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Mean flow and eddy summer moisture transport over East Asia in reanalysis data and a regional climate simulation

Publication ,  Journal Article
Kukulies, J; Li, W; Chen, D
Published in: Climate Dynamics
August 1, 2024

Understanding the impact of atmospheric variability on climatological mean moisture transport is crucial because moisture transport determines continental water availability as well as convective organization and resulting precipitation. Here, we analyze the mean flow and eddy components of summer moisture transport in the downwind of the Tibetan Plateau (TP), a region that is characterized by interactions between monsoon systems, extratropical circulation, and mountainous weather systems. Using 40 years of ERA5 reanalysis data and a regional WRF simulation, we determine the absolute and relative contributions of mean flow and eddy moisture transport from multi-daily to sub-daily scales. We also link these components to large-scale circulation indices, precipitation, evaporation, and mesoscale convective systems (MCSs). The results show that the largest contributions of eddies to the climatological mean moisture transport are found in the immediate downwind region of the TP. Half of the total eddy transport downwind of the TP is due to multi-daily eddy transport and the other half is due to daily to sub-daily eddy transport. Regional precipitation anomalies are dominated by the mean flow component of southerly moisture influxes which in turn are positively correlated with different South Asian summer monsoon indices and negatively correlated with the West Northern Pacific monsoon index. The eddy transport from the south is positively correlated with a lower jet latitude but does not show any significant correlations with precipitation or MCS activity, likely due to the dominant role of the mean flow moisture transport. While the relative contributions of eddies to the climatological mean moisture transport are similar in ERA5 and WRF, the correlations between moisture transport components and large-scale circulation indices are generally weaker in WRF. This suggests that the dynamical downscaling does not significantly change the role of eddy moisture transport averaged for the region, but it resolves processes that decouple the moisture transport from its large-scale forcing.

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Published In

Climate Dynamics

DOI

EISSN

1432-0894

ISSN

0930-7575

Publication Date

August 1, 2024

Volume

62

Issue

8

Start / End Page

8073 / 8097

Related Subject Headings

  • Meteorology & Atmospheric Sciences
  • 3708 Oceanography
  • 3702 Climate change science
  • 3701 Atmospheric sciences
  • 0406 Physical Geography and Environmental Geoscience
  • 0405 Oceanography
  • 0401 Atmospheric Sciences
 

Citation

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Kukulies, J., Li, W., & Chen, D. (2024). Mean flow and eddy summer moisture transport over East Asia in reanalysis data and a regional climate simulation. Climate Dynamics, 62(8), 8073–8097. https://doi.org/10.1007/s00382-024-07324-w
Kukulies, J., W. Li, and D. Chen. “Mean flow and eddy summer moisture transport over East Asia in reanalysis data and a regional climate simulation.” Climate Dynamics 62, no. 8 (August 1, 2024): 8073–97. https://doi.org/10.1007/s00382-024-07324-w.
Kukulies, J., et al. “Mean flow and eddy summer moisture transport over East Asia in reanalysis data and a regional climate simulation.” Climate Dynamics, vol. 62, no. 8, Aug. 2024, pp. 8073–97. Scopus, doi:10.1007/s00382-024-07324-w.
Kukulies J, Li W, Chen D. Mean flow and eddy summer moisture transport over East Asia in reanalysis data and a regional climate simulation. Climate Dynamics. 2024 Aug 1;62(8):8073–8097.
Journal cover image

Published In

Climate Dynamics

DOI

EISSN

1432-0894

ISSN

0930-7575

Publication Date

August 1, 2024

Volume

62

Issue

8

Start / End Page

8073 / 8097

Related Subject Headings

  • Meteorology & Atmospheric Sciences
  • 3708 Oceanography
  • 3702 Climate change science
  • 3701 Atmospheric sciences
  • 0406 Physical Geography and Environmental Geoscience
  • 0405 Oceanography
  • 0401 Atmospheric Sciences