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Scientific innovation is overturning conventional paradigms of forest, water, and energy cycle interactions. This has implications for our understanding of the principal causal pathways by which tree, forest, and vegetation cover (TFVC) influence local and global warming/cooling. Many identify surface albedo and carbon sequestration as the principal causal pathways by which TFVC affects global warming/cooling...
We need empirical evidence on the impacts of land‐use change on hydrological processes to guide policies and land management decisions. Based on a global meta‐analysis of 287 primary studies covering 1049 data points in 58 countries and across 12 biomes, we review hydrologic process changes resulting from native forest disturbances and conversions to other land‐use types. Infiltration rates consistently...
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