Strategic selection and precise matching of climate-resilient tree species are crucial for maximizing the mitigation and adaptation potential of Climate-Smart Forestry.However,current forestation plans often overlook ...Strategic selection and precise matching of climate-resilient tree species are crucial for maximizing the mitigation and adaptation potential of Climate-Smart Forestry.However,current forestation plans often overlook species-specific environmental shifts,leading to suboptimal long-term carbon sequestration.Here we developed a climate-adaptive optimization framework to guide tree species selection and planting in China,based on projected habitat suitability and range shifts under future climate scenarios.Utilizing over 200,000 tree records from China’s National Forest Inventory(1999-2018),we quantified habitat suitability declines of 12.1%-42.9%for currently dominant plantation species by 2060 due to climate change.By optimizing species-site matching and strategically harvesting timber at peak carbon uptake,we identified 43.2 million hectares suitable for climate-resilient forestation between 2025 and 2060,enabling the planting of approximately 46 billion climate-adapted trees with a total sequestration potential of 3822.6 Tg of carbon-a 28.7%increase compared to unmanaged scenarios.Our study highlights the importance of optimizing adaptive forestation strategies to enhance carbon sequestration under future climate conditions,providing technical guidance for climate-resilient forest management in support of China’s net-zero commitment.展开更多
基金supported by the National Key Research and Development Program of China(2021YFD2200405)support from a NASA GEDI award(#80NSSC24K0600)a NASA Carbon Cycle award(#80NSSC21K1705)。
文摘Strategic selection and precise matching of climate-resilient tree species are crucial for maximizing the mitigation and adaptation potential of Climate-Smart Forestry.However,current forestation plans often overlook species-specific environmental shifts,leading to suboptimal long-term carbon sequestration.Here we developed a climate-adaptive optimization framework to guide tree species selection and planting in China,based on projected habitat suitability and range shifts under future climate scenarios.Utilizing over 200,000 tree records from China’s National Forest Inventory(1999-2018),we quantified habitat suitability declines of 12.1%-42.9%for currently dominant plantation species by 2060 due to climate change.By optimizing species-site matching and strategically harvesting timber at peak carbon uptake,we identified 43.2 million hectares suitable for climate-resilient forestation between 2025 and 2060,enabling the planting of approximately 46 billion climate-adapted trees with a total sequestration potential of 3822.6 Tg of carbon-a 28.7%increase compared to unmanaged scenarios.Our study highlights the importance of optimizing adaptive forestation strategies to enhance carbon sequestration under future climate conditions,providing technical guidance for climate-resilient forest management in support of China’s net-zero commitment.
