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Mechanisms controlling the impact of multi-year drought on mountain hydrology

Author(s):

Roger C. Bales
Michael L. Goulden
Martha H. Conklin
Peter C. Hartsough
Anthony T. O’Geen
Jan W. Hopmans

Year:

2018

Publication type:

Scientific Journal (JRNL)

Primary Station(s):

Pacific Southwest Research Station

Source:

Scientific Reports. 8(1): 690

Description

Mountain runoff ultimately reflects the difference between precipitation (P) and evapotranspiration (ET), as modulated by biogeophysical mechanisms that intensify or alleviate drought impacts. These modulating mechanisms are seldom measured and not fully understood. The impact of the warm 2012–15 California drought on the heavily instrumented Kings River basin provides an extraordinary opportunity to enumerate four mechanisms that controlled the impact of drought on mountain hydrology. Two mechanisms intensified the impact: (i) evaporative processes have first access to local precipitation, which decreased the fractional allocation of P to runoff in 2012–15 and reduced P-ET by 30% relative to previous years, and (ii) 2012–15 was 1 °C warmer than the previous decade, which increased ET relative to previous years and reduced P-ET by 5%. The other two mechanisms alleviated the impact: (iii) spatial heterogeneity and the continuing supply of runoff from higher elevations increased 2012–15 P-ET by 10% relative to that expected for a homogenous basin, and iv) drought-associated dieback and wildfire thinned the forest and decreased ET, which increased 2016 P-ET by 15%. These mechanisms are all important and may offset each other; analyses that neglect one or more will over or underestimate the impact of drought and warming on mountain runoff.

Citation

Bales, Roger C.; Goulden, Michael L.; Hunsaker, Carolyn T.; Conklin, Martha H.; Hartsough, Peter C.; O’Geen, Anthony T.; Hopmans, Jan W.; Safeeq, Mohammad. 2018. Mechanisms controlling the impact of multi-year drought on mountain hydrology. Scientific Reports. 8(1): 690. https://doi.org/10.1038/s41598-017-19007-0.

Cited

Publication Notes

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https://www.fs.usda.gov/treesearch/pubs/55614