Abstract
Bluegill sunfish (Lepomis macrochirus) are known to diversify into two forms specialized for foraging on either limnetic or littoral prey. Because juvenile bluegills seek vegetative cover in the presence of largemouth bass (Micropterus salmoides) predators, natural selection should favor the littoral body design at size ranges most vulnerable to predation. Yet within bluegill populations, both limnetic and littoral forms occur where vegetation and predators are present. While adaptive for foraging in different environments, does habitat-linked phenotypic variation also influence predator evasiveness for juvenile bluegills? We evaluate this question by quantifying susceptibility to predation for two groups of morphologically distinct bluegills; a limnetic form characteristic of bluegills inhabiting open water areas (limnetic bluegill) and a littoral form characteristic of bluegills inhabiting dense vegetation (littoral bluegill). In a series of predation trials, we found that bluegill behaviors differed in open water habitat but not in simulated vegetation. In open water habitat, limnetic bluegills formed more dense shoaling aggregations, maintained a larger distance from the predator, and required longer amounts of time to capture than littoral bluegill. When provided with simulated vegetation, largemouth bass spent longer amounts of time pursuing littoral bluegill and captured significantly fewer littoral bluegills than limnetic fish. Hence, morphological and behavioral variation in bluegills was linked to differential susceptibility to predation in open water and vegetated environments. Combined with previous studies, these findings show that morphological and behavioral adaptations enhance both foraging performance and predator evasiveness in different lake habitats.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aday DD, Hoxmeier J, Wahl DH (2003) Direct and indirect effects of gizzard shad on bluegill growth and population size structure. Trans Am Fish Soc 132:47–56
Agrawal AA (2001) Phenotypic plasticity in the interactions and evolution of species. Science 294:321–326
Bolnick DI, Svanback R, Fordyce JA, Yang LH, Davis JM, Hulsey CD, Forister ML (2003) The ecology of individuals: incidence and implications of individual specialization. Am Nat 161:1–28
Breck JE (1993) Foraging theory and piscivorous fish: are forage fish just big zooplankton? Trans Am Fish Soc 122:902–911
Brönmark C, Miner JG (1992) Predator-induced phenotypical change in body morphology in crucian carp. Science 258:1348–1350
Cody RP, Smith JK (1997) Applied statistics and the SAS programming language. Prentice Hall, Upper Saddle River, N.J.
Dill LM (1983) Adaptive flexibility in the foraging behaviour of fishes. Can J Fish Aquat Sci 40:398–408
Dudley SA, Schmitt J (1996) Testing the adaptive plasticity hypothesis: density-dependent selection on manipulated stem length in Impatiens capensis. Am Nat 147:445–465
Ehlinger TJ (1990) Habitat choice and phenotype-limited feeding efficiency in bluegill: individual differences and trophic polymorphism. Ecology 71:886–896
Ehlinger TJ, Wilson DS (1988) Complex foraging polymorphism in bluegill sunfish. Proc Natl Acad Sci USA 85:1878–1882
Einfalt LM, Wahl DH (1997) Prey selection by juvenile walleye as influenced by prey morphology and behavior. Can J Fish Aquat Sci 54:2618–2626
Endler JA (1995) Multiple-trait co-evolution and environmental gradients in guppies. Trends Ecol Evol 10:22–29
Fuiman LA, Magurran AE (1994) Development of predator defences in fishes. Rev Fish Biol 4:145–183
Gross M (1996) Alternative reproductive strategies and tactics: diversity within sexes. Trends Ecol Evol 11:92–98
Hegrenes S (2001) Diet-induced phenotypic plasticity of feeding morphology in the orangespotted sunfish, Lepomis humilis. Ecol Fresh Fish 10:35–42
Hollander M, Wolfe DA (1973) Nonparametric statistical methods. Wiley, New York, N.Y.
Houde AE (1993) Evolution by sexual selection: what can population comparisons tell us? Am Nat 141:796–803
Howland HC (1974) Optimal strategies for predator avoidance: the relative importance of speed and maneuverability. J Theor Biol 47:333–350
Hoyle JA, Keast A (1987) The effect of prey morphology and size on handling time in a piscivore, the largemouth bass Micropterus salmoides. Can J Zool 65:1972–1977
Layzer JB, Clady MD (1987) Phenotypic variation of young-of-year bluegills Lepomis macrochirus among microhabitats. Copeia 3:702–707
Levins R (1968) Evolution in a changing environment. Princeton University Press, Princeton, N.J.
Mittelbach GG (1981) Foraging efficiency and body size: a study of optimal diet and habitat use by bluegills. Ecology 62:1370–1386
Mittelbach GG (1988) Competition among refuging sunfishes and effects of fish density on littoral zone invertebrates. Ecology 69:614–623
Mittelbach GG, Osenberg CW, Wainwright PC (1992) Variation in resource abundance effects diet and feeding morphology in the pumpkinseed sunfish (Lepomis gibbosus). Oecologia 90:8–13
Persson L, Crowder LB (1998) Fish-habitat interactions mediated via ontogenetic niche shifts. In: Jeppessen E, Sondergaard M, Sondergaard M, Christoffersen K (eds) The structuring role of submerged macrophytes in lakes. Springer, New York Berlin Heidelberg, pp 3–23
Pitcher TJ (1993) Behavior of teleost fishes, 2nd edn. Chapman and Hall, London
Rice WR (1989) Analyzing tables of statistical tests. Evolution 43:223–225
Robinson BW, Wilson DS (1996) Genetic variation and phenotypic plasticity in a trophically polymorphic population of pumpkinseed sunfish (Lepomis gibbosus). Evol Ecol 10:631–652
Robinson BW, Wilson DS, Shea G (1996) Trade-offs of ecological specialization: an intraspecific comparison of pumpkinseed sunfish phenotypes. Ecology 77:170–178
Sage RD, Selander RK (1975) Trophic radiation through polymorphism in cichlid fishes. Proc Natl Acad Sci USA 72:4669–4673
Savino JF, Stein RA (1982) Predator-prey interaction between largemouth bass and bluegills as influenced by simulated, submersed vegetation. Trans Am Fish Soc 111:255–266
Savino JF, Stein RA (1989) Behavioral interactions between fish predators and their prey: effects of plant density. Anim Behav 37:311–321
Scheffer M, Hosper SH, Meijer M, Moss B (1993) Alternative equilibria in shallow lakes. Trends Ecol Evol 8:275–279
Skúlason S, Smith TB (1995) Resource polymorphisms in vertebrates. Trends Ecol Evol 10:366–370
Smith TB, Skúlason S (1996) Evolutionary significance of resource polymorphisms in fishes, amphibians, and birds. Annu Rev Ecol Syst 27:111–133
Thompson JD (1991) Phenotypic plasticity as a component of evolutionary change. Trends Ecol Evol 6:246–249
Van Valen L (1965) Morphological variation and width of ecological niche. Am Nat 99:337-390
Wahl DH, Stein RA (1988) Selective predation by three esocids: the role of prey behavior and morphology. Trans Am Fish Soc 117:142–151
Walker JA (1997) Ecological morphology of lacustrine threespine stickleback Gasterosteus aculeatus L. (Gasterosteidae) body shape. Biol J Linn Soc 61:3–50
Webb PW (1983) Speed, acceleration and maneuverability of two teleost fishes. J Exp Biol 102:155–122
Webb PW (1984) Body form, locomotion and foraging in aquatic vertebrates. Am Zool 24:107–120
Webb PW (1986) Effect of body form and response threshold on the vulnerability of four species of teleost prey attacked by largemouth bass (Micropterus salmoides). Can J Fish Aquat Sci 43:763–771
Weihs D (1989) Design features and mechanics of axial locomotion in fish. Am Zool 29:151-160
Weihs D, Webb PW (1984) Optimal avoidance and evasion tactics in predator-prey interactions. J Theor Biol 106:189–206
Werner EE, Hall JD (1988) The foraging rate-predation risk trade-off and ontogenetic habitat shifts in the bluegill sunfish Lepomis macrochirus. Ecology 69:1352–1366
Werner EE, Mittelbach GG, Hall DJ (1981) The role of foraging profitability and experience in habitat use by bluegill sunfish. Ecology 62:116–125
West-Eberhard MJ (1986) Alternative adaptations, speciation, and phylogeny (a review). Proc Natl Acad Sci USA 83:1388–1389
Acknowledgements
This work was sponsored by a grant from the Illinois Environmental Research Council to the authors. L. Einfalt, T. Smith, and R. Fischer provided advice and technical assistance on study design. We thank C. Ostrodka, M. Bouchard, and M. Catalano for assistance in the field and laboratory. We thank T. Ehlinger for his insights and suggestions during a visit to our laboratory. Experiments were conducted in accordance with animal use and care guidelines of the University of Illinois. D. Aday, M. Bell, B. Robinson, C. Osenberg, M. Brown, an anonymous reviewer and the Aquatic Ecology Discussion Group at the Kaskaskia Biological Station, Illinois Natural History Survey, provided comments and suggestions that greatly improved the manuscript.
Author information
Authors and Affiliations
Corresponding author
Additional information
The South Dakota Cooperative Fish and Wildlife Research Unit is jointly supported by the U.S. Geological Survey, South Dakota State University, South Dakota Department of Game, Fish and Parks, and the Wildlife Management Institute
Rights and permissions
About this article
Cite this article
Chipps, S.R., Dunbar, J.A. & Wahl, D.H. Phenotypic variation and vulnerability to predation in juvenile bluegill sunfish (Lepomis macrochirus). Oecologia 138, 32–38 (2004). https://doi.org/10.1007/s00442-003-1396-z
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00442-003-1396-z