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HERO ID
8041586
Reference Type
Journal Article
Title
Understanding Catchment-Scale Forest Root Water Uptake Strategies Across the Continental United States Through Inverse Ecohydrological Modeling
Author(s)
Knighton, J; Singh, K; Evaristo, J
Year
2020
Is Peer Reviewed?
Yes
Journal
Geophysical Research Letters
ISSN:
0094-8276
EISSN:
1944-8007
Volume
47
Issue
1
DOI
10.1029/2019GL085937
Web of Science Id
WOS:000513983400031
Abstract
Trees influence the partitioning of water between catchment water yield and evapotranspiration through mediation of soil water via root water uptake (RWU). Recent research has estimated the depth of RWU for a variety of tree species at plot scales with measurements of stable isotopes in water and sap flux. Though informative, there are some challenges bridging the gap between plot- and catchment-scale water fluxes. We estimated catchment-scale tree RWU behavior for 139 forested catchments across the continental United States from continuous streamflow records with inverse ecohydrological modeling. Our catchment-scale RWU estimates agreed well with existing plot-scale research. Monoculture catchments dense with trees reliant on shallow soil water exhibited reduced transpiration losses compared to deep-rooted and mixed-species forests within the Budkyo framework. This research highlights the importance of representing plant characteristics that define RWU control of transpiration in land surface and earth systems models.
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