Abstract
I examined the relative importance of beds of tapegrass (Vallisneria americana) and adjacent unvegetated habitats to juvenile and adult (6–35 mm standard length) rainwater killifish (Lucania parva) over a large spatial scale within the St. Johns River estuary, Florida. Abundance of rainwater killifish did not differ between oligohaline and tidal freshwater portions of the estuary and this species was relatively rare at opposite ends of the St. Johns River estuary. The presence of rainwater killifish at a given site was determined in part by large-scale variation in environmental factors such as habitat complexity and salinity. When present at a site, rainwater killifish were found almost exclusively in structurally complex beds of tapegrass. Behavioral observations in the laboratory indicated that rainwater killifish preferred vegetated over unvegetated habitats in the absence of both potential prey and predators and that use of vegetated habitats increased further upon addition of predatory largemouth bass (Micropterus salmoides). A laboratory predation experiment indicated that survival of rainwater killifish exposed to largemouth bass was significantly higher in vegetation than over open sand. Strong preferences for structurally complex vegetation likely reflect an evolved or learned behavioral response to risk of predation and help explain habitat use of rainwater killifish in the St. Johns River estuary.
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Literature Cited
Bartolini, M., 1998. Habitat use and foraging ecology of largemouth bass and other predatory fishes in the lower St. Johns River, Florida. M.S. Thesis, University of Florida. Gainesville, Florida.
Bell, J. D. andM. Westoby. 1986a. Abundance of macrofauna in dense seagrass is due to habitat preference, not predation.Oecologia 68:205–209.
Bell, J. D. andM. Westoby. 1986b. Importance of local changes in leaf height and density to fish and decapods associated with seagrasses.Journal of Experimental Marine Biology and Ecology 104:249–274.
Bell, J. D. andM. Westoby. 1986c. Variation in seagrass height and density over a wide spatial scale: Effects on common fish and decapods.Journal of Experimental Marine Biology and Ecology 104:275–295.
Bell, J. D., M. Westoby, andA. S. Steffe. 1987. Fish larvae settling in seagrass: Do they discriminate between beds of different leaf density?Journal of Experimental Marine Biology and Ecology 111:133–144.
Chick, J. H., F. Jordan, J. P. Smith, andC. C. McIvor. 1992. A comparison of four enclosure traps and methods used to sample fishes in aquatic macrophytes.Journal of Freshwater Ecology 7:353–361.
Connolly, R. M. 1994. The role of seagrass as preferred habitat for juvenileSillaginodes punctata (Cuv. & Val.) (Sillaginidae, Pisces): Habitat selection or feeding?Journal of Experimental Marine Biology and Ecology 180:39–47.
Day, Jr.,J. W., C. A. S. Hall, W. M. Kemp, andA. Yanez-Arancibia. 1989. Estuarine Ecology. John Wiley & Sons, New York.
DeMort, C. L. 1991. The St. Johns River system, p. 97–120.In R. J. Livingston (ed.), Rivers of Florida, Springer-Verlag, New York.
Duffy, K. C. andD. M. Baltz. 1998. Comparison of fish assemblages associated with native and exotic submerged macrophytes in the Lake Pontchartrain estuary, USA. Journal ofExperimental Marine Biology and Ecology 223:199–221.
Duggins, Jr.,C. F. 1980.Lucania parva (Baird), rainwater killifish, p. 535.In D. S. Lee, C. R. Gilbert, C. H. Hocutt, R. E. Jenkins, D. E. McAllister, and J. R. Stauffer, Jr. (eds.), Atlas of North American Freshwater Fishes. North Carolina State Museum of Natural History, North Carolina.
Dunson, W. A., P. Fricano, andW. Sadinski. 1993. Variation in tolerance to abiotic stresses among sympatric salt marsh fish.Wetlands 13:16–24.
Dunson, W. A. andJ. Travis. 1991. The role of abiotic factors in community organization.American Naturalist 138:1067–1091.
Ferrell, D. J. andJ. D. Bell. 1991. Differences among assemblages of fish associated withZostera capricorni and bare sand over a large spatial scale.Marine Ecology Progress Series 72:15–24.
Foster, N. R. 1967. Comparative studies on the biology of killifishes (Pisces, Cyprinodontidae). Ph.D. Dissertation, Cornell University, Ithaca, New York.
Freeman, B. J., H. S. Greening, andJ. D. Oliver. 1984. Comparison of three methods for sampling fishes and macroinvertebrates in a vegetated freshwater wetland.Journal of Freshwater Ecology 2:603–610.
Gotceitas, V. andJ. A. Brown. 1993. Substrate selection by juvenile Atlantic cod (Gadus morhua): Effects of predation risk.Oecologia 93:31–37.
Harrington, R. W. andE. S. Harrington. 1961. Food selection among fishes invading a high subtropical salt marsh: From onset of flooding through the progress of a mosquito brood.Ecology 42:646–666.
Hayse, J. W. andT. E. Wissing. 1996. Effects of stem density of artificial vegetation on abundance and growth of age-0 bluegills and predation by largemouth bass.Transactions of the American Fisheries Society 125:422–433.
Heck, Jr.,K. J., K. W. Able, M. P. Fahay, andC. T. Roman. 1989. Fishes and decapod crustaceans of Cape Cod eelgrass meadows: Species composition, seasonal abundance patterns and comparison with unvegetated substrates.Estuaries 12:59–65.
Heck, K. L. andL. B. Crowder. 1991. Habitat structure and predator-prey interactions in vegetated aquatic systems, p. 281–299.In S. S. Bell, E. D. McCoy, and J. Mushinsky (eds.), Habitat Structure: The Physical Arrangement of Objects in Space. Chapman Hall, New York.
Heck, K. L. andR. J. Orth. 1980. Seagrass habitats: The roles of habitat complexity, competition and predation in structuring associated fish and motile invertebrate assemblages. p. 449–464.In V. S. Kennedy (ed.), Estuarine Perspectives. Academic Press, New York.
Jordan, F., K. J. Babbitt, andC. C. McIvor. 1998. Seasonal variation in habitat use by marsh fishes.Ecology of Freshwater Fish 7:159–166.
Jordan, F., M. Bartolini, C. Nelson, P. E. Patterson, andH. L. Soulen. 1996. Risk of predation affects habitat selection by the pinfishLagodon rhomboides (Linnaeus).Journal of Experimental Biology and Ecology 208:45–56.
Jordan, F., S. Coyne, andJ. C. Trexler. 1997. Sampling fishes in vegetated habitats: Effects of habitat structure on sampling characteristics of the 1-m2 throw trap.Transactions of the American Fisheries Society 126:1012–1020.
Kraemer, G. P., R. H. Chamberlain, P. H. Doering, A. D. Steinman, andM. D. Hanisak. 1999. Physiological responses of transplants of the freshwater angiospermVallisneria americana along a salinity gradient in the Caloosahatchee estuary (southwestern Florida).Estuaries 22:138–148.
Kushlan, J. A. 1981. Sampling characteristics of enclosure fish traps.Transactions of the American Fisheries Society 110:557–662.
Lima, S. L. andL. M. Dill. 1990. Behavioral decisions made under the risk of predation: A review and prospectus.Canadian Journal of Zoology 68:619–640.
Livingston, R. J. 1984. The relationship of physical factors and biological response in coastal seagrass meadows.Estuaries 7: 377–390.
Osenberg, C. W., R. J. Schmitt, S. J. Holbrook, K. E. Abu-Saba, andA. R. Flegal. 1996. Detection of environmental impacts: Natural variability, effect size, and power analysis, p. 83–108.In R. J. Schmitt and C. W. Osenberg, (eds.), Detecting Ecological Impacts: Concepts and Applications in Coastal Habitats. Academic Press, San Diego, California.
Orth, R. J., K. L. Heck, Jr., andJ. van Montfrans. 1984. Faunal communities in seagrass beds: A review of the influence of plant structure and prey characteristics on predator-prey relationships.Estuaries 7:339–350.
Peterson, C. H. andR. Black. 1994. An experimentalist’s challenge: When artifacts of intervention interact with treatments.Marine Ecology Progress Series 111:289–297.
Provancha, M. J. andC. R. Hall. 1991. Ecology and life history of the clown goby inhabiting the upper Banana River, Cape Canaveral, Florida.Environmental Biology of Fishes 31:41–54.
Pulliam, H. R. 1988. Sources, sinks, and population regulation.American Naturalist 132:652–661.
Rogers, D. R., B. D. Rogers, andW. H. Herke. 1992. Effects of a marsh management plan on fishery communities in coastal Louisiana.Wetlands 12:53–62.
Rozas, L. P. andT. J. Minello. 1997. Estimating densities of small fishes and decapod crustaceans in shallow estuarine habitats: A review of sampling design with focus on gear selection.Estuaries 20:199–213.
Rozas, L. P. andW. E. Odum. 1988. Occupation of submerged aquatic vegetation by fishes: Testing the roles of food and refuge.Oecologia 77:101–106.
Ryan, J. D. 1981. Nocturnal predator-prey relationships of some fishes in a temperate seagrass meadow. Master Thesis. Florida State University, Tallahassee, Florida.
Sagan, J. J. 2001. Lower St. Johns River Basis submerged aquatic vegetation (SAV) volunteer coordination, data collection, and analyses. Report prepared for the St. Johns River Water Management District, Palatka, Florida.
Savino, J. F. andR. A. Stein. 1982. Predator-prey interaction between largemouth bass and bluegills as influenced by simulated, submersed vegetation.Transactions of the American Fisheries Society 111:255–266.
Sogard, S. M. andK. W. Able. 1991. A comparison of eelgrass, sea lettuce macroalgae, and marsh creeks as habitats for epibenthic fishes and decapods.Estuarine, Coastal, and Shelf Science 33:501–519.
Sogard, S. M. andB. L. Olla. 1993. The influence of predator presence on utilization of artificial seagrass habitats by juvenile walleye pollock,Theragra chalcogramma.Environmental Biology of Fishes 37:57–65.
Sogard, S. M., G. V. N. Powell, andJ. G. Holmquist. 1987. Epibenthic fish communities on Florida Bay banks: Relations with physical parameters and seagrass cover.Marine Ecology Progress Series 40:25–39.
Sogard, S. M., G. V. N. Powell, andJ. G. Holmquist. 1989. Utilization by fishes of shallow, seagrass-covered banks in Florida Bay. 1. Species composition and spatial heterogeneity.Environmental Biology of Fishes 24:53–65.
Sokal, R. R. andF. J. Rohlf. 1995. Biometry, 3rd edition. W. H. Freeman & Company, New York.
Stoner, A. W. 1983. Distribution of fishes in seagrass meadows: Role of macrophyte biomass and species composition.Fisheries Bulletin 81:837–846.
Tremain, D. M. andD. H. Adams. 1995. Seasonal variations in species diversity, abundance, and composition of fish communities in the northern Indian River Lagoon, Florida.Bullelin of Marine Science 57:171–192.
Weaver, D. and K. J. Sulak. 1998. Fish community structure in four tidal creeks tributary to the lower St. Johns River. Report prepared for the St. Johns River Water Management District, Palatka, Florida.
Wiens, J. A. 1976. Population responses to patchy environments.Annual Review in Ecology and Systematics 7:81–120.
Winer, B. J., D. R. Brown, andK. M. Michels. 1991. Statistical Principles in Experimental Design. McGraw-Hill, New York.
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St. Johns River Water Management District. Office of Communications and Governmental Affairs, P.O. Box 1429, Palatka, Florida 32178-1429.
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Jordan, F. Field and laboratory evaluation of habitat use by rainwater killifish (Lucania parva) in the St. Johns River estuary, Florida. Estuaries 25, 288–295 (2002). https://doi.org/10.1007/BF02691316
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DOI: https://doi.org/10.1007/BF02691316