AI Article Synopsis
- Biodiversity loss due to climate change is a major issue of the 21st century, necessitating reliable models to predict species' range and extinction risks.
- Recent advancements in models for species distribution have not been thoroughly evaluated, highlighting the need for a comparative analysis of their effectiveness under current climate conditions and projected changes.
- Dynamic range models (DRMs) showed the best performance overall, but simpler models were often more reliable under complex demographic scenarios; improving model accuracy hinges on understanding important ecological processes and integrating multiple modeling approaches.
Article Abstract
Increasing biodiversity loss due to climate change is one of the most vital challenges of the 21st century. To anticipate and mitigate biodiversity loss, models are needed that reliably project species' range dynamics and extinction risks. Recently, several new approaches to model range dynamics have been developed to supplement correlative species distribution models (SDMs), but applications clearly lag behind model development. Indeed, no comparative analysis has been performed to evaluate their performance. Here, we build on process-based, simulated data for benchmarking five range (dynamic) models of varying complexity including classical SDMs, SDMs coupled with simple dispersal or more complex population dynamic models (SDM hybrids), and a hierarchical Bayesian process-based dynamic range model (DRM). We specifically test the effects of demographic and community processes on model predictive performance. Under current climate, DRMs performed best, although only marginally. Under climate change, predictive performance varied considerably, with no clear winners. Yet, all range dynamic models improved predictions under climate change substantially compared to purely correlative SDMs, and the population dynamic models also predicted reasonable extinction risks for most scenarios. When benchmarking data were simulated with more complex demographic and community processes, simple SDM hybrids including only dispersal often proved most reliable. Finally, we found that structural decisions during model building can have great impact on model accuracy, but prior system knowledge on important processes can reduce these uncertainties considerably. Our results reassure the clear merit in using dynamic approaches for modelling species' response to climate change but also emphasize several needs for further model and data improvement. We propose and discuss perspectives for improving range projections through combination of multiple models and for making these approaches operational for large numbers of species.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4972146 | PMC |
| http://dx.doi.org/10.1111/gcb.13251 | DOI Listing |
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