news and update ISSN 1948‐6596 commentary The importance of taxonomic effort in island biogeography In the 50 years since MacArthur and Wilson’s (1963) paper set the scene for their famous book, The Theory of Island Biogeography, there has been a wealth of publications investigating species richness on islands in terms of speciation and ex‐ tinction rates, island sizes, and isolation (immigration). This body of literature attests to the pivotal insights provided by MacArthur and Wilson, but also highlights the complexity of the field and difficulties in our understanding of biodi‐ versity on islands. This has again become apparent from Gray and Cavers’ (2014) new investigation of the effects of taxonomic effort on explanations of species diversity on islands. The importance of accurate taxonomic knowledge in biogeographic studies is implicit, and Gray and Cavers (2014) ask key questions, such as whether we even have adequate taxo‐ nomic knowledge for biogeographic inferences on well‐studied islands. They focus on the biodiver‐ sity metric “single‐island endemic species rich‐ ness” (SIE S), representing the total number of single‐island endemic species within a taxon in a given area (Emerson and Kolm 2005). Values of SIE S represent a subset of total species richness, and therefore will be more sensitive to changes in taxonomic effort than total species richness. Changes in taxonomic effort can reflect changes in sampling effort—field sampling—and also descrip‐ tion effort—assessing specimens and describing new taxa (and also synonymising old ones). Assessment of taxonomic effort for a flora or fauna is typically performed via inspection of historical species accumulation curves (Hortal et al. 2008), which will be influenced by both sam‐ pling and description effort, and can also be con‐ structed for SIE S. Asymptotes for such curves in‐ dicate that taxonomic effort has been adequate, and should not influence downstream bio‐ geographic inferences (Gotelli and Colwell 2001). Gray and Cavers (2014) examine whether SIE S exhibits asymptotes for plants, animals (predominantly land snails), and fungi by assessing species checklists for eight well‐known island groups across five time periods, the most inclusive spanning 1750–2012, and describe other curve types that may result under different and dynamic backgrounds of taxonomic effort—for example, a rapid upward trajectory of a curve may result from changes in biases or technologies with re‐ spect to sampling (e.g., trapping approaches) or description (e.g., DNA identification of morpho‐ logically ‘cryptic’ species) effort. Gray and Cavers (2014) also employ a Bayesian approach to allow models to develop through time (posteriors from an earlier time period informing priors for a sub‐ sequent period), such that any improvement of the model relationship through time (e.g., narrow‐ ing confidence intervals) will indicate a contribu‐ tion of changing taxonomic effort. This approach circumvents limitations of previous methods to assess taxonomic effort that require detailed knowledge of past activities (e.g., Schulman et al. 2007). Relationships of SIE S with island area and age were then assessed, mirroring the earlier study of Whittaker et al. (2008), along with assess‐ ment of island isolation to other islands and conti‐ nents, and niche diversity (approximated by to‐ pographic diversity and evenness). The sobering finding from Gray and Cavers (2014) is that asymptotes in SIE S were rare, ob‐ served for only two of the 16 datasets analysed, despite the inclusion of a range of ‘well studied’ islands (e.g., Hawai’i, Canary Islands), although five other datasets were approaching asymptotes. However, even asymptotic patterns should be treated with caution, as they may also reflect de‐ creasing taxonomic effort. While geological island age has been commonly pursued to explain biodi‐ versity on islands, given the paucity of asymp‐ totes, might times of much shorter durations— those which encompass taxonomic effort—be driving some observed patterns? For the combined islands dataset, regres‐ sion coefficients with respect to island area and age appeared to be stabilising through time, al‐ though patterns from individual datasets were more variable, such that there was no systematic frontiers of biogeography 6.1, 2014 — © 2014 the authors; journal compilation © 2014 The International Biogeography Society