Abstract
AbstractPrevious studies have documented very little net change in average quadrat-level species richness and phylogenetic diversity. However, although the average remains centered around 0, there is much variation around this mean and many outliers. The relative contribution of anthropogenic drivers (such as climate change or land use change) to these outliers remains unclear. Traits may dictate species responses to these changes, and if relatedness is correlated with trait similarity, then the impacts of anthropogenic change may be clustered on the phylogeny. We build the first regional phylogeny of all Canadian butterfly species in order to examine change in community phylogenetic structure in response to two main documented drivers of change -- climate change and land use change -- across 265 species, 75 years and 96 well-sampled quadrats. We find no evidence that, on average, communities are becoming more or less clustered than one would expect. However, there is much variation depending on the magnitude and type of anthropogenic change occurring within a quadrat. We find that climate change as well as agricultural development is reducing species richness within a quadrat, and these species that are lost tend to be scattered across the phylogeny. However, agricultural abandonment is having the opposite effect: we find increasing species richness in the years immediately following it and decreasing distance between species in quadrats with the highest rates of abandonment, such that the species that colonize these plots tend to be close relatives of those already present and thus contribute little novel phylogenetic diversity to an assemblage. Consistent with previous work, small changes in local species richness may conceal simultaneous change in other facets of biodiversity.
Publisher
Cold Spring Harbor Laboratory