Detection Uncertainty Matters for Understanding Atmospheric Rivers

Both initial tier 2 experiments are focused on understanding the effects of climate change on AR characteristics, with the C20C+ experiment focusing on a set of high-resolution atmosphere-only simulations, and the CMIP5/6 experiment focusing on a multimodel collection of fully coupled simulations fr...

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Published inBulletin of the American Meteorological Society Vol. 101; no. 6; pp. E790 - E796
Main Authors O’Brien, Travis A., Payne, Ashley E., Shields, Christine A., Rutz, Jonathan, Brands, Swen, Castellano, Christopher, Chen, Jiayi, Cleveland, William, DeFlorio, Michael J., Goldenson, Naomi, Gorodetskaya, Irina V., Díaz, Héctor Inda, Kashinath, Karthik, Kawzenuk, Brian, Kim, Sol, Krinitskiy, Mikhail, Lora, Juan M., McClenny, Beth, Michaelis, Allison, O’Brien, John P., Patricola, Christina M., Ramos, Alexandre M., Shearer, Eric J., Tung, Wen-Wen, Ullrich, Paul A., Wehner, Michael F., Yang, Kevin, Zhang, Rudong, Zhang, Zhenhai, Zhou, Yang
Format Journal Article
LanguageEnglish
Published Boston American Meteorological Society 01.06.2020
Subjects
Algorithms
Atmospheric models
Baroclinic mode
Baroclinity
Climate change
Climate effects
Climate models
Cyclones
Datasets
Detection
Experiments
Hurricanes
Intercomparison
Jet stream
Jet streams (meteorology)
Life cycle
Life cycles
Meeting Summary
Physics
Precipitation
Simulation
Tracking
Tropical climate
Tropical cyclones
Uncertainty
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Summary:Both initial tier 2 experiments are focused on understanding the effects of climate change on AR characteristics, with the C20C+ experiment focusing on a set of high-resolution atmosphere-only simulations, and the CMIP5/6 experiment focusing on a multimodel collection of fully coupled simulations from the Coupled Model Intercomparison Project. Key gaps and research priorities Basic research on AR life cycle. * Gap: The physical drivers of AR genesis, development, and dissipation are not completely understood, and this lack of understanding impedes our ability to constrain the quantitative definition, detection, and tracking of ARs. * Recommendation: There is a need for more basic research on the dynamics and life cycle of ARs. Ideally, “flavored” AR tracking methods could incorporate connections to surface precipitation, interactions with synoptic-scale baroclinicity, and interactions with other phenomena such as tropical cyclones and jet streams. Despite the focus of the discussion on existing uncertainties in AR detection techniques and impacts on AR science, the group found a cause for cautious optimism: analogous to different physics parameterizations in climate models, different AR algorithms were developed with different goals in mind, and thus may each have distinct applications.
ISSN:0003-0007
1520-0477
DOI:10.1175/BAMS-D-19-0348.1