Abstract
We examined the distribution patterns of four amphipod and one isopod crustaceans in 23 cave stream segments within a subterranean drainage basin. The patterns indicate that invasion history is a strong determinant of the species' distributions. One set of species likely has invaded the cave system from the zone of interstitial water, and thus is distributed mainly in headwater streams throughout the drainage. One species probably invaded through upstream migration from the resurgence of the cave system, and thus is strongly associated with the larger, higher-order streams. The effect of interspecific interactions on the patterns of distribution is not apparent at our scale of analysis.
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Allan, J. D., 1983. Predator-prey relationships in streams. In J. R. Barnes & G. W. Minshall (eds), Stream Ecology. Application and Testing of General Ecological Theory. Plenum Press, New York: 191–229.
Barnes, J. R. & G. W. Minshall (eds), 1983. Stream ecology. Application and testing of general ecological theory. Plenum Press, New York, 399 pp.
Culver, D. C., 1970. Analysis of simple cave communities. I. Caves as islands. Evolution 24: 463–474.
Culver, D. C., 1973. Competition in spatially heterogeneous systems: an analysis of simple cave communities. Ecology 54: 102–110.
Culver, D. C., 1975. Interaction between competition and predation in cave stream communities. Int. J. Speleol. 7: 229–245.
Culver, D. C., 1976. The evolution of aquatic cave communities. Am. Nat. 110: 945–957.
Culver, D. C., 1982. Cave live. Harvard Univ. Press, Cambridge, 189 pp.
Culver, D. C. & T. J. Ehlinger, 1989. Effects of microhabitat size and competitor size on two cave isopods. Brimleyana 4: 103–113.
Culver, D. C., D. W. Fong & R. W. Jernigan, 1991. Species interactions in cave stream communities: experimental results and microdistribution effects. Am. Midl. Nat. 126: 364–379.
Culver, D. C., T. C. Kane, D. W. Fong, R. Jones, M. A. Taylor & S. C. Sauereisen, 1989. Morphology of cave organisms — is it adaptive? Mem. Biospeol. 17: 3–16.
Digby, P. G. N. & R. A. Kempton, 1987. Multivariate analysis of ecological communities. Chapman and Hall, New York, 206 pp.
Fleming, L. E., 1973. The evolution of the eastern North American isopods of the genus Asellus (Crustacea: Asellidae). Int. J. Speleol. 5: 283–310.
Fong, D. W., 1989. Morphological evolution of the amphipod Gammarus minus in caves: quantitative genetic analysis. Am. Midl. Nat. 121: 361–378.
Fontaine, T. D., III & S. M. Bartell (eds), 1983. Dynamics of lotic ecosystems. Ann Arbor Science Publishers, Ann Arbor, (Mich.), 494 pp.
Hart, D. D., 1983. The importance of competitive interactions within stream populations and communities. In J. R. Barnes & G. W. Minshall (eds), Stream Ecology. Application and Testing of General Ecological Theory. Plenum Press, New York: 99–136.
Hastings, A., 1987. Can competition be detected using species cooccurrence data? Ecology 68: 117–123.
Henry, J. P., 1978. Observations sur les peuplements de Crustaces Aselloides des milieux souterrains. Bull. Soc. Zool. France 103: 491–497.
Holsinger, J. R., 1978. Systematics of the subterranean amphipod genus Stygobromus (Crangonyctidae), Part II: species of the eastern United States. Smithson. Contr. Zool. 266: 1–144.
Holsinger, J. R. 1986. Zoogeographic patterns of North American subterranean amphipod crustaceans. In R. H. Gore & K. L. Heck (eds), Crustacean Biogeography. Balkema, Boston (Mass.): 85–106.
Holsinger, J. R. & D. C. Culver, 1970. Morphological variation in Gammarus minus Say (Amphipoda, Gammaridae) with emphasis on subterranean forms. Postilla 146: 1–24.
Holsinger, J. R., R. A. Baroody & D. C. Culver, 1976. The invertebrate cave fauna of West Virginia. W. Va. Speleol. Survey, Bull. 7, Barrackville (W.Va.), 82 pp.
Hughes, D. A., 1970. some factors affecting drift and upstream movements of Gammarus pulex. Ecology 51: 301–305.
Hultin, L., 1971. Upstream movements of Gammarus p. pulex (Amphipoda) in a south Swedish stream. Oikos 22: 329–347.
Jones, W. K., 1988. Hydrology. In P. J. Stevens (ed.), Caves of the organ Cave Plateau, Greenbrier County, West Virginia. W.Va. Speleol. Survey, Bull. 9., Barrackville (W.Va.): 40–48.
Kotler, B. P. & R. D. Holt, 1989. Predation and competition: the interaction of two types of species interactions. Oikos 54: 256–263.
Lock, M. A. & D. D. Williams (eds), 1981. Perspectives in running water ecology. Plenum Press, New York, 430 pp.
Marchant, R., 1981. The ecology of Gammarus in running water. In M. A. Lock & D. D. Williams (eds), Perspectives in Running Water Ecology. Plenum Press, New York: 225–249.
McAuliffe, J. R. 1983. Competition, colonization patterns, and disturbance in stream benthic communities. In J. R. Barnes & G. W. Minshall (eds), Stream Ecology. Application and Testing of General Ecological Theory. Plenum Press, New York: 137–156.
Meijering, M. P. C., 1972. Experimental studies on drift and upstream and downstream movements of gammarids in running water. Arch. Hydrobiol. 70: 133–205.
Minckley, W. L., 1964. Upstream movements of Gammarus (Amphipoda) in Doe Run, Meade County, Kentucky. Ecology 45: 195–197.
Morin, P. J., S. P. Lawler & E. A. Johnson, 1988. Competition between aquatic insects and vertebrates: interaction strength and higher order interactions. Ecology 69: 1401–1409.
Peck, S. B. & J. J. Lewis, 1977. Zoogeography and evolution of the subterranean invertebrate faunas of Illinois and southeastern Missouri. Nat. Speleol. Soc., Bull. 40: 39–63.
Peckarsky, B. L. 1983. Biotic interactions or abiotic limitations? A model of lotic community structure. In T. D. Fontaine, III & S. M. Bartell (eds), Dynamics of Lotic Ecosystems. Ann Arbor Science Publ., Ann Arbor (Michi.): 303–323.
Poulson, T. L. & W. B. White, 1969. The cave environment. Science 165: 971–981.
Reice, S. R., 1983. Predation and substratum: factors in lotic community structure. In T. D. Fontaine, III & S. M. Bartell (eds), Ann Arbor Science Publ., Ann Arbor (Mich.): 325–345.
Robinson, J. V. & M. A. Edgemon, 1988. An experimental evaluation of the effect of invasion history on community structure. Ecology 69: 1410–1417.
Rose, G. A. & W. C. Leggett, 1990. The importance of scale to predator-prey spatial correlations: an example of Atlantic fishes. Ecology 71: 33–43.
Sokal, R. R. & F. J. Rolhf, 1981. Biometry. Second edition. W. H. Freeman, San Francisco, 859 pp.
Steeves, H. R., III, 1966. Evolutionary aspects of the troglobitic asellids of the United States: the hobbsi, stygius, and cannulus groups. Am. Midl. Nat. 75: 392–403.
Stevens, P. J. (ed.), 1988. Caves of the Organ Cave Plateau, Greenbrier County, West Virginia. W.Va. Speleol. Survey, Bull. 9. Barrackville (W.Va.), 200 pp.
Strahler, A. N., 1957. Quantitative analysis of watershed morphology. Trans. Am. Geophys. Union 38: 913–920.
Vannote, R. L., G. W. Minshall, K. W. Cummins, J. R. Sedell & C. E. Cushing, 1980. The river continuum concept. Can. J. Fish. aquat. Sci. 37 130–137.
Vannote, R. L. & B. W. Sweeney, 1980. Geographic analysis of thermal equilibria: a conceptual model for evaluating the effect of natural and modified thermal regimes on aquatic insect communities. Am. Nat. 115: 667–695.
Ward, J. V. & J. A. Stanford. 1983. The intermediate-disturbance hypothesis: an explanation for biotic diversity patterns in lotic ecosystems. In T. D. Fontaine, III & S. M. Bartell (eds), Dynamics of Lotic Ecosystems. Ann Arbor Science Publ., Ann Arbor (Mich.): 347–356.
Williams, D. D., 1981. Migrations and distributions of stream benthos. In M. A. Lock & D. D. Williams (eds), Perspectives in Running Water Ecology. Plenum Press, New York: 155–207.
Williams, P. W., 1983. The role of the subcutaneous zone in karst hydrology. J. Hydrol. 61: 45–67.
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Presented at the Symposium on the ‘Biogeography of Subterranean Crustaceans: the Effects of Different Scales’ (June 1992; Charleston, South Carolina, USA) Manuscript prepared for print by J. V. Ward and D. C. Culver.
Presented at the Symposium on the ‘Biogeography of Subterranean Crustaceans: the Effects of Different Scales’ (June 1992; Charleston, South Carolina, USA) Manuscript prepared for print by J. V. Ward and D. C. Culver.
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Fong, D.W., Culver, D.C. Fine-scale biogeographic differences in the crustacean fauna of a cave system in West Virginia, USA. Hydrobiologia 287, 29–37 (1994). https://doi.org/10.1007/BF00006894
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DOI: https://doi.org/10.1007/BF00006894