Aerosol haze pollution has had a significant impact on both global climate and the regional air quality of Eastern China, which has a high proportion of high level pollution days. Statistical analyses of aerosol optical properties and direct radiative forcing at two AERONET sites (Beijing and Xuzhou) were conducted from 2013 to 2016. Results indicate: (1) Haze pollution days accounted for 26% and 20% of days from 2013 to 2016 in Beijing and Xuzhou, respectively, with the highest proportions in winter; (2) The averaged aerosol optical depth (AOD) at 550 nm on haze days were about 3.7 and 1.6 times greater than those on clean days in Beijing and Xuzhou, respectively. At both sites, the maximum AOD occurred in summer; (3) Hazes were dominated by fine particles at both sites. However, as compared to Xuzhou, Beijing had larger coarse mode AOD and higher percentage of small α. This data, together with an analysis of size distribution, suggests that the hazes in Beijing were more susceptible to coarse dust particles than Xuzhou; (4) During hazes in Beijing, the single scattering albedo (SSA) is significantly higher when compared to clean conditions (0.874 vs. 0.843 in SSA440 nm), an increase much less evident in Xuzhou. The most noticeable differences in both SSA and the imaginary part of the complex refractive index between Beijing and Xuzhou were found in winter; (5) In Beijing, the haze radiative forcing produced an averaged cooling effect of −113.6 ± 63.7 W/m2 at the surface, whereas the averaged heating effect of 77.5 ± 49.7 W/m2 within the atmosphere was at least twice as strong as clean days. In Xuzhou, such a radiative forcing effect appeared to be much smaller and the difference between haze and clean days was insignificant. Derived from long-term observation, these findings are more significant for the improvement of our understanding of haze formation in China and the assessment of its impacts on radiative forcing of climate change than previous short-term case studies.
展开▼
机译:气溶胶烟雾污染已对全球气候和中国东部地区,其中有高水平的污染天比例高的区域空气质量既是显著的影响。气溶胶光学性质和直接辐射在两个AERONET站点(北京和徐州)从2013年至2016年业绩进行了强制的统计分析表明:(1)烟霾污染天占26%,并在北京天20%的2013至16年和徐州,分别在冬季最高比例; (2)在上霾天550nm的平均气溶胶光学厚度(AOD)较在北京和徐州清洁天大于约3.7和1.6倍。在这两个网站,最大的AOD发生在夏季; (3)霾是由在两个站点细颗粒为主。然而,相比于徐州,北京有较大的粗模式AOD和小α的比例较高。这个数据与大小分布的分析一起,表明在北京雾度是比徐州粗尘粒子更敏感; (4)在北京雾度,单次散射反照率(SSA)相比洁净条件(0.874与0.843在SSA440纳米),增加在徐州少得多明显时显著越高。在SSA和北京和徐州之间的复折射率的虚部最明显的区别在冬天被发现; (5)在北京,雾度辐射强迫产生-113.6±63.7 W /平方米在表面的平均冷却效果,而平均77.5±49.7 W的加热效果/大气中m 2为至少两次强如清洁天。在徐州,这样的辐射强迫的影响似乎要小的多霾和清洁天之间的差异不显着。从长期观察得到的,这些发现为我们在中国的浑浊物形成的认识的提高及其影响对辐射强迫的气候变化比以前短期的案例研究的评估更加显著。
展开▼
