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Predicting landscape sensitivity to present and future floods in the Pacific Northwest, USA

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Title Predicting landscape sensitivity to present and future floods in the Pacific Northwest, USA
Names Safeeq, Mohammad (creator)
Grant, Gordon E. (creator)
Lewis, Sarah L. (creator)
Staab, Brian (creator)
Date Issued 2015-12-30 (iso8601)
Note To the best of our knowledge, one or more authors of this paper were federal employees when contributing to this work. This is the publisher’s final pdf. The published article is copyrighted by John Wiley & Sons, Ltd. and can be found at: http://onlinelibrary.wiley.com/journal/10.1002/%28ISSN%291099-1085
Abstract Floods are the most frequent natural disaster, causing more loss of life and property than any other in the USA. Floods also
strongly influence the structure and function of watersheds, stream channels, and aquatic ecosystems. The Pacific Northwest is
particularly vulnerable to climatically driven changes in flood frequency and magnitude, because snowpacks that strongly
influence flood generation are near the freezing point and thus sensitive to small changes in temperature. To improve predictions
of future flooding potential and inform strategies to adapt to these changes, we mapped the sensitivity of landscapes to changes in
peak flows due to climate warming across Oregon and Washington. We first developed principal component-based models for
predicting peak flows across a range of recurrence intervals (2-, 10-, 25-, 50-, and 100-years) based on historical instantaneous
peak flow data from 1000 gauged watersheds in Oregon and Washington. Key predictors of peak flows included drainage area
and principal component scores for climate, land cover, soil, and topographic metrics. We then used these regression models to
predict future peak flows by perturbing the climate variables based on future climate projections (2020s, 2040s, and 2080s) for
the A1B emission scenario. For each recurrence interval, peak flow sensitivities were computed as the ratio of future to current
peak flow magnitudes. Our analysis suggests that temperature-induced changes in snowpack dynamics will result in large
(>30–40%) increases in peak flow magnitude in some areas, principally the Cascades, Olympics, and Blue Mountains and
parts of the western edge of the Rocky Mountains. Flood generation processes in lower elevation areas are less likely to be
affected, but some of these areas may be impacted by floodwaters from upstream. These results can assist land, water, and
infrastructure managers in identifying watersheds and resources that are particularly vulnerable to increased peak flows and
developing plans to increase their resilience
Genre Article
Topic Pacific Northwest
Identifier Safeeq, M., Grant, G. E., Lewis, S. L., & Staab, B. (2015). Predicting landscape sensitivity to present and future floods in the Pacific Northwest, USA. Hydrological Processes, 29(26), 5337-5353. doi:10.1002/hyp.10553

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