Oecologia

, Volume 163, Issue 2, pp 279–282 | Cite as

A consistent terminology for quantifying species diversity?

Views and Comments

Abstract

There is a genuine need for consensus on a clear terminology in the study of species diversity given that the nature of the components of diversity is the subject of an ongoing debate and may be the key to understanding changes in ecosystem processes. A recent and thought-provoking paper (Jurasinski et al. Oecologia 159:15–26, 2009) draws attention to the lack of precision with which the terms alpha, beta, and gamma diversity are used and proposes three new terms in their place. While this valuable effort may improve our understanding of the different facets of species diversity, it still leaves us far from achieving a consistent terminology. As such, the conceptual contribution of these authors is limited and does little to elucidate the facets of species diversity. It is, however, a good starting point for an in-depth review of the available concepts and methods.

Keywords

Alpha diversity Beta diversity Gamma diversity Species richness Turnover 

References

  1. Anderson MJ, Ellingsen KE, McArdle BH (2006) Multivariate dispersion as a measure of beta diversity. Ecol Lett 9:683–693CrossRefPubMedGoogle Scholar
  2. Baselga A (2010) Partitioning the turnover and nestedness components of beta diversity. Glob Ecol Biogeogr 19:134–143CrossRefGoogle Scholar
  3. Blackburn TM, Gaston KJ (1996) The distribution of bird species in the New World: patterns in species turnover. Oikos 77:46–152Google Scholar
  4. Buckley LB, Jetz W (2008) Linking global turnover of species and environments. Proc Natl Acad Sci USA 105:17836–17841CrossRefPubMedGoogle Scholar
  5. Cornell HV, Lawton JH (1992) Species interactions, local and regional processes, and limits to the richness of ecological communities: a theoretical perspective. J Anim Ecol 61:1–12CrossRefGoogle Scholar
  6. Gaston KJ, Davies RG, Orme CDL, Olson VA, Thomas GH, Ding T-S, Rasmussen PC, Lennon JJ, Bennett PM, Owens IPF, Blackburn TM (2007) Spatial turnover in the global avifauna. Proc R Soc B Lond B Biol 274:1567–1574CrossRefGoogle Scholar
  7. Harrison S, Ross SJ, Lawton JH (1992) Beta diversity on geographic gradients in Britain. J Anim Ecol 61:151–158CrossRefGoogle Scholar
  8. Jost L (2007) Partitioning diversity into independent alpha and beta components. Ecology 88:2427–2439CrossRefPubMedGoogle Scholar
  9. Jost L, DeVries P, Walla T, Greeney H, Chao A, Ricotta C (2010) Partitioning diversity for conservation analyses. Divers Distrib 16:65–76CrossRefGoogle Scholar
  10. Jurasinski G, Retzer V, Beierkuhnlein C (2009) Inventory, differentiation, and proportional diversity: a consistent terminology for quantifying species diversity. Oecologia 159:15–26CrossRefPubMedGoogle Scholar
  11. Koleff P, Gaston KJ, Lennon JJ (2003) Measuring beta diversity for presence–absence data. J Anim Ecol 72:367–382CrossRefGoogle Scholar
  12. Kullman L (2009) High species turnover and decreasing plant species richness on mountain summits in Sweden: reindeer grazing overrides climate change? Comment. Arct Antarct Alp Res 41:151CrossRefGoogle Scholar
  13. Laliberté E, Paquette A, Legendre P, Bouchard A (2009) Assessing the scale-specific importance of niches and other spatial processes on beta diversity: a case study from a temperate forest. Oecologia 159:377–388CrossRefPubMedGoogle Scholar
  14. Legendre P, Legendre L (1998) Numerical ecology (2nd edn). Developments in environmental modelling, vol 20. Elsevier, AmsterdamGoogle Scholar
  15. Legendre P, Borcard D, Peres-Neto PR (2005) Analyzing beta diversity: partitioning the spatial variation of community composition data. Ecol Monogr 75:435–450CrossRefGoogle Scholar
  16. Magurran AE (2004) Measuring biological diversity. Blackwell, MaldenGoogle Scholar
  17. Pélissier R, Couteron P (2007) An operational, additive framework for species diversity partitioning and beta-diversity analysis. J Ecol 95:294–300CrossRefGoogle Scholar
  18. Pélissier R, Couteron P, Dray S (2008) Analyzing or explaining beta diversity? Comment. Ecology 89:3227–3232CrossRefGoogle Scholar
  19. Pharo EJ, Beattie AJ, Binns D (1999) Vascular plant diversity as a surrogate for bryophyte and lichen diversity. Conserv Biol 13:282–292CrossRefGoogle Scholar
  20. Rosenzweig ML (1995) Species diversity in space and time. Cambridge University Press, CambridgeCrossRefGoogle Scholar
  21. Tuomisto H, Ruokolainen K (2006) Analyzing or explaining beta diversity? Understanding the targets of different methods of analysis. Ecology 87:2697–2708CrossRefPubMedGoogle Scholar
  22. Vellend M (2001) Do commonly used indices of beta-diversity measure species turnover? J Veg Sci 12:545–552CrossRefGoogle Scholar
  23. Whittaker RH (1960) Vegetation of the Siskiyou Mountains, Oregon and California. Ecol Monogr 30:279–338CrossRefGoogle Scholar
  24. Whittaker RH (1977) Evolution of species diversity in land communities. In: Hecht MK, Steere WC, Wallace B (eds) Evolutionary biology, vol 10. Plenum Press, New York, pp 1–67Google Scholar
  25. Whittaker RJ, Willis KJ, Field R (2001) Scale and species richness: towards a general, hierarchical theory of species diversity. J Biogeogr 28:453–470CrossRefGoogle Scholar
  26. Wilson MV, Shmida A (1984) Measuring beta diversity with presence–absence data. J Ecol 72:1055–1064CrossRefGoogle Scholar

Copyright information

© Springer-Verlag 2010

Authors and Affiliations

  1. 1.Centro de Investigaciones Biológicas (CIB)Universidad Autónoma del Estado de HidalgoPachucaMexico
  2. 2.CONABIOMexico CityMexico

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