Molecular hydrogen (H₂) plays a significant role in global atmospheric chemistry due to its role in CH₄ -CO-OH cycling and water vapor source in the stratosphere. The balance of H₂ could change with the implementation of a new H₂ energy carrier. Therefore, it is important to establish its global budget and atmospheric trend (WMO/GAW Report No.197, 2011).
We started atmospheric H₂ measurement at Minamitorishima (MNM) from Nov. 2011. The measurement system using a GC-RGD (gas chromatographs equipped with a reduction gas detector) was installed for sirmulteneouse analyses of H2 and carbon monoxide at 3 stations of MNM, Yonagunijima (YON), and Ryori (RYO) operated by Japan Meteorological Agency (JMA). In this study, high-precision H2 standard gases are prepared to determine the atmospheric concentrations from the output signal of the GC/RGD.
The H₂ concentrations at MNM varied seasonally from 490 ppb to 560 ppb with a yearly mean of about 520 ppb. The H₂ variations often show distinct episodic events with enhanced concentrations on a synoptic scale in winter. This result indicates that H₂ increases are caused by the long-range transport of Asian polluted air masses to the station, suggesting that H₂ is a good tracer for identifying continental air masses in winter season. On the other hand, the H₂ concentrations are higher and stable in summer season. This result indicates that the maritime air masses are dominated, and the influence of soil absorption was small.