Optical properties of brown carbon aerosols in Dhaka’s atmosphere: evaluating climate forcing potential

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES

Asian Journal of Atmospheric Environment Pub Date : 2025-04-23 DOI:10.1007/s44273-025-00057-0

Asfay Raihan, Md Safiqul Islam, Samiha Nahian, Abdus Salam

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Abstract

Brown carbon (BrC) has a substantial impact on the earth’s radiative stability and is considered a climate-forcing agent. The concentration and optical characteristics of BrC were analyzed in ambient particulate matter (PM) of Dhaka, Bangladesh, during November–December 2019. PM samples were collected on quartz filters using a low-volume air sampler during day and night. BrC was extracted from the filters utilizing two distinct solvents: deionized water and methanol. Mass concentration and density of BrC was calculated using an aethalometer, whereas optical properties were investigated by UV–Visible spectroscopy. At night, the average concentration of BrC was 71 ± 17 µg/m³, 1.6 times higher than the daytime concentration of 44 ± 12 µg/m³. Absorbance of methanol-soluble BrC (MeS-BrC) was higher than the water-soluble BrC (WS-BrC), since BrC was extracted more efficiently in the organic solvent. This resulted in greater values for optical parameters of MeS-BrC, compared to WS-BrC. Absorption coefficient, b_abs of BrC extracted in methanol, was 1.19 to 1.51 times higher than BrC extracted in water. MeS-BrC had more scattering capacity than WS-BrC, evident from the mass absorption efficiency (MAE) values. Absorption Angstrom exponent (AAE) of BrC in both the solvents was > 1, which indicated the presence of UV absorbing BrC in aerosols, that may be emitted from biomass burning. Higher absorbance was noticed at a greater pH and shorter wavelength for WS-BrC, indicating the deprotonation of phenolic -OH group in BrC.

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棕碳（BrC）对地球的辐射稳定性有很大影响，被认为是一种气候诱因。2019年11月至12月期间，对孟加拉国达卡环境颗粒物（PM）中棕碳的浓度和光学特征进行了分析。在白天和夜间，使用低容量空气采样器在石英过滤器上收集 PM 样品。利用去离子水和甲醇两种不同的溶剂从过滤器中提取 BrC。BrC 的质量浓度和密度通过乙硫计进行计算，而光学特性则通过紫外-可见光谱进行研究。夜间，溴化碳的平均浓度为 71 ± 17 µg/m3 ，比白天的 44 ± 12 µg/m3 高出 1.6 倍。甲醇溶性 BrC（MeS-BrC）的吸光率高于水溶性 BrC（WS-BrC），因为 BrC 在有机溶剂中的萃取效率更高。因此，与 WS-BrC 相比，MeS-BrC 的光学参数值更高。在甲醇中萃取的 BrC 的吸收系数 babs 是在水中萃取的 BrC 的 1.19 至 1.51 倍。从质量吸收效率（MAE）值可以看出，MeS-BrC 比 WS-BrC 具有更强的散射能力。两种溶剂中 BrC 的吸收角指数（AAE）均为 1，这表明气溶胶中存在紫外线吸收 BrC，生物质燃烧可能会释放出这种气溶胶。在 WS-BrC 中，pH 值越高，波长越短，吸光度越高，这表明 BrC 中的酚 -OH 基团发生了去质子化作用。

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