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Diet-morphology relationship in a fish assemblagefrom a medium-sized river of French Guiana:the effect of species taxonomic proximity

Published online by Cambridge University Press:  27 June 2008

Bernard de Mérona ,
Bernard Hugueny ,
Francisco Leonardo Tejerina-Garro  and
Emmanuelle Gautheret
Bernard de Mérona
Affiliation:
Antenne IRD, UR 131 au Laboratoire d'Ecologie des Hydrosystèmes Fluviaux, Université Claude Bernard Lyon-1, 43 Bd. 11 nov. 1918, 69622 Villeurbanne Cedex, France
Bernard Hugueny
Affiliation:
Antenne IRD, UR 131 au Laboratoire d'Ecologie des Hydrosystèmes Fluviaux, Université Claude Bernard Lyon-1, 43 Bd. 11 nov. 1918, 69622 Villeurbanne Cedex, France
Francisco Leonardo Tejerina-Garro
Affiliation:
Centro de Biologia Aquática, Universidade Católica de Goiás, Av. Engler s/n Jardim Mariliza, CP 86, CEP 74605-010, Goiânia, GO, Brasil
Emmanuelle Gautheret
Affiliation:
22 av. Paul Lafargue, 94500 Champigny sur Marne, France
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Abstract

We investigated the global relationship between diet and morphology for 42 fish species from a medium-sized river in French Guiana and checked the influence of the species taxonomic proximity on the implication of individual morphological traits in that relation. The 42 species were classified in eight trophic guilds based on analysis of more than 4000 stomach contents. Taxonomic proximity between species was accounted for by an autoregressive model applied to original data of diet and morphology. Original and taxonomic-free data were then submitted to a Canonical Correspondence Analysis in order to detect the relationship between diet and morphology. We compared the results obtained by analyzing the original data and the corrected data. The results confirm the existence of a significant global relationship between diet and morphology. However, morphological traits responsible for that relation were different when considering the taxonomic-free data. Particularly the well known relationship between gut length and detritivory was not observed on the taxonomic free analysis. It is concluded that controlling for phylogeny is essential to the detection of relationships between diet and morphology. It is also concluded that, despite the robustness of some relationships between morphology and diet, many diets cannot be inferred by a ecomorphological approach.

Keywords

Freshwater fishRiverNeotropicsEcomorphologyFrench Guiana
Type
Research Article
Information
Aquatic Living Resources , Volume 21 , Issue 2 , April 2008 , pp. 171 - 184
Copyright
© EDP Sciences, IFREMER, IRD, 2008

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References

Adite, A., Winemiller, K.O., 1997, Trophic ecology and ecomorphology of fish assemblages in coastal lakes of Benin, West Africa. Ecoscience 4, 623. CrossRef
Angermeier, P.L., Karr, J.R., 1983, Fish communities along environmental gradients in a system of tropical streams. Environ. Biol. Fishes 9, 117135. CrossRef
Araujo Lima C.A.R.M., Agostinho A.A., Fabre N.N., 1995, Trophic aspects of fish communities in Brazilian rivers and reservoirs. In: Tundisi J.G., Bicudo C.E.M., Matsamura Tundisi T. (Eds.) Limnology in Brazil, Brazil, Brazilian Academy of Sciences/ Brazilian Limnological Society, pp. 105–136.
Bojsen, B.H., Barriga, R., 2002, Effects of deforestation on fish communty structure in Ecuadorian Amazon streams. Freshw. Biol. 47, 22462260. CrossRef
Bowen S.H., 1988, Detritivory and herbivory. In: Levêque C., Bruton M.N., Ssentongo G.W. (Eds) Biologie et écologie des poissons d'eau douce africains., Paris, ORSTOM, pp. 243–247.
Bowlby, J.N., Roff, J.C., 1986, Trophic structure in southern Ontario streams. Ecology 67, 16701679. CrossRef
Box, G.E.P., Cox, D.R., 1964, An analysis of transformations. J. R. Stat. Soc., Ser. B 26, 211243. PubMed
Cheverud, J.M., Dow, M.M., Leutenegger, W., 1985, The quantitative assessment of phylogenetic constraints in comparative analysis: sexual dimorphism in body weight among primates. Evolution 39, 13351351. CrossRef
Chipps, S.R., Perry, W.B., Perry, S.A., 1994, Fish assemblages of the central Appalachian Mountains: an examination of trophic group abundance in nine West Virginia streams. Environ. Biol. Fishes 40, 9198. CrossRef
Douglas, M.E., Matthews, W.J., 1992, Does morphology predict ecology? Hypothesis testing within a freshwater stream fish assemblage. Oikos 65, 213224. CrossRef
Flecker, A.S., 1992, Fish trophic guilds and the structure of a tropical stream: weak direct vs. strong indirect effects. Ecology 73, 927940. CrossRef
Gat, A.J. Jr., 1979a, Community organization in fishes as indicated by morphological features. Ecology 60, 711718.
Gat, A.J. Jr., 1979b, Ecological morphology of freshwater stream fishes. Tulane Stud. Zool. Bot. 21, 91124.
Gat, A.J. Jr., 1981, Morphologically inferred niche differentiation in stream fishes. Am. Midl. Nat. 106, 1021.
Godinho, F.N., Ferreira, M.T., Castro, M.I.P.E., 1998, Fish assemblage composition in relation to environmental gradients in Portuguese reservoirs. Aquat. Living Resour. 11, 325334. CrossRef
Goulding M., 1980, The fishes and the forest. Berkeley, Los Angeles, London, University of California Press.
Goulding M., Carvalho M.L., Ferreira E.J.G., 1988, Rio Negro. Rich life in poor water. The Hague, The Netherlands, SPB Academic Publishing bv.
Grossman G.D., 1986, Food resource partitioning in a rocky intertidal fish assemblage. J. Zool., London B 1, 317–355.
Hartley, P.H.T., 1948, Food and feeding relationships in a community of fresh-water fishes. J. Anim. Ecol. 17, 114. CrossRef
Harvey P.H., Pagel M.D., 1991, The comparative method in evolutionary biology. Oxford, Oxford University Press.
Herrera, C.M., 1976, A trophic diversity index for presence-abscence food data. Oecologia (Berlin) 25, 187191. CrossRef
Horeau, V., Cerdan, P., Champeau, A., Richard, S., 1996, Importance des apports exogènes dans le régime alimentaire de quelques poissons de “criques” du bassin versant du fleuve Sinnamary (Guyane française). Rev. Ecol. (Terre et Vie) 51, 2941.
Hugueny, B., Pouilly, M., 1999, Morphological correlates of diet in an assemblage of West African freshwater fishes. J. Fish Biol. 54, 13101325. CrossRef
Hurlbert, S.H., 1978, The measurement of niche overlap and some relatives. Ecology 59, 6777. CrossRef
Ibanez, C., Tedesco, P., Bigorne, R., Hugueny, B., Pouilly, M., Zepita, C., Zubieta, J., Oberdorff. T., 2007, Dietary-morphological relationships in fish assemblages of small forested streams in the Bolivian Amazon. Aquat. Living Resour. 20, 131142. CrossRef
Kapoor, B.G., Smit, H., Verighina, I.A., 1975, The alimentary canal and digestion in Teleosts. Adv. Mar. Biol. 13, 109239. CrossRef
Karr J.R., James F.C., 1975, Eco-morphological configurations and convergent evolution in species and communities. In Cody M.L., Diamond J.M. (eds.) Ecology and Evolution of Communities. Cambridge, Harvard University Press, pp. 258–291.
Keast, A., 1978, Trophic and spatial interrelationships in the fish species of an Ontario temperate lake. Environ. Biol. Fishes 3, 7-31. CrossRef
Keith P., Le Bail P.-Y., Planquette P., 2000, Atlas des poissons d'eau douce de Guyane. Tome 2, fasc. I. Paris, MNHN/SPN.
Kliewer E.V., 1970, Gillraker variation and diet in lake whitefish Coregonus clupeaformis in nothern Manitoba. In: Lindsey C.C., Woods C.S. (eds.) Biology of Coregonides fishes. Winnipeg, Univ. Manitoba Press, pp. 147–165.
Kouamélan, E.P., Gourène, G., Teugels, G.G., N'Douba, V., Thys van den Audenaerde, F.E., 1997, Diversité morphologique du tube digestif chez 39 espèces de poissons africains et relation avec la classification ichtyologique. J. Afr. Zool. 111, 109119.
Kramer, D.L., Bryant, M.J., 1995, Intestine length in the fishes of a tropical stream, 1. Ontogenetic allometry. Environ. Biol. Fishes 42, 115127. CrossRef
Labropoulou, M., Marakis, G., 1998, Morphological-dietary relationships vithin two assemblages of marine demersal fishes. Environ. Biol. Fishes 51, 309319. CrossRef
Le Bail P.-Y., Keith P., Planquette P., 2000, Atlas des poissons d'eau douce de Guyane. Tome 2, fasc. 2. Paris, MNHN/SPN.
Maridet, L., Wasson, J.G., Philippe, M., Amoros, C., Naiman, R.J., 1998, Trophic structure of three streams with contrasting riparian vegetation and geomorphology. Arch. Hydrobiol. 144, 6185 CrossRef
Mérona, B. de, Santos, G.M. Dos, Almeida, R.G. de, 2001, Short term effects of Tucurui Dam (Amazonia, Brazil) on the trophic organization of fish communities. Environ. Biol. Fishes 60, 375392. CrossRef
Mérona, B. de, Vigouroux, R., Horeau, V., 2003, Changes in food resources and their utilization by fish assemblages in a large tropical reservoir in South America (Petit-Saut Dam, French Guiana). Acta Oecol. 24, 147156. CrossRef
Mérona, B. de, Rankin-de Mérona, J., 2004, Food resource partitioning in a fish community of the Central Amazon floodplain. Neotrop. Ichthyol. 2, 7584. CrossRef
Mérona, B. de, Vigouroux, R., 2006, Diet changes in fish species from a large reservoir in South America and their impact on the trophic structure of fish assemblages (Petit-Saut Dam, French Guiana). Int. J. Limnol. 42, 5361. CrossRef
Motta, P.J., Norton, S.F., Luczkovich, J.J., 1995a, Perspectives on the ecomorphology of bony fishes. Environ. Biol. Fishes 44, 1120. CrossRef
Motta, P.J., Clifton, K.B., Hernandez, P., Eggold, B.T., 1995b, Ecomorphological correlates in ten species of subtropical seagrass fishes: diets and microhabitat utilization. Environ. Biol. Fishes 44, 3760. CrossRef
Parrish, J.D., 1989, Fish communities of interacting shallow-water habitats in tropical oceanic regions. Mar. Ecol. Prog. Ser. 58, 143160. CrossRef
Paugy, D., 1994, Ecologie des poissons tropicaux d'un cours d'eau temporaire (Baoulé, haut bassin du Sénégal au Mali): adaptation au milieu et plasticité du régime alimentaire. Rev. Hydrobiol. Trop. 27, 157172.
Piet, G.J., 1998, Ecomorphology of a size-structured tropical freshwater fish community. Environ. Biol. Fishes 51, 6786. CrossRef
Planquette P., Keith P., Le Bail J.-Y., 1996, Atlas des poissons d'eau douce de Guyane. Tome 1. Paris, IEGB-MNHN/INRA/CSP/Min. Environnement.
Pouilly, M., Lino, F., Bretenoux, J.–G., Rosales C., 2003, Dietary-morphological relationships in a fish assemblage of the Bolivian Amazonian floodplain. J. Fish Biol. 62, 11371158. CrossRef
Pouilly, M., Barrera, S., Rosales, C., 2006, Changes of taxonomic and trophic structure of fish assemblages along an environmental gradient in the Upper Beni watershed (Bolivia). J. Fish Biol. 68, 137156. CrossRef
Reifel, C.W., Travill, A.A., 1978, Gross morphology of the alimentary canal in 10 Teleostean species. Anat. Anz. 144, 441449.
Reis R.E., Kullander S.O., Ferraris Jr. C.J., 2003, Check list of the freshwater fishes of South and Central America. Porto Alegre, Brasil, Edipucrs.
Roger, C., Grandperrin, R., 1976, Pelagic food webs in the tropical pacific. Limnol. Oceanogr. 21, 731735. CrossRef
Schlosser, I.J., 1982, Trophic structure, reproductive success, and growth rate of fishes in a natural and modified headwater stream. Can. J. Fish. Aquat. Sci. 39, 968978. CrossRef
Schoener, T.W., 1989, Food webs from the small to the large. Ecology 70, 15591589. CrossRef
Sheldon, A.L., Meffe, G.K., 1993, Multivariate analysis of feeding relationships of fishes in blackwater streams. Environ. Biol. Fishes 37, 161171. CrossRef
Silva, C.P.D., 1993, Alimentação e distribuição espacial de algumas espécies de peixes do igarapé do Candirú, Amazonas, Brazil. Acta Amazon. 23, 271285. CrossRef
Tejerina-Garro F.L., Mérona B. de, 2000, Gill net sampling standardisation in large rivers of French Guiana (South America). Bull. Fr. Pêche Piscic. 357/358, 227–240.
Teixeira, I., Bennemann, S.T., 2007, Ecomorfologia refletindo a dieta dos peixes em um reservatório no sul do Brasil. Biota Neotrop. 7, 6776. CrossRef
Ter Braak, C.J.F., 1986, Canonical Correspondence Analysis, a new eigenvector technique for multivariate direct gradient analysis. Ecology 67, 11671179. CrossRef
Wainwright, P.C., 1991, Ecomorphology. Experimental functional anatomy for ecological problems. Am. Zool. 31, 680693.
Watson, D.J., Balon, E.K., 1984, Ecomorphological analysis of fish taxocenes in rainforest streams of northern Borneo. J. Fish Biol. 25, 371385. CrossRef
Wiegert, R.G., Owen, D.F., 1971, Trophic structure, available resources and populations density in terrestrial vs. aquatic ecosystems. J. Theor. Biol. 30, 6981. CrossRef
Wikramanayake, E.D., 1990, Ecomorphology and biogeography of a tropical stream assemblage: evolution of assemblage structure. Ecology 71, 17561764. CrossRef
Winemiller, K.O., 1989, Ontogenic diet shifts and resource partitioning among piscivorous fishes in the Venezuelan llanos. Environ. Biol. Fishes 26, 177199. CrossRef
Winemiller, K.O., 1990, Spatial and temporal variation in tropical fish trophic networks. Ecol. Monogr. 60, 331367. CrossRef
Winemiller, K.O., 1991, Ecomorphological diversification in lowland freshwater fish assemblages from five biotic regions. Ecol. Monogr. 61, 343365. CrossRef
Winemiller, K.O., Kelso-Winemiller, L.C., Brenkert, A.L., 1995, Ecomorphological diversification and convergence in fluvial cichlid fishes. Environ. Biol. Fishes 44, 235261. CrossRef
Wood, B.M., Bain, M.B., 1995, Morphology and microhabitat use in stream fish. Can. J. Fish. Aquat. Sci. 52, 14871498. CrossRef
Wootton, J.T., Oemke, M.P., 1992, Latitudinal differences in fish community trophic structure, and the role of fish herbivory in a Costa Rican stream. Environ. Biol. Fishes 35, 311319. CrossRef