Hostname: page-component-76fb5796d-22dnz Total loading time: 0 Render date: 2024-04-26T11:24:02.026Z Has data issue: false hasContentIssue false
  • English
  • Français

Neutral Hypotheses and Patterns of Species Diversity: Fact or Artifact?

Published online by Cambridge University Press:  08 February 2016

William R. Thomas  and
Theodore C. Foin
William R. Thomas
Affiliation:
Department of Genetics and Group in Ecology, University of California, Davis, California 95616
Theodore C. Foin
Affiliation:
Division of Environmental Studies, University of California, Davis, California 95616
Get access Rights & Permissions [Opens in a new window]

Abstract

Species diversity is a product of both biological interactions and physical-geographic factors. A model which eliminates biological interactions as a determinant of diversity can be used to assess the potential impact of physical and geographic factors operating alone on temporal trends in diversity (succession) and on spatial differences along latitudinal or environmental gradients. If a biologically neutral model can generate diversity patterns similar to those we observe, it can be argued that traditional hypotheses which depend on biological interactions are not the most parsimonious explanations for diversity patterns. If the neutral model approach supports a spectrum of possible hypotheses, perhaps the entire concept of species diversity can be discarded as a useful measure of community structure.

An earlier analysis of this type supported the notion that diversity patterns can be adequately explained by physical disturbance, global geography gradients, and stochastic immigration and extinction events. Our neutral model analysis does not affirm this view. We argue that the coarse level at which simple colonization models operate does not permit strong conclusions regarding the underlying mechanisms. Detailed community analyses may provide the best evidence for the nature of structuring processes. Based on the evidence available in the literature, species diversity is likely to be generated by a small number of biological processes interacting with physical-geographic gradients.

Type
Articles
Information
Paleobiology , Volume 8 , Issue 1 , Winter 1982 , pp. 45 - 55
Copyright
Copyright © The Paleontological Society 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Literature Cited

Abele, L. G. and Walters, K. 1979. Marine benthic diversity: a critique and alternative explanation. J. Biogeogr. 6:115126.Google Scholar
Aubreville, A. 1938. La foret coloniale: les forets de l'Afrique occidentale francaise. Ann. Acad. Sci. Coloniales, Paris. 9:1245.Google Scholar
Auclair, A. M. and Goff, F. G. 1971. Diversity relations of upland forests in the western Great Lakes area. Am. Nat. 105:499528.CrossRefGoogle Scholar
Birkeland, C. 1974. Interactions between a sea pen and seven of its predators. Ecol. Monogr. 44:211232.CrossRefGoogle Scholar
Case, T. J. 1982. The geography of size and sex in the lizard genus Cnemidophorus. In: Huey, R. B., Pianka, E. R. and Schoener, T. W., eds. Lizard Ecology. In Press.Google Scholar
Case, T. J. and Gilpin, M. E. 1974. Interference competition and niche theory. Proc. Natl. Acad. Sci. (U.S.A.). 71:30733077.Google Scholar
Caswell, H. 1976. Community structure: a neutral model analysis. Ecol. Monogr. 46:327354.CrossRefGoogle Scholar
Caswell, H. 1978. Predator-mediated coexistence: a nonequilibrium model. Am. Nat. 112:127154.CrossRefGoogle Scholar
Cody, M. L. 1975. Towards a theory of continental species diversities: bird distributions over Mediterranean habitat gradients. Pp. 214257. In: Cody, M. L. and Diamond, J. M., eds. Ecology and Evolution of Communities. 545 pp. Belknap Press; Cambridge, Mass.Google Scholar
Cole, L. C. 1951. Population cycles and random oscillations. J. Wildl. Mgt. 15:233252.Google Scholar
Connell, J. H. 1975. Some mechanisms producing structure in natural communities. Pp. 460490. In: Cody, M. L. and Diamond, J. M., eds. Ecology and Evolution of Communities. 545 pp. Belknap Press; Cambridge, Mass.Google Scholar
Connell, J. H. 1978. Diversity in tropical rain forests and coral reefs. Science. 199:13021310.Google Scholar
Connor, E. F. and Simberloff, D. 1979. The assembly of species communities: chance or competition? Ecology. 60:11321140.Google Scholar
Crowder, L. B. 1980. Ecological convergence of community structure: a neutral model analysis. Ecology. 61:194198.CrossRefGoogle Scholar
Dayton, P. K. 1971. Competition, disturbance, and community organization in a rocky intertidal community. Ecol. Monogr. 41:351389.CrossRefGoogle Scholar
Dayton, P. K. 1975. Experimental evaluation of ecological dominance in a rocky intertidal algal community. Ecol. Monogr. 45:137159.Google Scholar
Diamond, J. M. 1975. Assembly of species communities. Pp. 342444. In: Cody, M. L. and Diamond, J. M., eds. Ecology and Evolution of Communities. 545 pp. Belknap Press; Cambridge, Mass.Google Scholar
Diamond, J. M., Gilpin, M. E., and Mayr, E. 1976. Species-distance relations for birds of the Solomon Archipelago, and the paradox of the great speciators. Proc. Natl. Acad. Sci. (U.S.A.). 73:21602164.CrossRefGoogle ScholarPubMed
Eggeling, W. J. 1947. Observations on the ecology of the Budongo rain forest, Uganda. J. Ecol. 34:2087.Google Scholar
Glynn, P. W. 1976. Some physical and biological determinants of coral community structure in the eastern Pacific. Ecol. Monogr. 46:431456.Google Scholar
Goodman, D. 1975. Theory of diversity-stability relationships in ecology. Q. Rev. Biol. 50:237266.CrossRefGoogle Scholar
Gould, S. J., Raup, D. M., Sepkoski, J. J. Jr., Schopf, T. J. M., and Simberloff, D. S. 1977. The shape of evolution: a comparison of real and random clades. Paleobiology. 3:2340.Google Scholar
Grant, P. R. and Abbott, I. 1980. Interspecific competition, island biogeography and null hypotheses. Evolution. 34:332341.Google Scholar
Grenney, W. J., Bella, D. A., and Curl, H. C. 1973. A theoretical approach to interspecific competition in the phytoplankton community. Am. Nat. 107:405425.Google Scholar
Hassell, M. P., Lawton, J. H., and May, R. M. 1976. Patterns of dynamical behavior in single species populations. J. Anim. Ecol. 45:471486.Google Scholar
Hendrickson, J. A. 1981. Community-wide character displacement reexamined. Evolution. 35:794809.CrossRefGoogle ScholarPubMed
Hessler, R. R. and Sanders, H. L. 1967. Faunal diversity in the deep-sea. Deep-Sea Res. 14:6579.Google Scholar
Hubbell, S. P. 1979. Tree dispersion, abundance, and diversity in a tropical dry forest. Science. 203:12991309.CrossRefGoogle Scholar
Hurlbert, S. H. 1971. The nonconcept of species diversity: a critique and alternative parameters. Ecology. 52:577586.Google Scholar
Huston, M. 1979. A general hypothesis of species diversity. Am. Nat. 113:81101.CrossRefGoogle Scholar
Janzen, D. H. 1967. Why mountain passes are higher in the tropics. Am. Nat. 101:233249.CrossRefGoogle Scholar
Kimura, M. and Ohta, T. 1971. Protein polymorphism as a phase of molecular evolution. Nature. 229:467469.CrossRefGoogle ScholarPubMed
King, J. L. and Jukes, T. H. 1969. Non-Darwinian evolution: random fixation of selectively neutral mutations. Science. 164:788798.CrossRefGoogle Scholar
Knoll, A. H., Niklas, K. J., and Tiffney, B. H. 1979. Phanerozoic land–plant diversity in North America. Science. 206:14001402.Google Scholar
Langdale-Brown, L., Osmaston, H. A., and Wilson, J. G. 1964. The Vegetation of Uganda and its Bearing on Land-Use. Government of Uganda; Kampala, Uganda.Google Scholar
Levins, R. 1966. The strategy of model building in population biology. Am. Sci. 54:421431.Google Scholar
MacArthur, R. H. 1958. Population ecology of some warblers of northeastern coniferous forests. Ecology. 39:599619.CrossRefGoogle Scholar
MacArthur, R. H. 1972. Geographical Ecology. 269 pp. Harper and Row; Philadelphia, PA.Google Scholar
MacArthur, R. H. and Wilson, E. W. 1963. An equilibrium theory of insular zoogeography. Evolution. 17:373387.Google Scholar
MacArthur, R. H. and Wilson, E. O. 1967. The Theory of Island Biogeography. 203 pp. Princeton Univ. Press; Princeton, N.J.Google Scholar
Margalef, R. 1963. On certain unifying principles in ecology. Am. Nat. 97:357374.CrossRefGoogle Scholar
Margalef, R. 1968. Perspectives in Ecological Theory. 111 pp. Univ. Chicago Press; Chicago, Ill.Google Scholar
May, R. M. 1973. Stability and Complexity in Model Ecosystems. 265 pp. Princeton, Univ. Press; Princeton, N.J.Google Scholar
May, R. M. and Oster, G. F. 1976. Bifurcations and dynamic complexity in simple ecological models. Am. Nat. 110:573599.CrossRefGoogle Scholar
McNaughton, S. J. 1978. Diversity and stability of ecological communities: a comment on the role of empiricism in ecology. Am. Nat. 111:515525.Google Scholar
Menge, B. A. and Sutherland, J. P. 1976. Species diversity gradients: synthesis of the roles of predation, competition, and temporal heterogeneity. Am. Nat. 110:351369.Google Scholar
Odum, E. P. 1969. The strategy of ecosystem development. Science. 164:262270.CrossRefGoogle ScholarPubMed
Osman, R. W. 1977. The establishment and development of a marine epifaunal community. Ecol. Monogr. 47:3763.Google Scholar
Osman, R. W. and Whitlatch, R. B. 1978. Patterns of species diversity: fact or artifact? Paleobiology. 4:4154.CrossRefGoogle Scholar
Paine, R. T. 1966. Food web complexity and species diversity. Am. Nat. 100:6575.CrossRefGoogle Scholar
Paine, R. T. 1974. Intertidal community structure. Oecologia. 15:93120.Google Scholar
Paine, R. T. 1979. Disaster, catastrophe, and local persistence of the sea palm Postelsia palmaeformis. Science. 205:685687.Google Scholar
Peet, R. K. 1974. The measurement of species diversity. Ann. Rev. Ecol. Syst. 5:285307.Google Scholar
Peet, R. K. 1977. Forest vegetation of the Colorado Front Range: patterns of species diversity. Vegetation. 37:6578.CrossRefGoogle Scholar
Platt, W. J. and Weis, I. M. 1977. Resource partitioning and competition within a guild of fugitive prairie plants. Am. Nat. 110:479513.Google Scholar
Pomerantz, M. J., Thomas, W. R. and Gilpin, M. E. 1980. Asymmetries in population growth regulated by intraspecific competition: empirical studies and model tests. Oecologia. 47:311322.Google Scholar
Raup, D. M., Gould, S. J., Schopf, T. J. M., and Simberloff, D. S. 1973. Stochastic models of phylogeny and the evolution of diversity. J. Geol. 81:523542.Google Scholar
Richerson, P. J., Armstrong, R., and Goldman, C. R. 1970. Contemporaneous disequilibrium: a new hypothesis to explain the paradox of the plankton. Proc. Natl. Acad. Sci. (U.S.A.). 67:17101714.Google Scholar
Rosenzweig, M. L. 1975. On continental steady states of species diversity. Pp. 121140. In: Cody, M. L. and Diamond, J. M., eds. Ecology and Evolution of Communities. 545 pp. Belknap Press; Cambridge, Mass.Google Scholar
Sanders, H. L. 1968. Marine benthic diversity: a comparative study. Am. Nat. 102:243283.CrossRefGoogle Scholar
Sanders, H. L. 1969. Benthic marine diversity and the stability-time hypothesis. Brookhaven Symposia in Biology. 22:7181.Google ScholarPubMed
Schoener, T. W. 1973. Population growth regulated by intraspecific competition for energy or time: some simple representations. Theor. Pop. Biol. 4:5684.Google Scholar
Simberloff, D. S. 1974. Equilibrium theory of island biogeography and ecology. Annu. Rev. Ecol. Syst. 5:161182.CrossRefGoogle Scholar
Simberloff, D. S. 1976. Trophic structure determination and equilibrium in an arthropod community. Ecology. 57:395398.Google Scholar
Simberloff, D. S. 1978. Using island biogeographic distribution to determine if colonization is stochastic. Am. Nat. 112:723726.CrossRefGoogle Scholar
Sousa, W. P. 1979. Disturbance in marine intertidal boulder fields: the nonequilibrium maintenance of species diversity. Ecology. 60:12251239.CrossRefGoogle Scholar
Stone, E. C. and Vasey, R. B. 1968. Preservation of coast redwood on alluvial flats. Science. 159:157161.Google Scholar
Strong, D. R., Szyska, L. A., and Simberloff, D. S. 1979. Tests of community-wide character displacement against null hypotheses. Evolution. 33:897913.Google Scholar
Taylor, W. D. 1979. Sampling data on the bactivorous ciliates of a small pond compared to neutral models of community structure. Ecology. 60:876883.Google Scholar
Terborgh, J. 1971. Distribution on environmental gradients: theory and a preliminary interpretation of distributional patterns in the avifauna of the Cordillera Vilcabamba, Peru. Ecology. 52:2340.Google Scholar
Terborgh, J. 1973. On the notion of favorableness in plant ecology. Am. Nat. 107:481501.Google Scholar
Thomas, W. R., Pomerantz, M. J., and Gilpin, M. E. 1980. Chaos, asymmetric growth and group selection for dynamical stability. Ecology. 61:13121320.Google Scholar
Tilman, D. 1977. Resource competition between planktonic algae: an experimental and theoretical approach. Ecology. 58:338348.CrossRefGoogle Scholar
Valentine, J. W. and Moores, E. M. 1972. Global tectonics and the fossil record. J. Geol. 80:167184.Google Scholar
Vuilleumier, F. 1970. Insular biogeography in continental regions. I. The northern Andes of South America. Am. Nat. 104:373388.Google Scholar
Whittaker, R. J. 1965. Dominance and diversity in land plant communities. Science. 147:250260.Google Scholar
Whittaker, R. H. 1972. Evolution and measurement of species diversity. Taxon. 21:213251.Google Scholar