body bear several papilla-like excrescences of a fibrous structured.
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It blooms around October and has produces axillary unbranched inflorescences which often are situated near ends of branches in clusters. The mature green to yellow buds have an ovoid to fusiform shape with a length of and a width of with white flowers. After flowering pedicellate fruits form with a hemispherical or barrel-shape. Each fruit has a length of and wide with a descending disc and three to four valves near rim level.
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They are four-spored, and the spores are attached to the basidia by long slender sterigmata that are up to 7.2 μm long. The gill edge is sterile (without basidia), and has abundant cystidia. These thin-walled cheilocystidia range in shape from swollen in the middle with a beak-like point, to spindle-shaped (fusiform) to club-shaped. They are smooth, hyaline, and inamyloid, with dimensions of 20.8–38.4 by 4.8–10.4 μm.
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Facial identification exclusively produced increased bilateral activation in the fusiform gyrus, highlighting the dissociation between faces and other object processing. Similar results have also been reported for activation of the parahippocampal place area (PPA) in response to stimuli depicting places and spatial layouts; and in the extrastriate body area (EBA) in response to human body parts. Studies of patients with brain damage have revealed pure agnosic disorders that selectively impair recognition of specific object categories.
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Head Tooth The snaggletooth's coloration is light grey or bronze with no prominent markings. As its name suggests, it has sharp, serrated teeth on the upper jaw and hooked teeth on the bottom jaw. The shape of its body is fusiform, allowing it greater speed in the water. Reproduction is a special kind of viviparity, called placental viviparity, where the shark carries its live young in a placenta-like structure, complete with umbilical cord.
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O. sinensis consists of two parts, a fungal endosclerotium (within the caterpillar) and stroma. The stroma is the upper fungal part and is dark brown or black, but can be a yellow color when fresh, and longer than the caterpillar itself, usually 4–10 cm. It grows singly from the larval head, and is clavate, sublanceolate or fusiform, and distinct from the stipe (stalk). The stipe is slender, glabrous, and longitudinally furrowed or ridged.
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It is the extreme opposite of prosopagnosia. It is estimated that 1 to 2% of the population are super recognisers who can remember 80% of faces they have seen compared to 20% of the general population, but these figures are disputed. Super recognizers can match faces better than computer recognition systems in some circumstances. The science behind this is poorly understood but may be related to the fusiform face area part of the brain.
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The species in this genus have small to moderate-sized, solid fusiform shells with a low, globose spire. The siphonal canal is rather short, curved to the left, fused at the top and almost sealed below. They have six to seven well-developed varices per whorl, with deep hollows at the sutures. These varices extend from the shoulder margin to the tip of the siphonal canal and become twisted at the base of the shell.
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The length of the shell attains 4 mm, its diameter 1.5 mm. (Original description) This species is very distinctly characterized by its ovate-fusiform form and the coarse style of its sculpture. The longitudinal ribs and the twelve transverse lirae are about equally thick, produced into acute nodules at the points of intersection, and the quadrate interstices are very deeply pitted. The shell contains 5½ slightly convex whorls, including 1½ vitreous whorl in the protoconch.
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The color of the roots is dark brown to red-brown. The roots are cylindrical, 10–25 cm long and 1–2.5 cm thick in diameter. Numerous lateral horsetail-like branched roots, which are nearly fusiform and 0.2–1 cm in diameter, sprout out from the main tap root. The externals of the roots are covered with horizontal protrusions, numerous scars of fine rootlets, and longitudinal wrinkles, which are about 1.5–3 cm in diameter.
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The seeds of Torreya clarnensis are fusiform and bilaterally symmetrical with a pointed tip and base. The seeds have an overall length raging between and a width between . The seeds are identified as from a Torreya species by several features of the exterior morphology. The overall cross section shape is obovate, with an acutely rounded base where an aril would have attached, a keeled apex, and a pair of vascular scars near the tip.
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Haynes, Driver, and Rees proposed this theory in 2005, stating that visibility derives from the feed forward and feedback interactions between the V1 and fusiform gyrus. In their experiment, they required subjects to attend actively to the target- thus, as Macknik and Martinez-Conde point out, it is possible that their results were confounded by the attentional aspect of the trials, and that the results may not accurately reflect the effects of visual masking.
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Even vastly different fish may be called tetras. For example, payara (Hydrolycus scomberoides) is occasionally known as the "sabretooth tetra" or "vampire tetra". Tetras generally have compressed (sometimes deep), fusiform bodies and are typically identifiable by their fins. They ordinarily possess a homocercal caudal fin (a twin-lobed, or forked, tail fin whose upper and lower lobes are of equal size) and a tall dorsal fin characterized by a short connection to the fish's body.
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Saccular aneurysms are spherical in shape and involve only a portion of the vessel wall; they vary in size from in diameter, and are often filled, either partially or fully, by a thrombus. Fusiform aneurysms ("spindle-shaped" aneurysms) are variable in both their diameter and length; their diameters can extend up to . They often involve large portions of the ascending and transverse aortic arch, the abdominal aorta, or less frequently the iliac arteries.
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The genus was first described by Italian doctor and naturalist Carlo Vittadini in 1831. for hypogeous (below-ground) gasteromycetes with chambers exposed to the surface and lined with a spore- bearing hymenium, a basal rhizomorph, and ovoid-fusiform, striate-grooved spores. Vittadini's original concept was based on two species he collected in Italy, Gauteria morchellaeformis and Gautieria graveolens. In 1918, Zeller and Dodge examined various dried herbarium collections of Gautieria, and recognized five species.
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The albacore (Thunnus alalunga), known also as the longfin tuna, is a species of tuna of the order Perciformes. It is found in temperate and tropical waters across the globe in the epipelagic and mesopelagic zones. There are six distinct stocks known globally in the Atlantic, Pacific, and Indian oceans, as well as the Mediterranean Sea. The albacore has an elongate, fusiform body with a conical snout, large eyes, and remarkably long pectoral fins.
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The females look very similar to males, but are lacking any of the red or orange and have smaller pelvic fins. Their fins are spotted and lightly pigmented. They have a fusiform to cylindrical body shape that is slightly elongated and are slightly laterally compressed anteriorly and are round to oval in cross section. In perciform teleosts, the posterior, exposed part of each scale bears tiny tooth-like projections (cteni) – ctenoid scales.
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Miliolana is a subclass established by Saidova, 1981 that comprises porcelaneous members of the Miliolata from the Cornuspirida, Miliolida with agglutinated forms removed to the Miliamminana, and Soritida. Included are both free and attached forms, some coiled with two chambers per whorl arranged in different planes, others that are irregular or have serial chambers, and still others are fusiform with complex interiors, superficially resembling the Fusulinacea. The unifying character is their imperforate porcelaneous tests.
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The canker disease presents as elongated fusiform swellings on the stems which eventually may break open. They are often found at the base of the trees. In 1993 Schwartz, who has spent much of his career researching the conservation of this species, and Sharon M. Hermann, reported on the progression of the disease. They monitored a census population of some 100 trees for four years, in this time 10% died, mostly the smaller individuals.
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The V4 and V4α areas are separate entities, but because of their close proximity in the fusiform gyrus, these two areas are often collectively called the V4-complex. Research into the V4-complex discovered that different chromatic stimulations activated either the V4 or the V4α area, and some stimulation parameters activated both. For example, naturally coloured images activated V4α more powerfully than V4. Unnaturally coloured images activated both V4α and V4 equally.
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Leucocytozoon grallariae is a parasite found in non-migratory highland passeriforms in the families Grallariidae and Cotingidae. The species was first described by Ingrid A. Lotta, Valkiūnas Gediminas, M. Andreína Pacheco, Ananías A. Escalante, Sandra Rocío Hernández and Nubia E. Matta in 2019. Leucocytozoon grallariae is spread throughout in the Andean mountain ranges normally in humid forests and scrublands of Bolivia, Peru, Ecuador, Colombia and Venezuela. They contain gametocytes within fusiform host cells.
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This sea snail has a type of shell called a fusiform shell. The size of it can vary, though. The length can vary between 23 mm and 28 mm, and the width can change depending on many things, as most shells are not perfectly sized in some way. The shell of the Borsonia epigona is usually a whitish color, but may vary depending on where you are in the region it is found.
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Conidiophores of corn grey leaf spot Corn is the only species that can be affected by Cercospora zeae-maydis. There are two populations of Cercospora zeae-maydis, distinguished by molecular analysis, growth rate, geographic distribution, and cercosporin toxin production. Cercospora zeae-maydis differs from its cousin group Cercospera zeina sp. nov in that it has faster growth rate in artificial media, the ability to produce the toxin cercosporin, longer conidiophores, and broadly fusiform conidia.
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Inocybe lacera has thick-walled, fusiform cystidia, which have apical encrustations. It has a brown spore print, while the subcylindrical spores are smooth, typically measuring 11 to 15 by 4.5 to 6 µm in size. I. lacera is one of a small group of related species with particularly long, cylindrical spores, the others of which can typically be found on sand dunes. The spore shape is more typical of species from the order Boletales.
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They have a fusiform body shape and the mouth is in a subterminal position. The lateral line is darkly colored and has 56 to 70 scales from anterior to posterior. Above the lateral line coloration can vary between shades of dark brown and even olive, while below the lateral line coloration is lighter up until a white belly. Their caudal fin is forked, and their single dorsal fin has 8 fin rays and no spines.
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The buds measure wide and are distinctive in that the operculum has a prominent long beak, making them fusiform (spindle-shaped). Retrieved 11 April 2012. The woody fruits are cylindrical-shaped, 1 to 1.6 cm long by 0.7 to 1.1 cm wide, pedicellate with descending disc and 3 to 4 valves at rim level or slightly exserted. Seeds are light-brown to yellow to 1.8mm long, pyramidal or obliquely pyramidal in shape.
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There are three kinds of spicules: regular triradiates, quadriradiates and very slender, hair-like oxea. The regular triradiates have rather stout, slightly fusiform rays, bluntly and rather abruptly pointed at the apex, which is often somewhat irregular. The rays measure about 0.1 mm in length by 0.012 mm in diameter at the thickest part. The quadriradiates are abundant and resemble the triradiates, but with an apical ray projecting at right angles into the gastral cavity.
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It is extremely difficult to characterise this species, because both its form and sculpture are more variable than in any other of the whole genus. Sometimes the form is oval, with the spire about the same length as the aperture, and sometimes it is fusiform, witli a long, strongly acuminate spire. The whorls are sometimes angulated and sometimes cylindrically rounded. The sculpture is, often, by far the most prominent in the axial direction, and often, it is so transversally.
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The length of the shell attains 9.5 mm, its diameter 3.75 mm. (Original description) The thin, white, polished shell has a fusiform shape and contains 8 whorls; The protoconch is smooth. The succeeding whorl or two are scalariform, by reason of sharp scale-like transverse lamellae. The remaining whorls show sharp transverse ridges prominent on the spire and on the posterior half of the body whorl (where there are eighteen of them) and obsolete on the anterior half.
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The length of the shell varies between 10 mm and 55 mm. (Original description) The large, rather stout shell has a fusiform shape. It shows an elevated, acute, turreted spire and eight or nine obtusely shouldered, angular whorls. The body whorl is large and somewhat inflated, with a broad, flattened or a slightly concave, sloping subsutural band, which is covered with distinct, strongly receding lines of growth and with more or less evident, raised, spiral cinguli and grooves.
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The length of the shell attains 6.5 mm, its diameter 3 mm. (Original description) The shortly fusiform shell is transparently white. It contains eight whorls, of which four form a yellowish- brown protoconch, with convex whorls, the uppermost broken, the other ones with curved riblets, crossed by oblique, slightly finer ones, over a large part of their breadth. The subsequent whorls are rather convex, angular, with a broad, excavated, upper part, a rather narrow, nearly straight, lower part.
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The length of the shell attains 64 mm, its diameter 18 mm. The solid, fusiform shell contains 13 whorls of which two are in the protoconch. The shell is remarkable for its regular beaded spiral zone just below the sutures of each whorl, above which are two spiral clearly-cut grooves, the middle of the upper whorls being most beautifully obliquely costulate. The costae are terminated above by a double sulcus surrounding a narrow spiral lira.
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The length of the shell attains 13 mm, its diameter 7 mm. (Original description) The solid shell is of moderate size. It is rather glossy and fusiform. Its colour is buff, chequered with ochre-red, disposed irregularly, though alternate segments of red and buff on the subsutural cord seems a constant feature; usually the snout, the fasciole, and a narrow supra-basal zone are buff, while the intercostal spaces and a broad basal zone are red.
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John Wiley & Sons, New York 1:1–600 1 90. and the tail, often naked and white, has a length that is half the head and body of this species. This pocket gopher is well adapted to burrowing, which is evident in the characteristic stocky build, fusiform shape, powerful jaws and incisors, large powerful forelimbs, and reduced hind limbs and hips often observed in this species. The diet of this species includes roots of xerophytic shrubs, grasses, and forbs.
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Ascospores are simple, hyaline, and often small. Conidia generally arise laterally from the joints of conidiogenous hyphae (Parmelia- type), but arise terminally from these joints in a small number of species (Psora-type). The conidia can have a broad range of shapes: cylindrical to bacilliform, bifusiform, fusiform, sublageniform, unciform, filiform, or curved. Pycnidia are immersed or rarely emergent from the upper cortex, are produced along the lamina or margins, pyriform in shape, and dark-brown to black in colour.
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The size of an adult shell varies between 15 mm and 30 mm. (Translation of the original French description) The slightly shiny shell is solid and has an elongated fusiform shape. The turreted spire is composed of 9 very convex whorls, subcarinated on their extremes. They are separated by a very marked oblique suture, covered with sigmoid growth lines, fine decurrent striae and large, wide and nodular oblique longitudinal folds, numbering 6 on each of the last two whorls.
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The stipe is long by thick, roughly spindle-shaped (fusiform), with red-brown fibrils and a sharply defined zone of white color at the stalk apex, especially in more mature specimens. The flesh is white or cream, smelling strongly of meal, with a bitter taste.Gryzyby―Fungi of Poland Spores have a roughly spherical or ellipsoid shape, are hyaline, smooth, non-amyloid, and have dimensions of 5.5—7.0 x 4.5—5.5 µm. Basidia are 4-spored and cystidia are absent.
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This particular study was done on East-Asian Americans and non-Asian Americans. Though the performance of both subject groups was equally good, the activity of the involved brain areas was significantly different. Non-Asian Americans had a higher activation in the object processing areas in the ventral visual cortex during the object recognition task whereas the East-Asian Americans exhibited higher activity in the left occipital and fusiform areas which are associated with perceptual analysis.
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This family is characterized in general by usually the lack of an operculum, by a deep anal sinus on the subsutural ramp and with a heavy callus on the shoulder slope of the outer lip. The Mangeliidae are small to medium-sized gastropods (length usually smaller than 30 mm). The high-spired shell has a fusiform to an oval or biconical shape. The protoconch is helicoid, with a very small initial, and rapidly increasing subsequent whorls.
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The length of the shell attains 13 mm, its diameter 5.5 mm. The small shell is fusiform and rather solid. The sculpture consists of 11 to 12 low, strong, rounded, and slightly oblique axial ribs, rather wider than the interspaces, obsolete on the base and usually on approaching the outer lip. The spiral sculpture consists of minute striae, erased upon the ribs, a few at the anterior end stronger, and frequently several rough irregular ridges on the basal fascicle.
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Faces are an important part of one's social life. To be able to recognize, respond and act towards a person requires unconscious memory encoding and retrieval processes. Facial stimuli are processed in the fusiform gyrus (occipito-temporal brain area) and this processing is an implicit function representing a typical form of implicit memory. REM sleep has been seen to be more beneficial to implicit visuospatial memory processes, rather than slow-wave sleep which is crucial for explicit memory consolidation.
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The Kaluga Sturgeon is a massive fish, also known as the “River Beluga.” It has a triangular head with several bony plates. Its body is an elongated fusiform body with five rows of bony scutes: dorsal with 10-16 beetles (the first is largest), two laterals (32-46 scutes), and two ventral (8-12 scutes) between rows of small bony scutes grains and rarely more large plate. Lateral scutes are smaller than the dorsal and ventral scutes.
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For example, individuals with a lesion in the Visual area V4 often do not perceive color and dream in black-and-white; those with a lesion in the Visual area V5/MT do not perceive motion and do not dream of motion; subjects with a lesion to fusiform gyrus are impaired in face perception and also do not dream of faces. Compare that to lesions of the cerebellum or frontal cortex that have little effect on sensory experience.
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The smooth oval spores measure 12–15 by 5–6 μm, and sometimes have an internal oil drop. Basidia (spore-bearing cells) are club-shaped, four-spored, and measure 22–34 by 8–9 μm. The fusiform (fuse-shaped) cystidia are colourless with oil droplets, and have dimensions of 40–50 by 7–8 μm. Cap cuticle tissue is in the form of a trichoderm, where the outermost hyphae emerge roughly parallel, like hairs, perpendicular to the cap surface.
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When directing gaze specifically towards the eye area, the anterior, right side of the superior temporal sulcus is activated, indicating facilitation of gaze direction encoding in this region when eye contact is present Calder, A. J., Lawrence, A. D., Keane, J., Scott, S. K., Owen, A. M., Christoffels, I., & Young, A. W. (2002) Reading the mind from eye gaze. Neuropsychologia, 40(8) 1129-1138.. Like the fusiform gyrus, this effect can also be masked in this area .
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Cyrtogomphoceras is a genus of nautiloid cephalopods, recognized by its large breviconic shell with a notable endogastric curvature. The shell is fusiform in profile, reaching maximum width at or near the base of body chamber, which narrows toward the aperture. The siphuncle is large and slightly removed from the ventral side, that with the concave longitudinal profile. Siphuncle segments are short, as are chambers; septal necks recurved, connecting rings thick, bullettes at the apical end of the rings swollen.
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Species of Platanthera are perennial terrestrial herbs, erect in habit. The roots are fasciculate and typically fleshy and slender, although they may be somewhat tuberous; if tuberous they are lanceolate to fusiform and not ovoid. The leaves are generally fleshy and range from oblong or ovoid to lanceolate. Leaf shape often varies with the lower leaves more ovoid in shape, progressively becoming more lanceolate as they progress up the scape; floral bracts, if present, are lanceolate to linear.
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The claustrum is made up of various cell types that differ in size, shape and neurochemical composition. Five types of cells exist and the majority of these cells are structurally similar to pyramidal neurons found in the cortex. Within the claustrum, the somas of the cells can be found with a pyramidal, fusiform or circular shape. The principal cell type found in the claustrum is Type 1 cells, which are large neurons covered in spiny dendrites.
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Amoria have a small, smooth, more or less pointed conical protoconch, a solid very glossy, fusiform shell and an elongate aperture with 4 distinct, more or less developed columellar plicae. The sutures are slightly callous. The colour pattern of the genus Amoria is variable, the base colour is white, yellow or pink with varying degrees or brown axial lines forming a pattern over the base colour. Axial lines may be free or may reticulate to form a tented pattern.
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Optic nerve gliomas are diagnosed using magnetic resonance imaging (MRI) and computed tomography (CT) scans. The tumor adopts a fusiform appearance, appearing wider in the middle and tapered at the ends. Enlargement of the optic nerve along with a downward kink in the mid- orbit is usually observed. While CT scans allow for optic nerve evaluation, MRI allows for intracranial evaluation to observe if the tumor has extended to other regions such as the optic chiasm & hypothalamus.
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These spores are club-shaped to somewhat cylindrical to somewhat fusiform. Brown to hyaline in color, there are both septate and non-septate forms (or, in some species, a combination of the two). There are paraphyses mixed with the asci, and in some species these occur on the stipes scattered or grouped together so as to form small tufts or scales. In some species they are spread out on the stipe surface as a continuous gelatinous layer.
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Jacques Caroli, a gastroenterologist, first described a rare congenital condition in 1958 in Paris, France. He described it as "nonobstructive saccular or fusiform multifocal segmental dilatation of the intrahepatic bile ducts"; basically, he observed cavernous ectasia in the biliary tree causing a chronic, often life- threatening hepatobiliary disease. Caroli, born in France in 1902, learned and practiced medicine in Angers. After World War II, he was chief of service for 30 years at Saint-Antoine in Paris.
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Situated east of Spanish Lake is the northerly Spanish Lake Centre with an elevation of . It consists of an older major cone and two younger parasitic cones. The older edifice is breached in the southwest by two lava flows and contains an inner younger cone that is breached on its north side by a lava flow from a flank eruption. Both cones comprise unconsolidated irregular volcanic blocks with little agglutinate, with the inner cone incorporating weathered bipolar fusiform bombs.
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Several well-preserved spherical and breadcrust bombs as well as poorly preserved bipolar fusiform varieties occur with the irregular volcanic blocks. A breach on the south side of the cone permitted drainage of a lava lake in the crater. The most recently formed part of the Flourmill Centre is a well-preserved composite cone on the northwest flank. It partially overlies deposits from the southwestern vent and consists of loosely consolidated volcanic bombs pervasively interlayered with agglutinate.
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Only mice have been colonized with ASF in experiments, since ASF bacteria originate from mice intestinal microbiome. Germfree mice are colonized by ASF through one of two methods. Pure culture of each living ASF bacteria can be grown in anaerobic conditions in laboratory setting. Lactobacilli and Bacteroides are given by gavage to germfree mice first to establish a microbial environment in the GI tract, which then supports the colonization of the spirochete and fusiform bacteria that are given later.
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Another meta analysis reported elevated hippocampus and thalamus activity in a subgroup of depressed subjects who were medication naive, not elderly, and had no comorbidities. The therapeutic lag of antidepressants has been suggested to be a result of antidepressants modifying emotional processing leading to mood changes. This is supported by the observation that both acute and subchronic SSRI administration increases response to positive faces. Antidepressant treatment appears to reverse mood congruent biases in limbic, prefrontal, and fusiform areas.
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The flowers are in diameter, come in shades of blue-violet, pale violet, lilac- purple, to deep purple, to light bluish, and almost white tones. Like other irises, it has 2 pairs of petals, 3 large sepals (outer petals), known as the 'falls' and 3 inner, smaller petals (or tepals), known as the 'standards'. It also has white beards on the falls. After the iris has flowered, in midsummer, it produces an fusiform (spindle shaped) seed capsule.
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The 10 to 15 mm- diameter stems have no ring, are bright yellow and the lower part is covered in coral-red fibrils and has a constant elliptical to fusiform diameter throughout its length of 4 to 8 cm tall. The cream-colored stem flesh turns blue when cut. X. chrysenteron has large, yellow, angular pores, and produces an olive brown spore print. Fruit bodies of Xerocomellus chrysenteron are also prone to infestation by the bolete eater (Hypomyces chrysospermus).
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The length of the shell attains 16.5 mm, its diameter 4.5 mm. (Original description) The slender shell has a fusiform shape. It is whitish, banded with brown between the ribs; zones two in number on the upper whorl—one a little below the upper suture, and the other at the base. The shell contains 10 whorls, the two first smooth, convex, the rest somewhat excavated above, obtusely angled at the middle, obliquely costate and spirally striated.
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The height of the shell attains 18 mm. (Original description) The rather thick shell has a fusiform shape and is yellowish-white. The upper whorls are lost by erosion. Of the remaining 6 whorls the upper ones are still eroded, of the 4 whorls which are in sufficient state of preservation, the upper 2 are slightly angular, their upper part a little excavated, the lower part more convex, with a single row of nodules on the limit.
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The generic name Elacatinus is from Greek elakatines which means fusiform fishes preserved in salt, while the specific name figaro references Pierre Beaumarchais's title character in the play The Barber of Seville. The type specimen was taken at Pedra Do Navio, Ilha Anchieta, Ubatuba, Sao Paulo by I. Sazima, R. Moura and C. Sazima, and the description was published in April 1997 in Aqua: Journal of Ichthyology and Aquatic Biology Volume 5, Issue 3, pp 33–38.
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There is a single ovary, located at mid-length of the body, and numerous testes, more posterior. The oötype wall has longitudinal rows of large cells (a structure called "ootype côtelé" by Euzet & Maillard, 1974). The eggs are elongate, fusiform, with a single terminal filament. The species is distinguished from other species of the genus Protocotyle by the following combination of characters: posterior lobe of seminal vesicle absent, diverticulum of oviduct present, and small body size.
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Another solution using coordinates involves comparing brains using sulcal reference points. A slightly newer technique is to use functional landmarks, which combines sulcal and gyral landmarks (the groves and folds of the cortex) and then finding an area well known for its modularity such as the fusiform face area. This landmark area then serves to orient the researcher to the neighboring cortex.Saxe, R., Brett, M., Kanwisher, N. Divide and conquer: A defense of functional localizers. Neuroimage. 2006.
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Work in the field of cognitive neuroscience has located classical language areas within the perislyvian cortex of the left hemisphere. This area is crucial for the representation of language, but other areas in the brain are shown to be active in this function as well. Language-related activation occurs in the middle and inferior temporal gyri, the temporal pole, the fusiform gyri, the lingula, in the middle prefrontal areas (i.e. dorsolateral prefrontal cortex), and in the insula.
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The length of the shell varies between 16 mm and 38 mm. (Original description) The shell is high, narrow, fusiform, subscalar, angulated and tubercled on the angle, strong, rough, yellowish white. Sculpture : Longitudinals—the upper whorls are nearly bisected by a bluntisb angulation, which is made more marked by about 20 small, oblique, longitudinally elongated knobs, of which scarcely a trace appears below or above the keel. They become fewer up the spire and die out on the body whorl.
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The length of the shell attains 16 mm, its diameter 9.5 mm. The small, short shell has a fusiform, or subovate shape, with a low spire and very large body whorl, forming about three-fourths the total length. The surface is finely decussated by longitudinal and spiral lines of nearly equal size. There are four whorls below the protoconch, very rapidly increasing, strongly convex, but frequently slightly flattened at the periphery, and sometimes distinctly angulated at the shoulder, but more commonly evenly rounded.
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In the pediatric age group, the marrow in the phalangeal bones are still active, a conducive place for the tuberculous bacilli to multiply. Slowly, the whole marrow space gets involved and this underlying granulomatous disease leads to expansion of the overlying soft cortex. Finally there is a fusiform dilation of the bone, with thinned out cortex and destruction of the marrow space leading to a balloon like shape; this cystic type of expansion of the bone is termed as spina ventosa.
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The length of the shell attains 13.5 mm, its diameter 5 mm. (Original description) The fusiform shell is rather solid. It is pale brown, indistinctly mottled with white and marked with short brown lines on the larger spiral cords, a series of alternately white and brown squarish spots below the suture. The surface is sharply sculptured with alternate spiral cords and threads, about 52 in all on the body whorl, intersected by fine raised longitudinal threads, prominent where they cross the spirals.
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The length of the shell attains 22 mm, its diameter 11 mm. (Original description) The stout-fusiform shell has a rather short, regularly tapered spire, a broad and deep posterior sinus, and a very short and wide siphonal canal. It contains seven, moderately convex whorls with a wide, concave subsntural band, which is covered with regular, strongly receding, raised lines, but destitute of spiral sculpture. The shoulder is rather prominent where the concave band joins the convexity of the whorl.
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The length of the shell attains 30 mm, its diameter 12 mm. (Original description) The fusiform shell is rather large, rather thin, translucent white with very little lustre. It has a high, regularly tapered spire of six obtusely shouldered whorls, not counting the protoconch which is broken off, and a long, nearly straight columella and a broad, straight aperture occupying about half the length of the shell. The posterior sinus is as broad as the subsutural band, shallow, slightly broken.
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Shell up to 12 mm high, fusiform with acute spire and body whorl occupying about 60% of the total height. Protoconch small, with 4 convex whorls and a sculpture of oblique threads forming a delicate reticulate pattern. Teleoconch with a sculpture of regular, high spiral cords; there are three cords on the first teleoconch whorl and the number increases by intercalation of additional cords in the later whorls. Interspaces of cord filled wit delicate raised lines, parallel to growth lines.
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Dysfunctions in distinguishing differences in sizes and shapes of objects can have many causes, including brain injury, stroke, epilepsy, and oxygen deprivation. Lesions on the brain that develop as a result of injury or illness impair object recognition. Regions that specifically lead to deficits in object recognition when a lesion is present include the right lateral fusiform gyrus and the ventrolateral occipito-temporal cortex. These areas are crucial to the processing of shape and contour information, which is the basis for object recognition.
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Susan I. Rotroff, "Fusiform Unguentaria," in "Hellenistic Pottery: The Plain Wares," The Athenian Agora 33 (2006), p. 139. The many unguentaria at the Latin town of Aricia reflect the growth of commerce to support ritual activities at the famous sanctuary of Diana there.Carin M.C. Green, Roman Religion and the Cult of Diana at Aricia (Cambridge University Press, 2007) pp. 39 and 294–295, where the term "unguentarium" is used as it was in antiquity for a shop that sells fragrances or medicaments.
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The length of the shell attains 6.5 mm, its breadth 3.3 mm. (Original description) This small, white shell has a short fusiform shape. It has a large smooth apex. The upper slope of the six whorls is comparatively smooth, exhibiting only a few (about 4) faint spiral lirae, and the lower portion and the greater part of the body whorl are covered with a distinct cancellation, the points of intersection of the oblique and transverse lirae being rather acutely nodulose.
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It is almost as though familiarity is a qualitative characteristic just as is colour or loudness. The remember- know paradigm with epilepsy patients to distinguish whether a stimulus (picture of a face) was familiar. Patients that were found to have right temporal lobe epilepsy showed relatively lower face recognition response than those with left temporal lobe epilepsy due to damage of secondary sensory regions (including fusiform gyrus) in the brain's right hemisphere, which is responsible for perception and encoding (esp. face memory).
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The length of the shell attains 13.8 mm, its diameter 5.1 mm. It's close in appearance to Eucithara fusiformis (Reeve, 1846) from which the slight fusiform shell may be distinguished by the sharper angulation of the whorls, a more attenuation of the body whorl, a finer liration on the straight columella and the slightly longer spire. The slight sinus towards the lower part of the incrassate outer lip is comparatively conspicuous. It is white with red dots between the whorls.
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In this case, these individuals preferred the football team they most identified. During wishful thinking tasks, differential activity was found in three areas of the brain: dorsal medial prefrontal cortex, the parietal lobe, and the fusiform gyrus in the occipital lobe. Differential activity in the occipital and parietal areas suggests a mode of selective attention to the cues presented; therefore, supporting a lower-level cognitive processing or attention bias. However, differential activity in the prefrontal cortex also suggests higher-cognitive processing.
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The length of the shell attains 4 mm, its diameter 2 mm. (Original description) This short, pyramidal-fusiform shell has much in common with Guraleus himerodes (Melvill & Standen, 1896), but is smaller and of a pale yellow-ochre colour throughout. The whorls are angularly turreted, they are six in number, including the two vitreous apical whorls. At the sutures there is a quasi-crenulation, owing to the commencement of the prominent longitudinal ribs, there crossed by acute lirae, the interstices being smooth.
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Vigna vexillata is a strong twiner with fusiform, tuberous roots. Its stems are usually clothed with brownish silky hairs, or trichomes.. Its leaflets come in three, which are oval-shaped and pointed at the tip, with the terminal leaflet being long. The leaflets are all a dark green and with appressed trichomes on both surfaces. The flowers are pink or purplish to yellow and long, on two- to four-flowered peduncles long, with the keel prolonged into an uncurved beak.
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Eohupehsuchus is a monotypic genus of extinct aquatic diapsid from the Upper Spathian (latest Early Triassic) of Hubei Province, located in Central China. The genus belongs to the order Hupehsuchia, whose members are characterized by toothless beak-like snouts, a row of dermal plates along their backs, and aquatic adaptations including paddle-shaped limbs and fusiform bodies with pachyostotic ribs. Eohupehsuchus is known only from its holotype, WGSC (Wuhan Centre of Geological Survey, China) V26003. It is the smallest known hupehsuchian.
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Microcotyle gimpo has the general morphology of all species of Microcotyle, with a symmetrical fusiform body with a rounded anterior extremity, comprising an anterior part which contains most organs and a posterior part called the haptor. The haptor is symmetrical, and bears 58-64 clamps, arranged as two rows, one on each side. The clamps of the haptor attach the animal to the gill of the fish. There are also two buccal suckers at the anterior extremity with distinct partition.
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The leaf-cushions were fusiform and elongated, growing at most to a length of and a width of . The middle of leaf-cushions were smooth, where leaf scars were created when an abscission layer cut a leaf from its base. Each leaf scar was composed of a central circular or triangular scar and two lateral scars that were smaller and oval-shaped. This central scar marks where the main vascular bundle of the leaf connected to the vascular system of the stem.
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The blacktip shark (Carcharhinus limbatus) is a species of requiem shark, and part of the family Carcharhinidae. It is common to coastal tropical and subtropical waters around the world, including brackish habitats. Genetic analyses have revealed substantial variation within this species, with populations from the western Atlantic Ocean isolated and distinct from those in the rest of its range. The blacktip shark has a stout, fusiform body with a pointed snout, long gill slits, and no ridge between the dorsal fins.
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Microcotyle sebastisci has the general morphology of all species of Microcotyle, with a flattened, fusiform body with an anterior end forming a flat elevation beyond the anterior buccal suckers. The body comprises an anterior part which contains most organs and a posterior part called the haptor. The haptor is wedge-shaped, and bears 29–62 clamps(11–31 clamps on each side), arranged as two rows. The clamps of the haptor attach the animal to the gill of the fish.
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Prosopagnosia is a condition marked by an inability to recognize faces. When those with prosopagnosia view faces, the fusiform gyrus (a facial recognition area of the brain) activates differently to how it would in someone without the condition. Additionally, non-facial object recognition areas (such as the ventral occipitotemporal extrastriate cortex) are activated when viewing faces, suggesting that faces and objects are processed similarly. Individuals with prosopagnosia can be unaffected or even benefit from face inversion in facial recognition tasks.
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However, the correlation between the insula's varying states of activation and positive or negative emotions in this context is unknown. The emotional view of art can be contrasted with perception related to object recognition when pragmatically viewing art. The right fusiform gyrus has been revealed to show activation to visual stimuli such as faces and representational art. This holds importance in the field because as Ramachandran also speculated, object recognition and the search for meaning can evoke a pleasant emotional response.
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The claustrum is made up of various cell types differing in size, shape and neurochemical composition. Five cell types exist, and a majority of these cells resemble pyramidal neurons found in the cortex. Within the claustrum, there is no organization of cell types compared to the cortex, and the somas of the cells can be a pyramidal, fusiform or circular shape. The principal cell type found in the claustrum is type 1 cells, which are large cells covered in spiny dendrites.
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The spore- containing substance, the gleba, is typically gelatinous, often foul-smelling, and deliquescent (becoming liquid from the absorption of water). The gleba is formed on the exterior face of the cap or the upper part of the receptacle. The basidia are small and narrowly club-shaped or fusiform, short-lived (evanescent), with four to eight sterigmata. The spores are usually ellipsoid or cylindrical in shape, hyaline or pale brown, smooth, more or less smooth- walled, and truncated at the base.
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The family includes about 56 species. The Botiids are more robust than most of their relatives in Cobitidae and tend to have a more or less arched back, yielding an altogether more fusiform shape. Botiids typically have a pointed snout of intermediate length, while many cobitids are remarkably stub-nosed. Botiids are generally fairly small, with maximum lengths between depending on the species involved, although Leptobotia elongata reaches (Chromobotia macracanthus has been claimed to reach a similar size, but this would be exceptional).
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The muksun (Coregonus muksun) is a type of whitefish widespread in the Siberian Arctic waters. It is mostly found in the freshened areas of the Kara and Laptev Seas and up the major rivers, as well as in Lake Taymyr. Like all whitefishes, it is a silvery, fusiform fish. The average length of mature fish is 33 cm and weight of 1–2 kg, and it can reach a length of 75 cm and a weight of 7–8 kg.
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Triloculinella is a genus of Miliolacean forams with a fusiform to asymmetrically globular test. Inner chambers, one-half coil in length, are crypto-quinqueloculine to quinqueloculine in arrangement; The final three to five visible from the exterior. The aperture is an arch at the end of the final chamber, largely covered by a broad apertural flap, which distinguishes the genus from Triloculina, Quinqueloculina and such, characterized by a more narrow tooth. The wall, as for all miliolids, is calcareous, imperforate, porcelaneous.
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Upon necropsy conducted by Benson et al., it was apparent that a discrete lesion in the right fusiform gyrus, a part of the inferior temporal gyrus, was one of the main causes of the subject’s symptoms. A more in depth observation can be seen with the example of patient L.H. in the study conducted by N.L. Etcoff and colleagues in 1991. This 40-year-old man was involved in an automobile accident when he was 18, which resulted in severe brain injury.
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Microsporum gypseum Microsporum is a genus of fungi that causes tinea capitis, tinea corporis, ringworm, and other dermatophytoses (fungal infections of the skin). Microsporum forms both macroconidia (large asexual reproductive structures) and microconidia (smaller asexual reproductive structures) on short conidiophores. Macroconidia are hyaline, multiseptate, variable in form, fusiform, spindle-shaped to obovate, 7–20 by 30–160 um in size, with thin or thick echinulate to verrucose cell walls. Their shape, size and cell wall features are important characteristics for species identification.
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Specifically, work has been done by Gauthier et al (2001) to show fusiform face area (FFA) activation for birds in bird experts and cars in car experts when compared to the opposing stimuli.Gauthier, I.; Skudlarski, P.; Gore, J. C.; Anderson, A. W. Expertise for cars and birds recruits brain areas involved in face recognition. Nat. Neurosci. 2001, 3:191-197. Gauthier et al (2002) also utilized a new class of objects called Greebles and trained people to recognize them at individual levels.
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The spores are roughly spherical, 8–12 μm in diameter, thin-walled, and nonamyloid (that is, not absorbing iodine stain in Melzer's reagent). The pileipellis (cap cuticle) is composed of filamentous interwoven hyphae, 2–7 μm diameter, gelatinized. The spore-bearing cells, the basidia, are 36–52 by 4–13 μm, 4–sterigmate, without clamps. The volva is largely made of filamentous hyphae, 2–8 μm diameter, inflated cells broadly elliptic, elliptical, fusiform, to clavate, 40–85 by 10–35 μm, mostly terminal.
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Yet, when she was asked to place the card into the slot, her success was almost to the level of the controls. This implies that in the event of a ventral stream deficit, the dorsal stream can help with processing of special information to aid movement regardless of object recognition. More specifically, the lateral occipital complex appears to respond to many different types of objects. Prosopagnosia (inability to recognize faces) is due to damage of the fusiform face area (FFA).
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An area in the fusiform gyrus of the temporal lobe that has been strongly associated with a role in facial recognition. However, this area is not exclusive to faces; recognition of other objects of expertise are also processed in this area. The extrastriate body cortex (EBA) was found to be activated by photographs, silhouettes, or stick drawings of human bodies. The parahippocampal place area (PPA) of the limbic cortex has been found to be activated by the sight of scenes and backgrounds.
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The length of the shell attains 8.9 mm (Original description) The thin, white shell is narrowly oblong or fusiform, with a longish, scarcely tumid body whorl, a shortish, conical, convexly whorled, small-pointed, shallow-sutured spire, and a long conical base. There are delicate thread-like curved, longitudinal lines of growth, which are strongest near the top of the whorls. The whole surface is equably covered with fine, faintly raised, rounded, spiral threads. They are slightly fretted by the longitudinals.
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Augustoceras is a genus of nautiloid cephalopods included in the order Oncocerida and family Valcouroceratidae. It is known form the Middle and Upper Ordovician of Kentucky and Ohio in the US. Shells of Augustocers are slender, upwardly curved, fusiform, exogastric cyrtocones with subtriangular cross- sections, short chambers, oblique sutures, and subventral siphuncles with simple internal radial actinosiphonate deposits. Kindleoceras from the Upper Ordovician of Ontario differs in having a more triangular cross-section and more numerous actinosiphonate rays in its siphuncle.
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Each fish has about 34-37 round, silver cycloid scales covering its body which has a fusiform shape to help the pugose shiner swim against the constant stream currents. The pelvic fins are in the abdominal position. Because it is a ray-finned species, the fin rays are used as elements to support the skeletal features. The pugnose shiner has an 8-rayed dorsal fin on top of the dusky-colored back, a feature separating it from the pugnose minnow.
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In addition, it has been proposed that activation in anterior regions of the fusiform gyri indicate successful recognition. However, levels of activation have been found to depend on the semantic relevance of the object. The term semantic relevance here refers to "a measure of the contribution of semantic features to the core meaning of a concept." Results showed that objects with high semantic relevance, such as artefacts, created an increase in activation compared to objects with low semantic relevance, such as natural objects.
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One of the most well known examples of functional specialization is the fusiform face area (FFA). Justine Sergent was one of the first researchers that brought forth evidence towards the functional neuroanatomy of face processing. Using positron emission tomography (PET), Sergent found that there were different patterns of activation in response to the two different required tasks, face processing verses object processing.Sergent, J., Signoret, J.L. (1992) Functional and anatomical decomposition of face processing: evidence from prosopagnosia and PET study of normal subject.
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The typical shell has, thus, very prominent spiral ribs devoid of other sculpture than lines of growth, whilst the varieties violacea and cylindracea, frequently, have quite prominent axial ribs, and these are invariably – even if they only occur as lines of growth – curved. The most characteristic feature is the, not very long, cauda, and the deep wide siphonal canal. The apex gives no assistance as a specific feature, because it varies according to the sculptural character of the shell. The shell of the variety gemminolineata is fusiform.
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The length of the shell attains 28 mm, its diameter 9 mm. (Original description) The shell is acuminately fusiform, shining, and very smooth. It contains 12 white and slightly bulbous whorls of which the two of the protoconch are transparent. The remainder are moderately suturally impressed, with a plicate and conspicuous revolving keel just below the suture, a plain space just below this, and then, joining on to the suture below, another carina raised and ornamented with a spiral row of small shining nodules.
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The length of the shell attains 15 mm, its diameter 2 mm. (Original description) The narrowly elongate shell is fusiform and very light yellowish white. It contains 9 whorls, of which about 1½ form a slightly swollen, smooth protoconch; The subsequent whorls are convex, separated by an undulated suture, which is accompanied by a spiral rib, conspicuous on upper whorls, becoming fainter lower on, nearly disappearing towards body whorl . The upper part of the whorls show a rather narrow excavation, wider but shallower on the lower whorls.
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There is a link between aggression and emotion perception difficulties for people with this dual diagnosis. Data from magnetic resonance imaging and functional magnetic resonance imaging has shown that a smaller volume of the fusiform gyrus is linked to greater impairments in face perception. There is a positive correlation between self-face recognition and other-face recognition difficulties in individuals with schizophrenia. The degree of schizotypy has also been shown to correlate with self-face difficulties, unusual perception difficulties, and other face recognition difficulties.
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In contrast, larger volumes were found in some of the same areas including medial/anterior frontal, parietal and temporal cortex, cerebellum, middle temporal gyrus, parahippocampal gyrus, and fusiform gyrus, as well as larger lateral ventricles on average. The cause of these inconsistencies are unknown. Additionally, reductions in cortical surface area/cortical thickness were found in the temporal lobes bilaterally and in left frontal and parietal areas. Thicker cortex was found bilaterally in the medial inferior and anterior parts of the frontal lobes and in the occipital lobes.
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Various species of Trichodesmium have been described based on morphology and structure of colonies formed. Colonies may consist of aggregates of several to several hundred trichomes and form fusiform (called "Tufts") colonies when aligned in parallel, or spherical (called "Puffs") colonies when aligned radially. Trichodesmium colonies have been shown to have large degree of associations with other organisms, including bacteria, fungi, diatoms, copepods, tunicates, hydrozoans, and protozoans among other groups. These colonies may provide a source of shelter, buoyancy, and possibly food in the surface waters.
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REM sleep is known for its visual experiences, which may often include detailed depictions of the human countenance. A recognition task was used to gauge familiarity with a previously shown sequence of faces after a subsequent period of REM sleep. It was seen that the fusiform gyrus was active during training, the REM sleep period, and the recognition task as well. It is hypothesized that brain mechanisms during REM sleep, as well as pure repetition priming, can account for the implicit recognition of the previously shown faces.
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Resin canals seen as white dots in pine tree viewed under a microscope Axial resin canal (Picea abies) Pinus; leaf (3 needle type) Resin Canal Resin canals or resin ducts are elongated, tube-shaped intercellular spaces surrounded by epithelial cells which secrete resin into the canal. These canals are orientated longitudinally and radially in between fusiform rays. They are usually found in late wood: denser wood grown later in the season. Resin is antiseptic and aromatic and prevents the development of fungi and deters insects.
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Shell rather small, elongated fusiform, solid, with a moderately long canal. Sculpture consisting of subequal narrow spiral cords, about 10 on the penultimate whorl, the interspaces shallow, much broader than the cords upon the base, where they have a fine spiral thread; axial sculpture formed by numerous vertical broadly rounded ribs, 15 to 20 on the body whorl, where they become obsolete below the periphery. Colour light - yellowish, the spirals reddish - brown. Spire elevated conic, of the same height as the aperture with canal; outlines straight.
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Examining case studies of individuals with OFA lesions provides more insight into its function. Prosopagnosic patients have been essential for this initiative, especially patient P.S., a right handed woman with a lesion extending from the posterior part of the right inferior occipital gyrus into the posterior fusiform gyrus. This lesion left patient P.S. without a right OFA and she exhibited great difficulty with facial recognition in daily life. Additionally, she had trouble with facial gender discrimination and could not match unfamiliar faces seen from different viewing angles.
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The zebrafish is named for the five uniform, pigmented, horizontal, blue stripes on the side of the body, which are reminiscent of a zebra's stripes, and which extend to the end of the caudal fin. Its shape is fusiform and laterally compressed, with its mouth directed upwards. The male is torpedo- shaped, with gold stripes between the blue stripes; the female has a larger, whitish belly and silver stripes instead of gold. Adult females exhibit a small genital papilla in front of the anal fin origin.
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Adult queen parrotfishes are heavy-bodied fish with fusiform (spindle-shaped) bodies and beak-like mouths, growing to a length of about . They have two different color phases. Among smaller fish, the sexes are similar but nearly all individuals are female, being reddish-brown or grayish-brown with a paler head and a white lateral stripe low on each flank, and that remains the color scheme for females even when they grow larger. At an average length of , females change sex to become males.
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They have tentacle ampullae and respiratory trees present, a kind of water lung attached to the cloaca. The ossicles, minute calcareous plates embedded in the skin and characteristic of each species, take the form of tables, anchors, fusiform rods and perforated plates but never wheels.Marine Species Identification PortalAn illustrated key to the sea cucumbers of the South Atlantic Bight Retrieved 2012-02-12. Like their relatives, they are adapted for burrowing into soft sediment, but they are relatively sedentary, rarely moving once they have excavated their burrow.
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In male plants, the peduncle reaches 70 cm and the rachis 30 cm, while female plants produce a rachis up to 20 cm long. Tepals are orbicular to elliptic, ranging in length from 2 mm in male flowers to 4 mm in female flowers. The former have androphores up to 2 mm long, while the latter bear ovaries around 4 mm long. Fruit are typically 10 to 25 mm long and each contain 50 to 100 fusiform seeds measuring around 7 mm in length.
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Faces are normally processed in the special face-selective regions of the brain, such as the fusiform face area. However, processing inverted faces involves both face-selective regions and the scene and object recognition regions of the parahippocampal place area and lateral occipital cortex. There seems to be something different about inverted faces that requires them to also involve these scene and object processing mechanisms. The most supported explanation for why faces take longer to recognise when they are inverted is the configural information hypothesis.
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Mu waves are suppressed when these neurons fire, a phenomenon which allows researchers to study mirror neuron activity in humans. There is evidence that mirror neurons exist in humans as well as in non-human animals. The right fusiform gyrus, left inferior parietal lobule, right anterior parietal cortex, and left inferior frontal gyrus are of particular interest. Some researchers believe that mu wave suppression can be a consequence of mirror neuron activity throughout the brain, and represents a higher-level integrative processing of mirror neuron activity.
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Cattleya walkeriana (Walker's cattleya) is a species of orchid. It differs from most species of Cattleya by having inflorescences which arise from the rhizome instead of from the apex of the pseudobulb. In its native habitat (Brazilian Central Plateau) it grows as either an epiphyte or a lithophyte, sometimes in full sun. Pseudobulbs are relatively short, bulbous or fusiform, with one or two ovate leaves at the apex. Inflorescence is one- or few- flowered, about 8" (20 cm) tall. Flowers are 4-5" (9-12 cm) across.
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Justine Sergent was one of the first researchers that brought forth evidence towards the functional neuroanatomy of face processing. She described the Fusiform face area or FFA in 1992. Using positron emission tomography (PET), Sergent found that there were different patterns of activation in response to the two different required tasks, face processing and object processing. This processing area was later named by Nancy Kanwisher in 1997 who proposed that the existence of the FFA is evidence for domain specificity in the visual system.
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Early interest in the relationship between brain function and social cognition includes the case of Phineas Gage, whose behaviour was reported to have changed after an accident damaged one or both of his frontal lobes. More recent neuropsychological studies have shown that brain injuries disrupt social cognitive processes. For example, damage to the frontal lobes can affect emotional responses to social stimuli and performance on theory of mind tasks. In the temporal lobe, damage to the fusiform gyrus can lead to the inability to recognize faces.
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The N170 is a component of the event-related potential (ERP) that reflects the neural processing of faces, familiar objects or words. Furthermore, the N170 is modulated by prediction error processes. When potentials evoked by images of faces are compared to those elicited by other visual stimuli, the former show increased negativity 130-200 ms after stimulus presentation. This response is maximal over occipito-temporal electrode sites, which is consistent with a source located at the fusiform and inferior-temporal gyri, confirmed by electrocorticography.
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Metabaltoceras, first described by Rousseau Flower in 1964, is a fossil cephalopod genus in the family Baltoceratidae, with a small, slender, fairly fusiform shell, and a large empty siphuncle in contact with the ventral surface. The siphuncle is achoanitic, having virtually no septal necks, segments formed all but entirely by connecting rings. Shells are generally straight, beginning with a subcircular cross section in the adapical portion but becoming faintly depressed adorally (toward the front). Sutures are straight and transverse except ventrally, where they produce deep, prominent lobes.
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2 The model results show the more a muscle bulges in dorsoventral height, the further the muscle fibers shorten, therefore providing a higher Architectural gear ratio. In pennate muscles, segments with higher pennation angles put out less force per shortening muscle fiber. Therefore, the architectural gear ratio of a pennate muscle is higher than the architectural gear ratio of spindle like muscles (e.g. fusiform). A smaller fiber length neutralizes this higher architectural gear ratio if the muscle fibers must be squeezed into the same space.
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Lesions in the amygdala would eliminate the enhanced activation seen in occipital and fusiform visual areas in response to fear with the area intact. Amygdala lesions change the functional pattern of activation to emotional stimuli in regions that are distant from the amygdala. Other lesions to the visual cortex have different effects depending on the location of the damage. Lesions to V1, for example, can cause blindsight in different areas of the brain depending on the size of the lesion and location relative to the calcarine fissure.
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The DCN has 2 nuclei. DCN also receives info from VCN. Fusiform cells integrate information to determine spectral cues to locations (for example, whether a sound originated from in front or behind). Cochlear nerve fibers (30,000+) each have a most sensitive frequency and respond over a wide range of levels. Simplified, nerve fibers’ signals are transported by bushy cells to the binaural areas in the olivary complex, while signal peaks and valleys are noted by stellate cells, and signal timing is extracted by octopus cells.
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Parafusulina is a genus of foraminifera included in the fusulinacean family Schwagerinidae that were extant during the Permian. The shell, or test, of Parafusulina is elongate, up to 65 mm in length, fusiform to subcylindrical in shape, tapering slightly to the bluntly rounded poles. The proloculus is large, followed by seven to nine gradually enlarging volutions, coiled around a straight to irregular axis. Septa are numerous, intensely and regularly fluted, folds of adjacent septa touching and forming numerous chamberlets above the floor of the chambers.
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Kanwisher has training in cognitive psychology, which is investigating how the mind works by observing its outward behavior. She discovered the "Fusiform face area", a region of the brain that recognizes fine distinctions between well-known objects (an example of this is facial recognition). She also discovered the "Parahippocampal place area", a region of the brain that recognizes environmental scenes. These two discoveries are now widely discussed in the cognitive field and provide a gold standard for clarity in search for primitives of human cognition.
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The albacore's pectoral fins can be longer than 30% of the fish's total length. The albacore has a streamlined, fusiform body with a conical snout, large mouth, and big eyes. Its body is dark blue dorsally, shades of silvery white ventrally, and covered by small scales. The pectoral fins begin slightly before the first dorsal fin and extend well beyond the front of the anal fin, usually as far as the second dorsal finlet, often as long as 30% of the fish's total length.
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In order to detect hypothyroidism in newborn babies, to prevent growth and development abnormalities in later life, many countries have newborn screening programs at birth. Infants with thyroid hormone deficiency (congenital hypothyroidism) can manifest problems of physical growth and development as well as brain development, termed cretinism. Children with congenital hypothyroidism are treated supplementally with levothyroxine, which facilitates normal growth and development. Mucinous, clear secretions may collect within these cysts to form either spherical masses or fusiform swellings, rarely larger than 2 to 3 cm in diameter.
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In very young fruit bodies, the surface is white; the brown color initially appears in the center and expands rapidly thereafter. The spores of Rhizina undulata are fusiform (fuse-shaped), apiculate, minutely verricose at maturity, with one or two oil drops, and have dimensions of 30–40 by 8–11 µm. The asci are roughly cylindrical, and 250–280 by 14–18 µm. Like most other Pezizales, the asci open at maturity by means of an apical, lid-like flap of tissue termed an operculum.
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The forewings are red brown and whitish speckled with a fusiform white costal patch extending from the base almost to the apex, widest in the middle, where it reaches rather more than halfway across the wing, edged beneath by a dark red-brown streak almost from the base terminating in the apex, and sending a similar branch from the lower angle of the cell to the tornus, mixed with white in its lower portion. There is also a white terminal line. The hindwings are ochreous yellow.Exotic Microlepidoptera.
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They are warm-blooded, and have a layer of fat, or blubber, under the skin. With streamlined fusiform bodies and two limbs that are modified into flippers, whales can travel at up to 20 knots, though they are not as flexible or agile as seals. Whales produce a great variety of vocalizations, notably the extended songs of the humpback whale. Although whales are widespread, most species prefer the colder waters of the Northern and Southern Hemispheres, and migrate to the equator to give birth.
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Iboga is native to tropical forests, preferring moist soil in partial shade. It bears dark green, narrow leaves and clusters of white tubular flowers on an erect and branching stem, with yellow-orange fruits resembling an olive. Normally growing to a height of 2 m, T. iboga may eventually grow into a small tree up to 10 m tall, given the right conditions. The flowers are yellowish-white or pink and followed by a fruit, orange at maturity, that may be either globose or fusiform.
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Darters have fusiform, cylindrical bodies, large paired fins and poorly developed swim bladders; they rest on the substrate, using their pectoral fins to prop themselves up. The Savannah darter has a maximum total length of but a more typical length is . Males are usually larger than females, but females are more abundant. The dorsal fin has 10 or 11 spines and 12 soft rays, the pectoral fin has 13 to 14 rays and the anal fin has 2 spines and 8 to 9 rays.
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Stuttgart: Thieme or superior central nucleus, is a brain region composed of polygonal, fusiform, and piriform neurons, which exists rostral to the nucleus raphes pontis. The MRN is located between the posterior end of the superior cerebellar peduncles and the V. Afferents of the motor nucleus. It is one of two nuclei, the other being the dorsal raphe nucleus (DnR), in the midbrain- pons. The MRN projects extensively to the hippocampus, which is known to be essential for the formation of long-term memory.
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Natural images used include pictures of a seaside cafe and harbor, performers on a stage, and dense foliage. In 2008 IBM applied for a patent on how to extract mental images of human faces from the human brain. It uses a feedback loop based on brain measurements of the fusiform gyrus area in the brain which activates proportionate with degree of facial recognition.IBM Patent Application: Retrieving mental images of faces from the human brain In 2011, a team led by Shinji Nishimoto used only brain recordings to partially reconstruct what volunteers were seeing.
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G.W. Tryon (1884) Manual of Conchology, structural and systematic, with illustrations of the species, vol. VI; Philadelphia, Academy of Natural Sciences (described as Drillia loprestana) The shell has a fusiform shape up to 7 mm high, with elevated spire and body whorl less than half the total height. The protoconch is proportionally very large, with 4–5 convex whorls and a sculpture of axial riblets and a marked suprasutural keel. The teleoconch contains 3–4 whorls, with a sculpture of strong, elevated and acute spiral cords, narrower than the interspaces.
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The length of the shell attains 17 mm, its diameter 3.5 mm. (Original description) The somewhat solid, white, more or less translucent shell has a stout-fusiform shape. The aperture is about equal in length to the spire, which is shouldered, decidedly turreted, and tapered regularly to an acute apex. The shell contains five whorls below the protoconch, strongly angularly shouldered at about the middle, the portion above the shoulder forming a wide, abruptly sloping subsutural band, which is usually slightly concave in the middle, but swells a little where it joins the suture.
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The laryngeal ventricle, (also called the ventricle of the larynx, laryngeal sinus, or Morgagni's sinus)Medical Definition of Laryngeal sinus in lexic.us. Updated 05 Mar 2000 is a fusiform fossa, situated between the vestibular and vocal folds on either side, and extending nearly their entire length. There is also a sinus of Morgagni in the pharynx. The fossa is bounded, above, by the free crescentic edge of the vestibular ligament; below, by the straight margin of the vocal fold and laterally, by the mucous membrane covering the corresponding thyroarytenoid muscle.
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In extrastriate visual areas, cells can have very large receptive fields requiring very complex images to excite the cell. For example, in the inferotemporal cortex, receptive fields cross the midline of visual space and require images such as radial gratings or hands. It is also believed that in the fusiform face area, images of faces excite the cortex more than other images. This property was one of the earliest major results obtained through fMRI (Kanwisher, McDermott and Chun, 1997); the finding was confirmed later at the neuronal level (Tsao, Freiwald, Tootell and Livingstone, 2006).
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Species in this genus show a rather solid turreted-fusiform shell, sculptured by bold longitudinal ribs, over-run by dense spiral threads, and decussated by an even finer radial striatum. The aperture is as long, or longer, than the spire, fortified externally by a stout varix which ascends the previous whorl, includes a semi-circular sinus, and extends a free edge over the mouth. Within the outer lip are a series of short entering ridges, and the columella bears a corresponding series of deeply entering horizontal bars. Hedley, C. 1922.
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The length of the shell attains 9.5 mm, its diameter 3 mm. (Original description) The solid shell is ovately fusiform. It is pale fleshy white, banded with yellow on a series of nodules around the lower half of the whorls, stained with reddish brown between the nodules, with a second series of yellow gemmules, with a reddish-brown lira beneath it, situated a little below the middle of the body whorl. The shell contains 7½ whorls, the apical ones large, the rest undulately carinated above at the suture, then concave, coarsely ribbed and spirally lirate.
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The length of the shell varies between 20 mm and 30 mm. (Original description) The shell is shortly fusiform, rather smooth, light buff, with a few red-brown spots below the suture of lower whorls and one faint band on those whorls and 3 on the body whorl, the siphonal canal being tinted with the same colour. The shell contains 9 whorls, of which 2 upper ones form a smooth, convexly-whorled nucleus. The subsequent whorls are convex, 4 or 5 post-nuclear ones slightly angular below, lower ones becoming more regularly convex.
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The length of the shell attains 7.9 mm, its diameter 2 mm. (Description by Joseph Verco) The solid, elongate-fusiform shell consists of whorls, including the blunt protoconch, which merges into the spire insensibly. The first whorl and a half are smooth and rather flat; the next is scarcely convex, and has at first distant invalid axial angulations, which gradually become more numerous and costulate. In the next whorl they become more distant again, and remain throughout the shell as feeble axial angulations which are just visible when looking at the shell from the apex.
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The length of the shell attains 6.5 mm, its diameter 3.5 mm. (Original description) The small, delicate shell is fusiform with an elevated and very acute spire and a slightly elongated, straight siphonal canal. The whorls are angulated and turreted, sculptured with ribs and revolving lines, which form rows of small, sharp nodules at their intersection around the periphery, and especially at the shoulder. The shell contains four whorls below the protoconch, which is unusually elongated and composed of four pale chestnut-colored whorls, which are finely and regularly cancellated.
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For passive viewing, there was greater activation for Chinese characters than for English words. The activation was found in the left inferior frontal gyrus, middle frontal gyrus, bilateral precuneus, bilateral superior parietal lobules, bilateral middle occipital gyri, and bilateral fusiform gyri. Perfetti also found greater activation for viewing English words than for viewing Chinese characters which was detected in the bilateral inferior frontal gyrus and bilateral superior temporal gyri. The results indicated that passive viewing impacted differences in language and general effects of learning, but none for specific effects of the training condition.
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However, the ce group and the cc group did not differ significantly. There was a similar activation of all groups found in left hemisphere components such as inferior/middle occipital gyri, inferior temporal/fusiform gyri, inferior/middle frontal gyri, and inferior parietal lobule. In the right hemisphere of the brain, activation was shown in the middle occipital gyrus, inferior Parietal lobules and middle frontal gyri. The findings concluded that Chinese components used to process the reading of English and Higher proficiency with increased involvement of Chinese component and reduced association of English components.
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The rectus femoris muscle is one of the four quadriceps muscles of the human body. The others are the vastus medialis, the vastus intermedius (deep to the rectus femoris), and the vastus lateralis. All four parts of the quadriceps muscle attach to the patella (knee cap) by the quadriceps tendon. The rectus femoris is situated in the middle of the front of the thigh; it is fusiform in shape, and its superficial fibers are arranged in a bipenniform manner, the deep fibers running straight () down to the deep aponeurosis.
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As in other deep-sea anglerfish families, sexual dimorphism is extreme: the largest females may exceed lengths of 60 cm (two feet) and are globose in shape, whereas males do not exceed 4 cm (1.5 inches) as adults and are comparatively fusiform. Their flesh is gelatinous, but thickens in the larger females, which also possess a covering of "bucklers" — round, bony plates each with a median spine — that are absent in males. Both are a reddish brown to black in life. In females, the mouth is large and oblique.
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The manufacture of unguentaria seems to occur in conjunction with the marketing of products.Josefina Pérez-Arantegui, Juan Ángel Paz-Peralta, and Esperanza Ortiz-Palomar, "Analysis of the Products Contained in Two Roman Glass unguentaria from the Colony of Celsa (Spain)," Journal of Archaeological Science 23 (1996), p. 650; Susan I. Potroff, "Fusiform Unguentaria," in "Hellenistic Pottery: The Plain Wares," The Athenian Agora 33 (2006), p. 157, with cautions on the difficulty of defining industries or determining whether the vessels were intended for local products or repackaging bulk imports.
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Punic unguentarium found in the Phoenician necropolis of Puig des Molins Glass unguentaria vary widely in quality and show a range of colors. The Judean desert caves, for instance, yielded unguentaria of aquamarine glass with large bubbles.Gladys Davidson Weinberg and Dan Barag, "Glass Vessels," in "Discoveries in the Wâdi ed- Dâliyeh," Annual of the American Schools of Oriental Research 41 (1974), pp. 103–104. A striking example of a glass fusiform unguentarium from 1st-century Syria, a little over six inches tall, has a white spiral curling around the cerulean body.
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Facial perception has well identified, neuroanatomical correlates in the brain. During the perception of faces, major activations occur in the extrastriate areas bilaterally, particularly in the fusiform face area, the occipital face area (OFA), and the superior temporal sulcus (fSTS). Perceiving an inverted human face involves increased activity in the inferior temporal cortex, while perceiving a misaligned face involves increased activity in the occipital cortex. However, none of these results were found when perceiving a dog face, suggesting that this process may be specific to perception of human faces.
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For spatial profile, result supported the importance of fusiform face area (FFA) and also occipital face area (OFA) in their abilities to integrate and represent the features. Comparing two features, shape was more consistently recovered than surface in all modalities. This might reflect the face that surface information was processed in other cortical areas beforehand. In conclusion, both studies showed existence of spatiotemporal profile of individual face recognition process and reconstruction of individual face images was possible by utilizing such profile and informative features that contribute to encoding of identity related information.
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No structural differences have been found in the brains of accomplished mnemonists, who have achieved superior memory with the practiced use of mnemonic devices. One study that sought to locate the neural differences between these and people with typical memory abilities using fMRI, was unable to find any differences. For mnemonists, the right cingulate cortex, ventral fusiform cortex, and left posterior inferior frontal sulcus were more active for digit span memorization (a feat mnemonists are often very good at). However, all superior memory participants reported the use of mnemonics.
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Contextual effects occur as a result of the degree of similarity between the encoding context and the retrieval context of an emotional dimension. The main findings are that the current mood we are in affects what is attended, encoded and ultimately retrieved, as reflected in two similar but subtly different effects: the mood congruence effect and mood-state dependent retrieval. Positive encoding contexts have been connected to activity in the right fusiform gyrus. Negative encoding contexts have been correlated to activity in the right amygdala (Lewis & Critchley, 2003).
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The dugong is largely dependent on seagrass communities for subsistence and is thus restricted to the coastal habitats which support seagrass meadows, with the largest dugong concentrations typically occurring in wide, shallow, protected areas such as bays, mangrove channels, the waters of large inshore islands and inter-reefal waters. The northern waters of Australia between Shark Bay and Moreton Bay are believed to be the dugong's contemporary stronghold. Like all modern sirenians, the dugong has a fusiform body with no dorsal fin or hind limbs. The forelimbs or flippers are paddle-like.
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These included some bronzes; a sword, with broken blade and handle; two bridlebits, with small figures of horses; and a fragment of a fusiform and hatted rod.Burton, Richard F. Etruscan Bologna: A Study (London: Smith, Elder & Co., 1876) The monastery was founded by the Knights of Saint Mary in 1233 on the site of a chapel built in 1209 and expanded by the Canonesses of Saint Augustine of the Congregation of Saint Mark. This convent was the place where Diana Andalò first became a nun in 1220 before being removed forcibly by her family.
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It is a small biennial plant with thick fusiform tuberous roots and striking funnel-shaped violet-colored flowers. Its fruit is a long sessile capsule containing about 20 seeds. Some of the names of the plant such as popping pod, duppy gun and cracker plant come from the fact that children like to play with the dry pods that pop when rubbed with spit or water.Jeannette Allsopp, Dictionary of Caribbean English usage, University of the West Indies Press, 2003, Ruellia tuberosa may be found in moist and shady environments.
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They also suggest the existence of connections between the early visual cortex and the fusiform face area (FFA) that bypass the OFA. However, the OFA remains an essential part of the face perception network and represents face parts prior to further processing of more complex facial features in higher face-selective cortical regions. The OFA is frequently found within the right hemisphere, located on the lateral surface of the occipital lobe either in or around the inferior occipital gyrus (IOG). The location of the OFA varies spatially between people.
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Alveolinidae is a family of spheroidal to fusiform milioline foraminfera with multiple apertures and complex interiors in which chambers are subdivided into chamberlets and subfloors interconnected by passageways. As with all Miliolina, the test wall in alveolinids is porecelaneous and imperforate. In living individuals the pseudopodea emerge through the multiple apertures that line the apertural or leading face of the test. Alveolinids first appeared near the beginning of the Late Cretaceous, about 100 million years ago, some 150 million years after the superficially similar fusulinds became extinct at the end of the Permian.
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A large body of research suggests that psychopathy is associated with atypical responses to distress cues (e.g. facial and vocal expressions of fear and sadness), including decreased activation of the fusiform and extrastriate cortical regions, which may partly account for impaired recognition of and reduced autonomic responsiveness to expressions of fear, and impairments of empathy. The underlying biological surfaces for processing expressions of happiness are functionally intact in psychopaths, although less responsive than those of controls. The neuroimaging literature is unclear as to whether deficits are specific to particular emotions such as fear.
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The length of the shell attains 7 mm, its diameter 2.7 mm. (Original description) The rather thin, fusiform- turreted shell has a white color with some brown stains below the suture and a brown spot at the middle of the lip-varix. The sculpture consists of many slightly oblique and arcuate longitudinal riblets about as wide as their intervals, and sixteen in number on the body whorl. These are crossed by spaced spiral threads, about 18 from the shoulder down on the body whorl, a little widened where they pass over the riblets.
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The tulip shell has a fusiform outline, with an overall smooth surface, and presents fine growth lines, and small denticles on the inner edge of its delicate outer lip. It is whitish to tan in color, with rows of darker brownish blotches of various sizes. Over the blotches are symmetrical rows of thin lines which spiral along the whorls of the shell, which are normally about 9 in number. The shell of an adult tulip snail can be from 2.5” to 9.5” inches (6.4 – 24.1 cm) in length.
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The length of the shell attains 8 mm, its diameter 2.5 mm This is a remarkably graceful, attenuate-fusiform shell. It contains seven whorls, of which three in the protoconch. The shell is conspicuous for its strong yet thread-like angled keels, one upon the upper whorls, two on the lower, while a rectangular appearance is obtained by the six longitudinal remote yet regular ribs on each whorl, these not being exactly continuous, as is the case with the sculpture of some Mangiliae. The apical whorls are beautifully cancellate.
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Asci (spore-bearing cells) are more or less club-shaped, and contain eight spores. They are surrounded by a thin outer amyloid wall layer and a thicker, non-amyloid inner wall layer; a non-amyloid zone rests above the axial body of the ascus. The ascospores are colourless, lack septa, and have smooth walls with occasional thickening at either end. The spores have a range of shapes; depending on the species, the following shapes have been recorded: ellipsoid, ovoid (egg-shaped), fusiform (spindle-shaped), lemon- shaped, falciform (sickle-shaped), fabiform (bean-shaped), and partly curved.
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The head armor of arandaspids is elongated, fusiform, with a rather flat dorsal shield, and a bulging ventral shield. In the anterior part of the dorsal shield are two closely set holes, which have been thought to be a paired pineal opening, but which are more likely the external openings of the endolymphatic ducts. The eyes, surrounded by a sclerotic ring, are housed in a notch at the anterior end of the dorsal shield. The nostrils are not clearly located, but may have been situated between the eyes.
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USDA. A: Female fly B: Eggs removed from apple C: Egg punctures in skin of apple D: Eggs in normal position in apple E: Larva, nearly fully grown F: Pupae. Eggs are fusiform and pearly white when laid in fruit, but after a short period of time in the fruit, they turn a cream color. Developing larvae can be clearly seen within the translucent eggs. The larva is white or cream-colored, but if it eats green pulp near the fruit skin, the green shows through the skin.
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Mycena californiensis may be distinguished from the closely related M. atromarginata by its smaller size and the purplish tint to the edge of the gills, and from M. purpureofusca by its differently shaped, longer spores. Another Mycena commonly confused with M. californiensis is M. sanguinolenta, a species that also exudes reddish latex. It can be distinguished from M. californiensis by the fusiform (tapering at each end) cheilocystidia that do not have outgrowths. An additional difference between the two is that M. sanguinolenta is associated with conifer wood and debris.
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