Temporal change in metacommunity biodiversity obscures rapid shifts in
relative abundance
- William Godsoe,
- Warwick Allen,
- Lauren Waller,
- Barbara Barratt,
- Sarah Flanagan,
- Zach Marion,
- Jason M. Tylianakis,
- Elena Moltchanova,
- Ian Dickie
Zach Marion
University of Canterbury School of Biological Sciences
Author ProfileAbstract
Changes in biodiversity reflect processes acting at multiple spatial
scales, including globally, among habitats and within communities. This
complexity makes it difficult to analyse the mechanisms that change
biodiversity over time. To resolve this, we propose a novel approach to
partition temporal changes in biodiversity into contributions from
selection at multiple scales. We apply this approach to study changes in
the biodiversity of invertebrate herbivores from a large-scale, plant
community experiment. Though the experiment was designed to foster
distinct insect communities due to differences in host plants, our
approach shows that selection among these treatments was a negligible
facet of diversity change. Instead, the dominant source of community
dynamics was rapid changes in the relative abundances of individual
species. These shifts produced surprisingly small changes in
biodiversity. More broadly our work highlights how total change in
biodiversity across a biogeographic region can be partitioned into
logically distinct mechanisms.14 Oct 2024Submitted to Oikos 15 Oct 2024Submission Checks Completed
15 Oct 2024Assigned to Editor
15 Oct 2024Review(s) Completed, Editorial Evaluation Pending
27 Oct 2024Reviewer(s) Assigned