Journal
TOXINS
Volume 15, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/toxins15010009
Keywords
biogeography; climate change; species distribution models; harmful algal blooms; amnesic shellfish poisoning
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This study aimed to predict the potential biogeographical changes in habitat suitability and occurrence distribution of three key amnesic shellfish toxin (AST)-producing diatom species under different climate change scenarios. The results showed that there would be considerable contraction and potential extirpation of these species at lower latitudes, while poleward expansions into higher latitudes are projected, mainly in the northern hemisphere. This study contributes to the understanding of the impacts of climate change on the biogeography of toxin-producing microalgae species and provides guidance for the environmental management of coastal habitats and ecosystems.
Harmful algal blooms (HABs) are considered one of the main risks for marine ecosystems and human health worldwide. Climate change is projected to induce significant changes in species geographic distribution, and, in this sense, it is paramount to accurately predict how it will affect toxin-producing microalgae. In this context, the present study was intended to project the potential biogeographical changes in habitat suitability and occurrence distribution of three key amnesic shellfish toxin (AST)-producing diatom species (i.e., Pseudo-nitzschia australis, P. seriata, and P. fraudulenta) under four different climate change scenarios (i.e., RCP-2.6, 4.5, 6.0, and 8.5) up to 2050 and 2100. For this purpose, we applied species distribution models (SDMs) using four abiotic predictors (i.e., sea surface temperature, salinity, current velocity, and bathymetry) in a MaxEnt framework. Overall, considerable contraction and potential extirpation were projected for all species at lower latitudes together with projected poleward expansions into higher latitudes, mainly in the northern hemisphere. The present study aims to contribute to the knowledge on the impacts of climate change on the biogeography of toxin-producing microalgae species while at the same time advising the correct environmental management of coastal habitats and ecosystems.
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