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Recent California tree mortality portends future increase in drought-driven forest die-off

Gavin D. Madakumbura, Michael L. Goulden, Alex Hall, Rong Fu, Max A. Moritz, Charles D. Koven, Lara M. Kueppers, Carl A. Norlen, James T. Randerson

2020Environmental Research Letters29 citationsDOIOpen Access PDF

Abstract

Abstract Vegetation tolerance to drought depends on an array of site-specific environmental and plant physiological factors. This tolerance is poorly understood for many forest types despite its importance for predicting and managing vegetation stress. We analyzed the relationships between precipitation variability and forest die-off in California’s Sierra Nevada and introduce a new measure of drought tolerance that emphasizes plant access to subsurface moisture buffers. We applied this metric to California’s severe 2012–2015 drought, and show that it predicted the patterns of tree mortality. We then examined future climate scenarios, and found that the probability of droughts that lead to widespread die-off increases threefold by the end of the 21st century. Our analysis shows that tree mortality in the Sierra Nevada will likely accelerate in the coming decades and that forests in the Central and Northern Sierra Nevada that largely escaped mortality in 2012–2015 are vulnerable to die-off.

Topics & Concepts

Vegetation (pathology)PrecipitationEnvironmental scienceTree (set theory)GeographyPhysical geographyEcologyAgroforestryMeteorologyBiologyMathematical analysisPathologyMedicineMathematicsPlant Water Relations and Carbon DynamicsTree-ring climate responsesFire effects on ecosystems
Recent California tree mortality portends future increase in drought-driven forest die-off | Litcius