1.Shi G.-Y., An Accurate Calculation and Representation of the Infrared Transmission Function of the Atmospheric Constituents, Ph. D thesis, 1981, pp191.

2.Shi G.-Y., The Cooling Rate Due to 9.6μm Ozone Band-A New Approximation. Scientia Sinica (Series B), 1984, 27(No.9), 947 -957.

3.Shi G.-Y., Radiative Forcing and Greenhouse Effect Due to the Atmospheric Trace Gases. Science in China Series B-Chemistry, 1992, 35(No.2), 217-229.

4.Shi G.-Y., Wang W C, Ko M K W and Tanaka M, Radiative Heating due to Stratospheric Aerosols over Antarctica. Geophysical Research Letters, 1986, 13(No.12), 1335 -1338.

5.Shi G.-Y., L. Xu, W. X. Lu, L. X. Ren, R. G. You, M Takagi, A. Yiwata, and Morita, Balloon Observation of Vertical Distribution of Ozone and Aerosol in Atmosphere From 0 to 33 Km. Chinese Science Bulletin, 1987, 32(No.16), 1125-1129.

6.Shi G.-Y., Wang H., Wang B., Gong S.-L., Zhao T.-L., Li W. and Aoki T., Sensitivity experiments on the effects of optical properties of dust aerosols on their radiative forcing under clear sky condition. Journal of the Meteorological Society of Japan, 2005, 83A, 333-346.

7.Shi G.-Y. and Zhang H., The relationship between absorption coefficient and temperature and their effect on the atmospheric cooling rate, Journal of Quantitative Spectroscopy & Radiative Transfer, 2007, 105, 459-466.

8.Shi G.-Y., Hayasaka T., Ohmura A., Chen Z.-H., Wang B., Zhao J.-Q., Che H.-Z., Xu L., Data Quality Assessment and the Long-Term Trend of Ground Solar Radiation in China. Journal of Applied Meteorology and Climatology, 2008, 47, 1006-1016.

9.Shi G.-Y., Wang B., Zhang H., et al. The Radiative and Climatic Effects of Atmospheric Aerosols. Chinese Journal of Atmospheric Sciences. 2008, 32(4):826-40.

10.Shi G.-Y., Xu N., Wang B., Dai T., Zhao J.-Q., An improved treatment of overlapping absorption bands based on the correlated k distribution model for thermal infrared radiative transfer calculations. Journal of Quantitative Spectroscopy & Radiative Transfer, 2009, 110(No.8), 435-451.

11.石广玉， 檀赛春，陈彬. 2018. 沙尘和生物气溶胶的环境和气候效应. 大气科学, 42(3)，559-569.

12.石广玉，《大气辐射学》，科学出版社，2007，北京.

13.石广玉，檀赛春. 2007.大气气溶胶及其气候效应. 科学观察. 2(5):39-39.

14.石广玉，王标，张华，赵剑琦，檀赛春，温天雪. 2008. 大气气溶胶的辐射与气候效应.大气科学， 32(4)，826-840

15.石广玉,戴铁,徐娜. 2010. 卫星遥感探测大气 CO2 浓度研究最新进展. 地球科学进展,25(1): 7-13.

16.石广玉,戴铁,檀赛春,申彦波,王标,赵剑琦. 2010. 全球年平均人为热释放气候强迫的估算. 气候变化研究进展, 6(2):119-122.

17.Zhang H. and Shi G.-Y., An Improved Approach to Diffuse Radiation. J. of Quantitative Spectroscopy & Radiative Transfer, 2001, 70, 367-372.

18.Zhang H. and Shi G.-Y., Numerical explanation for accurate radiative cooling rates resulting from the correlated k distribution hypothesis. J. of Quantitative Spectroscopy & Radiative Transfer, 2002, 74, 299-306.

19.Zhang H. and Shi G.-Y., A new approach to solve correlated k-distribution function, J. of Quantitative Spectroscopy & Radiative Transfer, 2005, Vol. 96(2), 311-324.

20.Zhang H., Shi G.-Y., Nakajima T., Suzuki T., The effects of the choice of k-interval number on radiative calculations, J. of Quantitative Spectroscopy & Radiative Transfer, 2006, 98(1), 31-43.

21.Tan S.-C. and Shi G.-Y., Satellite remote sensing for oceanic primary productivity. Advance in Earth Sciences. 2005, 20(8):863-70.

22.Tan S.-C. and Shi G.-Y. Remote Sensing for Ocean Primary Productivity and Its Spatio-temporal Variability in the China Seas. Acta Geographica Sinica. 2006, 61(11):1189-99.

23.Tan S.-C., Shi G.-Y., Spatiotemporal variability of satellite-derived primary production in the South China Sea, 1998-2006. Journal of Geophysical Research- Biogeosciences, 2009, 114, G03015

24.Tan S.-C., Shi G.-Y., Wang H. Long-range transport of spring dust storms in Inner Mongolia and impact on the China seas. Atmospheric Environment. 2012, 46:299-308.

25.Dai T., Shi G.-Y., Zhang X.-Y., Effect of HITRAN Database Improvement on Retrievals of Atmospheric Carbon Dioxide from Reflected Sunlight Spectra in the 1.61-μm Spectral Window. Adv. Atmos. Sci., 2012, 29(2): 227-235, doi: 10.1007/s00376-011-0168-7.

26.Dai T., Shi G.-Y., Zhang X.-Y, Xu N., Influence of the HITRAN Database Updates on the Retrievals of Atmospheric CO2 from Spectra in the Near-Infrared Regions. Acta Meteor. Sinica, 2012, 26 (5), 629-641, doi: 10.1007/s13351-012-0507-3.

27.Dai, T., Shi, G., and Nakajima, T., Analysis and evaluation of the global aerosol optical properties simulated by an online aerosol-coupled non-hydrostatic icosahedral atmospheric model, Advances in Atmospheric Sciences, 32, 743-758, 10.1007/s00376-014-4098-z, 2015.

28.Dai, T., Goto, D., Schutgens, N. A. J., Dong, X., Shi, G., and Nakajima, T.: Simulated aerosol key optical properties over global scale using an aerosol transport model coupled with a new type of dynamic core, Atmospheric Environment, 82, 71-82, http://dx.doi.org/10.1016/j.atmosenv.2013.10.018, 2014a.

29.Dai, T., Schutgens, N. A. J., Goto, D., Shi, G., and Nakajima, T.: Improvement of aerosol optical properties modeling over Eastern Asia with MODIS AOD assimilation in a global non-hydrostatic icosahedral aerosol transport model, Environmental Pollution, 195, 319-329, http://dx.doi.org/10.1016/j.envpol.2014.06.021, 2014b.

30.Dai, T., Cheng, Y., Zhang, P., Shi, G., Sekiguchi, M., Suzuki, K., Goto, D., and Nakajima, T.: Impacts of meteorological nudging on the global dust cycle simulated by NICAM coupled with an aerosol model, Atmospheric Environment, 190, 99-115, 10.1016/j.atmosenv.2018.07.016, 2018.

31.Dai, T., Cheng, Y., Goto, D., Schutgens, N. A. J., Kikuchi, M., Yoshida, M., Shi, G., and Nakajima, T.: Inverting the East Asian Dust Emission Fluxes Using the Ensemble Kalman Smoother and Himawari-8 AODs: A Case Study with WRF-Chem v3.5.1, Atmosphere, 10, 10.3390/atmos10090543, 2019a.

32.Dai, T., Cheng, Y., Suzuki, K., Goto, D., Kikuchi, M., Schutgens, N. A. J., Yoshida, M., Zhang, P., Husi, L., Shi, G., and Nakajima, T.: Hourly Aerosol Assimilation of Himawari-8 AOT Using the Four-Dimensional Local Ensemble Transform Kalman Filter, Journal of Advances in Modeling Earth Systems, 11, 680-711, 10.1029/2018ms001475, 2019b.

33.Cheng, Y., Dai, T., Goto, D., Schutgens, N. A. J., Shi, G., and Nakajima, T.: Investigating the assimilation of CALIPSO global aerosol vertical observations using a four-dimensional ensemble Kalman filter, Atmos. Chem. Phys., 19, 13445-13467, 10.5194/acp-19-13445-2019, 2019.

34.Yin, X., Dai, T., Schutgens, N. A. J., Goto, D., Nakajima, T., and Shi, G.: Effects of data assimilation on the global aerosol key optical properties simulations, Atmospheric Research, 178-179, 175-186, 10.1016/j.atmosres.2016.03.016, 2016a.

35.Yin, X., Dai, T., Xin, J., Gong, D., Yang, J., Teruyuki, N., and Shi, G.: Estimation of aerosol properties over the Chinese desert region with MODIS AOD assimilation in a global model, Advances in Climate Change Research, 7, 90-98, 10.1016/j.accre.2016.04.001, 2016b.

36.Liu, Y., Jia, R., Dai, T., Xie, Y., and Shi, G.: A review of aerosol optical properties and radiative effects, Journal of Meteorological Research, 28, 1003-1028, 10.1007/s13351-014-4045-z, 2015.

37.Lyu, H., Dai, T., Zheng, Y., Shi, G., and Nakajima, T.: Estimation of PM2.5 Concentrations over Beijing with MODIS AODs Using an Artificial Neural Network, Sola, 14, 14-18, 10.2151/sola.2018-003, 2018.

38.Tan S, Han Z, Wang B, Shi G. Variability in the correlation between satellite-derived liquid cloud droplet effective radius and aerosol index over the northern Pacific Ocean. Tellus Series B-Chemical and Physical Meteorology. 2017;69.

39.Tan S, Zhang X, Shi G. MODIS Cloud Detection Evaluation Using CALIOP over Polluted Eastern China. Atmosphere. 2019, 10(6).

40.Zhang X, Tan S, Shi G. Comparison between MODIS-derived day and night cloud cover and surface observations over the North China Plain. Advances in Atmospheric Sciences. 2018, 35(2):146-57.

41.Zhang X, Tan S, Shi G, Wang H. Improvement of MODIS cloud mask over severe polluted eastern China. Science of the Total Environment. 2019, 654:345-55.

42.Zhang X, Wang H, Che H, Tan S, Shi G, Yao X. The impact of aerosol on MODIS cloud detection and property retrieval in seriously polluted East China. Science of the Total Environment. 2020;711.

43.Wang, B., T. Nakajima, and G. Shi, 2008: Cloud and Water Vapor Feedbacks in a Vertical Energy-Balance Model with Maximum Entropy Production. J. Clim., 21, 6689–6697, doi: 10.1175/2008JCLI2349.1. http://journals.ametsoc.org/doi/abs/10.1175/2008JCLI2349.1.

44. Wang, B., and G. Shi, 2010: Long-term trends of atmospheric absorbing and scattering optical depths over China region estimated from the routine observation data of surface solar irradiances. J. Geophys. Res., 115, D00K28. http://dx.doi.org/10.1029/2009JD013239 DO - 10.1029/2009JD013239.

45.王标, and 石广玉, 2005: 6.2 K-分布辐射方案的发展和应用. 大气环流模式SAMIL及其耦合模式FGOALS-s, 吴国雄, Ed., 气象出版社, 北京, p. 288.

46. Wang, B., H. Liu, and G. Shi, 2000: Chapter 3 Radiation and Cloud Schemes. IAP Global Ocean-Atmosphere-Land System Model, X. Zhang, G. Shi, L. Hui, and Y. Yu, Eds., Science Press, Beijing, New York, 28–49.

47. Zhao JQ and Shi GY. An accurate approximation to the diffusivity factor. Infrared Phys. Technol., 56, 21-24, 2013.

48. Zhao JQ, Shi GY, Che HZ, and Cheng GG. Approximations of scattering phase function of particles. Adv.Atmos.Sci., 23(5), 802-808, 2006.

49. 赵剑琦 ; 石广玉.非球形小粒子的光散射特性科学技术与工程2005 5(24): 1872~1875.

50. Reguang JIAO, Bin CHEN*, Ammara HABIB &Guangyu SHI (2019) A case study of cold

-season thundersnow in Beijing, Atmospheric and Oceanic Science Letters, 12:6, 392-398, DOI: 10.1080/16742834.2019.1672501.

51. Xianchu Wu, Bin Chen*, Tianxue Wen, AmmaraHabib, Guangyu Shi, 2020. Concentrations and chemical compositions of PM10 during hazy and non-hazy days in Beijing,Journal of Environmental Sciences,Volume 87,2020,Pages 1-9.

52. Teruya Maki, Bin Chen, Kenji Kai , Kei Kawai , Kazuyuki Fujita , KazumaOhara, Fumihisa Kobayashi, EnkhbaatarDavaanyam, Jun Noda, Yuki Minamoto, Guangyu Shi, Hiroshi Hasegawa, YasunobuIwasaka, 2019, Vertical distributions of airborne microorganisms over Asian dust source region of Taklimakan and Gobi Deserts, Atmospheric Environment, Volume 214, 1 October 2019, 116848

53. 吴宪初，陈彬*，温天雪，SHAHID Imran，HABIB Ammara，石广玉．北京和伊斯兰堡冬季PM10中物质浓度和化学组分的对比[J/OL]．山东大学学报(理学版), 2019, 54(7): 42-49.

54. Ammara HABIB, Bin CHEN*, Guangyu SHI, Yasunobu IWASAKA, Debashis NATH, Bushra KHALID, Saichun TAN, Tariq MAHMOOD, Reguang JIAO & Didier NTWALI (2019) Dust particles in free troposphere over Chinese desert region revealed from balloon borne measurements under calm weather conditions,Atmospheric and Oceanic Science Letters, 2019 Vol. 12 (1): 12-20

55. Akihiro UCHIYAMA, Bin CHEN*, Akihiro YAMAZAKI, Guangyu SHI, Rei KUDO, Chiharu NISHITA-HARA, Masahiko HAYASHI, Ammara HABIB, Tsuneo MATSUNAGA, Aerosol Optical Characteristics in Fukuoka and Beijing Measured by Integrating Nephelometer and Aethalometer: Comparison of Source and Downstream Regions, Journal of the Meteorological Society of Japan. Ser. II , Volume 96 (2018) Issue 2, 215-240

56. AmmaraHabib, Bin Chen*, Bushra Khalid, Saichun Tan, HuizhengChe, Tariq Mahmood , Guangyu Shi, YasunobuIwasaka and Muhammad Tahir Butt, Estimation and inter-comparison of dust aerosols based on MODIS, MISR and AERONET retrievals over Asian desert regions, Journal of Environmental Sciences, Volume 76, February 2019, Pages 154-166

57.魏文斐, 刘立超, 陈彬*, 檀赛春, 石广玉, 谢敏，生物气溶胶及其气候效应，中国科学院大学学报，2018 Vol.35(3):320-326

58.Sekhon, Simranjeet Singh(#); Kim, Mina; Um, Hyun-Ju; Kobayashi, Fumihisa; Iwasaka, Yasunobu; Shi, Guangyu; Chen, Bin; Cho, Sung-Jin; Min, Jiho(*); Kim, Yang-Hoon(*)(2016)，Proteomic Analysis of Microbial Community Inhabiting Asian Dust Source Region，Clean-Soil Air Water, 2016-1, 44(1): 25-28.

59.Bin Chen*, Maromu Yamada, Yasunobu Iwasaka, Daizhou Zhang, HongWang, ZhenzhuWang, Hengchi Lei and Guangyu Shi, Origin of non-spherical particles in the boundary layer over Beijing, China: based on balloon-borne observations, Environmental Geochemistry and Health, October 2015, Volume 37, Issue 5, pp 791–800. DOI 10.1007/s10653-014-9668-6

60.Wang, H., Shi, G. Y., Zhang, X. Y., Gong, S. L., Tan, S. C., Chen, B., Che, H. Z., and Li, T.: Mesoscalemodelling study of the interactions between aerosols and PBL meteorology during a haze episode in China Jing–Jin–Ji and its near surrounding region – Part 2: Aerosols radiative feedback effects, Atmos. Chem. Phys., 15, 3277-3287, doi:10.5194/acp-15-3277-2015, 2015.

61.Teruya Maki, Kazutaka Hara, Fumihisa Kobayashi, Yasunori Kurosaki, Makiko Kakikawa, Atsushi Matsuki, Bin Chen, Guangyu Shi, Hiroshi Hasegawa, YasunobuIwasaka, Vertical distribution of airborne bacterial communities in an Asian-dust downwind area, Noto Peninsula, Atmospheric Environment, Volume 119, October 2015, Pages 282-293

62.Puspitasari F, Maki T, Shi G, Chen Bin, FumihisaKobayashi , Hiroshi Hasegawa and YasunobuIwasaka. Phylogenetic analysis of bacterial species compositions in sand dunes and dust aerosol in an Asian dust source area, the Taklimakan Desert, Air Quality, Atmosphere & Health, 2015: 1-14.DOI 10.1007/s11869-015-0367-y

63.WANG Hong, SHI GuangYu,ZHU Jing,CHEN Bin,CHE HuiZheng and ZHAO TianLiang, AcasestudyoflongwavecontributiontodustradiativeeffectsoverEastAsia, Chin.Sci.Bull.Vol.58 No.30:3673-3681, doi: 10.1007/s11434-013-5752-z, October2013 6/4

64.陈彬*，石广玉，王宏，敦煌地区气溶胶垂直分布的观测研究，中国科学院大学学报，2014Vol. 31(3):431-438

65.Daizhou Zhang, Chen Bin, Guangyu Shi, Elevated Soot Layer in Polluted Urban Atmosphere: A Case Study in Beijing, Journal of the Meteorological Society of Japan, Vol. 90, No. 3, pp. 361–375, 2012.

66.Bin Chen, Fumihisa Kobayashi, Maromu Yamada, Yang-Hoon Kim, Yasunobu Iwasaka and Guang-Yu Shi, Identification of CulturableBioaerosols Collected over Dryland in Northwest China: Observation using a Tethered Balloon: Asian Journal of Atmospheric Environment, Vol. 5-3, pp.172-180, September 2011.

67.Bin Chen*, Guang-Yu Shi, Maromu Yamada, Dai-Zhou Zhang, Masahiko Hayashi and YasunobuIwasaka, Vertical Change in Extinction and Atmospheric Particle Size in the Boundary Layers over Beijing: Balloon-borne Measurement, Asian Journal of Atmospheric Environment, Vol. 4-3, pp.141-149, December 2010.

68.Iwasaka, Y., G.-Y. Shi, M. Yamada, F. Kobayashi, M. Kakikawa, T. Maki, M. Nagatani, B. Chen, Y. Tobo, C.S. Hong, Mixture of Kosa (Asian dust) and bioaerosols detected in the atmosphere over the Kosa particles source regions with balloon-borne measurements, Possibility of long-range transport, Air Qual. Atmos. Health, 2, 29-38, 2009.

69.Kakikawa, M., F. Kobayashi, T. Maki, M. Yamada, T. Higashi, B. Chen, G.-Y. Shi, C.S. Hong, Y. Tobo, Y. Iwasaka, Dustborne microorganisms in the atmosphere over an Asian dust source region, Dunhuang, Air Qual. Atmos. Health, 1, 195-202, 2008.

70.Maki, T., S.Susuki, F. Kobayashi, M.Kakikawa, M. Yamada, T. Higashi, B. Chen, G. Shi, C. Hong, Y.Tobo, H. Hasegawa, K. Ueda, Y.Iwasaka, Phylogenetic diversity and vertical distribution of a halobacterial community in the atmosphere of an Asian dust (KOSA) source region, Dunhuang City, Air Qual. Atmos. Health, 1, 81-89, 2008.

71.Yamada, M., Y. Iwasaka, G.-Y. Shi, A. Matsuki, D. Trochkine, D. Zhang, M. Nagatani, Y. S. Kim, T. Nagatani, H. Nakada, Z. Shen, B. Chen, Classification of submicron particles and the change in their number fractions in the free troposphere over Dunhuang, China, J. Ecotechnology Research, 11[3], 117-124, 2005.

72.Matsuki, A., Y. Iwasaka, G.-Y. Shi, D. Zhang, D. Trochkine, M. Yamada, Y.-S. Kim, B. Chen, T. Nagatani, T. Miyazawa, M. Nagatani, H. Nakata, Morphological and chemical modification of mineral dust: Observational insight into the heterogeneous uptake of acidic gases, Geophys. Res. Lett, 32, L22806, doi:10.1029/2005GL024176, 2005.

73.Yamada, M., Y. Iwasaka, A. Matsuki, D. Trochkine, Y. S. Kim, D. Zhang,T. Nagatani, G.-Y. Shi, M. Nagatani , H. Nakata, Z. Shen, B. Chen and G. Li, Feature of dust particles in the spring free troposphere over the Taklamakan desert: Electron microscopic experiments of individual particles collected with a balloon-borne particle impactor, Water, Air, and Soil Pollution: Focus, 5, 231-250, 2005.

74.Iwasaka, Y., G.-Y. Shi, M. Yamada, A. Matsuki, D. Trochkine, Y.S. Kim, D. Zhang, T. Nagatani, T. Shibata, M. Nagatani, H. Nakata, Z. Shen, G. Li, and B. Chen,Importance of dust particles in the free troposphere overthe Taklamakan desert: Electron microscope experiments of particlescollected with balloon-borne particle impactor at Dunhuang, China,J. Geophys. Res., 108(D23), 8644, doi:10.1029/2002JD003270, 2003.

75.Iwasaka, Y., T. Shibata, T. Nagatani, G.-Y. Shi, Y.S. Kim, A. Matsuki, D. Trochkine, D. Zhang, M. Yamada, M. Nagatani, H. Nakata, Z. Shen, G. Li, B. Chen, and K. Kawahara, Largedepolarization ratio of free tropospheric aerosolsover the Taklamakan Desert revealed by lidar measurements: Possiblediffusion and transport of dust particles,J.Geophys.Res.,108(D23),8652, doi:10.1029/2002JD003267, 2003.

76.Kim, Y. S.; Iwasaka, Y.; Shi, G.-Y.; Nagatani, T.; Shibata, T.; Trochkin, D.; Matsuki, A.; Yamada, M.; Chen, B.; Zhang, D.; Nagatani, M.; Nakata, H., Dust particles in the free atmosphere over the desert areasin the Asian continent: four seasons measurements with balloon-borne and LidarDunhuang, China, J. Geophys. Res., 109(D19),D19S26, doi:10.1029/2002JD003269, 2004.