Future Atmospheric Rivers and Impacts on Precipitation: Overview of the ARTMIP Tier 2 High-Resolution Global Warming Experiment
Shields, Christine A.; Payne, Ashley E.; Shearer, Eric Jay; Wehner, Michael F.; O’Brien, Travis Allen; Rutz, Jonathan J.; Leung, L. Ruby; Ralph, F. Martin; Marquardt Collow, Allison B.; Ullrich, Paul A.; Dong, Qizhen; Gershunov, Alexander; Griffith, Helen; Guan, Bin; Lora, Juan Manuel; Lu, Mengqian; McClenny, Elizabeth; Nardi, Kyle M.; Pan, Mengxin; Qian, Yun; Ramos, Alexandre M.; Shulgina, Tamara; Viale, Maximiliano; Sarangi, Chandan; Tomé, Ricardo; Zarzycki, Colin
2023-03-28
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Citation
Shields, Christine A.; Payne, Ashley E.; Shearer, Eric Jay; Wehner, Michael F.; O’Brien, Travis Allen ; Rutz, Jonathan J.; Leung, L. Ruby; Ralph, F. Martin; Marquardt Collow, Allison B.; Ullrich, Paul A.; Dong, Qizhen; Gershunov, Alexander; Griffith, Helen; Guan, Bin; Lora, Juan Manuel; Lu, Mengqian; McClenny, Elizabeth; Nardi, Kyle M.; Pan, Mengxin; Qian, Yun; Ramos, Alexandre M.; Shulgina, Tamara; Viale, Maximiliano; Sarangi, Chandan; Tomé, Ricardo ; Zarzycki, Colin (2023). "Future Atmospheric Rivers and Impacts on Precipitation: Overview of the ARTMIP Tier 2 High- Resolution Global Warming Experiment." Geophysical Research Letters 50(6): n/a-n/a.
Abstract
Atmospheric rivers (ARs) are long, narrow synoptic scale weather features important for Earth’s hydrological cycle typically transporting water vapor poleward, delivering precipitation important for local climates. Understanding ARs in a warming climate is problematic because the AR response to climate change is tied to how the feature is defined. The Atmospheric River Tracking Method Intercomparison Project (ARTMIP) provides insights into this problem by comparing 16 atmospheric river detection tools (ARDTs) to a common data set consisting of high resolution climate change simulations from a global atmospheric general circulation model. ARDTs mostly show increases in frequency and intensity, but the scale of the response is largely dependent on algorithmic criteria. Across ARDTs, bulk characteristics suggest intensity and spatial footprint are inversely correlated, and most focus regions experience increases in precipitation volume coming from extreme ARs. The spread of the AR precipitation response under climate change is large and dependent on ARDT selection.Plain Language SummaryAtmospheric rivers (ARs) are long and narrow weather features often referred to as “rivers in the sky.” They often transport water from lower latitudes to higher latitudes typically across climate zones and produce precipitation necessary for local climates. Understanding ARs in a warming climate is challenging because of the variety of ways an AR can be defined on gridded data sets. Unlike weather features such as tropical cyclones where identification methodologies are similar, algorithms that determine the characteristics of ARs vary depending on the science question posed. Because there is no real consensus on AR identification methodology, we aim to quantify the algorithmic uncertainty in AR metrics and precipitation. We compare 16 different ways of defining an AR on gridded data sets and present the range of possibilities in which an AR could change under global warming. Generally, ARs are projected to increase but the amount of that increase is a function of the algorithm. Across all algorithms and focus regions, AR precipitation is projected to become more extreme.Key PointsHigh-resolution historical and future simulations are used to evaluate atmospheric river detection tools (ARDT) uncertaintyARDTs mostly show increases in frequency and intensity of future atmospheric rivers (ARs) but the scale of response is dependent on algorithmic restrictivenessMost regions experience an increase in precipitation volume coming from extreme ARsPublisher
Wiley Periodicals, Inc. Cambridge University Press
ISSN
0094-8276 1944-8007
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