Climate change projections of continental-scale streamflow across the Mississippi River Basin

Lewis, James W.; Lytle, S.; Tavakoly, Ahmad A.

doi:10.1007/s00704-022-04243-w

Cited by 4 publications

(2 citation statements)

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“…In closing, climate change has and will continue to alter the MRB's flow regimes as well as the magnitude and frequency of extreme flooding events in the MRB (Lewis et al., 2023). Understanding how naturally occurring variations in the climate system, in addition to anthropogenic activity, independently influence climate change can help mitigate future risk in the 21st century.…”

Section: Discussionmentioning

confidence: 99%

“…A warmer atmosphere drives an increase in water vapor and extreme precipitation due to the Clausius-Clapeyron relationship (Held & Soden, 2006;Ivancic & Shaw, 2016), but alongside the increase in temperature, there will be less precipitation falling as snow. Changes in both greenhouse gas concentrations (GHG) and land use/land cover (LULC) have demonstrable impacts on the Mississippi's flood regime, but debate remains surrounding the dominance of each on runoff, and surrounding their impacts on the magnitude and frequency of extreme flooding events in the MRB (Foley et al, 2004;Frans et al, 2013;Jha et al, 2004;Lewis et al, 2023;Mishra et al, 2010;Pinter et al, 2008;Qian et al, 2007;Rossi et al, 2009;Schilling et al, 2008Schilling et al, , 2010Tran & O'Neill, 2013). Natural variability also influences trends in precipitation (Eischeid et al, 2023) and runoff (Hoell et al, 2023) in ways that are different from what might be expected from LULC changes alone.…”

Section: Introductionmentioning

confidence: 99%

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Competing Influences of Land Use and Greenhouse Gas Emissions on Mississippi River Basin Hydroclimate Simulated Over the Last Millennium

Murphy,

Dee,

Doss‐Gollin

et al. 2024

Paleoceanog and Paleoclimatol

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The Mississippi River is a vital economic corridor used for generating hydroelectric power, transporting agricultural products, and municipal and industrial water use. Communities, industries, and infrastructure along the Mississippi River face an uncertain future as it grows more susceptible to climate extremes. A key challenge is determining whether Mississippi river discharge will increase or decrease during the 21st century. Because the 20th century record is limited in time, paleoclimate data and model simulations provide enhanced understanding of the basin's hydroclimate response to external forcing. Here, we investigate how anthropogenic forcing in the 20th century shifts the statistics of river discharge compared to a Last Millennium (LM) baseline using simulations from the Community Earth System Model Last Millennium Ensemble. We present evidence that the 20th century exhibits wetter conditions (i.e., increased river discharge) over the basin compared to the pre‐industrial, and that land use/land cover changes have a significant control on the hydroclimatic response. Conversely, while precipitation is projected to increase in the 21st century, the basin is generally drier (i.e., decreased river discharge) compared to the 20th century. Overall, we find that changes in greenhouse gases contribute to a lower risk of extreme discharge and flooding in the basin during the 20th century, while land use changes contribute to increased risk of flooding. The additional climate information afforded by the LM simulations offers an improved understanding of what drove extreme flooding events in the past, which can help inform the development of future regional flood mitigation strategies.

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Section: Discussionmentioning

confidence: 99%