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Kazi Samsunnahar Mita, Philip Orton, Franco Montalto, Firas Saleh and Julia Rockwell
Flooding is becoming more frequent along U.S. coastlines due to the rising impacts of fluvial and coastal flood sources, as well as their compound effects. However, we have a limited understanding of mechanisms whereby sea level rise (SLR) changes flood ...
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Narcisa Gabriela Pricope and Greer Shivers
Flood mitigation in low-gradient, tidally-influenced, and rapidly urbanizing coastal locations remains a priority across a range of stakeholders and communities. Wetland ecosystems act as a natural flood buffer for coastal storms and sea level rise (SLR)...
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Liv Herdman, Li Erikson and Patrick Barnard
The highly urbanized estuary of San Francisco Bay is an excellent example of a location susceptible to flooding from both coastal and fluvial influences. As part of developing a forecast model that integrates fluvial and oceanic drivers, a case study of ...
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Brian A. Colle, Malcolm J. Bowman, Keith J. Roberts, M. Hamish Bowman, Charles N. Flagg, Jian Kuang, Yonghui Weng, Erin B. Munsell and Fuqing Zhang
This paper describes storm surge simulations made for Sandy (2012) for the Metropolitan New York (NYC) area using the Advanced Circulation (ADCIRC) model forced by the Weather Research and Forecasting (WRF) model. The atmospheric forecast uncertainty was...
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Tim Webster, Kevin McGuigan, Kate Collins and Candace MacDonald
Bridgewater, Nova Scotia, is located 20 km inland from the mouth of the LaHave River estuary on the Atlantic Coast of Canada. Bridgewater is at risk of flooding due to the combined effects of river runoff and a storm surge on top of high tide. Projected ...
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