AI Article Synopsis
- * Using various distribution modeling methods, the research predicts significant habitat loss for the Brazil nut by the end of the century, with up to 94% of its suitable area potentially disappearing across different climate scenarios.
- * The study finds that as conditions become unfavorable at lower altitudes, the Brazil nut may migrate to higher altitudes, and areas previously deemed unsuitable could later become habitable, which could aid in restoration efforts.
Article Abstract
Climate change is among the principal threats to global terrestrial biodiversity, especially to megadiverse ecosystems such as the Amazon rainforest. In this study, we investigate how it could affect an iconic forest species-Bertholletia excelsa-(the Brazil nut) which has values in multiple dimensions in an Amazonian context. We used an ensemble from various distribution modeling methods designed for four different climate scenarios from CMIP6 by the end of the century. Then, we simulate how spatial dynamics under climate change, including explicitly dispersal events, can affect the persistence, colonization, and potential extinction of Bertholletia excelsa in the future. Our results show that by the end of the century there would be a generalized loss of suitability on the Amazon biome, regardless of the climate scenario evaluated, which could promote a significant loss (up to 94%) of the area available for the species via extinction. Our results also show that, in the future, the species would colonize higher altitudes in search of favorable conditions for its survival. Finally, we detected that areas that had previously become unsuitable because of climate change would have favorable conditions by the end of the century. Such an outcome could be useful in fostering an active restoration agenda that can mitigate the negative effects of climate change on species in this study.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11559973 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0312308 | PLOS |
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