From California’s Extreme Drought to Major Flooding Evaluating and Synthesizing: Experimental Seasonal and Subseasonal Forecasts of Landfalling Atmospheric Rivers and Extreme Precipitation during Winter 2022/23

Michael J. DeFlorio; Agniv Sengupta; Christopher M. Castellano; Jiabao Wang; Zhenhai Zhang; Alexander Gershunov; Kristen Guirguis; Rosa Luna Niño; Rachel E.S. Clemesha; Ming Pan; Mu Xiao; Brian Kawzenuk; Peter B. Gibson; William Scheftic; Patrick D. Broxton; Matthew B. Switanek; Jing Yuan; Michael D. Dettinger; Chad W. Hecht; Daniel R. Cayan; Bruce D. Cornuelle; Arthur J. Miller; Julie Kalansky; Luca Delle Monache; F. Martin Ralph; Duane E. Waliser; Andrew W. Robertson; Xubin Zeng; David G. DeWitt; Jeanine Jones; Michael L. Anderson

doi:10.1175/BAMS-D-22-0208.1

From California’s Extreme Drought to Major Flooding Evaluating and Synthesizing: Experimental Seasonal and Subseasonal Forecasts of Landfalling Atmospheric Rivers and Extreme Precipitation during Winter 2022/23

Michael J. DeFlorio, Agniv Sengupta, Christopher M. Castellano, Jiabao Wang, Zhenhai Zhang, Alexander Gershunov, Kristen Guirguis, Rosa Luna Niño, Rachel E.S. Clemesha, Ming Pan, Mu Xiao, Brian Kawzenuk, Peter B. Gibson, William Scheftic, Patrick D. Broxton, Matthew B. Switanek, Jing Yuan, Michael D. Dettinger, Chad W. Hecht, Daniel R. CayanBruce D. Cornuelle, Arthur J. Miller, Julie Kalansky, Luca Delle Monache, F. Martin Ralph, Duane E. Waliser, Andrew W. Robertson, Xubin Zeng, David G. DeWitt, Jeanine Jones, Michael L. Anderson

Natural Resources and the Environment, School of

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

California experienced a historic run of nine consecutive landfalling atmospheric rivers (ARs) in three weeks’ time during winter 2022/23. Following three years of drought from 2020 to 2022, intense landfalling ARs across California in December 2022–January 2023 were responsible for bringing reservoirs back to historical averages and producing damaging floods and debris flows. In recent years, the Center for Western Weather and Water Extremes and collaborating institu-; tions have developed and routinely provided to end users peer-reviewed experimental seasonal (1–6 month lead time) and subseasonal (2–6 week lead time) prediction tools for western U.S. ARs, circulation regimes, and precipitation. Here, we evaluate the performance of experimental seasonal precipitation forecasts for winter 2022/23, along with experimental subseasonal AR activity and circulation forecasts during the December 2022 regime shift from dry conditions to persistent troughing and record AR-driven wetness over the western United States. Experimental seasonal precipitation forecasts were too dry across Southern California (likely due to their over-reliance on La Niña), and the observed above-normal precipitation across Northern and Central California was underpredicted. However, experimental subseasonal forecasts skillfully captured the regime shift from dry to wet conditions in late December 2022 at 2–3 week lead time. During this time, an active MJO shift from phases 4 and 5 to 6 and 7 occurred, which historically tilts the odds toward increased AR activity over California. New experimental seasonal and subseasonal synthesis forecast products, designed to aggregate information across institutions and methods, are introduced in the context of this historic winter to provide situational awareness guidance to western U.S. water managers.

Original language	English (US)
Pages (from-to)	E84-E104
Journal	Bulletin of the American Meteorological Society
Volume	105
Issue number	1
DOIs	https://doi.org/10.1175/BAMS-D-22-0208.1
State	Published - Jan 2024

Keywords

Atmospheric river
Precipitation
Seasonal forecasting
Seasonal variability Subseasonal variability
Water resources

ASJC Scopus subject areas

Atmospheric Science

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10.1175/BAMS-D-22-0208.1

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DeFlorio, M. J., Sengupta, A., Castellano, C. M., Wang, J., Zhang, Z., Gershunov, A., Guirguis, K., Niño, R. L., Clemesha, R. E. S., Pan, M., Xiao, M., Kawzenuk, B., Gibson, P. B., Scheftic, W., Broxton, P. D., Switanek, M. B., Yuan, J., Dettinger, M. D., Hecht, C. W., ... Anderson, M. L. (2024). From California’s Extreme Drought to Major Flooding Evaluating and Synthesizing: Experimental Seasonal and Subseasonal Forecasts of Landfalling Atmospheric Rivers and Extreme Precipitation during Winter 2022/23. Bulletin of the American Meteorological Society, 105(1), E84-E104. https://doi.org/10.1175/BAMS-D-22-0208.1

From California’s Extreme Drought to Major Flooding Evaluating and Synthesizing: Experimental Seasonal and Subseasonal Forecasts of Landfalling Atmospheric Rivers and Extreme Precipitation during Winter 2022/23. / DeFlorio, Michael J.; Sengupta, Agniv; Castellano, Christopher M. et al.
In: Bulletin of the American Meteorological Society, Vol. 105, No. 1, 01.2024, p. E84-E104.

Research output: Contribution to journal › Article › peer-review

DeFlorio, MJ, Sengupta, A, Castellano, CM, Wang, J, Zhang, Z, Gershunov, A, Guirguis, K, Niño, RL, Clemesha, RES, Pan, M, Xiao, M, Kawzenuk, B, Gibson, PB, Scheftic, W, Broxton, PD, Switanek, MB, Yuan, J, Dettinger, MD, Hecht, CW, Cayan, DR, Cornuelle, BD, Miller, AJ, Kalansky, J, Monache, LD, Ralph, FM, Waliser, DE, Robertson, AW, Zeng, X, DeWitt, DG, Jones, J & Anderson, ML 2024, 'From California’s Extreme Drought to Major Flooding Evaluating and Synthesizing: Experimental Seasonal and Subseasonal Forecasts of Landfalling Atmospheric Rivers and Extreme Precipitation during Winter 2022/23', Bulletin of the American Meteorological Society, vol. 105, no. 1, pp. E84-E104. https://doi.org/10.1175/BAMS-D-22-0208.1

DeFlorio MJ, Sengupta A, Castellano CM, Wang J, Zhang Z, Gershunov A et al. From California’s Extreme Drought to Major Flooding Evaluating and Synthesizing: Experimental Seasonal and Subseasonal Forecasts of Landfalling Atmospheric Rivers and Extreme Precipitation during Winter 2022/23. Bulletin of the American Meteorological Society. 2024 Jan;105(1):E84-E104. doi: 10.1175/BAMS-D-22-0208.1

DeFlorio, Michael J. ; Sengupta, Agniv ; Castellano, Christopher M. et al. / From California’s Extreme Drought to Major Flooding Evaluating and Synthesizing : Experimental Seasonal and Subseasonal Forecasts of Landfalling Atmospheric Rivers and Extreme Precipitation during Winter 2022/23. In: Bulletin of the American Meteorological Society. 2024 ; Vol. 105, No. 1. pp. E84-E104.

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abstract = "California experienced a historic run of nine consecutive landfalling atmospheric rivers (ARs) in three weeks{\textquoteright} time during winter 2022/23. Following three years of drought from 2020 to 2022, intense landfalling ARs across California in December 2022–January 2023 were responsible for bringing reservoirs back to historical averages and producing damaging floods and debris flows. In recent years, the Center for Western Weather and Water Extremes and collaborating institu-; tions have developed and routinely provided to end users peer-reviewed experimental seasonal (1–6 month lead time) and subseasonal (2–6 week lead time) prediction tools for western U.S. ARs, circulation regimes, and precipitation. Here, we evaluate the performance of experimental seasonal precipitation forecasts for winter 2022/23, along with experimental subseasonal AR activity and circulation forecasts during the December 2022 regime shift from dry conditions to persistent troughing and record AR-driven wetness over the western United States. Experimental seasonal precipitation forecasts were too dry across Southern California (likely due to their over-reliance on La Ni{\~n}a), and the observed above-normal precipitation across Northern and Central California was underpredicted. However, experimental subseasonal forecasts skillfully captured the regime shift from dry to wet conditions in late December 2022 at 2–3 week lead time. During this time, an active MJO shift from phases 4 and 5 to 6 and 7 occurred, which historically tilts the odds toward increased AR activity over California. New experimental seasonal and subseasonal synthesis forecast products, designed to aggregate information across institutions and methods, are introduced in the context of this historic winter to provide situational awareness guidance to western U.S. water managers.",

keywords = "Atmospheric river, Precipitation, Seasonal forecasting, Seasonal variability Subseasonal variability, Water resources",

author = "DeFlorio, {Michael J.} and Agniv Sengupta and Castellano, {Christopher M.} and Jiabao Wang and Zhenhai Zhang and Alexander Gershunov and Kristen Guirguis and Ni{\~n}o, {Rosa Luna} and Clemesha, {Rachel E.S.} and Ming Pan and Mu Xiao and Brian Kawzenuk and Gibson, {Peter B.} and William Scheftic and Broxton, {Patrick D.} and Switanek, {Matthew B.} and Jing Yuan and Dettinger, {Michael D.} and Hecht, {Chad W.} and Cayan, {Daniel R.} and Cornuelle, {Bruce D.} and Miller, {Arthur J.} and Julie Kalansky and Monache, {Luca Delle} and Ralph, {F. Martin} and Waliser, {Duane E.} and Robertson, {Andrew W.} and Xubin Zeng and DeWitt, {David G.} and Jeanine Jones and Anderson, {Michael L.}",

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AU - Castellano, Christopher M.

AU - Wang, Jiabao

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AU - Yuan, Jing

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AU - Hecht, Chad W.

AU - Cayan, Daniel R.

AU - Cornuelle, Bruce D.

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AU - Kalansky, Julie

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AU - Zeng, Xubin

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AU - Jones, Jeanine

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N1 - Publisher Copyright: © 2024 American Meteorological Society. This published article is licensed under the terms of the default AMS reuse license. For information regarding reuse of this content and general copyright information, consult the AMS Copyright Policy (www.ametsoc.org/PUBSReuseLicenses).

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N2 - California experienced a historic run of nine consecutive landfalling atmospheric rivers (ARs) in three weeks’ time during winter 2022/23. Following three years of drought from 2020 to 2022, intense landfalling ARs across California in December 2022–January 2023 were responsible for bringing reservoirs back to historical averages and producing damaging floods and debris flows. In recent years, the Center for Western Weather and Water Extremes and collaborating institu-; tions have developed and routinely provided to end users peer-reviewed experimental seasonal (1–6 month lead time) and subseasonal (2–6 week lead time) prediction tools for western U.S. ARs, circulation regimes, and precipitation. Here, we evaluate the performance of experimental seasonal precipitation forecasts for winter 2022/23, along with experimental subseasonal AR activity and circulation forecasts during the December 2022 regime shift from dry conditions to persistent troughing and record AR-driven wetness over the western United States. Experimental seasonal precipitation forecasts were too dry across Southern California (likely due to their over-reliance on La Niña), and the observed above-normal precipitation across Northern and Central California was underpredicted. However, experimental subseasonal forecasts skillfully captured the regime shift from dry to wet conditions in late December 2022 at 2–3 week lead time. During this time, an active MJO shift from phases 4 and 5 to 6 and 7 occurred, which historically tilts the odds toward increased AR activity over California. New experimental seasonal and subseasonal synthesis forecast products, designed to aggregate information across institutions and methods, are introduced in the context of this historic winter to provide situational awareness guidance to western U.S. water managers.

AB - California experienced a historic run of nine consecutive landfalling atmospheric rivers (ARs) in three weeks’ time during winter 2022/23. Following three years of drought from 2020 to 2022, intense landfalling ARs across California in December 2022–January 2023 were responsible for bringing reservoirs back to historical averages and producing damaging floods and debris flows. In recent years, the Center for Western Weather and Water Extremes and collaborating institu-; tions have developed and routinely provided to end users peer-reviewed experimental seasonal (1–6 month lead time) and subseasonal (2–6 week lead time) prediction tools for western U.S. ARs, circulation regimes, and precipitation. Here, we evaluate the performance of experimental seasonal precipitation forecasts for winter 2022/23, along with experimental subseasonal AR activity and circulation forecasts during the December 2022 regime shift from dry conditions to persistent troughing and record AR-driven wetness over the western United States. Experimental seasonal precipitation forecasts were too dry across Southern California (likely due to their over-reliance on La Niña), and the observed above-normal precipitation across Northern and Central California was underpredicted. However, experimental subseasonal forecasts skillfully captured the regime shift from dry to wet conditions in late December 2022 at 2–3 week lead time. During this time, an active MJO shift from phases 4 and 5 to 6 and 7 occurred, which historically tilts the odds toward increased AR activity over California. New experimental seasonal and subseasonal synthesis forecast products, designed to aggregate information across institutions and methods, are introduced in the context of this historic winter to provide situational awareness guidance to western U.S. water managers.

KW - Atmospheric river

KW - Precipitation

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From California’s Extreme Drought to Major Flooding Evaluating and Synthesizing: Experimental Seasonal and Subseasonal Forecasts of Landfalling Atmospheric Rivers and Extreme Precipitation during Winter 2022/23

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