Litcius/Paper detail

Tropical Pacific and North Atlantic Sea Surface Temperature Patterns Modulate Mississippi Basin Hydroclimate Extremes Over the Last Millennium

Xinyue Luo, Sylvia Dee, Trinity Lavenhouse, Samuel E. Muñoz, Nathan Steiger

2022Geophysical Research Letters16 citationsDOIOpen Access PDF

Abstract

Abstract Mississippi River basin floods impart large socioeconomic impacts over the central United States. Improving flood predictability depends on our understanding of the dynamical controls on Mississippi basin hydroclimate. However, short instrumental records make it difficult to constrain the connections between flooding and climate variability. Here, we use the Paleo Hydrodynamics Data Assimilation product, spanning the Last Millennium, to investigate the impacts of tropical Pacific and North Atlantic sea surface temperature (SST) variability on hydrological extremes across the Mississippi River and its major tributaries. Wet extremes are associated with strong El Niño‐like warming over the tropical Pacific, but specific SST patterns matter: dry (wet) conditions occur during Central Pacific (Eastern Pacific) El Niño events. The influence of North Atlantic SSTs is less clear, but cool SSTs contribute to Ohio basin wet extremes. These results are relevant for seasonal‐to‐interannual flood hazard prediction on the fourth largest river basin in the world.

Topics & Concepts

Structural basinClimatologyOceanographyFlood mythSea surface temperatureFlooding (psychology)TributaryDrainage basinEnvironmental sciencePredictabilityAtlantic hurricaneTropical cycloneGeologyGeographyPaleontologyPsychologyQuantum mechanicsPhysicsCartographyPsychotherapistArchaeologyClimate variability and modelsOceanographic and Atmospheric ProcessesGeology and Paleoclimatology Research