A large emission of air pollutants from the Asian continent has caused transboundary air pollution, especially in northeastern Asia. This paper evaluates sulfate deposition at a leeward area of Asian continent, i.e., the Nagaoka observation station located along the Sea of japan. We have monitored atmospheric sulfate deposition and its sulfur isotopic ratio for 28 years at the station. The sulfur isotopic ratios of non-sea-salt sulfate (delta(34)Snss) ranged from 0.0 to +6.2 parts per thousand. The isotopic ratios of local emission and Chinese coal sulfur showed negative and positive values, respectively. Several statistically significant trends were detected on the deposition of non-sea-salt sulfate (nss-SO42-) during the study period. The decrease of nss-SO42- deposition since the middle of 1980s was considered to have been caused by local anthropogenic SO2 emission that showed relatively low delta(34)Snss values during the period. The increase of nss-SO42- deposition from the end of 1990s to the second half of 2000s was interpreted to have been caused by the change in SO2 emission in China because the delta(34)Snss values increased during the period with the winter values getting closer to the averaged value of Chinese coal sulfur. The decreasing trend of nss-SO42- deposition from the middle of 2000s was likely affected by reduction of Chinese SO2 emission judging from the decrease in delta(34)Snss values in the period. Mass balance calculations suggested that sulfur released by coal combustion in China during 1990s contributed by about 409 of annual total sulfur deposition in Nagaoka, and its contribution increased up to 60% in the middle of 2000s. The contribution turned to decrease after that peak, which was in harmony with the temporal change of emission from China.

• 出版日期2016-9