Abstract
Abstract. We present the mixing ratio, δ13C and δD of atmospheric CH4 using commercial aircraft in the upper troposphere (UT) over the Western Pacific for the period December 2005–September 2010. The observed results were compared with those obtained using commercial container ships in the lower troposphere (LT) over the same region. In the Northern Hemisphere (NH), the UT CH4 mixing ratio shows high values in the boreal summer–autumn, when the LT CH4 mixing ratio reaches a seasonal minimum. From tagged tracer experiments made using an atmospheric chemistry transport model, we found that such high CH4 values are due to rapid transport of air masses influenced by CH4 sources in South Asia and East Asia. The observed isotopic ratio data imply that these areas have CH4 sources with relatively low δ13C and δD signatures such as biogenic sources. Latitudinal distributions of the annual average UT and LT CH4 mixing ratio intersect each other in the tropics; the mixing ratio value is lower in the UT than in the LT in the NH and the situation is reversed in the Southern Hemisphere (SH), due mainly to the NH air intrusion into the SH through the UT. Such intersection of the latitudinal distributions is observable in δD but not in δ13C, implying an additional contribution from reaction of CH4 with active chlorine in the marine boundary layer. δ13C and δD show low values in the NH and high values in the SH both in the UT and in the LT. We also observed an increase in the CH4 mixing ratio and decreases in δ13C and δ
Highlights
Methane (CH4) is an important trace gas in atmospheric chemistry and climate
Comparisons of the National Institute for Environmental Studies (NIES) and Tohoku University (TU) scales have been made several times, and the results show that the two scales agree with each other, the differences at baseline atmospheric mixing ratio levels being less than 1 ppb
Since the original air samplings were made at intervals of 5◦ latitude and every sample was analyzed for the CH4 mixing ratio, we inspected the CH4 mixing ratio data taken at individual sampling latitudes from 35◦ N to 40◦ S
Summary
Methane (CH4) is an important trace gas in atmospheric chemistry and climate. CH4 is emitted into the atmosphere from natural and anthropogenic sources, and it is destroyed mainly by reaction with hydroxyl radical (OH) in the troposphere. Based on an Instrument Container) (Brenninkmeijer et al, 2007) This program reported an interesting phenomenon that the mixing ratios of greenhouse gases and nonmethane hydrocarbons are high in the UT (approximately 10–12 km) over South Asia during the Asian summer monsoon season of June–September (Schuck et al, 2010; Baker et al, 2011). In order to understand spatial and temporal variations of δ13C and δD in the UT over the Western Pacific, we analyzed the CONTRAIL air samples for these variables, in addition to the CH4 mixing ratio. The collection of air samples were made almost twice a month between Narita (NRT), Japan and Sydney (SYD)
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