Abstract
AbstractAimForecasting the influence of climate change on coral biodiversity and reef functioning is important for informing policy decisions. Dominance shifts, tropicalization and local extinctions are common responses of climate change, but uncertainty surrounds the reliability of predicted coral community transformations. Here, we use species distribution models (SDMs) to assess changes in suitable coral habitat and associated patterns in biodiversity across Western Australia (WA) under present‐day and future climate scenarios (RCP 2.6 and RCP 8.5).LocationCoral reef systems and communities in WA.MethodsWe developed SDMs with model prediction uncertainty analyses, using specimen‐based occurrence records of 188 hermatypic scleractinian coral species and seven variables to estimate present‐day and future changes to coral species distribution and biodiversity patterns in WA under climate change conditions.ResultsWe found that suitable habitat is predicted to increase across all regions in WA under , and scenarios with all tropical and subtropical regions remaining coral biodiversity strongholds. Under the extreme scenario, however, a clear tropicalization trend could be observed with coral species expanding their range to mid‐high latitude regions, while a substantial drop in coral species richness was predicted at low latitude tropical coral reefs, such as the inshore Kimberley and offshore NW reefs. Despite the predicted expansion south, we identified a net decline in coral biodiversity across the WA coastline.Main conclusionsResults from the models predicted higher net coral biodiversity loss at low latitude tropical regions compared with net gains at mid‐high latitude regions under . These results are likely to be representative of latitudinal trends across the Southern Hemisphere and highlight that increases in habitat suitability at higher latitudes may not lead to equivalent biodiversity benefits. Urgent action is needed to limit climate change to prevent spatial erosion of tropical coral communities, extinction events and loss of tropical ecosystem services.
Highlights
Global climate change poses a major threat to terrestrial and marine ecosystems (Burrows et al, 2011)
8.5 scenario, a clear tropicalization trend could be observed with coral species expanding their range to mid-high latitude regions, while a substantial drop in coral species richness was predicted at low latitude tropical coral reefs, such as the inshore Kimberley and offshore NW reefs
Despite the predicted expansion south, we identified a net decline in coral biodiversity across the Western Australia (WA) coastline
Summary
Global climate change poses a major threat to terrestrial and marine ecosystems (Burrows et al, 2011). Long-term coral cover monitoring data have shown that the majority of coral reef systems in Western Australia (WA) have been impacted by reoccurring mass bleaching events and cyclone activity over the last decade, resulting in drastic reductions in coral cover and changes in coral community composition (Depczynski et al, 2013; Gilmour et al, 2019; Moore et al, 2012; Speed et al, 2013) Such declines in the health, extent or functionality of coral communities can have cascading effects for the wider reef ecosystem (Kubicek & Reuter, 2016), and an understanding of how ecological changes may manifest on coral reefs in the future is essential to maximize the ecological opportunities that exist for safeguarding diversity
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