Publication Abstracts
Kawatani et al. 2024, submitted
Kawatani, Y., K. Hamilton, S. Watanabe, J.A. Anstey, J.H. Richter, N. Butchart, , S.M. Osprey, H. Naoe, D. Elsbury, C.-C. Chen, J. García-Serrano, A. Glanville, T. Kerzenmacher, F. Lott, F.M. Palmerio, M. Park, F. Serva, M. Taguchi, S. Versick, and K. Yoshioda, 2024: QBOi El Niño Southern Oscillation experiments — Part I: Overview of experiment design and ENSO modulation of the QBO. Weather Clim. Dyn., submitted.
Stratosphere-troposphere Processes And their Role in Climate (SPARC) Quasi-Biennial Oscillation initiative (QBOi) project has conducted new experiments to explore the modulation of the QBO by El Niño-Southern Oscillation (ENSO). This paper provides an overview of the experiment design and investigates the modulation of the QBO by ENSO using nine climate models from the QBOi. A key finding is a consistent lengthening of the QBO period during La Niña compared to El Niño across all models, aligning with observational evidence. However, the magnitude of this lengthening shows large intermodel differences. By contrast, even the sign of the ENSO effect on QBO amplitude varies among models — models employing variable parameterized gravity wave sources generally exhibit greater sensitivity of the QBO amplitude to the presence of ENSO than those models using fixed sources. The models capture key observed ENSO-related characteristics, including a weaker Walker circulation and increased equatorial precipitation during El Niño compared to La Niña, as well as a characteristic response in zonal mean zonal wind and temperature. These modulations influence the propagation and filtering of gravity waves. Notably, models with variable parameterized gravity wave sources show stronger wave forcing during El Niño, potentially explaining the shorter QBO period modulation in these models. Further investigation into the complex interplay between ENSO, gravity waves, and the QBO can contribute to improved model formulations.
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BibTeX Citation
@unpublished{ka05500d,
author={Kawatani, Y. and Hamilton, K. and Watanabe, S. and Anstey, J. A. and Richter, J. H. and Butchart, N. and Orbe, C. and Osprey, S. M. and Naoe, H. and Elsbury, D. and Chen, C.-C. and García-Serrano, J. and Glanville, A. and Kerzenmacher, T. and Lott, F. and Palmerio, F. M. and Park, M. and Serva, F. and Taguchi, M. and Versick, S. and Yoshioda, K.},
title={QBOi El Niño Southern Oscillation experiments — Part I: Overview of experiment design and ENSO modulation of the QBO},
year={2024},
journal={Weather Clim. Dyn.},
note={Manuscript submitted for publication}
}
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RIS Citation
TY - UNPB ID - ka05500d AU - Kawatani, Y. AU - Hamilton, K. AU - Watanabe, S. AU - Anstey, J. A. AU - Richter, J. H. AU - Butchart, N. AU - Orbe, C. AU - Osprey, S. M. AU - Naoe, H. AU - Elsbury, D. AU - Chen, C.-C. AU - García-Serrano, J. AU - Glanville, A. AU - Kerzenmacher, T. AU - Lott, F. AU - Palmerio, F. M. AU - Park, M. AU - Serva, F. AU - Taguchi, M. AU - Versick, S. AU - Yoshioda, K. PY - 2024 TI - QBOi El Niño Southern Oscillation experiments — Part I: Overview of experiment design and ENSO modulation of the QBO JA - Weather Clim. Dyn. ER -
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