Annual River Runoff Variations and Trends for the Andes Cordillera

Mernild, Sebastian H.; Liston, Glen E.; Hiemstra, Christopher A.; Yde, Jacob C.; Casassa, Gino

doi:10.1175/JHM-D-17-0094.1

Title: Annual River Runoff Variations and Trends for the Andes Cordillera

Journal Article · 31 July 2018 · Journal of Hydrometeorology

DOI: https://doi.org/10.1175/JHM-D-17-0094.1 · OSTI ID:1544259

Mernild, Sebastian H. ^[1]; Liston, Glen E. ^[2]; Hiemstra, Christopher A. ^[3]; Yde, Jacob C. ^[4]; Casassa, Gino ^[5]

Nansen Environmental and Remote Sensing Center, Bergen (Norway); Universidad de Magallanes, Punta Arenas (Chile); Western Norway Univ. of Applied Sciences, Sogndal (Norway)
Colorado State Univ., Fort Collins, CO (United States)
U.S. Army Cold Regions Research and Engineering Lab., Fort Wainwright, AL (United States)
Western Norway Univ. of Applied Sciences, Sogndal (Norway)
Universidad de Magallanes, Punta Arenas (Chile)

We analyzed modeled river runoff variations west of the Andes Cordillera’s continental divide for 1979/80–2013/14 (35 years). Our foci were annual runoff conditions, runoff origins (rain, snowmelt, and glacier ice), and runoff spatiotemporal variability. Low and high runoff conditions were defined as occurrences that fall outside the 10th (low values) and 90th (high values) percentile values of the period of record. SnowModel and HydroFlow modeling tools were used at 4-km horizontal grid increments and 3-h time intervals. NASA Modern-Era Retrospective Analysis for Research and Applications (MERRA) datasets were used as atmospheric forcing. This modeling system includes evaporation and sublimation from snow-covered surfaces, but it does not take into account evapotranspiration from bare and vegetation-covered soils and from river and lake surfaces. In general for the Andes Cordillera, the simulated runoff decreased before 1997 and increased afterward. This could be due to a model precipitation artifact in the MERRA forcing. If so, this artifact would influence the number of years with low runoff values, which decreased over time, while the number of high runoff values increased over time. For latitudes south of ~40°S, both the greatest decrease in the number of low runoff values and the greatest increase in high runoff values occurred. High runoff values averaged 84% and 58% higher than low values for nonglacierized and glacierized catchments, respectively. Furthermore, for glacierized catchments, 61% and 62% of the runoff originated from rain-derived runoff during low and high runoff extreme years, respectively; 28% and 30% from snowmelt-derived runoff; and 11% and 8% from glacier-ice-melt-derived runoff. As the results could be MERRA dependent, more work with other precipitation forcings and/or in situ measurements is needed to assess whether these are real runoff behaviors or artifacts.

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Research Organization:: Lawrence Berkeley National Laboratory (LBNL), Berkeley, CA (United States). National Energy Research Scientific Computing Center (NERSC)

Sponsoring Organization:: USDOE

OSTI ID:: 1544259

Journal Information:: Journal of Hydrometeorology, Vol. 19, Issue 7; ISSN 1525-755X

Publisher:: American Meteorological SocietyCopyright Statement

Country of Publication:: United States

Language:: English

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Cited by: 6 works

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