Abstract
AimWe construct a framework for mapping pattern and drivers of insect diversity at the continental scale and use it to test whether and which environmental gradients drive insect beta diversity.LocationGlobal; North and Central America; Western Europe.Time period21st century.Major taxa studiedInsects.MethodsAn informatics system was developed to integrate terrestrial data on insects with environmental parameters. We mined repositories of data for distribution, climatic data were retrieved (WorldClim), and vegetation parameters inferred from remote sensing analysis (MODIS Vegetation Continuous Fields). Beta diversity between sites was calculated and then modeled with two methods, Mantel test with multiple regression and generalized dissimilarity modeling.ResultsGeographic distance was the main driver of insect beta diversity. Independent of geographic distance, bioclimate variables explained more variance in dissimilarity than vegetation variables, although the particular variables found to be significant were more consistent in the latter, particularly, tree cover. Tree cover gradients drove compositional dissimilarity at denser coverages, in both continental case studies. For climate, gradients in temperature parameters were significant in driving beta diversity more so than gradients in precipitation parameters.Main conclusionsAlthough environmental gradients drive insect beta diversity independently of geography, the relative contribution of different climatic and vegetational parameters is not expected to be consistent in different study systems. With further incorporation of additional temporal information and variables, this approach will enable the development of a predictive framework for conserving insect biodiversity at the global scale.
Highlights
The primary foundation on which conservation planning is built is the distribution of beta diversity (Buckley & Jetz, 2008; Margules & Pressey, 2000)
Beta diversity is the difference in community composition at two or more sites, capturing the spatial dimension of biodiversity turnover, and is effective in identifying factors respon‐ sible for community assembly (McGill, Enquist, Weiher, & Westoby, 2006)
There are thought to be three mechanisms which result in differences in composition between sites and account for much of beta diversity; the match between environmental conditions and organismal requirements, the dispersal abilities of the organism and the physical characteristics of the environment (Nekola & White, 1999), and interactions between co‐occurring species (Cornell & Lawton, 1992)
Summary
The primary foundation on which conservation planning is built is the distribution of beta diversity (Buckley & Jetz, 2008; Margules & Pressey, 2000). Earth observation and climate data are prime candidates for global environmental drivers of insect distribution (Bush et al, 2017); our focus is bioclimate (Fick & Hijmans, 2017) and vegetation indices derived from remote sensing (Townshend et al, 2011). This foundational system on contemporary insect beta di‐ versity paves the way for a temporally predictive framework
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