Chemical evidence of inter-hemispheric air mass intrusion into the Northern Hemisphere mid-latitudes

S. Li; S. Park; J. Y. Lee; K. J. Ha; M. K. Park; C. O. Jo; H. Oh; J. Mühle; K. R. Kim; S. A. Montzka; S. O'Doherty; P. B. Krummel; E. Atlas; B. R. Miller; F. Moore; R. F. Weiss; S. C. Wofsy

doi:10.1038/s41598-018-22266-0

Chemical evidence of inter-hemispheric air mass intrusion into the Northern Hemisphere mid-latitudes

S. Li
, S. Park
, J. Y. Lee
, K. J. Ha
, M. K. Park
, C. O. Jo
, H. Oh
, J. Mühle
, K. R. Kim
, S. A. Montzka
, S. O'Doherty
, P. B. Krummel
, E. Atlas
, B. R. Miller
, F. Moore
, R. F. Weiss
, S. C. Wofsy

Kyungpook National University
Institute for Basic Science
Pusan National University
University of California at San Diego
Gwangju Institute of Science and Technology
National Oceanic and Atmospheric Administration
University of Bristol
CSIRO
University of Miami
University of Colorado Boulder
Harvard University

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

20 Scopus citations

Abstract

The East Asian Summer Monsoon driven by temperature and moisture gradients between the Asian continent and the Pacific Ocean, leads to approximately 50% of the annual rainfall in the region across 20-40°N. Due to its increasing scientific and social importance, there have been several previous studies on identification of moisture sources for summer monsoon rainfall over East Asia mainly using Lagrangian or Eulerian atmospheric water vapor models. The major source regions for EASM previously proposed include the North Indian Ocean, South China Sea and North western Pacific. Based on high-precision and high-frequency 6-year measurement records of hydrofluorocarbons (HFCs), here we report a direct evidence of rapid intrusion of warm and moist tropical air mass from the Southern Hemisphere (SH) reaching within a couple of days up to 33°N into East Asia. We further suggest that the combination of direct chemical tracer record and a back-trajectory model with physical meteorological variables helps pave the way to identify moisture sources for monsoon rainfall. A case study for Gosan station (33.25°N, 126.19°E) indicates that the meridional transport of precipitable water from the SH accompanying the southerly/southwesterly flow contributes most significantly to its summer rainfall.

Original language	English
Article number	4669
Journal	Scientific Reports
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41598-018-22266-0
State	Published - 1 Dec 2018

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Li, S., Park, S., Lee, J. Y., Ha, K. J., Park, M. K., Jo, C. O., Oh, H., Mühle, J., Kim, K. R., Montzka, S. A., O'Doherty, S., Krummel, P. B., Atlas, E., Miller, B. R., Moore, F., Weiss, R. F., & Wofsy, S. C. (2018). Chemical evidence of inter-hemispheric air mass intrusion into the Northern Hemisphere mid-latitudes. Scientific Reports, 8(1), Article 4669. https://doi.org/10.1038/s41598-018-22266-0

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title = "Chemical evidence of inter-hemispheric air mass intrusion into the Northern Hemisphere mid-latitudes",

abstract = "The East Asian Summer Monsoon driven by temperature and moisture gradients between the Asian continent and the Pacific Ocean, leads to approximately 50\% of the annual rainfall in the region across 20-40°N. Due to its increasing scientific and social importance, there have been several previous studies on identification of moisture sources for summer monsoon rainfall over East Asia mainly using Lagrangian or Eulerian atmospheric water vapor models. The major source regions for EASM previously proposed include the North Indian Ocean, South China Sea and North western Pacific. Based on high-precision and high-frequency 6-year measurement records of hydrofluorocarbons (HFCs), here we report a direct evidence of rapid intrusion of warm and moist tropical air mass from the Southern Hemisphere (SH) reaching within a couple of days up to 33°N into East Asia. We further suggest that the combination of direct chemical tracer record and a back-trajectory model with physical meteorological variables helps pave the way to identify moisture sources for monsoon rainfall. A case study for Gosan station (33.25°N, 126.19°E) indicates that the meridional transport of precipitable water from the SH accompanying the southerly/southwesterly flow contributes most significantly to its summer rainfall.",

author = "S. Li and S. Park and Lee, \{J. Y.\} and Ha, \{K. J.\} and Park, \{M. K.\} and Jo, \{C. O.\} and H. Oh and J. M{\"u}hle and Kim, \{K. R.\} and Montzka, \{S. A.\} and S. O'Doherty and Krummel, \{P. B.\} and E. Atlas and Miller, \{B. R.\} and F. Moore and Weiss, \{R. F.\} and Wofsy, \{S. C.\}",

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doi = "10.1038/s41598-018-22266-0",

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AU - Li, S.

AU - Park, S.

AU - Lee, J. Y.

AU - Ha, K. J.

AU - Park, M. K.

AU - Jo, C. O.

AU - Oh, H.

AU - Mühle, J.

AU - Kim, K. R.

AU - Montzka, S. A.

AU - O'Doherty, S.

AU - Krummel, P. B.

AU - Atlas, E.

AU - Miller, B. R.

AU - Moore, F.

AU - Weiss, R. F.

AU - Wofsy, S. C.

PY - 2018/12/1

Y1 - 2018/12/1

N2 - The East Asian Summer Monsoon driven by temperature and moisture gradients between the Asian continent and the Pacific Ocean, leads to approximately 50% of the annual rainfall in the region across 20-40°N. Due to its increasing scientific and social importance, there have been several previous studies on identification of moisture sources for summer monsoon rainfall over East Asia mainly using Lagrangian or Eulerian atmospheric water vapor models. The major source regions for EASM previously proposed include the North Indian Ocean, South China Sea and North western Pacific. Based on high-precision and high-frequency 6-year measurement records of hydrofluorocarbons (HFCs), here we report a direct evidence of rapid intrusion of warm and moist tropical air mass from the Southern Hemisphere (SH) reaching within a couple of days up to 33°N into East Asia. We further suggest that the combination of direct chemical tracer record and a back-trajectory model with physical meteorological variables helps pave the way to identify moisture sources for monsoon rainfall. A case study for Gosan station (33.25°N, 126.19°E) indicates that the meridional transport of precipitable water from the SH accompanying the southerly/southwesterly flow contributes most significantly to its summer rainfall.

AB - The East Asian Summer Monsoon driven by temperature and moisture gradients between the Asian continent and the Pacific Ocean, leads to approximately 50% of the annual rainfall in the region across 20-40°N. Due to its increasing scientific and social importance, there have been several previous studies on identification of moisture sources for summer monsoon rainfall over East Asia mainly using Lagrangian or Eulerian atmospheric water vapor models. The major source regions for EASM previously proposed include the North Indian Ocean, South China Sea and North western Pacific. Based on high-precision and high-frequency 6-year measurement records of hydrofluorocarbons (HFCs), here we report a direct evidence of rapid intrusion of warm and moist tropical air mass from the Southern Hemisphere (SH) reaching within a couple of days up to 33°N into East Asia. We further suggest that the combination of direct chemical tracer record and a back-trajectory model with physical meteorological variables helps pave the way to identify moisture sources for monsoon rainfall. A case study for Gosan station (33.25°N, 126.19°E) indicates that the meridional transport of precipitable water from the SH accompanying the southerly/southwesterly flow contributes most significantly to its summer rainfall.

UR - https://www.scopus.com/pages/publications/85044284255

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DO - 10.1038/s41598-018-22266-0

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AN - SCOPUS:85044284255

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VL - 8

JO - Scientific Reports

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IS - 1

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ER -

Chemical evidence of inter-hemispheric air mass intrusion into the Northern Hemisphere mid-latitudes

Abstract

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