Synopsis
Associations of fishes in physically distinct habitats (riffles, inlets and pools) of Flint Creek were studied to evaluate critically the habitat-guild concept — the notion that fishes associate with patches of stream habitat in discrete groups. There was little evidence of significant interspecific association at the habitat level. Most fishes were very generalized in their habitat-use patterns. Faunal similarity between habitats was unrelated to physical-habitat similarity. Assemblages from physically distinct habitats were little different from those from physically similar habitats. The structure of the associations (constancy within groups of commonly occurring species) varied seasonally and from site to site. There were constant associations in pools from summer through fall and this coincided with conditions of high fish density and low food availability, suggesting that the pattern resulted from past or present interaction between species. However, the timing also coincided with recruitment of young. Pools were the favored habitats of young-of-year fishes which dominated assemblages in these areas during summer and fall months. This apparently adaptive pattern of habitat association, operating in tandem with local reproductive success could have been responsible for the constancy observed in pools. Most of the species considered here made use of a variety of habitat conditions over the course of their life histories. Individual patches of habitat satisfied the needs of few fish, and thus, seemed too small a scale for the study of community-assembly mechanisms. There was better evidence of interspecies association at the scale of two or more of these habitat areas combined.
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References cited
Anderson, C.S. 1985. The structure of sculpin populations along a stream gradient. Env. Biol. Fish. 13: 93–102.
Anon. 1983. SPSSx User's Guide. McGraw Hill, New York. 806 pp.
Barr, A.J., J.H. Goodnight, J.P. Sall & J.T. Helwig. 1976. A user's guide to SAS. SAS Institute, Raleigh. 584 pp.
Blair, W.F. & T.H. Hubble. 1938. Biotic districts of Oklahoma. Amer. Midl. Nat. 37: 425–454.
Connell, J.H. & W. Sousa. 1983. On the evidence needed to judge ecological stability or persistence. Amer. Nat. 121: 789–824.
Douglas, M.E. & J.A. Endler. 1982. Quantitative matrix comparisons in ecological and evolutionary studies. J. Theor. Biol. 99: 777–795.
Gorman, O.T. & J.R. Karr. 1978. Habitat structure and stream fish communities. Ecology 59: 507–515.
Grossman, G.D., P.B. Moyle & J.O. Whitaker, Jr. 1982. Stochasticity in structural and functional characteristics of an Indiana stream fish assemblage: a test of community theory. Amer. Nat. 120: 423–454.
Grossman, G.D., M.C. Freeman, P.B. Moyle & J.O. Whitaker, Jr. 1985. Stochasticity and assemblage organization in an Indiana stream fish assemblage. Amer. Nat. 126: 275–285.
Hendricks, M.L., C.H. Hocutt & J.R. Stauffer, Jr. 1980. Monitoring of fish in lotic habitats. pp. 205–231. In: C.H. Hocutt & J.R. Stauffer, Jr. (ed.) Biological Monitoring of Fish, D.C. Health, Lexington.
Herbold, B. 1984. Structure of an Indiana stream fish association: choosing an appropriate model. Amer. Nat. 124: 561‱572.
Leopold, L.B., M.G. Wolman & J.P. Miller. 1964. Fluvial processes in geomorphology. W.H. Freeman, San Francisco. 522 pp.
MacNally, R.C. 1983. On assessing the significance of interspecific competition to guild structure. Ecology 64: 1646–1652.
Matthews, W.J. 1986. Fish faunal structure in an Ozark stream: stability, persistence and a catastrophic flood. Copeia 1986: 388–397.
Miller, R.J. & H.W. Robinson. 1973. Fishes of Oklahoma. Oklahoma State University Press, Stillwater. 246 pp.
Morisita, M. 1959. Measurement of interspecies association and similarity between communities. Mem. Fac. Sci. Kyrushu Univ. Ser. E Biol. 3: 65–80.
Moyle, P.B. & B. Vondracek. 1985. Persistence and structure of the fish assemblage in a small California stream. Ecology 66: 1–13.
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. Nat. 124: 583–589.
Robins, C.R., R.M. Bailey, C.E. Bond, J.R. Brooker, E.A. Lachner, R.N. Lea & W.B. Scott. 1980. A list of common and scientific names of fishes from the United States and Canada. Amer. Fish. Soc. Special Publ., Bethesda. 174 pp.
Rohlf, F.J., J. Kispaugh & D. Kirk. 1972. Numerical taxonomy system of multivariate statistical programs. Technical Report, State University of New York, Stony Brook. 189 pp.
Root, R.B. 1967. The niche exploitation pattern of the bluegrey gnatcatcher. Ecol. Monogr. 37: 317–350.
Ross, S.T, W.J. Matthews & A.A. Echelle. 1985. Persistence of stream fish assemblages: effects of environmental change. Amer. Nat. 126: 24–40.
Schlosser, I.J. 1982. Fish community structure along two habitat gradients in a headwater stream. Ecol. Monogr. 52: 395–414.
Schlosser, I.J. 1985. Flow regime, juvenile abundance, and the assemblage structure of stream fishes. Ecology 66: 1484–1490.
Whittier, T.R. & D.L. Miller. 1986. Stream fish communities revisited: a case of mistaken identity. Amer. Nat. 128: 433–437.
Yant, P.R., J.R. Karr & P.L. Angermeier. 1984. Stochasticity in stream fish communities: an alternative interpretation. Amer. Nat. 124: 573–582.
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Bart, H.L. Fish habitat association in an Ozark stream. Environ Biol Fish 24, 173–186 (1989). https://doi.org/10.1007/BF00001222
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DOI: https://doi.org/10.1007/BF00001222