Expanding the network of connected and resilient protected areas(PAs)for climate change adaptation can help species track suitable climate conditions and safeguard biodiversity.This is often overlooked when expanding ...Expanding the network of connected and resilient protected areas(PAs)for climate change adaptation can help species track suitable climate conditions and safeguard biodiversity.This is often overlooked when expanding PAs and quantifying their benefits,resulting in an underestimate of the benefits of expanding PAs.We expanded PAs through terrestrial mammalian species distribution hotspots,Key Biodiversity Areas(KBAs),and wilderness areas.Then,we constructed climate connectivity networks using a resistance-based approach and further quantified the network resilience to propose resilient climate response strategies in China.The results showed that existing PAs suffered from location biases with important biodiversity areas.The existing PAs represented about half of the KBAs and wilderness areas,yet only 12.08%of terrestrial mammalian species distribution hotspots were located within existing PAs.Compared with the existing PA network,the network efficiency and resilience of the expanded PAs'climate connectivity increased to 1.80 times and 1.78 times,respectively.With 56%of the nodes remaining,the network efficiency of the expanded PAs was equivalent to that of the existing PAs with all nodes.The network resilience of preferentially protecting and restoring low human footprint patches was approximately 1.5–2 times that of the random scenario.These findings highlighted that confronted with the unoptimistic situation of global warming,nature conservation based on existing PAs was no longer optimal.It was critical to construct a connected and resilient conservation network relying on both important biodiversity areas and low human footprint patches.展开更多
基金supported by the National Key Research and Development Program of China(2022YFF1303201)。
文摘Expanding the network of connected and resilient protected areas(PAs)for climate change adaptation can help species track suitable climate conditions and safeguard biodiversity.This is often overlooked when expanding PAs and quantifying their benefits,resulting in an underestimate of the benefits of expanding PAs.We expanded PAs through terrestrial mammalian species distribution hotspots,Key Biodiversity Areas(KBAs),and wilderness areas.Then,we constructed climate connectivity networks using a resistance-based approach and further quantified the network resilience to propose resilient climate response strategies in China.The results showed that existing PAs suffered from location biases with important biodiversity areas.The existing PAs represented about half of the KBAs and wilderness areas,yet only 12.08%of terrestrial mammalian species distribution hotspots were located within existing PAs.Compared with the existing PA network,the network efficiency and resilience of the expanded PAs'climate connectivity increased to 1.80 times and 1.78 times,respectively.With 56%of the nodes remaining,the network efficiency of the expanded PAs was equivalent to that of the existing PAs with all nodes.The network resilience of preferentially protecting and restoring low human footprint patches was approximately 1.5–2 times that of the random scenario.These findings highlighted that confronted with the unoptimistic situation of global warming,nature conservation based on existing PAs was no longer optimal.It was critical to construct a connected and resilient conservation network relying on both important biodiversity areas and low human footprint patches.
