1/9/2024 0 Comments Rarify vs rarefyRarefaction curves are necessary for estimating species richness. ĭespite being defined at discrete values of n, these curves are most frequently displayed as continuous functions. M j = number of groups consisting in j elementsįrom these definitions, it therefore follows that: N i = the number of items in group i (i = 1. Rarefaction techniques are used to quantify species diversity of newly studied ecosystems, including human microbiomes, as well as in applied studies in community ecology, such as understanding pollution impacts on communities and other management applications. Most commonly, the number of species is sampled to predict the number of genera in a particular community similar techniques had been used to determine this level of diversity in studies several years before Sanders quantified his individual to species determination of rarefaction. Today, rarefaction has grown as a technique not just for measuring species diversity, but of understanding diversity at higher taxonomic levels as well. The issue of overestimation was also dealt with by Daniel Simberloff, while other improvements in rarefaction as a statistical technique were made by Ken Heck in 1975. In a paper criticizing many methods of assaying biodiversity, Stuart Hurlbert refined the problem that he saw with Sanders' rarefaction method, that it overestimated the number of species based on sample size, and attempted to refine his methods. įollowing initial development by Sanders, the technique of rarefaction has undergone a number of revisions. The technique of rarefaction was developed in 1968 by Howard Sanders in a biodiversity assay of marine benthic ecosystems, as he sought a model for diversity that would allow him to compare species richness data among sets with different sample sizes he developed rarefaction curves as a method to compare the shape of a curve rather than absolute numbers of species. Ī set of rarefaction curves from a NASA biology study History "Thus rarefaction generates the expected number of species in a small collection of n individuals (or n samples) drawn at random from the large pool of N samples.". Rarefaction curves are created by randomly re-sampling the pool of N samples multiple times and then plotting the average number of species found in each sample (1,2. The issue that occurs when sampling various species in a community is that the larger the number of individuals sampled, the more species that will be found. Rarefaction curves generally grow rapidly at first, as the most common species are found, but the curves plateau as only the rarest species remain to be sampled. This curve is a plot of the number of species as a function of the number of samples. Rarefaction allows the calculation of species richness for a given number of individual samples, based on the construction of so-called rarefaction curves. In ecology, rarefaction is a technique to assess species richness from the results of sampling.
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