Measurement of biodiversity
Conservation biologists have designed a variety of objective means to empirically measure biodiversity. Each measure of biodiversity relates to a particular use of the data. For practical conservationists, measurements should include a quantification of values that are commonly shared among locally affected organisms, including humans[clarification needed]. For others, a more economically defensible definition should allow the ensuring of continued possibilities for both adaptation and future use by humans, assuring environmental sustainability.
As a consequence, biologists argue that this measure is likely to be associated with the variety of genes. Since it cannot always be said which genes are more likely to prove beneficial, the best choice[citation needed] for conservation is to assure the persistence of as many genes as possible. For ecologists, this latter approach is sometimes considered too restrictive, as it prohibits ecological succession.
Taxonomic Diversity[edit]
Biodiversity is usually plotted as taxonomic richness of a geographic area, with some reference to a temporal scale. Whittaker[1] described three common metrics used to measure species-level biodiversity, encompassing attention to species richness or species evenness:
- Species richness - the simplest of the indices available.
- Simpson index
- Shannon-Wiener index
More recently, two new indices have been invented. The Mean Species Abundance Index (MSA) calculates the trend in population size of a cross section of the species. It does this in line with the CBD 2010 indicator for species abundance.[2] The Biodiversity Intactness Index [2] (BII) measures biodiversity change using abundance data on plants, fungi and animals worldwide. The BII shows how local terrestrial biodiversity responds to human pressures such as land use change and intensification.
Other Measures of Diversity[edit]
Alternatively, other types of diversity may be plotted against a temporal timescale:
These different types of diversity may not be independent. There is, for example, a close link between vertebrate taxonomic and ecological diversity.[3]
Other authors tried to organize the measurements of biodiversity in the following way:[4]
- traditional diversity measures
- species density, take into account the number of species in an area
- species richness, take into account the number of species per individuals (usually [species]/[individuals x area])
- diversity indices, take into account the number of species (the richness) and their relative contribution (the evenness); e.g.:
- phylogenetic diversity measures, include information on phylogenetic relationships among species
- phylogenetic diversity (PD) index; Faith (1992)
- topology based measures
- taxonomic distinctiveness; Vane-Wright et al. (1991)
- taxonomic diversity; Warwick & Clarke (1995)
- taxonomic distinctness; Clarke & Warwick (1998)
- functional diversity measures, include information on functional traits among species
- categoric measures
- functional group richness (FGR); e.g., Tilman et al. (1997)
- continuous measures
- with only one functional trait; e.g., Mason et al. (2003)
- multivariate measures, with many functional traits
- functional attribute diversity (FAD); Walker et al. (1999)
- convex hull volume; Cornwell et al. (2006)
- functional diversity (FD); Petchey & Gaston (2002)
- categoric measures
Scale[edit]
Diversity may be measured at different scales. These are three indices used by ecologists:
- Alpha diversity refers to diversity within a particular area, community or ecosystem, and is measured by counting the number of taxa within the ecosystem (usually species)[5]
- Beta diversity is species diversity between ecosystems; this involves comparing the number of taxa that are unique to each of the ecosystems.
- Gamma diversity is a measurement of the overall diversity for different ecosystems within a region.
See also[edit]
- Convention on Biological Diversity
- Diversity index
- Global biodiversity
- List of biodiversity databases
- National Biodiversity Network
- Nutritional biodiversity
References[edit]
- ^ Whittaker, R.H., Evolution and measurement of species diversity, Taxon, 21, 213–251 (1972)
- ^ "MSA Index (page 4)" (PDF). Archived from the original (PDF) on 2008-05-10. Retrieved 2008-05-10.
- ^ Sahney, S., Benton, M.J. and Ferry, P.A. (2010). "Links between global taxonomic diversity, ecological diversity and the expansion of vertebrates on land". Biology Letters. 6 (4): 544–547. doi:10.1098/rsbl.2009.1024. PMC 2936204. PMID 20106856.
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: CS1 maint: multiple names: authors list (link) - ^ Cianciaruso, M.V., Silva, I.A. & Batalha, M.A. Diversidades filogenética e funcional: novas abordagens para a Ecologia de comunidades. Biota Neotrop. 9(3): [1].
- ^ Sahney, S. & Benton, M.J. (2008). "Recovery from the most profound mass extinction of all time". Proceedings of the Royal Society B: Biological Sciences. 275 (1636): 759–65. doi:10.1098/rspb.2007.1370. PMC 2596898. PMID 18198148.
External links[edit]
- Media related to Measurement of biodiversity at Wikimedia Commons