Components
The IVI is calculated by summing three relative measures for each species in a given area: * Relative density – the number of individuals of a species divided by the total number of individuals of all species. * Relative frequency – the frequency of a species (i.e., the proportion of plots in which it occurs) relative to the sum of frequencies for all species. * Relative dominance – typically based on basal area (for trees) or canopy cover, representing the area occupied by a species compared to the total. IVI = Relative Density + Relative Frequency + Relative Dominance Each of these components is expressed as a percentage, so the IVI ranges from 0 to 300.Applications
IVI is commonly used in vegetation analysis and forest ecology to: * Identify dominant and co-dominant species. * Understand successional stages in ecological communities. * Guide conservation efforts and habitat management. It offers insight into species' ecological roles beyond simple abundance by incorporating spatial and distributional data.Example
In a forest plot, three tree species are sampled. If ''Species A'' has high abundance, occurs frequently across plots, and occupies a large basal area, its IVI would be significantly higher than that of a rare, spatially restricted, or small-canopy species. Researchers often present IVI rankings to show the ecological dominance hierarchy within a study area.Limitations
Although useful, the IVI has some limitations: * It is scale-dependent and can vary with sampling methods and plot size. * It gives equal weight to density, frequency, and dominance, which may not always reflect ecological significance. * It may not be directly comparable across different ecosystem types.See also
* Ecological dominance *References
Indexes Ecology Biodiversity {{Ecology-stub