Abstract
Despite the growing interest in predicting global and regional trends in vegetation productivity in response to a changing climate, changes in water constraint on vegetation productivity (i.e., water limitations on vegetation growth) remain poorly understood. Here we conduct a comprehensive evaluation of changes in water constraint on vegetation growth in the extratropical Northern Hemisphere between 1982 and 2015. We document a significant increase in vegetation water constraint over this period. Remarkably divergent trends were found with vegetation water deficit areas significantly expanding, and water surplus areas significantly shrinking. The increase in water constraints associated with water deficit was also consistent with a decreasing response time to water scarcity, suggesting a stronger susceptibility of vegetation to drought. We also observed shortened water surplus period for water surplus areas, suggesting a shortened exposure to water surplus associated with humid conditions. These observed changes were found to be attributable to trends in temperature, solar radiation, precipitation, and atmospheric CO2. Our findings highlight the need for a more explicit consideration of the influence of water constraints on regional and global vegetation under a warming climate.
Highlights
Despite the growing interest in predicting global and regional trends in vegetation productivity in response to a changing climate, changes in water constraint on vegetation productivity remain poorly understood
A significant positive correlation between normalized difference vegetation index (NDVI) and Standardized Precipitation Evapotranspiration Index (SPEI)/self-calibrating Palmer drought severity index (scPDSI) (p < 0.05) means that NDVI is increasing with wetting and decreasing with drying, suggesting that in the areas where this happens, vegetation growth is constrained by water scarcity
We term the area associated with significant positive correlation between NDVI and SPEI/scPDSI (p < 0.05) as “vegetation water deficit regions”
Summary
Despite the growing interest in predicting global and regional trends in vegetation productivity in response to a changing climate, changes in water constraint on vegetation productivity (i.e., water limitations on vegetation growth) remain poorly understood. To further support the water constraint analysis based on spatiotemporal vegetation-moisture correlations, we examined the temporal trend of NDVI anomalies under drought conditions (SPEI03 < −1.28 and scPDSI < −1) (see “Methods”).
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