Publication Details

Category Text Publication
Reference Category Journals
DOI 10.1111/ele.13151
Title (Primary) Embracing scale‐dependence to achieve a deeper understanding of biodiversity and its change across communities
Author Chase, J.M.; McGill, B.J.; McGlinn, D.J.; May, F.; Blowes, S.A.; Xiao, X.; Knight, T.M.; Purschke, O.; Gotelli, N.J.; Adler, F.
Source Titel Ecology Letters
Year 2018
Department BZF; iDiv
Volume 21
Issue 11
Page From 1737
Page To 1751
Language englisch
Supplements https://onlinelibrary.wiley.com/action/downloadSupplement?doi=10.1111%2Fele.13151&file=ele13151-sup-0001-Supinfo.docx
Keywords Evenness; Hill number; rarefaction; scale‐dependence; Simpson's index; species richness; species–area relationship
Abstract Because biodiversity is multidimensional and scale‐dependent, it is challenging to estimate its change. However, it is unclear (1) how much scale‐dependence matters for empirical studies, and (2) if it does matter, how exactly we should quantify biodiversity change. To address the first question, we analysed studies with comparisons among multiple assemblages, and found that rarefaction curves frequently crossed, implying reversals in the ranking of species richness across spatial scales. Moreover, the most frequently measured aspect of diversity – species richness – was poorly correlated with other measures of diversity. Second, we collated studies that included spatial scale in their estimates of biodiversity change in response to ecological drivers and found frequent and strong scale‐dependence, including nearly 10% of studies which showed that biodiversity changes switched directions across scales. Having established the complexity of empirical biodiversity comparisons, we describe a synthesis of methods based on rarefaction curves that allow more explicit analyses of spatial and sampling effects on biodiversity comparisons. We use a case study of nutrient additions in experimental ponds to illustrate how this multi‐dimensional and multi‐scale perspective informs the responses of biodiversity to ecological drivers.
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=21062
Chase, J.M., McGill, B.J., McGlinn, D.J., May, F., Blowes, S.A., Xiao, X., Knight, T.M., Purschke, O., Gotelli, N.J., Adler, F. (2018):
Embracing scale‐dependence to achieve a deeper understanding of biodiversity and its change across communities
Ecol. Lett. 21 (11), 1737 - 1751 10.1111/ele.13151