Water vapor control at the tropopause by equatoria Kelvin waves observes over the Galápagos

M. Fujiwara; F. Hasebe; M. Shiotani; N. Nishi; H. Vömel; S. J. Oltmans

doi:10.1029/2001GL013310

Water vapor control at the tropopause by equatoria Kelvin waves observes over the Galápagos

M. Fujiwara
, F. Hasebe
, M. Shiotani
, N. Nishi
, H. Vömel
, S. J. Oltmans

Kyoto University

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

66 Scopus citations

Abstract

Soundings of frost-point hygrometers, ozonesondes, and radiosondes at San Cristóbal Island (0.9°S, 89.6°W) in September 1998 provide an observational evidence that equatorial Kelvin waves around the tropopause act as a dehydration pump for the stratosphere. During the downward-displacement phase of a Kelvin wave, dry and ozone-rich stratospheric air is transported into the upper troposphere. During the upward-displacement phase, on the other hand, higher specific-humidity air moves up in the tropopause region, but at the same time, this upward motion causes cooling of the air that limits the water vapor amount entering the stratosphere. Also, wave breaking contributes to the irreversible transport of ozone across the tropopause. Considering their omnipresence at the equatorial tropopause, we suggest that Kelvin waves may be one of the important agents for maintaining the dryness of the tropical lower stratosphere.

Original language	English
Pages (from-to)	3143-3146
Number of pages	4
Journal	Geophysical Research Letters
Volume	28
Issue number	16
DOIs	https://doi.org/10.1029/2001GL013310
State	Published - Aug 15 2001

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10.1029/2001GL013310

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title = "Water vapor control at the tropopause by equatoria Kelvin waves observes over the Gal{\'a}pagos",

abstract = "Soundings of frost-point hygrometers, ozonesondes, and radiosondes at San Crist{\'o}bal Island (0.9°S, 89.6°W) in September 1998 provide an observational evidence that equatorial Kelvin waves around the tropopause act as a dehydration pump for the stratosphere. During the downward-displacement phase of a Kelvin wave, dry and ozone-rich stratospheric air is transported into the upper troposphere. During the upward-displacement phase, on the other hand, higher specific-humidity air moves up in the tropopause region, but at the same time, this upward motion causes cooling of the air that limits the water vapor amount entering the stratosphere. Also, wave breaking contributes to the irreversible transport of ozone across the tropopause. Considering their omnipresence at the equatorial tropopause, we suggest that Kelvin waves may be one of the important agents for maintaining the dryness of the tropical lower stratosphere.",

author = "M. Fujiwara and F. Hasebe and M. Shiotani and N. Nishi and H. V{\"o}mel and Oltmans, \{S. J.\}",

year = "2001",

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TY - JOUR

T1 - Water vapor control at the tropopause by equatoria Kelvin waves observes over the Galápagos

AU - Fujiwara, M.

AU - Hasebe, F.

AU - Shiotani, M.

AU - Nishi, N.

AU - Vömel, H.

AU - Oltmans, S. J.

PY - 2001/8/15

Y1 - 2001/8/15

N2 - Soundings of frost-point hygrometers, ozonesondes, and radiosondes at San Cristóbal Island (0.9°S, 89.6°W) in September 1998 provide an observational evidence that equatorial Kelvin waves around the tropopause act as a dehydration pump for the stratosphere. During the downward-displacement phase of a Kelvin wave, dry and ozone-rich stratospheric air is transported into the upper troposphere. During the upward-displacement phase, on the other hand, higher specific-humidity air moves up in the tropopause region, but at the same time, this upward motion causes cooling of the air that limits the water vapor amount entering the stratosphere. Also, wave breaking contributes to the irreversible transport of ozone across the tropopause. Considering their omnipresence at the equatorial tropopause, we suggest that Kelvin waves may be one of the important agents for maintaining the dryness of the tropical lower stratosphere.

AB - Soundings of frost-point hygrometers, ozonesondes, and radiosondes at San Cristóbal Island (0.9°S, 89.6°W) in September 1998 provide an observational evidence that equatorial Kelvin waves around the tropopause act as a dehydration pump for the stratosphere. During the downward-displacement phase of a Kelvin wave, dry and ozone-rich stratospheric air is transported into the upper troposphere. During the upward-displacement phase, on the other hand, higher specific-humidity air moves up in the tropopause region, but at the same time, this upward motion causes cooling of the air that limits the water vapor amount entering the stratosphere. Also, wave breaking contributes to the irreversible transport of ozone across the tropopause. Considering their omnipresence at the equatorial tropopause, we suggest that Kelvin waves may be one of the important agents for maintaining the dryness of the tropical lower stratosphere.

UR - https://www.scopus.com/pages/publications/0035880498

U2 - 10.1029/2001GL013310

DO - 10.1029/2001GL013310

M3 - Article

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EP - 3146

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 16

ER -

Water vapor control at the tropopause by equatoria Kelvin waves observes over the Galápagos

Abstract

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