Difference between revisions of "Measurements of biodiversity"

From Coastal Wiki
Jump to: navigation, search
Line 3: Line 3:
 
'''1. Species richness indices''': Species richness is a measure for the total number of the species in a community. However, complete inventories of all species present at a certain location, is an almost unattainable goal in practical applications.
 
'''1. Species richness indices''': Species richness is a measure for the total number of the species in a community. However, complete inventories of all species present at a certain location, is an almost unattainable goal in practical applications.
  
[[Image:Richness.jpg|center|frame]]
+
[[Image:Richness.jpg|center|A visualization of the species richness: with respectively 5 and 10 species.|frame]]
  
 
'''2. Evenness indices''': Evenness expresses how evenly the individuals in a community are distributed  among the different species.
 
'''2. Evenness indices''': Evenness expresses how evenly the individuals in a community are distributed  among the different species.
  
[[Image:Evenness.jpg|center|frame]]
+
[[Image:Evenness.jpg|center|A visualization of the evenness of 5 species|frame]]
  
 
'''3. Taxonomic indices:''' These indices take into account the taxonomic relation between different organisms in a community.  Taxonomic diversity, for example, reflects the average taxonomic distance between any two organisms, chosen at random from a sample. The distance can be seen as the length of the path connecting these two organisms  along the branches of a phylogenetic tree.
 
'''3. Taxonomic indices:''' These indices take into account the taxonomic relation between different organisms in a community.  Taxonomic diversity, for example, reflects the average taxonomic distance between any two organisms, chosen at random from a sample. The distance can be seen as the length of the path connecting these two organisms  along the branches of a phylogenetic tree.

Revision as of 14:17, 22 August 2007

A variety of objective measures have been created in order to empirically measure biodiversity. The basic idea of a diversity index is to obtain a quantitative estimate of biological variability that can be used to compare biological entities, composed of direct components, in space or in time. It is important to distinguish ‘richness’ from ‘diversity’. Diversity usually implies a measure of both species number and ‘equitability’ (or ‘evenness’). Three types of indices can be distinguished:

1. Species richness indices: Species richness is a measure for the total number of the species in a community. However, complete inventories of all species present at a certain location, is an almost unattainable goal in practical applications.

A visualization of the species richness: with respectively 5 and 10 species.

2. Evenness indices: Evenness expresses how evenly the individuals in a community are distributed among the different species.

A visualization of the evenness of 5 species

3. Taxonomic indices: These indices take into account the taxonomic relation between different organisms in a community. Taxonomic diversity, for example, reflects the average taxonomic distance between any two organisms, chosen at random from a sample. The distance can be seen as the length of the path connecting these two organisms along the branches of a phylogenetic tree.

These indices can be used on different spatial scales:

  • Alpha diversity refers to diversity within a particular area, community or ecosystem, and is usually measured by counting the number of taxa within the ecosystem (usually species level)
  • Beta diversity is species diversity between ecosystems; this involves comparing the number of taxa that are unique to each of the ecosystems. For example, the diversity of mangroves versus the diversity of seagrass beds.
  • Gamma diversity is a measure of the overall diversity for different ecosystems within a region. For example, the diversity of the coastal region of Gazi Bay in Kenia.