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Future Atmospheric Rivers and Impacts on Precipitation: Overview of the ARTMIP Tier2 High-Resolution Global Warming Experiment

by Pan, Mengxin , Payne, Ashley E. , Dong, Qizhen , Nardi, Kyle M. , Rutz, Jonathan J. , Gershunov, Alexander , McClenny, Elizabeth , Lu, Mengqian , Ralph, F. Martin , VialeI, Maximiliano , Shearer, Eric J. , Guan, Bin , Qian, Yun , Zarzycki, Colin , Ullrich, Paul A. , Ramos, Alexandre M. , Shulgina, Tamara , Wehne, Michael F. , Collow, Allison B. Marquardt , Griffith, Helen , Brien, Travis A. O , Leung, L. Ruby , Shields, Christine A. , Tomé, Ricardo , Lora, Juan M.

in Meteorology and Climatology

2023

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Future Atmospheric Rivers and Impacts on Precipitation: Overview of the ARTMIP Tier2 High-Resolution Global Warming Experiment

in Meteorology and Climatology

2023

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Future Atmospheric Rivers and Impacts on Precipitation: Overview of the ARTMIP Tier2 High-Resolution Global Warming Experiment

in Meteorology and Climatology

2023

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Journal Article

Future Atmospheric Rivers and Impacts on Precipitation: Overview of the ARTMIP Tier2 High-Resolution Global Warming Experiment

Pan, Mengxin,

Payne, Ashley E.,

Dong, Qizhen,

Nardi, Kyle M.,

Rutz, Jonathan J.,

Gershunov, Alexander,

McClenny, Elizabeth,

Lu, Mengqian,

Ralph, F. Martin,

VialeI, Maximiliano,

Shearer, Eric J.,

Guan, Bin,

Qian, Yun,

Zarzycki, Colin,

Ullrich, Paul A.,

Ramos, Alexandre M.,

Shulgina, Tamara,

Wehne, Michael F.,

Collow, Allison B. Marquardt,

Griffith, Helen,

Brien, Travis A. O,

Leung, L. Ruby,

Shields, Christine A.,

Tomé, Ricardo,

Lora, Juan M.

2023

Overview

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 dataset 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.

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Publisher

Wiley/American Geophysical Union

Subject

Meteorology and Climatology