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- Title
Anticipated Changes in Alaska Extreme Precipitation.
- Authors
Bieniek, Peter A.; Walsh, John E.; Fresco, Nancy; Tauxe, Cameron; Redilla, Kyle
- Abstract
Flooding from extreme precipitation can have major impacts on society in Alaska. Understanding how these extremes may change in the future is needed for better planning under climate change. Data on future changes in extreme precipitation over Alaska from dynamically downscaled output of two global climate models (GFDL and CCSM) were employed in this study. Threshold amounts for duration of the precipitation event (1 h, 1 day, and 30 days) and return intervals (2, 10, and 50 years) are evaluated and further downscaled onto NOAA Atlas 14. For each duration and return interval, the models' fractional changes of threshold amounts are applied to the Atlas 14 estimates to remove the model bias. The threshold amounts for nearly all event durations and return intervals are projected to increase from present (1979–2005) amounts to higher values in later decadal periods (2020–49, 2050–79, and 2080–99), and the percentage increases generally exceed the changes in the mean amounts. The percentage increases are comparable in the various geographical regions of Alaska, but the increases in the actual amounts are greatest in the wetter southeast. Although the downscaled GFDL model shows larger increases than the CCSM model in amounts for nearly all durations and return intervals, both models indicate that convective precipitation will become an increasingly greater fraction of the total precipitation during the warm season. The increase in the proportion of convective precipitation is consistent with the more rapid increase in extreme amounts than in mean amounts.
- Subjects
ALASKA; UNITED States. National Oceanic &; Atmospheric Administration; ATMOSPHERIC models; CLIMATE change
- Publication
Journal of Applied Meteorology & Climatology, 2022, Vol 61, Issue 2, p97
- ISSN
1558-8424
- Publication type
Article
- DOI
10.1175/JAMC-D-21-0106.1