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Widespread woody plant use of water stored in bedrock

Erica L. McCormick (), David N. Dralle, W. Jesse Hahm, Alison K. Tune, Logan M. Schmidt, K. Dana Chadwick and Daniella M. Rempe
Additional contact information
Erica L. McCormick: University of Texas at Austin
David N. Dralle: United States Forest Service
W. Jesse Hahm: Simon Fraser University
Alison K. Tune: University of Texas at Austin
Logan M. Schmidt: University of Texas at Austin
K. Dana Chadwick: University of Texas at Austin
Daniella M. Rempe: University of Texas at Austin

Nature, 2021, vol. 597, issue 7875, 225-229

Abstract: Abstract In the past several decades, field studies have shown that woody plants can access substantial volumes of water from the pores and fractures of bedrock1–3. If, like soil moisture, bedrock water storage serves as an important source of plant-available water, then conceptual paradigms regarding water and carbon cycling may need to be revised to incorporate bedrock properties and processes4–6. Here we present a lower-bound estimate of the contribution of bedrock water storage to transpiration across the continental United States using distributed, publicly available datasets. Temporal and spatial patterns of bedrock water use across the continental United States indicate that woody plants extensively access bedrock water for transpiration. Plants across diverse climates and biomes access bedrock water routinely and not just during extreme drought conditions. On an annual basis in California, the volumes of bedrock water transpiration exceed the volumes of water stored in human-made reservoirs, and woody vegetation that accesses bedrock water accounts for over 50% of the aboveground carbon stocks in the state. Our findings indicate that plants commonly access rock moisture, as opposed to groundwater, from bedrock and that, like soil moisture, rock moisture is a critical component of terrestrial water and carbon cycling.

Date: 2021
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DOI: 10.1038/s41586-021-03761-3

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