The nutritional physiology of sharks
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Aldman G, Jonsson AC, Jensen J, Holmgren S (1989) Gastrin/CCK-like peptides in the spiny dogfish, squalus acanthias-concentrations and actions in the gut. Comp Biochem Physiol C-Pharmacol Toxicol Endocrinol 91(1):103–108
Anderson WG, McCabe C, Brandt C, Wood CM (2015) Examining urea flux across the intestine of the spiny dogfish, Squalus acanthias. Comp Biochem Physiol 181:71–78
Andrews PLR, Young JZ (1988) The effect of peptides on the motility of the stomach, intestine and rectum in the skate. Comp Biochem Physiol CB9:343–348
Andrews PLR, Young JZ (1993) Gastric motility patterns for digestion and vomiting evoked by sympathetic nerve stimulation and 5-hydroxytryptamine in the dogfish Scyliorhinus canicula. Philos Trans R Soc Lond 342:363–380
Armstrong JB, Schindler DE (2011) Excess digestive capacity in predators reflects a life of feast and famine. Nature 476:84–87
Baldridge H (1970) Sinking factors and average densities of Florida sharks as a function of liver buoyancy. Copeia 4:744–754
Ballantyne JS (2016) Metabolism of elasmobranchs (Jaws II). In: Shadwick RE, Farrell AP, Brauner CJ (eds) Physiology of elasmobranch fishes: internal processes. Elsevier, London
Beckmann CL, Mitchell JG, Seuront L, Stone DA, Huveneers C (2013) Experimental evaluation of fatty acid profiles as a technique to determine dietary composition in benthic elasmobranchs. Physiol Biochem Zool 86:266–278
Beckmann CL, Mitchell JG, Stone DA, Huveneers C (2014) Inter-tissue differences in fatty acid incorporation as a result of dietary oil manipulation in Port Jackson Sharks (Heterodontus portusjacksoni). Lipids 49(6):577–590
Bernal D, Lowe CG (2016) Field studies of elasmobranch physiology. In: Shadwick RE, Farrell AP, Brauner CJ (eds) Physiology of elasmobranch fishes: structure and interaction with environment. Elsevier, London
Bertin L (1958) Appareil digestif. In: Grasse PP (ed) Traite de Zoologic, vol 13. Mason, Paris, pp 1248–1302
Bethea DM, Hale L, Carlson JK, Cortés E, Manire CA, Gelsleichter J (2007) Geographic and ontogenetic variation in the diet and daily ration of the bonnethead shark, Sphyrna tiburo, from the eastern Gulf of Mexico. Mar Biol 152:1009–1020
Bethea DM, Carlson JK, Hollensead LD, Papastamatiou YP, Graham BS (2011) A comparison of the foraging ecology and bioenergetics of the early life-stages of two sympatric hammerhead sharks. Bull Mar Sci 87(4):873–889
Brett JR, Groves TDD (1979) Physiological energetics. In: Hoar WS, Randall DJ, Brett JR (eds) Fish physiology, vol 8. Academic Press, New York, pp 280–352
Bucking C (2016) Feeding and digestion in elasmobranchs: tying diet and physiology together. In: Shadwick RE, Farrell AP, Brauner CJ (eds) Physiology of elasmobranch fishes: structure and interaction with environment. Elsevier, London
Bush AC, Holland KH (2002) Food limitation in a nursery area: estimates of daily ration in juvenile scalloped hammerheads, Sphyrna lewini, in Kanéohe Bay, O’ahu. J Exp Mar Biol Ecol 278:157–178
Calduch-Giner JA, Sitja-Bodadilla A, Perez-Sanches J (2016) Gene expression profiling reveals functional specialization along the intestinal tract of a carnivorous teleostean fish (Dicentrarchus labrax). Front Physiol. doi: 10.3389/fphys.2016.00359
Camp AL, Brainerd EL (2014) Role of axial muscles in powering mouth expansion during suction feeding in largemouth bass (Micropterus salmoides). J Exp Biol 217(8):1333–1345
Camp AL, Roberts TJ, Brainerd EL (2015) Swimming muscles power suction feeding in largemouth bass. Proc Natl Acad Sci USA 112(28):8690–8695
Cant J, McBride B, Croom W Jr (1996) The regulation of intestinal metabolism and its impact on whole animal energetics. J Anim Sci 74:2541–2553
Carlisle AB, Litvin SY, Madigan DJ, Lyons K, Bigman JS, Ibarra M, Bizzarro JJ (2017) Interactive effects of urea and lipid content confound stable isotope analysis in elasmobranch fishes. Can J Fish Aquat Sci 74(3):419–428
Castro L, Goncalves O, Mazan S, Tay B, Venkatesh B, Wilson J (2014) Recurrent gene loss correlates with the evolution of stomach phenotypes in gnathostome history. Proc R Soc B 281:2013–2669
Caut S, Angulo E, Courchamp F (2009) Variation in discrimination factors (Delta N-15 and Delta C-13): the effect of diet isotopic values and applications for diet reconstruction. J Appl Ecol 46(2):443–453
Caut S, Jowers MJ, Michel L, Lepoint G, Fisk AT (2013) Diet- and tissue-specific incorporation of isotopes in the shark Scyliorhinus stellaris, a North Sea mesopredator. Mar Ecol Prog Ser 492:185–198
Chatchavalvanich K, Marcos R, Poonpirom J, Thongpan A, Rocha E (2006) Histology of the digestive tract of the freshwater stingray Himantura signifer Compagno and Roberts, 1982 (Sharkii, Dasyatidae). Anat Embryol 211:507–518
Choat JH, Clements KD (1998) Vertebrate herbivores in marine and terrestrial environments: a nutritional ecology perspective. Annu Rev Ecol Syst 29:375–403
Churchill DA, Heithaus MR, Vaudo JJ, Grubbs RD, Gastrich K, Castro JI (2015) Trophic interactions of common elasmobranchs in deep-sea communities of the Gulf of Mexico revealed through stable isotope and stomach content analysis. Deep-Sea Res II 115:92–102
Clements KD, Raubenheimer D, Choat JH (2009) Nutritional ecology of marine herbivorous fishes: ten years on. Funct Ecol 23(1):79–92
Clements KD, Angert ER, Montgomery WL, Choat JH (2014) Intestinal microbiota in fishes: what’s known and what’s not. Mol Ecol 23:1891–1898
Clements KD, German DP, Piche J, Tribollet A, Choat JH (2017) Integrating ecological roles and trophic diversification on coral reefs: multiple lines of evidence identify parrotfishes as microphages. Biol J Linn Soc
Cnudde C, Moens T, Werbrouck E, Lepoint G, Van Gansbeke D, De Troch M (2015) Trophodynamics of estuarine intertidal harpacticoid copepods based on stable isotope composition and fatty acid profiles. Mar Ecol Prog Ser 524:225–239
Compagno L (2008) Pelagic shark diversity. In: Camhi MD, Pikitch EK (eds) Sharks of the open ocean: biology, fisheries and conservation. Blackwell, Oxford, pp 14–23
Corn KA, Farina SC, Brash J, Summers AP (2016) Modeling tooth-prey interactions in sharks: the importance of dynamic testing. R Soc Open Sci 3:160141. doi: 10.1098/rsos.160141
Cortés E (1996) A critical review of methods of studying fish feeding based on analysis of stomach contents: application to shark fishes. Can J Fish Aquat Sci 54:726–738
Cortés E, Gruber SH (1996) Gastric evacuation in the young lemon shark, Negaprion brevirostris, under field conditions. Environ Biol Fishes 35:205–212
Cortés E, Papastamatiou Y, Carlson J, Ferry-Graham L, Wetherbee B (2008) An overview of the feeding ecology and physiology of shark fishes. In: Cyrino J, Bureau D, Kapoor B (eds) Feeding and digestive functions in fishes. Science Publishers, New Hampshire
Crane R, Boge G, Rigal A (1979) Isolation of brushborder membranes in vesivular form from the intestinal spiral valve of the small dogfish (Scyliorhinus canicula). Biochim Biophys Acta 554:264–267
Dalerum F, Angerbjorn A (2005) Resolving temporal variation in vertebrate diets using naturally occurring stable isotopes. Oecologia 144:647–658
Day RD, Tibbetts IR, Secor SM (2014) Physiological responses to short-term fasting among herbivorous, omnivorous, and carnivorous fishes. J Comp Physiol B 184:297–512
Dennis CA, MacNeil MA, Rosati JY, Pitcher TE, Fisk AT (2010) Diet discrimination factors are inversely related to δ15N and δ13C values of food for fish under controlled conditions. Rapid Commun Mass Spectrom 24:3515–3520
Di Santo V, Bennett WA (2011) Is post-feeding thermotaxis advantageous in shark fishes? J Fish Biol 78:195–207
Diamond JM, Karasov WH (1987) Adaptive regulation of intestinal nutrient transporters. Proc Natl Acad Sci USA 84(8):2242–2245
Dove ADM, Leisen J, Zhou M, Byrne JJ, Lim-Hing K, Webb HD, Gelbaum L, Viant MR, Kubanek J, Fernandez FM (2012) Biomarkers of whale shark health: a metabolomic approach. PLoS ONE. doi: 10.1371/journal.pone.0049379
Dowd WW, Wood CM, Kajimura M, Walsh PJ, Kültz D (2008) Natural feeding influences protein expression in the dogfish shark rectal gland: a proteomic analysis. Comp Biochem Physiol D Genomics Proteomics 3:118–127
Fänge R, Grove D (1979) Digestion. In: Hoar WS, Randall DJ (eds) Fish physiology, vol 8. Academic Press, New York, pp 161–260
Fänge R, Lundblad G, Lind J, Slettengren K (1979) Chitinolytic enzymes in the digestive system of marine fishes. Mar Biol 53:317–321
Ferry-Graham LA, Lauder GV (2001) Aquatic prey capture in ray-finned fishes: a century of progress and new directions. J Morphol 248:99–119
Frazetta TH, Prange CD (1987) Movements of cephalic components during feeding in some requiem sharks (Carcharhiniformes: Carcharhinidae). Copeia 1987:979–993
Furuse M, Dockray GJ (1995) The regulation of gastrin-secretion in the chicken. Regul Pept 55(3):253–259
Gajić A (2013) Comparative odontology of selachians (Chondricthyes: Sharkii): development and morphological characteristics of teeth. Presented at the 17th annual Symposium of Biology Students in Europe. Abstract
Gamboa-Delgado J, Canavate JP, Zerolo R, Le Vay L (2008) Natural carbon stable isotope ratios as indicators of the relative contribution of live and inert diets to growth in larval Senegalese sole (Solea senegalensis). Aquaculture 280(1–4):190–197
German DP (2011) Digestive efficiency. In: Farrell AP (ed) Encyclopedia of fish physiology: from genome to environment, vol 3. Academic Press, San Diego, pp 1596–1607
German DP, Miles RD (2010) Stable carbon and nitrogen incorporation in blood and fin tissue of the catfish Pterygoplichthys disjunctivus (Siluriformes, Loricariidae). Environ Biol Fishes 89:117–133
German DP, Horn MH, Gawlicka A (2004) Digestive enzyme activities in herbivorous and carnivorous prickleback fishes (Teleostei: Stichaeidae): ontogenetic, dietary, and phylogenetic effects. Physiol Biochem Zool 77(5):789–804
German DP, Nagle BC, Villeda JM, Ruiz AM, Thomson AW, Contreras S, Evans DH (2010a) Evolution of herbivory in a carnivorous clade of minnows (Teleostei: Cyprinidae): effects on gut size and digestive physiology. Physiol Biochem Zool 83(1):1–18
German DP, Neuberger DT, Callahan MN, Lizardo NR, Evans DH (2010b) Feast to famine: the effects of food quality and quantity on the gut structure and function of a detritivorous catfish (Teleostei: Loricariidae). Comp Biochem Physiol A 155:281–293
German DP, Sung A, Jhaveri P, Agnihotri R (2015) More than one way to be an herbivore: convergent evolution of herbivory using different digestive strategies in prickleback fishes (family Stichaeidae). Zoology 118:161–170
German DP*, Foti DM*, Heras J, Amerkhanian H, Lockwood BL (2016) Elevated gene copy number does not always explain elevated amylase activities in fishes. Physiol Biochem Zool 89:277–293
Gidmark NJ, Taylor C, LoPresti E, Brainerd E (2015) Functional morphology of Durophagy in Black Carp, Mylopharyngodon piceus. J Morphol 276(12):1422–1432
Givens C, Ransom B, Bano N, Hollibaugh J (2015) Comparison of the gut microbiomes of 12 bony fish and 3 shark species. Mar Ecol Prog Ser 518:209–223
Goldman KJ, Anderson SD, Latour RJ, Musick JA (2004) Homeothermy in adult salmon sharks, Lamna ditropis. Environ Biol Fishes 71:403–411
Goran A, Jonsson A, Jensen J, Holmgren S (1988) Gastrin/CCK-like peptides in the spiny dogfish, Squalus acanthias; concentrations and actions in the gut. Comp Biochem Phys 92(1):103–108
Grove DJ, Campbell G (1979) The role of extrinsic and intrinsic nerves in the co-ordination of gut motility in the stomachless flatfish Rhombosolea tapirina and Ammotretis rostrata Guenther. Comp Biochem Physiol C 63(1):143–159
Guerreiro I, de Vareilles M, Pousao-Ferreira P, Rodrigues V, Dinis MT, Ribeiro L (2010) Effect of age-at-weaning on digestive capacity of white seabream (Diplodus sargus). Aquaculture 300(1–4):194–205
Halver JE (2002) The vitamins. In: Halver JE, Hardy RW (eds) Fish nutrition, 3rd edn. Academic Press, San Diego, pp 61–141
Hart HR, Evans AN, Gelsleichter J, Ahearn GA (2016) Molecular identification and functional characteristics of peptide transporters in the bonnethead shark (Sphyrna tiburo). J Comp Physiol B 186(7):855–866
Hesslein RH, Hallard KA, Ramlal P (1993) Replacement of sulfur, carbon, and nitrogen in tissue of growing broad whitefish (Coregonus nasus) in response to a change in diet traced by δ34S, δ13C, and δ15N. Can J Fish Aquat Sci 50:2071–2076
Hobson KA, Clark RG (1992) Assessing avian diets using stable isotopes I: turnover of 13C in tissues. Condor 94:181–188
Hogben CAM (1967) Response of the isolated dogfish gastric mucosa to histamine. Proc Soc of Exp Biol Med 124:890–893
Holmgren S, Nilsson S (1999) Digestive system. In: Hamlett WC (ed) Sharks, skates, and rays: the biology of shark fishes. The Johns Hopkins University Press, Baltimore, pp 144–173
Holmgren S, Grimes D, Brayton P, Colwell R, Gruber S (1985) Vibrios as autochthonous flora of neritic sharks. Syst Appl Microbiol 6:221–226
Horn MH, Messer KS (1992) Fish guts as chemical reactors: a model of the alimentary canals of marine herbivorous fishes. Mar Biol 113:527–535
Hume I (2003) Nutrition of carnivorous marsupials. In: Jones M, Dickman C, Archer M (eds) Predators with pouches: the biology of carnivorous marsupial. CSIRO Publishing, Collingwood, Australia, pp 221–227
Hume I (2005) Concepts of digestive efficiency. In: Starck J, Wang T (eds) Physiological ecological adaptations to feeding vertebrates. Science Publishers, Enfield, pp 43–58
Hussey NE, Brush J, McCarthy ID, Fisk AT (2010) δ15N and δ13C diet—tissue discrimination factors for large sharks under semi-controlled conditions. Comp Biochem Physiol A 155:445–453
Iverson SJ, Frost KJ, Lang SLC (2002) Fat content and fatty acid composition of forage fish and invertebrates in Prince William Sound, Alaska: factors contributing to among and within species variability. Mar Ecol Prog Ser 241:161–181
Jackson S, Dubby DC, Jenkins JFG (1987) Gastric digestion in marine vertebrate predators: in vitro standards. Funct Ecol 1:287–291
Jhaveri P, Papastamatiou Y, German DP (2015) Digestive enzyme activities in the guts of bonnethead sharks (Sphyrna tiburo) provide insight into their digestive strategy and evidence for microbial digestion in their hindguts. Comp Biochem Physiol A 189:76–83
Johnsen AH, Jonson L, Rourke IJ, Rehfeld JF (1997) Sharks express separate cholecystokinin and gastrin genes. Proc Natl Acad Sci USA 94(19):10221–10226
Jones BC, Green GH (1977) Food and feeding of spiny dogfish (Squalus acanchias) in British Columbia waters. J Fish Res Board Can 43:2067–2078
Kararli T (1995) Comparison of the gastrointestinal anatomy, physiology, and biochemistry of human and commonly used laboratory animals. Biopharm Drug Dispos 16:351–380
Karasov WH (1992) Tests of the adaptive modulation hypothesis for dietary control of intestinal nutrient transport. Am J Physiol 263:R496–R502
Karasov WH, Diamond J (1983) Adaptive regulation of sugar and amino acid transport by vertebrate intestine. Am J Physiol 245:G443–G462
Karasov WH, Martinez del Rio C (2007) Physiological ecology: how animals process energy, nutrients, and toxins. Princeton University Press, Princeton
Karsten AH, Rice CD (2004) c-Reactive protein levels as a biomarker of inflammation and stress in the Atlantic sharpnose shark (Rhizoprionodon terraenovae) from three southeastern USA estuaries. Mar Environ Res 58(2–5):747–751
Kelly JR, Scheibling RE (2012) Fatty acids as dietary tracers in benthic food webs. Mar Ecol Prog Ser 446:1–22
Kenaley CP, Lauder GV (2016) A biorobotic model of the suction-feeding system in largemouth bass: the roles of motor program speed and hyoid kinematics. J Exp Biol 219:2048–2059
Kim SL, Martinez del Rio C, Casper D, Koch PL (2012) Isotopic incorporation rates for shark tissues from a long-term captive feeding study. J Exp Biol 215(14):2495–2500
Kolmann MA, Welch K, Summers AP, Lovejoy NR (2016) Always chew your food: freshwater stingrays use mastication to process tough insect prey. Proc R Soc B Biol Sci 283:20161392. doi: 10.1098/rspb.2016.1392
Konturek JW, Thor P, Maczka M, Stoll R, Domschke W, Konturek SJ (1994) Role of cholecystokinin in the control of gastric emptying and secretory response to a fatty meal in normal subjects and duodenal ulcer patients. Scand J Gastroenterol 29(7):583–590
Kuz’mina V (1990) Characteristics of enzymes involved in membrane digestion in shark fishes. Zhur Evolyut Biokhim Fiziolog 26:161–166
Laurence-Chasen JD, Jimenez YE, Knorlein BJ, and Brainerd EL (2016) Video Reconstruction of Moving Morphology (VROMM) for studies of suction feeding in ray-finned fishes. Conference: Annual Meeting of the Society-for-Integrative-and-Comparative-Biology (SICB). Integrative and Comparative Biology, 56(1): E321, Meeting Abstract: P2.175, Portland, OR
Lauzon HL, Perez-Sanchez T, Merrifield DL, Ringo E, Balcazar JL (2014) Probiotic applications in cold water fish species. Aquac Nutr Gut Health Probiotics Prebiotics 9:223–252
LeBlanc J, Milani C, Savoy de Giori G, Sesma F, van Sinderen D, Ventura M (2013) Bacteria as vitamin suppliers to their host: a gut microbiota perspective. Curr Opin Biotechnol 24:160–168
Li Y, Zhang Y, Hussey NE, Dai X (2015) Urea and lipid extraction treatment effects on δ15N and δ13C values in pelagic sharks. Rapid Commun Mass Spectrom 30:1–8
Lloyd KCK, Debas HT (1994) Peripheral regulation of gastric acid secretion. In: Johnson LR (ed) Physiology of the gastrointestinal tract. Plenum Publishing Corporation, New York, pp 229–334
Logan JM, Lutcavage ME (2010) Stable isotope dynamics in elasmobranch fishes. Hydrobiologia 644:231–244
Longo SJ, McGee MD, Oufiero CE, Waltzek TB, Wainwright PC (2016) Body ram, not suction, is the primary axis of suction-feeding diversity in spiny-rayed fishes. J Exp Biol 219(1):119–128
Lujan NK, German DP, Winemiller KL (2011) Do wood grazing fishes partition their niche? Morphological and isotopic evidence for trophic segregation in Neotropical Loricariidae. Funct Ecol 25:1327–1338
Mara KR, Motta PJ, Martin AP, Hueter RE (2015) Constructional morphology within the head of hammerhead sharks (Sphyrnidae). J Morphol 276(5):526–539
Martin RA (2003) Biology of sharks and rays. Illustrations. World Wide Web Publication, www.elasmo-research.org/copyright.htm
Martine A, Fuhrman F (1995) The relationship between summated tissue respiration and metabolic rate in the mouse and dog. Physiol Biochem Zool 28:18–34
Martínez del Rio C, Carleton SA (2012) How fast and how faithful—the dynamics of isotopic incorporation into animal tissues. J Mamm 93:353–359
Martinez del Rio C, Wolf N (2005) Mass-balance models for animal isotopic ecology. In: Starck MA, Wang T (eds) Physiological and ecological adaptations to feeding in vertebrates. Science Publishers, Enfield, New Hampshire, pp 141–174
Martinez del Rio C, Wolf N, Carleton SA, Gannes LZ (2009) Isotopic ecology ten years after a call for more laboratory experiments. Biol Rev 84:91–111
Meyer CG, Holland KN (2012) Autonomous measurement of ingestion and digestion processes in free-swimming sharks. J Exp Biol 215:3681–3684
Michelangeli F, Ruiz MC, Dominquez MG, Parthe V (1988) Mammalian like differentiation of gastric cells in the shark Hecanchus griseus. Cell Tissue Res 251:225–227
Moro GV, Silva TSC, Zanon RB, Cyrino JEP (2016) Starch and lipid in diets for dourado Salminus brasiliensis (Cuvier 1816): growth, nutrient utilization and digestive enzymes. Aquac Nutr 22(4):890–898
Motta PJ, Wilga CAD (1995) Anatomy of the feeding apparatus of the lemon shark, Negaprion brevirostris. J Morphol 226:309–329
Motta PJ, Wilga CAD (2001) Advances in the study of feeding behaviors, mechanisms, and mechanics of sharks. Environ Biol Fish 60:131–156
Motta PJ, Hueter RE, Tricas TC, Summers AP, Huber DR, Lowry D, Mara KR, Matott MP, Whitenack LB, Wintzer AP (2008) Functional morphology of the feeding apparatus, feeding constraints, and suction performance in the nurse shark. J Morphol 269:1041–1055
Motta PJ, Maslanka M, Hueter RE, Davis RL, de la Parra R, Mulvany SL, Habegger ML, Strother JA, Mara KR, Gardiner JM, Tyminski JP, Zeigler LD (2010) Feeding anatomy, filter-feeding rate, and diet of whale sharks, Rhincodon typus during surface ram filter feeding off the Yucatan Peninsula, Mexico. Zoology 113:199–212
Mulley JF, Hargreaves AD, Hegarty MJ, Heller RS, Swain MT (2014) Transcriptomic analysis of the lesser spotted catshark (Scyliorhinus canicula) pancreas, liver and brain reveals molecular level conservation of vertebrate pancreas function. BioMed Cent. doi: 10.1186/1471-2164-15-1074
Murphy KP, Crush L, Twomey M, McLaughlin PD, Mildenberger IC, Moore N, Bye J, O’Connor OJ, McSweeney SE, Shanahan F, Maher MM (2015) Model-based iterative reconstruction in CT enterography. AJR Am J Roentgenol 205(6):1173–1181
Nakaya K (2001) White band on upper jaw of megamouth shark, Megachasma pelagios, and its presumed function (Lamniformes: Megachasmidae). Bull Fac Sci Hokkaido Univ Sapporo 52:125–129
Nakaya K, Matsumoto R, Suda K (2008) Feeding strategy of the megamouth shark Megachasma pelagios (Lamniformes: Megachasmidae). J Fish Biol 73(1):17–34
Navarro-Garcia G, Aguilar-Pacheco R, Cordova-Vallejo B, Suarez-Ramirez J, Bolanos A (2000) Lipid composition of the liver oil of shark species from the Caribbean and gulf of California waters. J Food Compos Anal 13(5):791–798
Navia A, Mejia-Falla P, Giraldo A (2007) Feeding ecology of shark fishes in coastal waters of the Columbian Eastern Tropical Pacific. BMC Ecol 7:8
Nelson JD (2004) Distribution and foraging ecology by Whale Sharks (Rhincodon typus) within Bahia de los Angeles, Baja California Norte, Mexico. M.Sc. Thesis. San Diego State University, CA, USA
Newsome SD, Fogel ML, Kelly L, Martinez del Rio C (2011) Contributions of direct incorporation from diet and microbial amino acids to protein synthesis in Nile tilapia. Funct Ecol 25(5):1051–1062
Newsome SD, Wolf N, Peters J, Fogel ML (2014) Amino acid δ13C analysis shows flexibility in the routing of dietary protein and lipids to the tissue of an omnivore. Integr Comp Biol 54(5):890–902
Newsome SD, Sabat P, Wolf N, Rader JA, Martinez del Rio C (2015) Multi-tissue δ2H analysis reveals altitudinal migration and tissue-specific discrimination patterns in Cinclodes. Ecosphere 6(11):1–18
Newton K, Wraith J, Dickson K (2015) Digestive enzyme activities are higher in the shortfin mako shark, Isurus oxyrinchus, than in ectothermic sharks as a result of visceral endothermy. Fish Physiol Biochem 41:887–898
Nielsen JM, Popp BN, Winder M (2015) Meta-analysis of amino acid stable nitrogen isotope ratios for estimating trophic position in marine organisms. Oecologia 178:631–642
Oliver AS, Vigna SR (1996) CCK-X receptors in the endothermic mako shark (Isurus oxyrinchus). Gen Comp Endocrinol 102(1):61–73
Olsson C, Holmgren S (2001) The control of gut motility. Comp Biochem Physiol A-Mol Integr Physiol 128(3):481–503
Olsson C, Aldman G, Larsson A, Holmgren S (1999) Cholecystokinin affects gastric emptying and stomach motility in the rainbow trout Oncorhynchus mykiss. J Exp Biol 202(2):161–170
Paig-Tran EWM, Lowe C (2010) Elemental and energy assimilation in the round stingray, Urobatis halleri. Annu Meet Soc Integr Comp Biol 50(1):E227
Paig-Tran EWM, Summers AP (2013) Comparison of the structure and composition of the branchial filters of suspension feeding sharks. Anat Rec 297(4):701–715
Paig-Tran EWM, Bizzarro JJ, Strother JA, Summers AP (2011) Bottles as models: predicting the effects of varying swimming speed and morphology on size selectivity and filtering efficiency in fishes. J Exp Biol 214:1643–1654
Papastamatiou Y (2007) The potential influence of gastric acid secretion during fasting on digestion time in leopard sharks (Triakis semifasciata). Comp Biochem Physiol A 147:37–42
Papastamatiou YP, Lowe CG (2004) Postprandial response of gastric pH in leopard sharks (Triakis semifasciata) and its use to study foraging ecology. J Exp Biol 207(Pt2):225–232
Papastamatiou Y, Lowe C (2005) Variations in gastric acid secretion during periods of fasting between two species of shark. Comp Biochem Physiol A 141:210–214
Papastamatiou Y, Purkis S, Holland K (2007) The response of gastric pH and motility to fasting and feeding in free-swimming blacktip reef sharks, Carcharhinus melanopterus. J Exp Mar Biol Ecol 345:129–140
Papastamatiou YP, Watanabe YY, Bradley D, Dee LE, Weng K, Lowe CG, Caselle JE (2015) Drivers of daily routines in an ectothermic marine predator: Hunt warm, rest warmer? PLoS ONE 10:e0127807
Pei-You G, Jun-Xia L, Feng-Li L, Liang-Ming Z, Hai-Zhu X, Yan-Bin S (2015) Retrospective comparison of computed tomography enterography and magnetic resonance enterography in diagnosing small intestine disease. J Pak Med Assoc 65(7):710–714
Pethybridge H, Daley R, Virtue P, Nichols P (2010) Lipid composition and partitioning of deepwater chondrichthyans: inferences of feeding ecology and distribution. Mar Biol 157(6):1367–1384
Pinhal D, Shivji MS, Nachtigall PG, Chapman DD, Martins C (2012) A streamlined DNA tool for global identification of heavily exploited coastal shark species (genus Rhizoprionodon). PLoS ONE 7(4):e34797
Post DM (2002) Using stable isotopes to estimate trophic position: models, methods, and assumptions. Ecol. 83:703–718
Post DM, Layman CA, Arrinton DA, Takimoto G, Quattrochi J, Montana CG (2007) Getting to the fat of the matter: models, methods and assumptions for dealing with lipids in stable isotope analysis. Oecologia 152:179–189
Qian X, Ba Y, Zhuang Q, Zhong G (2014) RNA-seq technology and its application in fish transcriptomics. OMICS 18(2):98–110
Reich KJ, Bjorndal KA, Bolten AB (2007) The ‘lost years’ of green turtles: using stable isotopes to study cryptic lifestages. Biol Let 3:712–714
Reich KJ, Bjorndal KA, Martinez del Rio C (2008) Effects of growth and tissue type on the kinetics of (13)C and (15)N incorporation in a rapidly growing ectotherm. Oecologia 155(4):651–663
Ringo E, Zhou Z, Vecino JLG, Wadsworth S, Romero J, Krojdahl A, Olsen RE, Dimitroglou A, Foey A, Davies S, Owen M, Lauzon HL, Martinsen LL, De Schryver P, Bossier P, Perstad S, Merrifield DL (2016) Effect of dietary components on the gut microbiota of aquatic animals. A never-ending story? Aquac Nutr 22(2):219–282
Ruan GL, Li Y, Gao ZX, Wang HL, Wang WM (2010) Molecular characterization of trypsinogens and development of trypsinogen gene expression and tryptic activities in grass carp (Ctenopharyngodon idellus) and topmouth culter (Culter alburnus). Comp Biochem Physiol B Biochem Mol Biol 155(1):77–85
Sachs G, Prinz C, Loo D, Bamberg K, Besancon M, Shin JM (1994) Gastric acid secretion: activation and inhibition. Yale J Biol Med 67:81–95
Schubert ML (2015) Functional anatomy and physiology of gastric secretion. Curr Opin Gastroenterol 31(6):479–485
Secor S, Taylor J, Grosell M (2012) Selected regulation of gastrointestinal acid-base secretion and tissue metabolism for the diamondback water snake and Burmese python. J Exp Biol 215:185–196
Sepulveda CA, Kohin S, Chan C, Vetter R, Graham JB (2004) Movement patterns, depthpreferences, and stomach temperatures of free-swimming juvenile mako sharks, Isurus oxyrinchus, in the Southern California Bight. Mar Biol 145:191–199
Shamur E, Zilka M, Hassner T, China V, Liberzon A, Holzmen R (2016) Automated detection of feeding strikes by larval fish using continuous high-speed digital video: a novel method to extract quantitative data from fast, sparse kinematic events. J Exp Biol 219(11):1608–1617
Sibly RM (1981) Strategies of digestion and defecation. In: Townsend CR, Callow P (eds) Physiological ecology: an evolutionary approach to resource use. Sinauer, Sunderland, pp 109–139
Silverthorn D (ed) (2013) Human physiology: an integrated approach, vol 6. Pearson, Boston, p 699
Sims D, Davies S, Bone Q (1996) Gastric emptying rate and return of appetite in lesser spotted dogfish, Scyliorhinus canicula. J Mar Biol. Assn UK 76:479–491
Sims D, Wearmouth VJ, Southall EJ, Hill JM, Moore P, Rawlinson K, Hutchinson N, Budd GC, Righton D, Metcalfe JD, Nash JP, Morritt D (2006) Hunt warm, rest cool: bioenergetic strategy underlying diel vertical migration in a benthic shark. J Anim Ecol 75:176–190
Smith MM, Johanson Z, Underwood C, Diekwisch TGH (2013) Pattern formation in development of chondrichthyan dentitions: a review of an evolutionary model. Hist Biol Int J Paleobiol 25(2):127–142
Sole M, Lobera G, Aljinovic B, Rios J, de la Parra LMG, Maynou F, Cartes JE (2008) Cholinesterases activities and lipid peroxidation levels in muscle from shelf and slope dwelling fish from the NW Mediterranean: its potential use in pollution monitoring. Sci Total Environ 402:306–317
Sole M, Anto M, Baena M, Carrasson M, Cartes JE, Maynou F (2010) Hepatic biomarkers of xenobiotic metabolism in eighteen marine fish from NW Mediterranean shelf and slope waters in relation to some of their biological and ecological variables. Mar Environ Res 70(2):181–188
Song Z, Wang J, Qiao H, Li P, Zhang L, Xia B (2016) Ontogenetic changes in digestive enzyme activities and the amino acid profile of starry flounder Platichthys stellatus. Chin J Oceanol Limnol 34(5):1013–1024
Sullam KE, Dalton CM, Russell JA, Kilham SS, El-Sabaawi R, German DP, Flecker AS (2014) Changes in digestive traits and body nutritional composition accommodate a trophic niche shift in Trinidadian guppies. Oecologia 177(1):245–257
Summers AP, Hayes M (2016) CT scans. Retrieved from www.osf.io/ecmz4
Suzuki KW, Kasai A, Nakayama K, Tanaka M (2005) Differential isotopic enrichment and half-life among tissues in Japanese temperate bass (Lateolabrax japonicus) juveniles: implications for analyzing migration. Can J Fish Aquat Sci 62(3):671–678
Suzuki T, Kakizaki H, Ikeda M, Matsumiya M (2014) Molecular cloning of the novel chitinase gene from blue shark (Prionace glauca; Chondrichthyes) stomach. J Chitin Chitosan Sci 2(2):143–148
Trueman CN, McGill RAR, Guyard PH (2005) The effect of growth rate on tissue-diet isotopic spacing in rapidly growing animals. An experimental study with Atlantic salmon (Salmo salar). Rapid Commun Mass Spectrom 19(22):3239–3247
Venkatesh B, Lee AP, Ravi V, Maurya AK, Lian MM, Swann JB, Ohta Y, Flajnik MF, Sutoh Y, Kasahara M, Hoon S, Gangu V, Roy SW, Irimia M, Korzh V, Kondrychyn I, Lim ZW, Tay BH, Tohari S, Kong KW, Ho S, Lorente-Galdos B, Quilez J, Marques-Bonet T, Raney BJ, Ingham PW, Tay A, Hillier LW, Minx P, Boehm T, Wilson RK, Brenner S, Warren WC (2014) Elephant shark genome provides unique insights into gnathostome evolution. Nature 505:174–179
Viana TP, Inacio AF, de Albuquerque C, Linde-Arias AR (2008) Biomarkers in a shark species to monitor marine pollution: Effects of biological parameters on the reliability of the assessment. Mar Environ Res 66:171
Vigna S (1983) Evolution of endocrine regulation of gastrointestinal function in lower vertebrates. Am Zool 23:729–738
Vollaire Y, Banas D, Marielle T, Roche H (2007) Stable isotope variability in tissues of the Eurasian perch Perca fluviatilis. Comp Biochem Physiol A-Mol Integr Physiol 148(3):504–509
Wainwright D, Lauder GV (2016) Three-dimensional analysis of scale morphology in bluegill sunfish, Lepomis macrochirus. Zoology 119(3):182–195
Weidel BC, Carpenter SR, Kitchell JF, Vander Zanden MJ (2011) Rates and components of carbon turnover in fish muscle: insights from bioenergetics models and a whole-lake 13C addition. Can J Fish Aquat Sci 68:387–399
Wetherbee B, Gruber S (1993) Absorption efficiency of the lemon shark negaprion brevirostris at varying rates of energy intake. Copeia 2:416–425
Wetherbee B, Gruber S, Ramsey A (1987) X-radiographic observations of food passage through digestive tracts of lemon sharks. Trans Am Fish Soc 116:763–767
Wetherbee BM, Gruber SH, Cortés E (1990) Diet, feeding habits, digestion, and consumption in sharks, with special reference to the lemon shark, Negaprion brevirostris. NOAA Tech Rep NMFS 90:29–47
Whitehead A, Galvez F, Zhang S, Williams LM, Oleksiak MF (2011) Functional genomics of physiological plasticity and local adaptation in killfish. J Hered 102(5):499–511
Wilga CD, Ferry LA (2016) Functional anatomy and biomechanics of feeding in elasmobranchs. In: Shadwick RE, Farrell AP, Brauner CJ (eds) Physiology of elasmobranch fishes: internal processes. Elsevier, London
Wilga CD, Motta PJ (2000) Durophagy in sharks: Feeding mechanics of the hammerhead Sphyrna tiburo. J Exp Biol 201:1345–1358
Wilson J, Castro L (2011) Morphological diversity of the gastrointestinal tract in fishes. Fish Physiol 30:1–55
Wolesensky W, Logan JD (2006) Chemical reactor models of digestion modulation. In: Burk AR (ed) Focus on ecology research, pp 197–247
Wolf N, Newsome SD, Fogel ML, Martinez del Rio C (2012) An experimental exploration of the incorporation of hydrogen isotopes from dietary tissues into avian tissues. J Exp Biol 215:1915–1922
Wood CM, Kajimura M, Bucking C, Walsh PJ (2007) Osmoregulation, ionoregulation and acid-base regulation by the gastrointestinal tract after feeding in the shark (Squalus acanthias). J Exp Biol 210:1335–1349
Wu JL, Zhang JL, Du XX, Shen YJ, Lao X, Zhang ML, Chen LQ, Du ZY (2015) Evaluation of the distribution of adipose tissues in fish using magnetic resonance imaging (MRI). Aquaculture 448:112–122
Wyffels J, King BL, Vincent J, Chen C, Wu CH, Polson SW (2014) SkateBase, an shark genome project and collection of molecular resources for chondrichthyan fishes. F1000 Research, v1; ref status: indexed, http://f1000r.es/445
Zarkasi KZ, Taylor RS, Abell GC, Tamplin ML, Glencross BD, Bowman JP (2016) Atlantic salmon (Salmo salar L.) gastrointestinal microbial community dynamics in relation to digesta properties and diet. Microb Ecol 71(3):589–603