Abstract
Biotic assemblages of aquatic floodplain systems have great potential to randomly reshuffle during annual flood periods, and have been described both as stochastically and deterministically assembled. However, only a limited number of studies have been conducted in relatively few habitat types. To evaluate large-bodied fish assemblage structure of floodplain creeks, we used experimental gill nets to sample fishes at sites spaced at even intervals within three creeks in consecutive dry seasons. A total of 60 species were collected, 41 of which were collected both years. The most frequently collected species were piscivores and algivores/detritivores. Multivariate analysis suggested non-random patterns of assemblage structure in both years. Correspondence analysis (CA) of the species abundance-by-site matrix for 2001 suggests species assemblages were most similar among sites within the same creek regardless of depth or longitudinal position. Discriminant function analysis (DFA) correctly predicted 100% of samples based on creek identity, and species ordination scores revealed creek-specific species subsets. In 2002, CA and DFA did not distinguish creeks based on species assemblages. Instead, we observed a significant positive relationship between assemblage composition and site depth and position along the creek longitudinal gradient. Assemblages were most similar among sites of comparable depth and longitudinal position, regardless of creek identity. Predators occurred almost exclusively at mouth and mid-reach sites. Flood duration prior to our 2002 sampling period was prolonged due to abnormally heavy rainfall in November and December 2001 (typically the falling-water period), and may account for the observed inter-annual variation in fish assemblage structure.
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References
Agostinho, A.A. & M. Zalewski. 1995. The dependence of fish community structure and dynamics on floodplain and riparian ecotone zone in Parana River, Brazil. Hydrobiologia 303: 141-148.
Arrington, D.A. 2002. Evaluation of the relationship between habitat structure, community structure, and community assembly in a Neotropical blackwater river. Unpublished Ph.D. issertation, Texas A&M University, College Station, TX. 122 pp.
Arrington, D.A., K.O. Winemiller, W.F. Loftus & S. Akin. 2002. How often do fishes 'run on empty'? Ecology 83: 2145-2151.
Crook, D.A., A.I. Robertson, A.J. King & P. Humphries. 2001. The influence of spatial scale and habitat arrangement on diel patterns of habitat use by two lowland river fishes. Oecologia 129: 525-533.
Fernandes, C.C. 1997. Lateral migration of fishes in Amazon floodplains. Ecol. Freshw. Fish 6: 36-44.
Goulding, M., M.L. Carvalho & E.G. Ferreira. 1988. Rio Negro, Rich Life in Poor Water, SPB Academic Publishing, The Hague. 200 pp.
Grossman, G.D., P.B. Moyle & J.O. Whitaker. 1982. Stochasticity in structural and functional characteristics of an Indiana stream fish assemblage: A test of community theory. Amer. Naturalist 120: 423-454.
Grossman, G.D., R.E. Ratajczak, M. Crawford & M.C. Freeman. 1998. Assemblage organization in stream fishes: Effects of environmental variation and interspecific interactions. Ecol. Monographs 68: 395-420.
Ibarra, M. & D.J. Stewart. 1989. Longitudinal zonation of sandy beach fishes in the Napo River Basin, Eastern Ecuador. Copeia 1989: 364-381.
Jackson, D.A., P.R. Peres-Neto & J.D. Olden. 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.
Jepsen, D.B. 1997. Fish species diversity in sand bank habitats of a neotropical river. Environ. Biol. Fish. 49: 449-460.
Jepsen, D.B., K.O. Winemiller & D.C. Taphorn. 1997. Temporal patterns of resource partitioning among Cichla species in a Venezuelan blackwater river. J. Fish Biol. 51: 1085-1108.
Jepsen, D.B., K.O. Winemiller, D.C. Taphorn & D. Rodriguez Olarte. 1999. Age structure and growth of peacock cichlids from rivers and reservoirs of Venezuela. J. Fish Biol. 55: 433-450.
Kodric-Brown, A. & J.H. Brown. 1993. Highly structured fish communities in Australian desert springs. Ecology 74: 1847-1855.
Levin, S.A. 1992. The problem of pattern and scale in ecology. Ecology 73: 1943-1967.
Lowe-McConnell, R.H. 1987. Ecological Studies in Tropical Fish Communities, Cambridge University Press, Cambridge, UK. 382 pp.
Magurran, A.E. 1988. Ecological Diversity and its Measurement. Princeton University Press, Princeton, NJ. 179 pp.
Quinn, G.P. & M.J. Keough. 2002. Experimental Design and Data Analysis for Biologists. Cambridge University Press, Cambridge. 537 pp.
Rahel, F.J., J.D. Lyons & P.A. Cochran. 1984. Stochastic or deterministic regulation of assemblage structure-it may depend on how the assemblage is defined. Amer. Naturalist 124: 583-589.
Rodríguez, M.A. & W.M. Lewis. 1994. Regulation and stability in fish assemblages of Neotropical floodplain lakes. Oecologia 99: 166-180.
Rodríguez, M.A. & W.M. Lewis. 1997. Structure of fish assemblages along environmental gradients in floodplain lakes of the Orinoco River. Ecol. Monographs 67: 109-128.
Saint-Paul, U., J. Zuanon, M.A.V. Correa, M. Garcia, N.N. Fabre, U. Berger & W.J. Junk. 2000. Fish communities in central Amazonian white-and blackwater floodplains. Environ. Biol. Fish. 57: 235-250.
Schlosser, I.J. 1987. A conceptual framework for fish communities in small warmwater streams. pp. 17-24. In: W.J. Matthews & D.C. Heins (ed.), Community and Evolutionary Ecology of North American Stream Fishes, University of Oklahoma Press, Norman, OK, U.S.A.
Silvano, R.A.M., B.D. do Amaral & O.T. Oyakawa. 2000. Spatial and temporal patterns of diversity and distribution of the Upper Jurua River fish community (Brazilian Amazon). Environ. Biol. Fish. 57: 25-35.
Sioli, H. 1975. Tropical rivers as an expression of their terrestrial environment. pp. 275-288. In: F.B. Golly & E. Medina (ed.), Tropical Ecological Systems, Springer-Verlag, New York.
Smith, B. 1986. Evaluation of different similarity indices applied to data from the Rothamsted insect survey. MS Thesis, University of York.
Tejerina-Garro, F.L. & B. De Merona. 2001. Gill net sampling standardisation in large rivers of French Guiana (South America). Bulletin Francais de la Peche et de la Pisciculture 357/358: 227-240.
Tejerina-Garro, F.L., R. Fortin & M.A. Rodríguez. 1998. Fish community structure in relation to environmental variation in floodplain lakes of the Araguaia River, Amazon Basin. Environ. Biol. Fish. 51: 399-410.
ter Braak, C.J.F. & P. Šmilauer. 1998. CANOCO Reference Manual and User's Guide to CANOCO for Windows: Software for Canonical Community Ordination (version 4). Microcomputer Power, Ithaca, NY, USA.
Toham, A.K. & G.G. Teugels. 1997. Patterns of microhabitat use among fourteen abundant fishes of the lower Ntem River Basin (Cameroon). Aquatic Living Resources 10: 289-298.
Tonn, W.M. & J.J. Magnuson. 1982. Patterns in the species composition and richness of fish assemblages in northernWisconsin lakes. Ecology 63: 1149-1166.
Wilson, M.V. & A. Shmida. 1984. Measuring beta diversity with presence absence data. J. Ecol. 72: 1055-1064.
Winemiller, K.O. 1989. Ontogenetic diet shifts and resource partitioning among piscivorous fishes in the Venezuelan Llanos. Environ. Biol. Fish. 26: 177-199.
Winemiller, K.O. 1996. Dynamic diversity in fish assemblages of tropical rivers. pp. 99-132. In: M.L. Cody & J.A. Smallwood (ed.), Long-term Studies of Vertebrate Communities, Academic Press, Orlando.
Winemiller, K.O., D.C. Taphorn & A. Barbarino-Duque. 1997. Ecology of Cichla (Cichlidae) in two blackwater rivers of southern Venezuela. Copeia 1997: 690-696.
Wolda, H. 1983. Diversity, diversity indexes and tropical cockroaches. Oecologia 58: 290-298.
Zaret, T.M. & A.S. Rand. 1971. Competition in tropical stream fishes: support for the competitive exclusion principle. Ecology 52: 336-342.
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Hoeinghaus, D.J., Layman, C.A., Arrington, D.A. et al. Spatiotemporal Variation in Fish Assemblage Structure in Tropical Floodplain Creeks. Environmental Biology of Fishes 67, 379–387 (2003). https://doi.org/10.1023/A:1025818721158
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DOI: https://doi.org/10.1023/A:1025818721158