Journal
SCIENCE
Volume 342, Issue 6164, Pages 1360-1364Publisher
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.1242335
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Funding
- NSF's Experimental Program to Stimulate Competitive Research (EPSCoR) [EPS-0814387]
- NASA [NNH11ZDA001N-FIRES]
- Office Of The Director
- EPSCoR [0814387] Funding Source: National Science Foundation
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Trends in streamflow timing and volume in the Pacific Northwest United States have been attributed to increased temperatures, because trends in precipitation at lower-elevation stations were negligible. We demonstrate that observed streamflow declines are probably associated with declines in mountain precipitation, revealing previously unexplored differential trends. Lower-troposphere winter (November to March) westerlies are strongly correlated with high-elevation precipitation but weakly correlated with low-elevation precipitation. Decreases in lower-tropospheric winter westerlies across the region from 1950 to 2012 are hypothesized to have reduced orographic precipitation enhancement, yielding differential trends in precipitation across elevations and contributing to the decline in annual streamflow. Climate projections show weakened lower-troposphere zonal flow across the region under enhanced greenhouse forcing, highlighting an additional stressor that is relevant for climate change impacts on hydrology.
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