南亚三个站点大气黑碳的季节变化

J. Engström, C. Leck
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引用次数: 5

摘要

在2005年6月1日至2009年5月31日期间,利用528 nm光源对尼泊尔Godavari、印度Sinhagad和马尔代夫Hanimaadhoo的样品进行了基于滤光片的空气中黑碳(烟灰的一种成分)的光学测量。为了减少非吸收性粒子(如无机盐和矿物粉尘)在滤光片上的散射造成的系统误差,在滤光片上增加了一个记录背散射光的传感器。两种校正方案(光学和化学)应用于在天文台收集的样品。在两个观测站(印度和马尔代夫)观测到的黑碳模式主要受印度季风环流及其两个年相、燃烧源位置及其相对于其他非人为源的贡献的影响。然而,尼泊尔天文台全年主要受燃烧源的影响,掩盖了与季风环流有关的可能变化。在马尔代夫的感受器观测站,黑碳吸收系数的峰值出现在冬季(12月至4月),此时空气从受污染的印度次大陆输送到印度洋上空。在季风季节(7月至9月)在印度洋上空停留10多天的空气中记录到的数值低了近两个数量级,这表明主要是来自遥远海洋生物源的颗粒物,而不是燃烧源。
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Seasonal variability in atmospheric black carbon at three stations in South-Asia
Abstract Filter-based optical measurements of black carbon in air, a constituent of soot, have been determined with a 528 nm light source during the period from 1 June 2005 to 31 May 2009 on samples taken at Godavari in Nepal, Sinhagad in India and Hanimaadhoo in the Maldives. In order to reduce systematic errors due to the light scattering of non-absorbing particles co-deposited on the filter, such as inorganic salts and mineral dust, an additional sensor recording backscattered light was implemented. Two protocols of corrections (optical and chemical) were applied to the samples collected at the observatories. The Indian monsoon circulation with its two annual phases in combination with the location of the combustion sources and their contribution relative to other non-anthropogenic sources dominated the observed patterns of black carbon at two of the observatories: in India and the Maldives. The observatory in Nepal was however mainly influenced by combustion sources all year around concealing possible variability related to the monsoon circulation. At the receptor observatory in the Maldives, peak values in the black carbon absorption coefficient occurred during the winter season (December to April) when air was transported from the polluted Indian subcontinent out over the Indian Ocean. A close to two orders of magnitude lower values were recorded in air that had spent more than 10-days over the Indian Ocean during the monsoon season (July to September), suggested to be dominated by particulate matter from remote marine biogenic sources and not by combustion sources.
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