[1] Huo Yanfeng, Yang Guanying, Bai Qingmei, et al. Inversion of PM concentration in Anhui Province from MODIS aerosol optical depth[J]. Envirionmental Science & Technology, 2017, 40(2): 59-64 (in Chinese).
[2] Xue Wenbo, Wu Weiling, Xu Yanling, et al. Satellite retrieval of near-surface PM2.5 based on WRF model and aerosol optical depth[J]. Research of Environmental Sciences, 2016, 29(12): 1751-1758 (in Chinese).
[3] Wang J, Christopher S A. Intercomparison between satellite-derived aerosol optical thickness and PM2.5 mass: Implications for air quality studies[J]. Geophysical Research Letters, 2003, 30(21): 465-471.
[4] Jill A E, Christopher H H, Basil W C, et al. Qualitative and quantitative evaluation of MODIS satellite sensor data for regional and urban scale air quality[J]. Atmospheric Environment, 2004, 38(16): 2495-2509.
[5] Wang Jing, Yang Fumo, Wang Dingyi, et al. Characteristics and relationship of aerosol optical thickness and PM2.5 concentration over Beijing[J]. Journal of the Graduate School of the Chinese Academy of Sciences, 2010, 27(1): 10-16 (in Chinese).
[6] Gao Dawei, Xu Honghui, Yu Zhenyan, et al. Application of MODIS aerosol optical depth in monitoring PM10 concentrations in Lin′an[J]. Research of Environmental Sciences, 2012, 25(7): 739-744 (in Chinese).
[7] Zhang Hui, Wang Boduo, Chen Liangfu, et al. A study of relationship between MODIS aerosol optical depth and PM10 concentration over Xi′an[J]. Journal of Environmental Engineering, 2014, 8(2): 665-671 (in Chinese).
[8] Chen Hui, Li Qing, Wang Zhongting, et al. Study on monitoring surface PM2.5 concentration in Jing-Jin-Ji regions using MODIS data[J]. Journal of Meteorology and Environment, 2014, 30(5): 27-37 (in Chinese).
[9] Liu Xiantong, Li Fei, Tan Haobo, et al. Analysis of sensitivity of monitored ground PM2.5 concentrations based on satellite remote sensing data[J]. China Environmental Science, 2014, 34(7): 1649-1659 (in Chinese).
[10] Hou Aihua, Gao Wei, Wang Zhongting, et al. Estimation of PM2.5 concentration from GF-1 data in Kaifeng City[J]. Remote Sensing for Land & Resources, 2017, 29(4): 161-165 (in Chinese).
[11] Li Huijuan, Hu Liequn, Li Shuai. A correlation analysis of MODIS 3 km aerosol optical depth and PM10 concentration in Northern Xinjiang[J]. Acta Scientiae Circumstantiae, 2018, 38(3): 1109-1116 (in Chinese).
[12] Shao Qi, Chen Yunhao, Li Jing. Inversion of PM2.5 concentration in Beijing based on satellite remote sensing and meteorological reanalysis data[J]. Geography and Geo-Information Science, 2018, 34(3): 32-38 (in Chinese).
[13] Liu Xi, Hu Xiuqing. Ground-based measurements of the aerosol optical thickness at Xiamen sea and satellite remote sensing test[J]. Journal of Tropical Oceangraphy, 2011, 30(4): 38-43 (in Chinese).
[14] Zhao Yanchuang, Zhao Xiaofeng, Liu Lele, et al. Impacts of the forests and built-up areas on the spatial distribution of aerosol in Xiamen City[J]. Journal of Geo-informantion Science, 2016, 18(12): 1653-1659 (in Chinese).
[15] Zhang Chungui, Peng Yunfeng, Lin Jing, et al. Remote sensing retrieval and spatio-temporal analysis of aerosol over three cities of Fujian[J]. Meteorological Monthly, 2010, 36(8): 92-99 (in Chinese).
[16] Yang Lijuan, Xu Hanqiu, Jin Zhifan. Estimation of ground-level PM2.5 concentration using MODIS satellite data in Fuzhou, China[J]. Journal of Remote Sensing, 2018, 22(1): 64-75 (in Chinese).
[17] Xiao Jianneng, Du Guoming, Shi Yiqiang, et al. Spatiotemporal distribution pattern of ambient air pollution and its correlation with meteorological factors in Xiamen City[J]. Acta Scientiae Circumstantiae, 2016, 36(9): 3363-3371 (in Chinese).
[18] Wang Hao, Zha Yong. Urban air quality by MODIS AOT products[J]. Urban Environment & Urban Ecology, 2006, 19(3):21-24 (in Chinese).
[19] Fan Chenqian. Study on the Correlation Between Aerosol Optical Depth and Concentration of PM2.5 Base on MODIS Data-A Case Study of Jinan[D]. Jinan: Master′s Thesis of Shangdong Normal University, 2014 (in Chinese).
[20] Xu Jianhui, Jiang Hong, Xiao Zhongyong. Estimate PM10 concentration over the Yangtze Delta using remote sensing: analysis of spatial and temporal variations[J]. Journal of Environmental Engineering, 2016, 10(3): 1349-1358 (in Chinese).
[21] Li Chengcai, Mao Jietai, Liu Qihan, et al. Application of MODIS aerosol products air pollution research in Beijing[J]. Science in China (Series D Earth Sciences), 2005, 35(S1): 177-186 (in Chinese).
[22] Mou Naixia, Liu Wenbao, Wang Haiyin, et al. ArcGIS10 Geographic Information System Tutorial[M]. Beijing: Surveying and Mapping Press, 2012 (in Chinese).
[23] Chang K T. Introduction to Geographic Information Systems[M]. Chen Jianfei, Lian Lian, Transl. Beijing: Electronic Industry Press, 2014 (in Chinese).
[24] Shi Yiqiang, Deng Qiuqin, Wu Jun, et al. Regression analysis of MODIS aerosol optical thickness and air quality index in Xiamen City[J]. Remote Sensing for Land and Resources, 2020, 32(1): 106-114 (in Chinese).
[25] Li Xue, Gong Shaoqi, Fu Dongyang, et al. Study on the four-season remote sensing models of PM10 concentration in Shanghai[J]. Transactions of Atmospheric Sciences, 2016, 29(1): 126-132 (in Chinese).
[26] Wang Qiao, Li Qing, Chen Liangfu, et al. Satellite Remote Sensing Technology and Its Application in Atmospheric Environment[M]. Beijing: Science Press, 2011 (in Chinese).
[27] Yang Wenxue, Zhang Jing, Qin Yu, et al. Spatial and temporal characteristics and relationship of aerosol optical thickness and PM2.5 concentration over Beijing[J]. Science Technology and Engineering, 2014, 14(31): 1671-1815 (in Chinese).
[28] Qiang Lin, Liu Kai, Zhang Yu, et al. Establish urban air PM2.5 forecasting model with linear regression method-with Baoji City as an example[J]. Energy and Energy Conservation, 2014(2): 125-127 (in Chinese).
