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F.M. Ralph, Univ. of California, San Diego/Scripps Inst. of Oceanography/Center for Western Weather & Water Extremes, La Jolla, CA
M. Dettinger, U.S. Geological Survey, Scripps Institution of Oceanography, La Jolla, California
A. White, NOAA/Earth System Research Laboratory/Physical Sciences Division, Boulder, Colorado
D. Reynolds, Cooperative Institute for Research in Environmental Sciences, Boulder, Colorado
D. Cayan, U.S. Geological Survey, Scripps Institution of Oceanography, La Jolla, California
T. Schneider, NOAA/NWS/Office of Hydrologic Development, Boulder, Colorado
R. Cifelli, NOAA/Earth System Research Laboratory/Physical Sciences Division, Boulder, Colorado
K. Redmond, NOAA/Western Region Climate Center, Reno Nevada
M. Anderson, California Department of Water Resources, Sacramento, California
F. Gherke, California Department of Water Resources, Sacramento, California
J. Jones, California Department of Water Resources, Sacramento, California
K. Mahoney, Cooperative Institute for Research in Environmental Sciences, Boulder, Colorado
L. Johnson, Cooperative Institute for Research in the Atmosphere, Fort Collins, Colorado
S. Gutman, NOAA/Earth System Research Laboratory/Global Systems Division, Boulder, Colorado
V. Chandrasekar, Colorado State University, Department of Electrical and Computer Engineering, Fort Collins, Colorado
J. Lundquist, University of Washington, Department of Civil and Environmental Engineering, Seattle, Washington
N. Molotch, University of Colorado at Boulder, Geography Department, Boulder, Colorado
L. Brekke, U.S. Bureau of Reclamation, Technical Services Center, Denver, Colorado
R. Pulwarty, NOAA/OAR/Climate Program Office, Physical Sciences Division, Boulder, Colorado
J. Horel, University of Utah, Department of Meteorology, Salt Lake City, Utah
L. Schick, U.S. Army Corps of Engineers, Seattle, Washington
A. Edman, NOAA/NWS Western Region Headquarters, Salt Lake City, Utah
P. Mote, Oregon State University, Oregon Climate Change Research Institute, Corvallis, Oregon
J. Abatzoglou, University of Idaho, Department of Geography, Moscow, Idaho
R. Pierce, NOAA/NWS/San Diego Weather Forecast Office, San Diego, California
G. Wick, NOAA/Earth System Research Laboratory/Physical Sciences Division, Boulder, Colorado

Keywords

Extreme events, observations, hydrometeorology

Abstract

Recent and historical events illustrate the vulnerabilities of the U.S. west to extremes in precipitation that result from a range of meteorological phenomena. This vision provides an approach to mitigating impacts of such weather and water extremes that is tailored to the unique meteorological conditions and user needs of the Western U.S. in the 21st Century. It includes observations for tracking, predicting, and managing the occurrence and impacts of major storms and is informed by a range of user-requirements, workshops, scientific advances, and technological demonstrations. The vision recommends innovations and enhancements to existing monitoring networks for rain, snow, snowmelt, flood, and their hydrometeorological precursor conditions, including radars to monitor winds aloft and precipitation, soil moisture sensors, stream gages, and SNOTEL enhancements, as well as entirely new observational tools. Key limitations include monitoring the fuel for heavy precipitation, storms over the eastern Pacific, precipitation distributions, and snow and soil moisture conditions. This article presents motivation and context, and describes key components, an implementation strategy, and expected benefits. This document supports a Resolution of the Western States Water Council for addressing extreme events.

Digital Object Identifier (DOI)

https://doi.org/10.1111/j.1936-704x.2014.03176.x

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