气候变化
全球变暖
生物多样性
生态学
生态预报
栖息地
环境资源管理
心理弹性
地理
适应(眼睛)
景观连通性
航程(航空)
环境科学
栖息地破坏
适应能力
全球变暖的影响
公制(单位)
温室气体
生态系统
生物完整性
局部适应
外温
脆弱性(计算)
弹性(材料科学)
持续性
全球生物多样性
适应性管理
土地覆盖
腐蚀
土地利用
生物多样性保护
作者
Z. Wu,Jiechen Wang,He Wu,Wenyu Dai,zhenkang wang
出处
期刊:
[Figshare (United Kingdom)]
日期:2026-04-04
标识
DOI:10.6084/m9.figshare.29352650
摘要
Although climate-driven connectivity plays a critical role in linking discrete habitats, it remains unclear whether it can continue to support the migration and adaptation of terrestrial vertebrates under global warming. Here, we develop a metric to consider this connectivity (functional effectiveness of climate connectivity: FECC), which quantifies the contribution of climate corridors in linking suitable areas for specific biological communities. We show that with warming exceeding 4°C, approximately 77.9% of the global land area is projected to experience a decline in FECC during 2061–2080, greatly restricting the range of suitable areas accessible to species. As warming intensifies, disruptions to climate connectivity are expected to increasingly undermine the integrity of habitat networks, raising the risk of ecological isolation and local biodiversity loss. Our findings highlight regions most vulnerable to the erosion of climate connectivity, providing guidance for aligning conservation priorities and adaptive management.
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