Abstract
Abstract. The USA and Canada have entered negotiations to modernize the Columbia River Treaty, signed in 1961. Key priorities are balancing flood risk and hydropower production, and improving aquatic ecosystem function while incorporating projected effects of climate change. In support of the US effort, Chegwidden et al. (2017) developed a large-ensemble dataset of past and future daily streamflows at 396 sites throughout the Columbia River basin (CRB) and selected other watersheds in western Washington and Oregon, using state-of-the art climate and hydrologic models. In this study, we use that dataset to present new analyses of the effects of future climate change on flooding using water year maximum daily streamflows. For each simulation, flood statistics are estimated from generalized extreme value distributions fit to simulated water year maximum daily streamflows for 50-year windows of the past (1950–1999) and future (2050–2099) periods. Our results contrast with previous findings: we find that the vast majority of locations in the CRB are estimated to experience an increase in future streamflow magnitudes. The near ubiquity of increases is all the more remarkable in that our approach explores a larger set of methodological variation than previous studies; however, like previous studies, our modeling system was not calibrated to minimize error in maximum daily streamflow and may be affected by unquantifiable errors. We show that on the Columbia and Willamette rivers increases in streamflow magnitudes are smallest downstream and grow larger moving upstream. For the Snake River, however, the pattern is reversed, with increases in streamflow magnitudes growing larger moving downstream to the confluence with the Salmon River tributary and then abruptly dropping. We decompose the variation in results attributable to variability in climate and hydrologic factors across the ensemble, finding that climate contributes more variation in larger basins, while hydrology contributes more in smaller basins. Equally important for practical applications like flood control rule curves, the seasonal timing of flooding shifts dramatically on some rivers (e.g., on the Snake, 20th-century floods occur exclusively in late spring, but by the end of the 21st century some floods occur as early as December) and not at all on others (e.g., the Willamette River).
Highlights
Among natural disasters in the Pacific Northwest (PNW), flooding ranks second behind fire in federal disaster declarations1 since 1953 despite extensive flood prevention infrastructure
Our results contrast with previous findings: we find that the vast majority of locations in the Columbia River basin (CRB) are estimated to experience an increase in future streamflow magnitudes
We show that on the Columbia and Willamette rivers increases in streamflow magnitudes are smallest downstream and grow larger moving upstream
Summary
Among natural disasters in the Pacific Northwest (PNW), flooding ranks second behind fire in federal disaster declarations since 1953 despite extensive flood prevention infrastructure. The largest flood in modern times on the Columbia River occurred in late spring (May–June) 1948 and obliterated the town of Vanport, which lay on an island between Portland, OR, and Vancouver, WA, permanently displacing its 18 500 residents. Other disruptive floods in the region include the Heppner flood in 1903, one of the deadliest flash floods in US history (Byrd, 2014); floods on the Chehalis. 2https://www.oregonlive.com/portland/2017/05/vanport_flood_ may_30_1948_chan.html (last access: 8 June 2019). Queen: Ubiquitous increases in flood magnitude in the Columbia River basin
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