Free Access
Issue
Ann. Limnol. - Int. J. Lim.
Volume 49, Number 1, 2013
Page(s) 43 - 49
DOI https://doi.org/10.1051/limn/2013037
Published online 29 April 2013
  • Araújo F.G., Pinto B.C.T. and Teixeira T.P., 2009. Longitudinal patterns of fish assemblages in a large tropical river in southeastern Brazil: evaluating environmental influences and some concepts in river ecology. Hydrobiologia, 618, 89–107. [CrossRef] [Google Scholar]
  • Baigorria G.A., Villegas E.B., Trebejo I., Carlos J.F. and Quiroz R., 2004. Atmospheric transmissivity: distribution and empirical estimation around the central Andes. Int. J. Climatol., 24, 1121–1136. [Google Scholar]
  • Barletta M., Jaureguizar A.J., Baigun C., Fontoura N.F., Agostinho A.A., Almeida-Val V.M.F., Val A.L., Torres R.A., Jimenes-Segura L.F., Giarrizzo T., Fabre N.N., Batista V.S., Lasso C., Taphorn D.C., Costa M.F., Chaves P.T., Vieira J.P. and Correa M.F.M., 2010. Fish and aquatic habitat conservation in South America: a continental overview with emphasis on neotropical systems. J. Fish Biol., 76, 2118–2176. [Google Scholar]
  • Brosse S., Grenouillet G., Gevrey M., Khazraie K. and Tudesque L., 2011. Small-scale gold mining erodes fish assemblage structure in neotropical streams. Biodivers. Conserv., 20, 1013–1026. [Google Scholar]
  • Cardoso Y.P. and Montoya-Burgos J.I., 2009. Unexpected diversity in the catfish Pseudancistrus brevispinis reveals dispersal routes in a neotropical center of endemism: the Guyanas region. Mol. Ecol., 18, 947–964. [Google Scholar]
  • Covain R., Fisch-Muller S., Montoya-Burgos J.I., Mol J.H., Le Bail P.Y. and Dray S. 2012. The Harttiini (Siluriformes, Loricariidae) from the Guianas: a multi-table approach to assess their diversity, evolution, and distribution. Cybium, 36, 115–161. [Google Scholar]
  • de Mérona B., Tejerina-Garro F.L. and Vigouroux R., 2012. Fish-habitat relationships in French Guiana rivers: a review. Cybium, 36, 7–15. [Google Scholar]
  • de Thoisy B., Richard-Hansen C., Goguillon B., Joubert P., Obstancias J., Winterton P. and Brosse S., 2010. Rapid evaluation of threats to biodiversity: human footprint score and large vertebrate species responses in French Guiana. Biodivers. Conserv., 19, 1567–1584. [Google Scholar]
  • Dibble E.D. and Pelicice F.M., 2010. Influence of aquatic plant-specific habitat on an assemblage of small neotropical floodplain fishes. Ecol. Freshw. Fish, 19, 381–389. [CrossRef] [Google Scholar]
  • Ferreira F.C. and Petrere M., 2009. The fish zonation of the Itanhaem river basin in the Atlantic forest of southeast Brazil. Hydrobiologia, 636, 11–34. [CrossRef] [Google Scholar]
  • Gorman O.T. and Karr J.R., 1978. Habitat structure and stream fish ecology. Ecology, 59, 507–515. [Google Scholar]
  • Grossman G.D., Ratajczak R.E., Crawford M. and Freeman M.C., 1998. Assemblage organization in stream fishes: effects of environmental variation and interspecific interactions. Ecol. Monogr., 68, 395–420. [Google Scholar]
  • Hammond D.S., Gond V., de Thoisy B., Forget P.M. and DeDijn B., 2007. Causes and consequences of a tropical forest gold rush in the Guiana Shield, South America. Ambio, 36, 661–670. [CrossRef] [PubMed] [Google Scholar]
  • Hubert N. and Renno J.F., 2006. Historical biogeography of South American freshwater fishes. J. Biogeogr., 33, 1414–1436. [Google Scholar]
  • Huet M., 1959. Profiles and biology of western European streams as related to fisheries management. Trans. Am. Fish. Soc., 88, 155–163. [Google Scholar]
  • Hugueny B., 1989. West-African rivers as biogeographic islands – species richness of fish communities. Oecologia, 79, 236–243. [CrossRef] [PubMed] [Google Scholar]
  • Ibanez C., Belliard J., Hughes R.M., Irz P., Kamdem-Toham A., Lamouroux N. and Oberdorff T., 2009. Convergence of temperate and tropical stream fish assemblages. Ecography, 32, 658–670. [CrossRef] [Google Scholar]
  • Ibarra A.A., Park Y.S., Brosse S., Reyjol Y., Lim P. and Lek S., 2005. Nested patterns of diversity revealed for fish assemblages in rivers of SW France. Ecol. Freshw. Fish, 14, 233–242. [CrossRef] [Google Scholar]
  • Jackson D.A., Peres-Nieto P.R. and Olden J.D., 2001. What controls who is where in freshwater fish communities – the roles of biotic, abiotic, and spatial factors. Can. J. Fish. Aquat. Sci., 58, 157–170. [Google Scholar]
  • Jackson J.K. and Sweeney B.W., 1995. Present status and future directions of tropical stream research. J. N. Am. Benthol. Soc., 14, 5–11. [Google Scholar]
  • Keith P., Le Bail P.Y. and Planquette P., 2000. Atlas des poisons d'eau douce de Guyane (Tome 2- fascicule 1), MNHN, Paris, France, 286 p. [Google Scholar]
  • Le Bail P.Y., Keith P. and Planquette P., 2000. Atlas des poisons d'eau douce de Guyane (Tome 2- fascicule 2), MNHN, Paris, France, 307 p. [Google Scholar]
  • Le Bail P.Y., Covain R., Jegu M., Fish-Muller S., Vigouroux R. and Keith P., 2012. Updated checklist of the freshwater and estuarine fishes of French Guiana. Cybium, 36, 293–319. [Google Scholar]
  • Leprieur F., Tedesco P.A., Hugueny B., Beauchard O., Dürr H.H., Brosse S. and Oberdorff T., 2011. Partitioning global patterns of freshwater fish beta diversity reveals contrasting signatures of past climate changes. Ecol. Lett., 14, 325–334. [Google Scholar]
  • MacArthur R.H. and Wilson E.O., 1967. The Theory of Island Biogeography, Princeton University Press: Princeton, New Jersey, 203 p. [Google Scholar]
  • Mérigoux S. and Ponton D., 1999. Spatio-temporal distribution of young fish in tributaries of natural and flow-regulated sections of a neotropical river in French Guiana. Freshw. Biol., 42, 177–198. [Google Scholar]
  • Mérigoux S., Ponton D. and de Mérona B., 1998. Fish richness and species-habitat relationships in two coastal streams of French Guiana, South America. Environ. Biol. Fish., 51, 25–39. [Google Scholar]
  • Mol J.H., Wan Tong You K., Vrede I., Flynn A., Ouboter P. and van der Lugt F., 2007. Fishes of Lely and Nassau mountains, Suriname. In: Alonzo M.E. and Mol J.H. (eds), A rapid biological assessment of the Lely and Nassau plateaus, Suriname (with additional information on the Brownsberg Plateau). The RAP Bulletin of Biological Assessment. 43. Conservation International, 276 p. [Google Scholar]
  • Mol J.H., Vari R.P., Covain R., Willink P.W. and Fisch-Muller S., 2012. Annotated checklist of the freshwater fishes of Suriname. Cybium, 36, 263–292. [Google Scholar]
  • Oberdorff T., Tedesco P.A., Hugueny B., Leprieur F., Beauchard O., Brosse S. and Dürr H.H., 2011. Global and regional patterns in riverine fish species richness – a review. Int. J. Ecol. (Article ID 967631, 12 pages, doi:10.1155/2011/967631). [Google Scholar]
  • Oksanen J., Kindt R., Legendre P., O'Hara B., Simpson G.L., Stevens M.H.H. and Wagner H., 2008. VEGAN: community ecology package, v.1.13-8. [Google Scholar]
  • Pinto B.C.T., Araujo F.G., Rodriguez V.D. and Hugues R.M., 2009. Local and ecoregion effects on fish assemblage structure in tributaries of the Rio Paraıba do Sul, Brazil. Freshw. Biol., 54, 2600–2615. [Google Scholar]
  • Planquette P., Keith P. and Le Bail P.Y., 1996. Atlas des poisons d'eau douce de Guyane (Tome 1), MNHN Paris, France, 429 p. [Google Scholar]
  • R Core Team Development, 2008. R: A Language and Environment for Statistical Computing, R foundation for Statistical Computing, Vienna, Austria. [Google Scholar]
  • Tedesco P.A., Leprieur F., Hugueny B., Brosse S., Durr H.H., Beauchard O., Busson F. and Oberdorff T., 2012. Patterns and processes of global riverine fish endemism. Global Ecol. Biogeogr., 21, 977–987. [Google Scholar]
  • Tonn W.M., 1990. Climate change and fish communities: a conceptual framework. Trans. Am. Fish. Soc., 119, 337–352. [Google Scholar]
  • Vannote R.L., Minshall G.W., Cummings K.W., Sedell J.R. and Cushing C.E., 1980. The river continuum concept. Can. J. Fish. Aquat. Sci., 37, 130–137. [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.