Acta Biotheoretica

, Volume 31, Issue 3, pp 165–179 | Cite as

Competition theory, evolution, and the concept of an ecological niche

  • Thomas R. Alley
Article
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Abstract

This article examines some of the main tenets of competition theory in light of the theory of evolution and the concept of an ecological niche. The principle of competitive exclusion and the related assumption that communities exist at competitive equilibrium - fundamental parts of many competition theories and models - may be violated if non-equilibrium conditions exist in natural communities or are incorporated into competition models. Furthermore, these two basic tenets of competition theory are not compatible with the theory of evolution. Variation in ecologically significant environmental factors and non-equilibrium in population numbers should occur in most natural communities, and such changes have important effects on community relations, niche overlap, and the evolution of ecosystems. Ecologists should view competition as a process occurring within a complexdynamic system, and should be wary of theoretical positions built upon simple laboratory experiments or simplistic mathematical models.

In considering the relationship between niche overlap and competition, niche overlap should not be taken as a sufficient condition for competition; many factors may prevent or diminish competition between populations with similar resource utilization patterns. The typically opposing forces of intraspecific and interspecific competition need to be simultaneously considered, for it is the balance between them that in large part determines niche boundaries.

Keywords

Ecological Niche Natural Community Interspecific Competition Utilization Pattern Competitive Exclusion 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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Bibliography

  1. Alley, T.R. (1982). Organism-environment mutuality, epistemics, and the concept of an ecological niche. - (Submitted for publication).Google Scholar
  2. Bakker, K. (1964). Backgrounds of controversies about population theories and their terminologies. - Z. angew. Entom.53, p. 187–208.Google Scholar
  3. Beauchamp, R.S.A. and P. Ullyott (1932). Competitive relationships between certain species of fresh-water Triclads.- J. Ecol.20, p. 200–208.Google Scholar
  4. Bernstein, R.A. (1979). Evolution of niche breadth in populations of ants. - Amer. Natur.114, p. 533–544.Google Scholar
  5. Birch, L.C. (1957). The meanings of competition. - Amer. Natur.91, p. 5–18.Google Scholar
  6. Birch, L.C. (1979). The effects of species of animals which share common resources on another's distribution and abundance. -Fortschr. Zool.25, p. 197–221.PubMedGoogle Scholar
  7. Boer, P.J., den (1979). The significance of dispersal power for the survival of species, with special reference to the carabid beetles in a cultivated countryside. - Fortschr. Zool.25, p. 79–94.Google Scholar
  8. Boer, P.J., den (1980). Exclusion or coexistence and the taxonomic or ecological relationship between species. - Neth. J. Zool.30, p. 278–306.Google Scholar
  9. Brown, W.L. and E.O. Wilson (1956). Character displacement. - Syst. Zool.5, p. 49–64.Google Scholar
  10. Bruyn, G.J., de (1980). Coexistence of competitors: A simulation model. - Neth. J. Zool.30, p. 345–368.Google Scholar
  11. Christiansen, F.B. and T.M., Fenchel (1977). Theories of populations in biological communities. (Ecologicial Studies 20). - Heidelberg, Springer-Verlag.Google Scholar
  12. Cody, M.L. (1973a). Coexistence, coevolution and convergent evolution in seabird communities. - Ecology54, p. 31–44.Google Scholar
  13. Cody, M.L. (1973b). Parallel evolution and bird niches. - In: F. di Castri & H.A. Mooney, (eds.) Mediterranean type ecosystems. (Ecolological Studies 7). - Heidelberg, Springer-Verlag, p. 307–338.Google Scholar
  14. Cody, M.L. (1974). Competition and the structure of bird communities. - Princeton, Princeton University Press.Google Scholar
  15. Cole, L.C. (1960). Competitive exclusion. - Science132, p. 348–349.Google Scholar
  16. Colwell, R.K. and E.R. Fuentes (1975). Experimental studies of the niche. - Annu. Rev. Ecol. Syst.6, p. 281–310.Google Scholar
  17. Connell, J.H. (1975). Some mechanisms producing structure in natural communities: A model and evidence from field experiments.- In: M.L. Cody and J.M. Diamond, (eds.), Ecology and evolution of communities. - Cambridge (Mass.), Harvard University Press, p. 460–490.Google Scholar
  18. Cox, C.B., I.N. Healey and P.D. Moore (1976). Biogeography: An ecological and evolutionary approach (2nd ed.). - New York, John Wiley.Google Scholar
  19. Darwin, C. (1859). The origin of species. - London, Murray.Google Scholar
  20. Diamond, J.M. (1975). Assembly of species communities. - In: M.L. Cody and J.M. Diamond, (eds.), Ecology and evolution of communities. - Cambridge (Mass.), Harvard University Press, p. 342–444.Google Scholar
  21. Diamond, J.M. (1978). Niche shifts and the rediscovery of interspecific competition. - Amer. Sci.66, p. 322–331.Google Scholar
  22. Elton, C. (1950). The ecology of animals (3rd ed.). - London, Methuen & Co.Google Scholar
  23. Emlen, J.M. (1973). Ecology: An evolutionary approach. - Reading (Mass.), Addison-Wesley.Google Scholar
  24. Ghiselin, M.T. (1974). The economy of nature and the evolution of sex. - Berkeley, University of California Press.Google Scholar
  25. Giesel, J.T. (1974). The biology and adaptability of natural populations. - St. Louis, C. V. Mosby.Google Scholar
  26. Gilbert, O., T.R. Reynoldson and J. Hobart (1952). Gause's hypothesis: An examination. - J. anim. Ecol.21, p. 310–312.Google Scholar
  27. Gilpin, M.E. and T.J. Case (1976). Multiple domains of attraction in competition communities. - Nature261, p. 40–42.PubMedGoogle Scholar
  28. Grant, P.R. (1981). Speciation and the adaptive radiation of Darwin's finches. Amer. Sci.69, p. 653–663.Google Scholar
  29. Grenney, W.J., D.A. Bella and H.C. Curl (1973). A theoretical approach to interspecific competition in phytoplankton communities. - Amer. Natur., 107, p. 405–425.Google Scholar
  30. Hardin, G. (1960). The competitive exclusion principle. - Science131, p. 1292–1297.PubMedGoogle Scholar
  31. Harrison, J.O. (1964). Factors affecting the abundance of Lepidoptera in banana plantations. - Ecology45, p. 508–519.Google Scholar
  32. Huston, M. (1979). A general hypothesis of species diversity. - Amer. Natur.113, p. 81–101.Google Scholar
  33. Hutchinson, G.E. (1957). Concluding remarks. - Cold Spring Harbor Symp. Quant. Biol.22, p. 415–427.Google Scholar
  34. Hutchinson, G.E. (1961). The paradox of the plankton. - Amer. Natur. 95, p. 137–145.CrossRefGoogle Scholar
  35. Hutchinson, G.E. (1965). The ecological theatre and the evolutionary play. - New Haven, Yale University Press.Google Scholar
  36. Hutchinson, G.E. (1978). An introduction to population ecology. - New Haven, Yale University Press.Google Scholar
  37. Kaplan, J.L. and J.A. Yorke (1977). Competitive exclusion and nonequilibrium coexistence. - Amer. Natur.111, p. 1030–1036.CrossRefGoogle Scholar
  38. Klomp, H. (1961). The concepts “similar ecology” and “competition” in animal ecology. - Arch. neerl. Zool.14, p. 90–102.Google Scholar
  39. Knight-Jones, E.W. and J. Moyse (1961). Intraspecific competition in sedentary marine animals. - In: F.L. Milthorpe, (ed.), Mechanisms in biological competition. - New York, Academic Press, p. 72–95.Google Scholar
  40. Koch, A.L. (1974). Coexistence resulting from an alteration of density-dependent and density-independent growth. - J. theoret. Biol.44, p. 373–386.CrossRefGoogle Scholar
  41. Lack, D. (1971). Ecological isolation in birds. - Cambridge (Mass.), Harvard University Press.Google Scholar
  42. Leigh, E.G. (1971). Adaption and diversity. - San Francisco, Freeman, Cooper & Co.Google Scholar
  43. Levins, R. (1968). Evolution in a changing environment: Some theoretical applications. - Princeton, Princeton University Press.Google Scholar
  44. Levins, R. (1979). Coexistence in a variable environment. - Amer. Natur.114, p. 765–783.CrossRefGoogle Scholar
  45. Lewontin, R.C. (1968). Introduction. - In: R.C. Lewontin, (ed.), Population biology and evolution. -Syracuse, New York, Syracuse University Press, p. 1–4.Google Scholar
  46. Lewontin, R.C. (1978). Adaptation. - Sci. Amer.239, p. 212–230.PubMedGoogle Scholar
  47. Lewontin, R.C. (1979). Fitness, survival, and optimality. - In: D.J. Horn, G.R. Stairs and R.D. Mitchell, (eds.), Analysis of ecological systems. - Columbus, Ohio University Press, p. 3–21.Google Scholar
  48. MacArthur, R.H. (1968). The theory of the niche. - In: R.C. Lewontin, (ed.), Population biology and evolution. - Syracuse, New York, Syracuse University Press, p. 159–176.Google Scholar
  49. MacArthur R.H. (1972). Geographical ecology. - New York, Harper & Row.Google Scholar
  50. MacArthur, R.H. and R. Levins (1967). The limiting similarity, convergence, and divergence of coexisting species. -Amer. Natur.101, p. 377–385.CrossRefGoogle Scholar
  51. MacArthur, R.H. and E.O. Wilson (1967). The theory of island biogeography. - Princeton, Princeton University Press.Google Scholar
  52. MacMahon, J.A., D.J. Schimpf, D.C. Anderson, K.G. Smith and R.L. Bayn (1981). An organism-centered approach to some community and ecosystem concepts. - J. theoret. Biol88, p. 287–307.CrossRefGoogle Scholar
  53. May, R.M. (1973). Stability and complexity in model ecosystems. - Princeton, Princeton University Press.Google Scholar
  54. May, R.M.. and R.H. MacArthur (1972). Niche overlap as a function of environmental variability. - Proc. Natl. Acad. Sci. USA69, p. 1109–1113.PubMedGoogle Scholar
  55. McGown, R.L. and W.A. Williams (1968). Compelition for nutrients and light between the annual grassland speciesBromus mollis andErodium botrys. - Ecology49, p. 981–990.Google Scholar
  56. McIntosh, R.P. (1970). Community, competition, and adaptation. - Quart. Rev. Biol.45, p. 259–280.CrossRefGoogle Scholar
  57. McNaughton, S.J. (1975).r and K selection inTypha. - Amer. Natur.109, p. 251–263.CrossRefGoogle Scholar
  58. McNaughton, S.J. and L.L. Wolf (1970). Dominance and the niche in ecological systems. - Science 167, p. 131–139.PubMedGoogle Scholar
  59. Miller, R.S. (1967). Pattern and process in competition. - Adv. Ecol. Res.4, p. 1–74.Google Scholar
  60. Milne, A. (1961). Definition of competition among animals. - In: F.L. Milthorpe, (ed.), Mechanisms in biological competition. - New York, Academic Press, p. 40–61.Google Scholar
  61. Milne, A. (1962). On theory of natural control of insect population. - J. theor. Biol.3, p.19–50.Google Scholar
  62. Mooney, H.A. (1975). Plant physiological ecology - A synthetic view. - In: F.J. Vernberg, (ed.), Physiological adaptation to the environment. - New York, Intext Educational Publishers, p. 19–36.Google Scholar
  63. Neill, W.E. (1974). The community matrix and interdependence of the competition coefficients. - Amer. Natur.108, p. 399–408.CrossRefGoogle Scholar
  64. Nevo, E., G. Gorman, M. Soule, S.Y. Yang, R. Clover and V. Jovanovic (1972). Competitive exclusion between insular Lacerta species (Sauria, Lacertidae). - Oecologia 10, p. 183–190.CrossRefGoogle Scholar
  65. Nicholson, A.J. (1960). The role of population dynamics in natural selection. - In: S. Tax, (ed.), Evolution after Darwin: I. The evolution of life. - Chicago, University of Chicago Press, p. 477–521.Google Scholar
  66. Odum, E.P. (1959). Fundamentals of ecology (2nd ed.). -Philadelphia, W.B. Saunders.Google Scholar
  67. Orians, G.H. and M.F. Willson (1964). Interspecific territories of birds. - Ecology45, p. 736–745.Google Scholar
  68. Pianka, E.R. (1970). On r- and K-selection. - Amer. Natur.104, p. 592–597.CrossRefGoogle Scholar
  69. Pianka, E.R. (1974). Evolutionary ecology. - New York, Harper and Row.Google Scholar
  70. Pianka, E.R. (1976). Competition and niche theory. - In: R.M. May, (ed.), Theoretical ecology: Principles and applications. - Philadelphia, W.B. Saunders, p. 114–141.Google Scholar
  71. Rejmánek, M. and J. Jeník (1975). Niche, habit, and related ecological concepts. - Acta Biotheor.24, p. 100–107.CrossRefPubMedGoogle Scholar
  72. Richards, P.W. (1969). Speciation in the tropical rain forest and the concept of the niche. - Biol. J. Lmn. Soc.1, p. 149–153.Google Scholar
  73. Roughgarden, J. (1974). The fundamental and realized niche of a solitary population. - Amer. Natur.108, p. 232–235.CrossRefGoogle Scholar
  74. Roughgarden, J. (1976). Resource partitioning among competing species - A coevolutionary approach. - Theor. Popul. Biol.9, p. 388–424.CrossRefPubMedGoogle Scholar
  75. Sage, R.D. (1973). Ecological convergence of the lizard faunas of the chaparral communities in Chile and California. - In: F. di Castri and H.A. Mooney, (eds.), Mediterranean type ecosystems. (Ecological Studies 7). -Heidelberg, Springer-Verlag, p. 339–348.Google Scholar
  76. Schoener, T.W. (1974). Resource partitioning in ecological communities. - Science185, p. 27–39.Google Scholar
  77. Schoener, T.W. (1977). Competition and the niche. - In: C. Gans and D.W. Tinkle, (eds.), Biology of the reptilia (Vol. 7: Ecology and Behaviour A). - New York, Academic Press, p. 35–136.Google Scholar
  78. Selander, R.K. (1966). Sexual dimorphism and differantial niche utilization in birds. - Condor68, p. 113–151.Google Scholar
  79. Simpson, G.G. (1967). The meaning of evolution (Rev. ed.). - New Haven, Yale University Press.Google Scholar
  80. Stern, K. and L. Roche (1974). Genetics of forest system ecosystems (Ecological Studies 6). - New York, Springer-Verlag.Google Scholar
  81. Stewart, F.M. and B.R. Levin (1973). Partitioning of resources and the outcome of interspecific competition: A model and some general considerations. Amer. Natur.107, p. 171–198.CrossRefGoogle Scholar
  82. Svärdson, G. (1949). Competition and habitat selection in birds. - Oikos1, p. 157–174.Google Scholar
  83. Vandermeer, J.H. (1972). Niche theory. - Annu. Rev. Ecol. Syst.3, p. 107–132.CrossRefGoogle Scholar
  84. Verner, J. (1977). On the adaptive significance of territoriality. - Amer. Natur.111, p. 769–775.CrossRefGoogle Scholar
  85. Waddington, C.H. (1969). Paradigm for an evolutionary process. - In: C.H. Waddington, (ed.), Towards a theoretical biology 2: Sketches. - Edinburgh, Edinburgh University Press, p. 106–128.Google Scholar
  86. Wangersky, P.J. (1972). Evolution and the niche concept. -Trans. Conn. Acad. Arts Sci.,44, p. 369–376.Google Scholar
  87. Wangersky, P.J. (1978). Lotka-Volterra population models. - Annu. Rev. Ecol. Syst.9, p. 189–218.CrossRefGoogle Scholar
  88. Werner, E.E. and D.J. Hall (1976). Niche shifts in sunfishes: Experimental evidence and significance. - Science191, p. 404–406.PubMedGoogle Scholar
  89. White, T.C.R. (1978). The importance of a relative shortage of food in animal ecology. - Oecologia33, p. 71–86.CrossRefGoogle Scholar
  90. Whittaker, R.H. and S.A. Levin, eds. (1975), Niche: Theory and application. - Stroudsburg, Pennsylvania, Dowden, Hutchinson and Ross.Google Scholar
  91. Wiens, J.A. (1977). On competition and variable environments. - Amer. Sci.65, p. 590–597.Google Scholar
  92. Williamson, M. (1972). The analysis of biological populations. - Edward Arnold, London.Google Scholar
  93. Wilson, D.S. (1975). The adequacy of body size as a niche difference. - Amer. Natur.109, p. 769–784.CrossRefGoogle Scholar
  94. Wuenscher, J.E. (1969). Niche specification and competition modelling. - J. theoret. Biol.25, p. 436–443Google Scholar

Copyright information

© Martinus Nijhoff/Dr W. Junk Publishers 1982

Authors and Affiliations

  • Thomas R. Alley
    • 1
  1. 1.Growth Center, L-7063, School of Dental MedicineUniversity of Connecticut Health CenterFarmingtonUSA

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