Hostname: page-component-5c6d5d7d68-wbk2r Total loading time: 0 Render date: 2024-08-16T15:03:01.692Z Has data issue: false hasContentIssue false
  • English
  • Français

Dietary-morphological relationships in fish assemblages of small forested streams in the Bolivian Amazon

Published online by Cambridge University Press:  25 July 2007

Carla Ibañez ,
Pablo A. Tedesco ,
Rémy Bigorne ,
Bernard Hugueny ,
Marc Pouilly ,
Claudia Zepita ,
José Zubieta  and
Thierry Oberdorff
Carla Ibañez
Affiliation:
Institut de Recherche pour le Développement (IRD), Département Milieux et Peuplements Aquatiques, Muséum National d'Histoire Naturelle, 43 rue Cuvier, 75231 Paris, France Institut d'Ecologia Aquàtica, Universitat de Girona. Campus de Montilivi, 17071 Girona, Spain Institut de Recherche pour le Développement (IRD), Unidad de Limnologia y Recursos Acuáticos, Universidad Mayor de San Simón, Casilla 5263, Cochabamba, Bolivia Institut de Recherche pour le Développement (IRD), UMR CNRS 5023, Université de Lyon 1, 43 Bd. du 11 de Novembre 1918, 69622 Villeurbanne Cedex, France Unidad de Limnologia y Recursos Acuáticos, Universidad Mayor de San Simón, Casilla 5263, Cochabamba, Bolivia Instituto de Ecología – Unidad de Limnología, Universidad Mayor de San Andrés, Casilla 10077, La Paz, Bolivia
Pablo A. Tedesco
Affiliation:
Institut d'Ecologia Aquàtica, Universitat de Girona. Campus de Montilivi, 17071 Girona, Spain
Rémy Bigorne
Affiliation:
Institut de Recherche pour le Développement (IRD), Unidad de Limnologia y Recursos Acuáticos, Universidad Mayor de San Simón, Casilla 5263, Cochabamba, Bolivia
Bernard Hugueny
Affiliation:
Institut de Recherche pour le Développement (IRD), UMR CNRS 5023, Université de Lyon 1, 43 Bd. du 11 de Novembre 1918, 69622 Villeurbanne Cedex, France
Marc Pouilly
Affiliation:
Institut de Recherche pour le Développement (IRD), Unidad de Limnologia y Recursos Acuáticos, Universidad Mayor de San Simón, Casilla 5263, Cochabamba, Bolivia
Claudia Zepita
Affiliation:
Instituto de Ecología – Unidad de Limnología, Universidad Mayor de San Andrés, Casilla 10077, La Paz, Bolivia
José Zubieta
Affiliation:
Unidad de Limnologia y Recursos Acuáticos, Universidad Mayor de San Simón, Casilla 5263, Cochabamba, Bolivia
Thierry Oberdorff
Affiliation:
Institut de Recherche pour le Développement (IRD), Département Milieux et Peuplements Aquatiques, Muséum National d'Histoire Naturelle, 43 rue Cuvier, 75231 Paris, France
Get access

Abstract

We explored the relationships between diet and morphology in 30 fish species from forested tropical streams of the Bolivian Amazon. These species were first assigned to eight broad trophic guilds based on stomach contents analysis. The relationships between diet and morphology were then examined using Redundancy Analysis, after having checked for potential phylogenetical effects. Results show that, independently of any phylogenetic constraints, some of the trophic guilds could be grossly predicted from few relevant morphological attributes (i.e. relative intestinal length, standard length and mouth orientation) and thus suggest a significant link between diet and morphology. In other words, species having similar diet tend to converge to some extent on some morphological attributes. This link was nevertheless rather weak, suggesting that even if morphology may set limits to patterns of resource use, these limits are broad enough to allow fishes changing their choice of prey resources to respond to local biotic and/or abiotic conditions.

Keywords

DietMorphologyPhylogenyConvergenceTropical streamsFishesBolivia
Type
Research Article
Information
Aquatic Living Resources , Volume 20 , Issue 2 , April 2007 , pp. 131 - 142
Copyright
© EDP Sciences, IFREMER, IRD, 2007

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Angermeier, P.L., Karr, J.R., 1983, Fish communities along environmental gradients in a system of tropical streams. Environ. Biol. Fish. 9, 117-135. CrossRef
Arrington, D.A., Winemiller, K.O., Loftus, W.F., Akin, S., 2002, How often do fishes Run on Empty. Ecology 83, 2145-2151.
Bellwood, D.R., Wainwright, P., Fulton, C.J., Hoey, A.S., 2006, Functional versatility supports coral reef biodiversity. Proc. R. Soc. B. 273, 101-107. CrossRef
Bojsen, B.H., Barriga, R., 2002, Effects of deforestation on fish community structure in Ecuadorian Amazon streams. Freshw. Biol. 47, 2246-2260. CrossRef
Bowen, S.H., 1983, Detrivory in neotropical fish communities. Environ. Biol. Fishes 9, 137-144. CrossRef
Chan M.D., 2001, Fish ecomorphology: Predicting habitat preferences of stream fishes from their body shape. PhD Thesis. Faculty of the Virginia Polytechnic Institute and State University, USA.
Cooper, W.E., Vitt, L.J., 2002, Distribution, extent, and evolution of plant consumption by lizards. J. Zool. 257, 487-517. CrossRef
Delariva, R., Agostinho, A., 2001, Reationship between morphology and diets of six neotropical loricariids. J. Fish Biol. 58, 832-84. CrossRef
Deus, C.P., Petrere - Junior M., 2003, Seasonal diet shifts of seven fish species in an Atlantic Rainforest Stream in Southeastern Brazil. Braz. J. Biol. 64, 579-588. CrossRef
Diogo R., 2003, Catfish morphology, phylogeny and macroevolution: A case study in theoretical phylogeny and macroevolution. Doctoral Thesis. Université de Liège.
Douglas, M.E., Matthews, W.J., 1992, Does morphology predict ecology? Hypothesis testing within a freshwater stream fish assemblage. Oikos 65, 213-224. CrossRef
Elliott, J.P., Bellwood, D.R., 2003, Alimentary tract morphology and diet in three coral reef fish families. J. Fish Biol. 63, 1598-1609. CrossRef
Felsenstein, J., 1985, Phylogenies and the comparative method. Am. Nat. 125, 1-15. CrossRef
Fritz, E.S., 1974, Total diet comparison in fishes by Spearman rank correlation coefficients. Copeia 1, 210-214. CrossRef
Frost, W.E., Went, A.E., 1940, River liffey survey III. The growth and food of young Salmon. Proc. R. Ir. Acad. 46, 53-80.
Gatz, A.J., 1979, Ecological morphology of freshwater stream fishes. Tulane studies in zoology and botany 21, 91-124.
Gibson, R.N., Ezzi, A., 1987, Feeding relationships of a Demersal fish assemblage on the West Coast of Scotland. J. Fish Biol. 31, 55-69. CrossRef
Grossman, G.D., 1986, Food resource partitioning in a rocky intertidal fish assemblage. J. Zool. 1, 317355. CrossRef
Harvey P.H., Pagel M.D., 1991, The comparative method in evolutionary biology. Oxford: Oxford University Press.
Hegrenes, S., 2001, Diet-induced phenotypic plasticity of feeding morphology in the orangespotted sunfish, Lepomis humilis. Ecol. Freshw. Fish. 10, 35-42. CrossRef
Herder, F., Freyhof, J., 2006, Resource partitioning in a tropical stream fish assemblage. J. Fish Biol. 69, 571-589. CrossRef
Hugueny, B., Pouilly, M., 1999, Morphological correlates of diet in an assemblage of West African freshwater fishes. J. Fish Biol. 54, 1310-1325. CrossRef
Hurlbert, S.H., 1978, The measurement of niche overlapand some relatives. Ecology 59, 67-77. CrossRef
Hyslop, E.J., 1980, Stomach contents analysis-a review of methods and their application. J. Fish Biol. 17, 411-429. CrossRef
Ibañez C., Oberdorff T., Teugels G., Mamononekene V., Lavoué S., Fermon Y., Paugy D., Toham A.K., 2007, Fish assemblages structure and function along environmental gradients in rivers of Gabon Africa). Ecol. Freshw. Fish. (doi: 10.1111/j.1600-0633.2006.00222.x).
Kramer, D., Bryant, M., 1995, Intestine length in the fishes of a tropical stream: 2. relationship to diet-the long and- short of a convoluted issue. Environ. Biol. Fishes 42, 129-141. CrossRef
Kotrschal, K., 1989, Trophic ecomorphology in eastern Pacific blennioid fishes: character transformation of oral jaws and associated change of their biological roles. Environ. Biol. Fishes 24, 199-218. CrossRef
Legendre P., Legendre L., 1998, Numerical Ecology. Amsterdam: Elsevier.
Legendre, P., Borcard, D., Peres-Neto, P., 2005, Analyzing beta diversity: partitioning the spatial variation of community composition data. Ecol. Monogr. 75, 435450. CrossRef
Makarenkov, V., Legendre, P., 2002, Nonlinear redundancy analysis and canonical correspondence analysis based on polynomial regression. Ecology 83, 1146-1161. CrossRef
Malabarba L.R., Reis R.E., Vari R.P., Lucena Z.M., Lucena C.A.S. (Eds), 1998, Phylogeny and classification of Neotropical fishes. Edipucrs, Porto Alegre.
Michel, P., Oberdorff, T., 1994, Feeding habits of fourteen European freshwater fish species. Cybium 19, 5-46.
Moran, P.A.P., 1948, The interpretation of statistical maps. J. R. Stat. Soc. B. 10, 243-251.
Motta, P.J., 1988, Functional morphology of the feeding apparatus of ten species of Pacific butterflyfishes Perciformes, (Chaetodontidae): An ecomorphological approach. Environ. Biol. Fishes 22, 39-67. CrossRef
Navarro G., Maldonado M., 2002, Geografía Ecológica de Bolivia: Vegetación y Ambientes Acuáticos. Editorial: Centro de Ecología Simón I. Patiño-Departamento de difusión. Cochabamba, Bolivia.
Oberdorff, T., Guilbert, E., Luchetta, J.C., 1993, Patterns of fish species richness in the Seine River basin, France. Hydrobiologia 259, 157-167. CrossRef
Oberdorff, T., Pont, D., Hugueny, B., Porcher, J.P., 2002, Development and validation of a fish-based index for the assessment of rivers “health” in France. Freshw. Biol. 47, 1720-1735. 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, 157-172.
Piet, G., 1998, Ecomorphology of a size-structured tropical freshwater fish community. Environ. Biol. Fishes 51, 67-86. CrossRef
Pouilly, M., Lino, F., Bretenoux, G., Rosales, C., 2003, Dietary-morphological relationships in a fish assemblage of the Bolivian Amazonian floodplain. J. Fish Biol. 62, 1137-1158. 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, 137-156. CrossRef
Power, M.E., 1983, Grazing responses of tropical freshwater fishes to different scales of variation in their food. Environ. Biol. Fishes 9, 103-115. CrossRef
Power, M.E., 1984, The importance of sediment in the grazing ecology and size class interactions of an armored catfish, Ancistrus spinosus. Environ. Biol. Fishes 10, 173-181. CrossRef
Rahel, F.J., Hubert, W.A., 1991, Fish assemblages and habitat gradients in a Rocky Mountain-Great Plains stream: biotic zonation and additive patterns of community change. Trans. Am. Fish. Soc. 120, 319-332. 2.3.CO;2>CrossRef
Schlosser, I.J., 1982, Fish community structure and function along two habitat gradients in a headwater stream. Ecol. Monogr. 52, 395-414. CrossRef
Schneider, C.J., Smith, T.B., Larison, B., Moritz, C., 1999, A test of alternative models of diversification in tropical rainforests: Ecological gradients vs. rainforest refugia. Proc. Natl. Acad. Sci. USA 96, 13869-13873. CrossRef
Silva, C.P.D., 1993, Alimentação e distribuição espacial de algumas espécies de peixes do igarapé do Candirú, Amazonas. Brasil. Acta Am. 23, 271-285. CrossRef
Swofford D.L., 2002, PAUP. Phylogenetic Analysis Using Parsimony. Sunderland, M. A. Sineaur Associates.
Tedesco, P.A., Ibañez, C., Moya, N., Bigorne, R., Camacho, J., Goitia, E., Hugueny, B., Maldonado, M., Rivero, M., Tomanová, S., Zubieta, J.P., Oberdorff, T., 2007, Local scale species-energy relationships in tropical fish assemblages of some forested streams of the Bolivian Amazon. C.R. Biol. 330, 255-264. CrossRef
Ter Braak C.J.F., Smilauer P., 1998, CANOCO reference manual and user's guide to CANOCO for Windows: software for canonical community ordination. Version 4. Microcomputer Power, Ithaca, New York, USA.
Thompson, R.M., Townsend, C.R., 2005, Energy availability, spatial heterogeneity and ecosystem size predict food-web structure in streams. Oikos 108, 137-148. CrossRef
Tresierra A., Culquichicón Z.G., 1993, Biología pesquera. Ed. Universitaria. Trujillo, Perú.
Uieda, V.S., Buzzato, P., Kikushi, R.M., 1997, Partilha de recursos alimentares em peixes em um riacho de serra do Sudeste do Brasil. Nat. Acad. Bras. Ci. 69, 243-252.
Wainwright, P.C., Osemberg, C.W., Mittelbach, G.G., 1991, Trophic polymorphism in the pumpkinseed sunfish (Lepomis gibbosus Linnaeus): effects of environment on ontogeny. Funct. Ecol. 5, 40-55. CrossRef
Wallace, J.B., Eggert, S.L., Meyer, J.L., Webster, J.R., 1997, Multiple trophic levels of a forest stream linked to terrestrial litter inputs. Science 277, 102-104. CrossRef
Ward-Campbell, B.M.S., Beamish, F.W.H., Kongchaiya, C., 2005, Morphological characteristics in relation to diet in five coexisting Thai fish species. J. Fish Biol. 67, 1266-1279. CrossRef
Watson, D.J., Balon, E.K., 1984, Ecomorphological analysis of fish taxocenes in rainforest stream of northern Borneo. J. Fish Biol. 25, 371-384. CrossRef
Wikramanayake, E.D., 1990, Ecomorphology and biogeography of a tropical stream fish assemblage: Evolution of assemblage structure. Ecology 71, 1756-1764. CrossRef
Wimberger, P.H., 1992, Plasticity of fish body shape. The effects of diet, development, family and age in two species of Geophagus (Pisces, Cichlidae). Biol. J. Linn. Soc. 45, 197-218. CrossRef
Winemiller, K.O., 1991, Ecomorphological diversification in lowland freshwater fish assemblages from five biotic regions. Ecol. Monogr. 61, 343-365. CrossRef
Winemiller, K.O., Kelso-Winemiller, L.C., Brenkert, A.L., 1995, Ecomorphological diversification and convergence in fluvial cichlid fishes. Environ. Biol. Fishes 44, 235-261. CrossRef
Winemiller K.O., Adite A., 1997, Convergent evolution of weakly electric fishes from floodplain habitats in Africa and South America. Environ. Biol. Fishes 49,175-186.
Xie, S., Cut, Y., Li, Z., 2001, Dietary-morphological relationships of fishes in Liangzi Lake, China. J. Fish Biol. 58, 1714-1729. CrossRef