An evaluation of tropical waves and wave forcing of the QBO in the QBOi models

Laura A. Holt; François Lott; Rolando R. Garcia; George N. Kiladis; Yuan Ming Cheng; James A. Anstey; Peter Braesicke; Andrew C. Bushell; Neal Butchart; Chiara Cagnazzo; Chih Chieh Chen; Hye Yeong Chun; Yoshio Kawatani; Tobias Kerzenmacher; Young Ha Kim; Charles McLandress; Hiroaki Naoe; Scott Osprey; Jadwiga H. Richter; Adam A. Scaife; John Scinocca; Federico Serva; Stefan Versick; Shingo Watanabe; Kohei Yoshida; Seiji Yukimoto

doi:10.1002/qj.3827

An evaluation of tropical waves and wave forcing of the QBO in the QBOi models

Laura A. Holt, François Lott, Rolando R. Garcia, George N. Kiladis, Yuan Ming Cheng, James A. Anstey, Peter Braesicke, Andrew C. Bushell, Neal Butchart, Chiara Cagnazzo, Chih Chieh Chen, Hye Yeong Chun, Yoshio Kawatani, Tobias Kerzenmacher, Young Ha Kim, Charles McLandress, Hiroaki Naoe, Scott Osprey, Jadwiga H. Richter, Adam A. ScaifeJohn Scinocca, Federico Serva, Stefan Versick, Shingo Watanabe, Kohei Yoshida, Seiji Yukimoto

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46 Scopus citations

Abstract

We analyze the stratospheric waves in models participating in phase 1 of the Stratosphere–troposphere Processes And their Role in Climate (SPARC) Quasi-Biennial Oscillation initiative (QBOi). All models have robust Kelvin and mixed Rossby-gravity wave modes in winds and temperatures at 50 hPa and represent them better than most of the Coupled Model Intercomparison Project Phase 5 (CMIP5) models. There is still some spread among the models, especially concerning the mixed Rossby-gravity waves. We attribute the variability in equatorial waves among the QBOi models in part to the varying horizontal and vertical resolutions, to systematic biases in zonal winds, and to the considerable variability in convectively coupled waves in the troposphere among the models: only roughly half of the QBOi models have realistic convectively coupled Kelvin waves and only a few models have convectively coupled mixed Rossby-gravity waves. The models with stronger convectively coupled waves tend to produce larger zonal mean forcing due to resolved waves in the QBO region. Finally we evaluate the Eliassen–Palm (EP) flux and EP flux divergence of the resolved waves in the QBOi models. We find that there is a large spread in the forcing from resolved waves in the QBO region, and the resolved wave forcing has a robust correlation with model vertical resolution.

Original language	English
Pages (from-to)	1541-1567
Number of pages	27
Journal	Quarterly Journal of the Royal Meteorological Society
Volume	148
Issue number	744
DOIs	https://doi.org/10.1002/qj.3827
State	Published - Apr 1 2022
Externally published	Yes

Keywords

equatorial waves
quasi-biennial oscillation
wave–mean flow interaction

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10.1002/qj.3827

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Holt, L. A., Lott, F., Garcia, R. R., Kiladis, G. N., Cheng, Y. M., Anstey, J. A., Braesicke, P., Bushell, A. C., Butchart, N., Cagnazzo, C., Chen, C. C., Chun, H. Y., Kawatani, Y., Kerzenmacher, T., Kim, Y. H., McLandress, C., Naoe, H., Osprey, S., Richter, J. H., ... Yukimoto, S. (2022). An evaluation of tropical waves and wave forcing of the QBO in the QBOi models. Quarterly Journal of the Royal Meteorological Society, 148(744), 1541-1567. https://doi.org/10.1002/qj.3827

@article{f731a4f3af8f4a79a0ef8a7048bae7e0,

title = "An evaluation of tropical waves and wave forcing of the QBO in the QBOi models",

abstract = "We analyze the stratospheric waves in models participating in phase 1 of the Stratosphere–troposphere Processes And their Role in Climate (SPARC) Quasi-Biennial Oscillation initiative (QBOi). All models have robust Kelvin and mixed Rossby-gravity wave modes in winds and temperatures at 50 hPa and represent them better than most of the Coupled Model Intercomparison Project Phase 5 (CMIP5) models. There is still some spread among the models, especially concerning the mixed Rossby-gravity waves. We attribute the variability in equatorial waves among the QBOi models in part to the varying horizontal and vertical resolutions, to systematic biases in zonal winds, and to the considerable variability in convectively coupled waves in the troposphere among the models: only roughly half of the QBOi models have realistic convectively coupled Kelvin waves and only a few models have convectively coupled mixed Rossby-gravity waves. The models with stronger convectively coupled waves tend to produce larger zonal mean forcing due to resolved waves in the QBO region. Finally we evaluate the Eliassen–Palm (EP) flux and EP flux divergence of the resolved waves in the QBOi models. We find that there is a large spread in the forcing from resolved waves in the QBO region, and the resolved wave forcing has a robust correlation with model vertical resolution.",

keywords = "equatorial waves, quasi-biennial oscillation, wave–mean flow interaction",

author = "Holt, \{Laura A.\} and Fran{\c c}ois Lott and Garcia, \{Rolando R.\} and Kiladis, \{George N.\} and Cheng, \{Yuan Ming\} and Anstey, \{James A.\} and Peter Braesicke and Bushell, \{Andrew C.\} and Neal Butchart and Chiara Cagnazzo and Chen, \{Chih Chieh\} and Chun, \{Hye Yeong\} and Yoshio Kawatani and Tobias Kerzenmacher and Kim, \{Young Ha\} and Charles McLandress and Hiroaki Naoe and Scott Osprey and Richter, \{Jadwiga H.\} and Scaife, \{Adam A.\} and John Scinocca and Federico Serva and Stefan Versick and Shingo Watanabe and Kohei Yoshida and Seiji Yukimoto",

note = "Publisher Copyright: {\textcopyright} 2020 Royal Meteorological Society.",

year = "2022",

month = apr,

day = "1",

doi = "10.1002/qj.3827",

language = "English",

volume = "148",

pages = "1541--1567",

journal = "Quarterly Journal of the Royal Meteorological Society",

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Holt, LA, Lott, F, Garcia, RR, Kiladis, GN, Cheng, YM, Anstey, JA, Braesicke, P, Bushell, AC, Butchart, N, Cagnazzo, C, Chen, CC, Chun, HY, Kawatani, Y, Kerzenmacher, T, Kim, YH, McLandress, C, Naoe, H, Osprey, S, Richter, JH, Scaife, AA, Scinocca, J, Serva, F, Versick, S, Watanabe, S, Yoshida, K & Yukimoto, S 2022, 'An evaluation of tropical waves and wave forcing of the QBO in the QBOi models', Quarterly Journal of the Royal Meteorological Society, vol. 148, no. 744, pp. 1541-1567. https://doi.org/10.1002/qj.3827

TY - JOUR

T1 - An evaluation of tropical waves and wave forcing of the QBO in the QBOi models

AU - Holt, Laura A.

AU - Lott, François

AU - Garcia, Rolando R.

AU - Kiladis, George N.

AU - Cheng, Yuan Ming

AU - Anstey, James A.

AU - Braesicke, Peter

AU - Bushell, Andrew C.

AU - Butchart, Neal

AU - Cagnazzo, Chiara

AU - Chen, Chih Chieh

AU - Chun, Hye Yeong

AU - Kawatani, Yoshio

AU - Kerzenmacher, Tobias

AU - Kim, Young Ha

AU - McLandress, Charles

AU - Naoe, Hiroaki

AU - Osprey, Scott

AU - Richter, Jadwiga H.

AU - Scaife, Adam A.

AU - Scinocca, John

AU - Serva, Federico

AU - Versick, Stefan

AU - Watanabe, Shingo

AU - Yoshida, Kohei

AU - Yukimoto, Seiji

PY - 2022/4/1

Y1 - 2022/4/1

N2 - We analyze the stratospheric waves in models participating in phase 1 of the Stratosphere–troposphere Processes And their Role in Climate (SPARC) Quasi-Biennial Oscillation initiative (QBOi). All models have robust Kelvin and mixed Rossby-gravity wave modes in winds and temperatures at 50 hPa and represent them better than most of the Coupled Model Intercomparison Project Phase 5 (CMIP5) models. There is still some spread among the models, especially concerning the mixed Rossby-gravity waves. We attribute the variability in equatorial waves among the QBOi models in part to the varying horizontal and vertical resolutions, to systematic biases in zonal winds, and to the considerable variability in convectively coupled waves in the troposphere among the models: only roughly half of the QBOi models have realistic convectively coupled Kelvin waves and only a few models have convectively coupled mixed Rossby-gravity waves. The models with stronger convectively coupled waves tend to produce larger zonal mean forcing due to resolved waves in the QBO region. Finally we evaluate the Eliassen–Palm (EP) flux and EP flux divergence of the resolved waves in the QBOi models. We find that there is a large spread in the forcing from resolved waves in the QBO region, and the resolved wave forcing has a robust correlation with model vertical resolution.

AB - We analyze the stratospheric waves in models participating in phase 1 of the Stratosphere–troposphere Processes And their Role in Climate (SPARC) Quasi-Biennial Oscillation initiative (QBOi). All models have robust Kelvin and mixed Rossby-gravity wave modes in winds and temperatures at 50 hPa and represent them better than most of the Coupled Model Intercomparison Project Phase 5 (CMIP5) models. There is still some spread among the models, especially concerning the mixed Rossby-gravity waves. We attribute the variability in equatorial waves among the QBOi models in part to the varying horizontal and vertical resolutions, to systematic biases in zonal winds, and to the considerable variability in convectively coupled waves in the troposphere among the models: only roughly half of the QBOi models have realistic convectively coupled Kelvin waves and only a few models have convectively coupled mixed Rossby-gravity waves. The models with stronger convectively coupled waves tend to produce larger zonal mean forcing due to resolved waves in the QBO region. Finally we evaluate the Eliassen–Palm (EP) flux and EP flux divergence of the resolved waves in the QBOi models. We find that there is a large spread in the forcing from resolved waves in the QBO region, and the resolved wave forcing has a robust correlation with model vertical resolution.

KW - equatorial waves

KW - quasi-biennial oscillation

KW - wave–mean flow interaction

UR - https://www.scopus.com/pages/publications/85082681656

U2 - 10.1002/qj.3827

DO - 10.1002/qj.3827

M3 - Article

AN - SCOPUS:85082681656

SN - 0035-9009

VL - 148

SP - 1541

EP - 1567

JO - Quarterly Journal of the Royal Meteorological Society

JF - Quarterly Journal of the Royal Meteorological Society

IS - 744

ER -

An evaluation of tropical waves and wave forcing of the QBO in the QBOi models

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