2000 - 2020年日本硫氮沉降量长期趋势及年变化影响因素的数值分析

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES

Asian Journal of Atmospheric Environment Pub Date : 2025-01-31 DOI:10.1007/s44273-025-00052-5

Satoru Chatani, Hikari Shimadera, Kyo Kitayama, Kazuya Nishina

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引用次数: 0

摘要

硫和氮从大气中沉积到地表对生态系统有害。本研究进行了长期空气质量模拟，以量化日本人为排放、气象领域、跨界运输和火山排放等因素对2000 - 2020年日本硫和氮沉积的长期趋势和年变化的影响。空气质量模拟能较好地再现湿沉降量的长期趋势和年变化，而模拟的干沉降量可能包含较大的不确定性。在整个研究期间（2000-2020年），日本大部分地区硫沉积的减少趋势具有统计学意义。它们是由日本和中国人为二氧化硫排放量的减少造成的，这是通过实施严格的排放控制来实现的，以及2000年爆发的Miyakejima火山的二氧化硫排放量逐渐减少。在研究期的前半期（2000-2010年），日本的氮沉降没有明显的下降趋势。日本人为氮氧化物排放量减少造成的减少被中国氮氧化物排放量增加和硝酸盐（而非硫酸盐）气体-气溶胶分配的变化所补偿。在研究期后半段（2010-2020年），在中国人为NOx排放开始下降之后，日本氮沉降的下降趋势具有统计学意义。气象场主要影响氮沉降量的年变化。该研究表明，长期空气质量模拟有助于量化各种因素对硫和氮沉积长期趋势和年变化的影响。图形抽象

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Numerical analysis of factors causing long-term trends and annual variations of sulfur and nitrogen deposition amount in Japan from 2000 to 2020

The deposition of sulfur and nitrogen from the atmosphere to the ground surface is harmful to ecosystems. This study performed long-term air quality simulations to quantify the influences of factors, including anthropogenic emissions in Japan, meteorological fields, transboundary transport, and volcanic emissions, on the long-term trends and annual variations in sulfur and nitrogen deposition in Japan from 2000 to 2020. The air quality simulations performed well in reproducing the long-term trends and annual variations in the wet deposition amount, whereas the simulated dry deposition amount may contain larger uncertainties. The decreasing trends in sulfur deposition were statistically significant during the entire study period (2000–2020) in most of Japan. They were caused by the reduction of anthropogenic SO₂ emissions in Japan and China, which was accomplished by the implementation of stringent emission controls, as well as a gradual decrease in SO₂ emissions from the Miyakejima volcano, which erupted in 2000. No significant decreasing trends were found in nitrogen deposition in Japan during the first half of the study period (2000–2010). Decreases caused by the reduction in anthropogenic NO_x emissions in Japan were compensated for by increases caused by increasing NO_x emissions in China and changes in the gas-aerosol partitioning of nitrates instead of sulfates. The decreasing trend in nitrogen deposition in Japan became statistically significant during the second half of the study period (2010–2020) after anthropogenic NO_x emissions started to decline in China. Meteorological fields primarily influenced annual variations in the amount of nitrogen deposition. This study reveals that long-term air quality simulations are useful for quantifying the influences of various factors on long-term trends and annual variations in sulfur and nitrogen deposition.