Stratospheric Nudging And Predictable Surface Impacts (SNAPSI): a protocol for investigating the role of stratospheric polar vortex disturbances in subseasonal to seasonal forecasts

Peter Hitchcock; Amy Butler; Andrew Charlton-Perez; Chaim I. Garfinkel; Tim Stockdale; James Anstey; Dann Mitchell; Daniela I.V. Domeisen; Tongwen Wu; Yixiong Lu; Daniele Mastrangelo; Piero Malguzzi; Hai Lin; Ryan Muncaster; Bill Merryfield; Michael Sigmond; Baoqiang Xiang; Liwei Jia; Yu Kyung Hyun; Jiyoung Oh; Damien Specq; Isla R. Simpson; Jadwiga H. Richter; Cory Barton; Jeff Knight; Eun Pa Lim; Harry Hendon

doi:10.5194/gmd-15-5073-2022

Stratospheric Nudging And Predictable Surface Impacts (SNAPSI): a protocol for investigating the role of stratospheric polar vortex disturbances in subseasonal to seasonal forecasts

Peter Hitchcock^*, Amy Butler, Andrew Charlton-Perez, Chaim I. Garfinkel, Tim Stockdale, James Anstey, Dann Mitchell, Daniela I.V. Domeisen, Tongwen Wu, Yixiong Lu, Daniele Mastrangelo, Piero Malguzzi, Hai Lin, Ryan Muncaster, Bill Merryfield, Michael Sigmond, Baoqiang Xiang, Liwei Jia, Yu Kyung Hyun, Jiyoung OhDamien Specq, Isla R. Simpson, Jadwiga H. Richter, Cory Barton, Jeff Knight, Eun Pa Lim, Harry Hendon

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

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Abstract

Major disruptions of the winter season, high-latitude stratospheric polar vortices can result in stratospheric anomalies that persist for months. These sudden stratospheric warming events are recognized as an important potential source of forecast skill for surface climate on subseasonal to seasonal timescales. Realizing this skill in operational subseasonal forecast models remains a challenge, as models must capture both the evolution of the stratospheric polar vortices in addition to their coupling to the troposphere. The processes involved in this coupling remain a topic of open research. We present here the Stratospheric Nudging And Predictable Surface Impacts (SNAPSI) project. SNAPSI is a new model intercomparison protocol designed to study the role of the Arctic and Antarctic stratospheric polar vortex disturbances for surface predictability in subseasonal to seasonal forecast models. Based on a set of controlled, subseasonal ensemble forecasts of three recent events, the protocol aims to address four main scientific goals. First, to quantify the impact of improved stratospheric forecasts on near-surface forecast skill. Second, to attribute specific extreme events to stratospheric variability. Third, to assess the mechanisms by which the stratosphere influences the troposphere in the forecast models. Fourth, to investigate the wave processes that lead to the stratospheric anomalies themselves. Although not a primary focus, the experiments are furthermore expected to shed light on coupling between the tropical stratosphere and troposphere. The output requested will allow for a more detailed, process-based community analysis than has been possible with existing databases of subseasonal forecasts.

Original language	English
Pages (from-to)	5073-5092
Number of pages	20
Journal	Geoscientific Model Development
Volume	15
Issue number	13
DOIs	https://doi.org/10.5194/gmd-15-5073-2022
Publication status	Published - 4 Jul 2022

Bibliographical note

Funding Information:
Financial support. This research has been supported by the Euro-

Funding Information:
This project is coordinated by the Stratospheric Network for the Assessment of Predictability (SNAP) working group that is a joint activity of the World Climate Research Programme (WCRP) Stratosphere-troposphere Processes and their Role in Climate (SPARC) project and of the Subseasonal-to-Seasonal Prediction (S2S) project that is supported by both the WCRP and the World Weather Research Programme (WWRP).

Funding Information:
This research has been supported by the European Research Council starting grant under the European Union's Horizon 2020 research and innovation program (grant no. 677756.

Publisher Copyright:
© 2022 Peter Hitchcock et al.

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Hitchcock, P., Butler, A., Charlton-Perez, A., Garfinkel, C. I., Stockdale, T., Anstey, J., Mitchell, D., Domeisen, D. I. V., Wu, T., Lu, Y., Mastrangelo, D., Malguzzi, P., Lin, H., Muncaster, R., Merryfield, B., Sigmond, M., Xiang, B., Jia, L., Hyun, Y. K., ... Hendon, H. (2022). Stratospheric Nudging And Predictable Surface Impacts (SNAPSI): a protocol for investigating the role of stratospheric polar vortex disturbances in subseasonal to seasonal forecasts. Geoscientific Model Development, 15(13), 5073-5092. https://doi.org/10.5194/gmd-15-5073-2022

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title = "Stratospheric Nudging And Predictable Surface Impacts (SNAPSI): a protocol for investigating the role of stratospheric polar vortex disturbances in subseasonal to seasonal forecasts",

abstract = "Major disruptions of the winter season, high-latitude stratospheric polar vortices can result in stratospheric anomalies that persist for months. These sudden stratospheric warming events are recognized as an important potential source of forecast skill for surface climate on subseasonal to seasonal timescales. Realizing this skill in operational subseasonal forecast models remains a challenge, as models must capture both the evolution of the stratospheric polar vortices in addition to their coupling to the troposphere. The processes involved in this coupling remain a topic of open research. We present here the Stratospheric Nudging And Predictable Surface Impacts (SNAPSI) project. SNAPSI is a new model intercomparison protocol designed to study the role of the Arctic and Antarctic stratospheric polar vortex disturbances for surface predictability in subseasonal to seasonal forecast models. Based on a set of controlled, subseasonal ensemble forecasts of three recent events, the protocol aims to address four main scientific goals. First, to quantify the impact of improved stratospheric forecasts on near-surface forecast skill. Second, to attribute specific extreme events to stratospheric variability. Third, to assess the mechanisms by which the stratosphere influences the troposphere in the forecast models. Fourth, to investigate the wave processes that lead to the stratospheric anomalies themselves. Although not a primary focus, the experiments are furthermore expected to shed light on coupling between the tropical stratosphere and troposphere. The output requested will allow for a more detailed, process-based community analysis than has been possible with existing databases of subseasonal forecasts. ",

author = "Peter Hitchcock and Amy Butler and Andrew Charlton-Perez and Garfinkel, {Chaim I.} and Tim Stockdale and James Anstey and Dann Mitchell and Domeisen, {Daniela I.V.} and Tongwen Wu and Yixiong Lu and Daniele Mastrangelo and Piero Malguzzi and Hai Lin and Ryan Muncaster and Bill Merryfield and Michael Sigmond and Baoqiang Xiang and Liwei Jia and Hyun, {Yu Kyung} and Jiyoung Oh and Damien Specq and Simpson, {Isla R.} and Richter, {Jadwiga H.} and Cory Barton and Jeff Knight and Lim, {Eun Pa} and Harry Hendon",

note = "Funding Information: Financial support. This research has been supported by the Euro- Funding Information: This project is coordinated by the Stratospheric Network for the Assessment of Predictability (SNAP) working group that is a joint activity of the World Climate Research Programme (WCRP) Stratosphere-troposphere Processes and their Role in Climate (SPARC) project and of the Subseasonal-to-Seasonal Prediction (S2S) project that is supported by both the WCRP and the World Weather Research Programme (WWRP). Funding Information: This research has been supported by the European Research Council starting grant under the European Union's Horizon 2020 research and innovation program (grant no. 677756. Publisher Copyright: {\textcopyright} 2022 Peter Hitchcock et al.",

year = "2022",

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doi = "10.5194/gmd-15-5073-2022",

language = "English",

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Hitchcock, P, Butler, A, Charlton-Perez, A, Garfinkel, CI, Stockdale, T, Anstey, J, Mitchell, D, Domeisen, DIV, Wu, T, Lu, Y, Mastrangelo, D, Malguzzi, P, Lin, H, Muncaster, R, Merryfield, B, Sigmond, M, Xiang, B, Jia, L, Hyun, YK, Oh, J, Specq, D, Simpson, IR, Richter, JH, Barton, C, Knight, J, Lim, EP & Hendon, H 2022, 'Stratospheric Nudging And Predictable Surface Impacts (SNAPSI): a protocol for investigating the role of stratospheric polar vortex disturbances in subseasonal to seasonal forecasts', Geoscientific Model Development, vol. 15, no. 13, pp. 5073-5092. https://doi.org/10.5194/gmd-15-5073-2022

Stratospheric Nudging And Predictable Surface Impacts (SNAPSI): a protocol for investigating the role of stratospheric polar vortex disturbances in subseasonal to seasonal forecasts. / Hitchcock, Peter; Butler, Amy; Charlton-Perez, Andrew et al.
In: Geoscientific Model Development, Vol. 15, No. 13, 04.07.2022, p. 5073-5092.

Research output: Contribution to journal › Article (Academic Journal) › peer-review

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T2 - a protocol for investigating the role of stratospheric polar vortex disturbances in subseasonal to seasonal forecasts

AU - Hitchcock, Peter

AU - Butler, Amy

AU - Charlton-Perez, Andrew

AU - Garfinkel, Chaim I.

AU - Stockdale, Tim

AU - Anstey, James

AU - Mitchell, Dann

AU - Domeisen, Daniela I.V.

AU - Wu, Tongwen

AU - Lu, Yixiong

AU - Mastrangelo, Daniele

AU - Malguzzi, Piero

AU - Lin, Hai

AU - Muncaster, Ryan

AU - Merryfield, Bill

AU - Sigmond, Michael

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AU - Jia, Liwei

AU - Hyun, Yu Kyung

AU - Oh, Jiyoung

AU - Specq, Damien

AU - Simpson, Isla R.

AU - Richter, Jadwiga H.

AU - Barton, Cory

AU - Knight, Jeff

AU - Lim, Eun Pa

AU - Hendon, Harry

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PY - 2022/7/4

Y1 - 2022/7/4

N2 - Major disruptions of the winter season, high-latitude stratospheric polar vortices can result in stratospheric anomalies that persist for months. These sudden stratospheric warming events are recognized as an important potential source of forecast skill for surface climate on subseasonal to seasonal timescales. Realizing this skill in operational subseasonal forecast models remains a challenge, as models must capture both the evolution of the stratospheric polar vortices in addition to their coupling to the troposphere. The processes involved in this coupling remain a topic of open research. We present here the Stratospheric Nudging And Predictable Surface Impacts (SNAPSI) project. SNAPSI is a new model intercomparison protocol designed to study the role of the Arctic and Antarctic stratospheric polar vortex disturbances for surface predictability in subseasonal to seasonal forecast models. Based on a set of controlled, subseasonal ensemble forecasts of three recent events, the protocol aims to address four main scientific goals. First, to quantify the impact of improved stratospheric forecasts on near-surface forecast skill. Second, to attribute specific extreme events to stratospheric variability. Third, to assess the mechanisms by which the stratosphere influences the troposphere in the forecast models. Fourth, to investigate the wave processes that lead to the stratospheric anomalies themselves. Although not a primary focus, the experiments are furthermore expected to shed light on coupling between the tropical stratosphere and troposphere. The output requested will allow for a more detailed, process-based community analysis than has been possible with existing databases of subseasonal forecasts.

AB - Major disruptions of the winter season, high-latitude stratospheric polar vortices can result in stratospheric anomalies that persist for months. These sudden stratospheric warming events are recognized as an important potential source of forecast skill for surface climate on subseasonal to seasonal timescales. Realizing this skill in operational subseasonal forecast models remains a challenge, as models must capture both the evolution of the stratospheric polar vortices in addition to their coupling to the troposphere. The processes involved in this coupling remain a topic of open research. We present here the Stratospheric Nudging And Predictable Surface Impacts (SNAPSI) project. SNAPSI is a new model intercomparison protocol designed to study the role of the Arctic and Antarctic stratospheric polar vortex disturbances for surface predictability in subseasonal to seasonal forecast models. Based on a set of controlled, subseasonal ensemble forecasts of three recent events, the protocol aims to address four main scientific goals. First, to quantify the impact of improved stratospheric forecasts on near-surface forecast skill. Second, to attribute specific extreme events to stratospheric variability. Third, to assess the mechanisms by which the stratosphere influences the troposphere in the forecast models. Fourth, to investigate the wave processes that lead to the stratospheric anomalies themselves. Although not a primary focus, the experiments are furthermore expected to shed light on coupling between the tropical stratosphere and troposphere. The output requested will allow for a more detailed, process-based community analysis than has been possible with existing databases of subseasonal forecasts.

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SN - 1991-959X

VL - 15

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JO - Geoscientific Model Development

JF - Geoscientific Model Development

IS - 13

ER -

Stratospheric Nudging And Predictable Surface Impacts (SNAPSI): a protocol for investigating the role of stratospheric polar vortex disturbances in subseasonal to seasonal forecasts

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