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The effects of scaling on bite force and suction index in the eastern hellbender (Cryptobranchus alleganiensis)Larghi, Nicholas Patrick 01 January 2013 (has links)
The hellbender (Cryptobranchus alleganiensis) is a salamander that grows over a large range of body sizes (2-74 cm total length) making it an ideal organism for examining the effects of body size on morphology and performance. The goal of this study is to investigate the morphology changes over ontogeny and change in
feeding ability. Cryptobranchus feeds on small aquatic insects as juveniles and shifts to crayfish as they get larger. Morphology can be expected to change as an organism grows larger, and because morphology and performance are closely linked, this morphological change can result in a change in feeding ability.
Cryptobranchus alleganiensis are primarily aquatic salamanders that utilize both suction feeding and biting behaviors. I hypothesize bite force would increase with positive allometry reflecting a possible dietary shift during ontogeny in which larger Cryptobranchus favor crayfish. Because suction is the primary mode of feeding making it an important aspect of feeding throughout ontogeny, suction index was hypothesized to scale with isometry. Fourteen preserved specimens (11.9-34.5 cm SVL) were used to investigate the effects of scaling on suction potential and estimated bite force. Bite force was calculated using a 3D static equilibrium model and suction potential was calculated as suction index. Bite force scaled with positive allometry allowing the animals to bite harder relative to body mass with increasing body size, and suction index showed no effect of body size. Results of this study indicate that Cryptobranchus alleganiensis maintains suction performance across ontogeny allowing them to generate suction with similar ability ontogenetically, but increases its biting performance to cope with durophagous prey with a possible ontogenetic dietary shift.
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Young Whale Sharks, Rhincodon Typus, Feeding on a Copepod Bloom Near La Paz, MexicoClark, Eugenie, Nelson, Diane R. 24 September 1997 (has links)
Seven small (3.2 to 5.2 m total length) whale sharks were observed suction feeding on patches of surface plankton in the Bay of La Paz within 1 km of shore and 2 km N of the phosphate dock at San Juan de la Costa, on 1-2 November 1993. The sharks were photographed and videotaped from the boat and by snorkelers in the water. When actively feeding the shark turned its head from side to side, part of the head was lifted out of the water, and the mouth opened and closed 7 to 28 times per minute (x̄ = 17, N = 13). These suction gulps were synchronized with the opening and closing of the gill slits. This feeding behavior occurred only in the patchy areas of densely cloudy water, a layer 10 to 30 cm thick at the surface containing an immense concentration of copepods, 95% of which were identified as Acartia clausi. Remoras accompanying the whale sharks also fed on the plankton bloom.
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Physiological aspects of the fish-to-tetrapod transitionWitzmann, Florian 17 March 2015 (has links)
Diese Habilitationsschrift konzentriert sich auf die Evolution osteologischer Korrelate, anhand derer Rückschlüsse auf die Struktur der Haut sowie die Art der Atmung und der Nahrungsaufnahme früher Tetrapoden gezogen werden können. Die äußere Skulptur der Hautknochen früher Tetrapoden trug zur Konsolidierung der darüber liegenden Dermis bei; dies und die zahlreichen Hautverknöcherungen deuten darauf hin, dass Hautatmung im Gegensatz zu heutigen Lissamphibien keinen wesentlichen Teil des Gasaustausches ausmachen konnte. Es wird die Hypothese aufgestellt, dass eine weitere Funktion der Knochenskulptur in der Pufferung von CO2-induzierter Azidose bestand, wenn sich die Tiere an Land aufhielten. Mehrere Gruppen früher Tetrapoden entwickelten unabhängig voneinander Osteoderme im Rumpf, die unter anderem die Wirbelsäule bei der Fortbewegung an Land unterstützen konnten oder als Kalzium-Reservoir dienten. Die Veränderungen in der Morphologie, Histologie und Anordnung der Dermalschuppen während des Fisch-Tetrapoden-Überganges erfolgte etwa simultan zur Entwicklung der Tetrapodenextremität und ermöglichte eine größere Flexibilität des Körpers und der Beine. Der Bau des Kiemenskeletts ihrer Fischvorfahren wurde bei einer unerwartet großen Anzahl früher Tetrapoden beibehalten. Dies zeigt, dass viele frühe Tetrapoden sowohl der Stamm- als auch der Kronengruppe als Adulte über innere Kiemen atmeten, während ihre Larven äußere Kiemen besaßen. Das Kiemenskelett und die Rekonstruktion assoziierter Muskeln zeigen, dass viele aquatische frühe Tetrapoden ihre Nahrung durch akinetisches Saugschnappen erbeuteten. Trotz spärlicher Fossilüberlieferung gibt es Hinweise darauf, dass die ersten an Land fressenden Tetrapoden noch keine bewegliche Zunge besaßen. Ein ontogenetischer Umbau des larvalen, kiementragenden Kiemenskelets in einen zungenstützenden Apparat kann bei frühen Tetrapoden nur in Ausnahmefällen belegt werden. / This habilitation thesis focuses on the evolution of skeletal correlates from which the integumentary structure and the mode of breathing and feeding in early tetrapods can be inferred. Sculpture on the external surface of dermal bones contributed to the consolidation of a dense integument; this and numerous dermal ossifications render substantial cutaneous respiration as in extant lissamphibians unlikely. It is hypothesised that a further function of dermal bone sculpture was to buffer CO2-induced acidosis while the animals were on land. Numerous early tetrapods independently developed osteoderms in the trunk that may have served among other things for support of the vertebral column in terrestrial locomotion or as a physiological calcium reservoir. The alterations in morphology, histology and arrangement of dermal scales during the fish-to-tetrapod transition occurred at roughly the same time when digits appeared and enabled greater flexibility of body and limbs. The structure of the hyobranchium of their fish-like ancestors was retained in an unexpected large number of early tetrapods, showing that many early tetrapods of both the stem- and crown-group breathed via the associated internal gills as adults, and via external gills as larvae. The hyobranchial apparatus and reconstruction of the associated musculature indicate that many aquatic early tetrapods fed by akinetic suction feeding. There is evidence that the earliest terrestrial tetrapods captured prey on land by jaw prehension rather than by tongue based feeding. Ontogenetic remodelling into a tongue supporting adult hyobranchium in early tetrapods can only be demonstrated in exceptional cases.
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