Papers in Meteorology and Geophysics
Online ISSN : 1880-6643
Print ISSN : 0031-126X
ISSN-L : 0031-126X
Volume 54, Issue 3+4
Displaying 1-2 of 2 articles from this issue
Full Papers
  • Hidekazu Matsueda, Yousuke Sawa, Akira Wada, Hisayuki Y. Inoue, Kazuto ...
    Article type: Others
    Subject area: Others
    2004 Volume 54 Issue 3+4 Pages 91-109
    Published: 2004
    Released on J-STAGE: March 28, 2006
    A calibration system of standard gases for atmospheric methane measurements using a gas chromatograph equipped with a flame ionization detector was developed at the Meteorological Research Institute (MRI) in 1993 and later at the Japan Meteorological Agency (JMA) in 2000. Calibration results for the two systems exhibited good agreement. Although the primary standard gases of the MRI and JMA were prepared independently using the gravimetric method, their methane standard scales were quite similar, (a difference of less than 1 ppb). A comparison of gravimetric standards prepared by several Japanese gas companies showed a methane scale difference within ∼5 ppb relative to the primary standards of the MRI. These gravimetric-scale differences were primarily caused by methane impurities in the diluent air used for standard gas preparation. Long-term storage experiments indicated that the methane contents of standard gases were stable in high-pressure cylinders for 8-9 years. No significant drift of methane was found in any of the standard gases in the MRI; however, to evaluate the stability of the JMA standards, data collected over a longer period of time is required. We evaluated the differences between the methane scales of the MRI and other laboratories based on the previous intercomparison experiments. The differences found in the standard scales used by different laboratories were largely due to the diverse origins of the primary standard gases.
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Short Notes
  • Kunihiko Kodera, Kazutaka Yamada
    2004 Volume 54 Issue 3+4 Pages 111-116
    Published: 2004
    Released on J-STAGE: March 28, 2006
    A major stratospheric sudden warming occurred in the Southern Hemisphere (SH) in September 2002 and accompanied an obvious decrease in the tropical lower stratospheric temperature. A case study was done to investigate how deep the meridional circulation, associated with the stratospheric warming, produces detectable effects in the equatorial troposphere. The convective activity in the equatorial region shifted toward the southern hemisphere following the sudden warming. Residual circulation shows that the change is initiated by the equatorial upwelling induced by the stratospheric warming event.
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