期刊论文详细信息
Earth Interactions
Contrasting Ocean–Atmosphere Dynamics Mediate Flood Hazard across the Mississippi River Basin
article
Samuel E. Muñoz1  Brynnydd Hamilton1  B. Parazin1 
[1] Department of Marine and Environmental Sciences, Marine Science Center, Northeastern University;Department of Civil and Environmental Engineering, Northeastern University
关键词: North America;    Flood events;    Atmosphere–ocean interaction;    ENSO;    Climate variability;   
DOI  :  10.1175/EI-D-22-0015.1
学科分类:地球科学(综合)
来源: American Geophysical Union
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【 摘 要 】

The Mississippi River basin drains nearly one-half of the contiguous United States, and its rivers serve as economic corridors that facilitate trade and transportation. Flooding remains a perennial hazard on the major tributaries of the Mississippi River basin, and reducing the economic and humanitarian consequences of these events depends on improving their seasonal predictability. Here, we use climate reanalysis and river gauge data to document the evolution of floods on the Missouri and Ohio Rivers—the two largest tributaries of the Mississippi River—and how they are influenced by major modes of climate variability centered in the Pacific and Atlantic Oceans. We show that the largest floods on these tributaries are preceded by the advection and convergence of moisture from the Gulf of Mexico following distinct atmospheric mechanisms, where Missouri River floods are associated with heavy spring and summer precipitation events delivered by the Great Plains low-level jet, whereas Ohio River floods are associated with frontal precipitation events in winter when the North Atlantic subtropical high is anomalously strong. Further, we demonstrate that the El Niño–Southern Oscillation can serve as a precursor for floods on these rivers by mediating antecedent soil moisture, with Missouri River floods often preceded by a warm eastern tropical Pacific (El Niño) and Ohio River floods often preceded by a cool eastern tropical Pacific (La Niña) in the months leading up peak discharge. We also use recent floods in 2019 and 2021 to demonstrate how linking flood hazard to sea surface temperature anomalies holds potential to improve seasonal predictability of hydrologic extremes on these rivers.

【 授权许可】

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