气候变化
期限(时间)
动作(物理)
生态预报
环境科学
环境资源管理
生态学
气候学
自然资源经济学
全球变暖
经济
生物
地质学
量子力学
物理
作者
Michael C. Dietze,Ethan P. White,Antoinette Abeyta,Carl Boettiger,Nievita Bueno Watts,Cayelan C. Carey,Rebecca Chaplin‐Kramer,R. E. Emanuel,S. K. Morgan Ernest,Renato Figueiredo,Michael D. Gerst,Leah R. Johnson,Melissa A. Kenney,J. S. McLachlan,Ioannis Ch. Paschalidis,Jody A. Peters,Christine R. Rollinson,Juniper L. Simonis,Kira Sullivan-Wiley,R. Quinn Thomas
标识
DOI:10.1038/s41558-024-02182-0
摘要
A substantial increase in predictive capacity is needed to anticipate and mitigate the widespread change in ecosystems and their services in the face of climate and biodiversity crises. In this era of accelerating change, we cannot rely on historical patterns or focus primarily on long-term projections that extend decades into the future. In this Perspective, we discuss the potential of near-term (daily to decadal) iterative ecological forecasting to improve decision-making on actionable time frames. We summarize the current status of ecological forecasting and focus on how to scale up, build on lessons from weather forecasting, and take advantage of recent technological advances. We also highlight the need to focus on equity, workforce development, and broad cross-disciplinary and non-academic partnerships. In this Perspective, the authors discuss the current status of ecological forecasting research, its role in helping to address the climate and biodiversity crises facing society and potential future directions, with a central focus on how to scale up ecological forecasting capabilities.
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