How Robust Are Popular Beta Diversity Indices To Sampling Error

Keywords

Bray-Curtis; Cody; Jaccard; metacommunity; sampling error; Simpson; Sorensen; taxonomic error; total beta diversity (BD ) TOTAL

Abstract

Beta diversity (β) is used in biogeography, ecology, and conservation to assess the heterogeneity of local communities. Ideally, researchers could include sensitivity to error in the list of reasons to choose a β index. However, only numerical undersampling has been rigorously studied. This study compared multiple β indices to determine which are most robust to geographic undersampling, numerical undersampling, and taxonomic error using simulated landscapes. For these landscapes, eight β indices were chosen to represent families of β and used to measure real and errant data. Six indices used both presence-absence and abundance data, while two more used only abundance data. Six of the abundance-based indices had adjusted versions for individual undersampling, and these versions were also evaluated (total = 14 indices). Presence-absence- and abundance-based indices were comparable in sensitivity to total method error. Numerical undersampling and taxonomic error generally caused more error in β than randomly distributed geographic undersampling. Among presence-absence-based indices, Jaccard's dissimilarity was the most robust to error overall, while β-3 was the most robust among narrow-sense measures. Among abundance-based indices, Bray-Curtis and BDTOTAL were the most robust to error. Some commonly used β indices (e.g., Sorensen, Simpson) are relatively unreliable given errors of taxonomy or numerical undersampling. Future studies of β should focus on using more robust indices (Jaccard, Bray-Curtis, BDTOTAL), and past studies based on error-sensitive indices should be considered with caution. Studies of β should emphasize adequate numerical sampling and taxonomic accuracy to minimize errors in β.

Publication Date

2-1-2018

Publication Title

Ecosphere

Volume

9

Issue

2

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1002/ecs2.2100

Socpus ID

85043678692 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/85043678692

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