Name: GUANG-YU SHI
Phone: +86-10-8299-5096
Fax: +86-10-8299-5097
Email: shigy@mail.iap.ac.cn


Brief Experences

EDUCATION :
Tohoku University, Sendai 980, Japan (Oct. 1979 - Apr. 1982)
Ph. D. degree in Atmospheric Physics, Feb. 1982
Shandong University, Jinan, China (Sept. 1962 - July 1968)
B. S. degree in Physics, July 1968

PROFESSIONAL ACTIVITIES:
☆ SSC Member of IGBP-SOLAS (2005---)
☆ Head of Working Group for SOLAS of CNC-IGBP (China National Committee for IGBP)
☆ Committee Member of IRC (International Radiation Committee)/IAMAS and Chair of Asia-Pacific Radiation Committee (APRC)
☆ Member of international science team of ABC/UNEP and Head of Chinese Working Group for ABC
☆ PI of Sino-Japan Joint Project on Dust Storm (ADEC: Aeolian Dust Experiment and Climate Impact) (2000-2005)
☆ PI of the China SOLAS, a Major Project of the NSFC (National Natural Science Fundation of China) from 2004 to 2008.
☆ Lead Author of IPCC TAR, WGI, Chapter 6 (Radiative Forcing of Climate Change) [Contributor of IPCC WG1 (IPCC 1990, 1994)]; Reviewer of of IPCC AR4
☆ Standing Committee Member of Chinese National Committee for IGBP (CNC-IGBP)
☆ Scientist of USA/DOE - PRC/CAS CO2 - induced climate effect joint project
☆ Committee Member of Academic Degree Committee of IAP
☆ Membership of AGU, Meteorology Society of China, Solar Energy Society of China, etc.
☆ Guest Professor of Anhui Institute of Optics and Fine Mechanics/CAS, Institute of Earth Environment/CAS, Lanzhou University, Nanjing University of Information Science and Tecnology, Donghua University and Graduate School/CAS, etc.

AWARDS:
☆ K-distribution of atmospheric radiation scheme, 2nd Class of Natural Science Award, CAS, 1998
☆ Fujiwara Award of the Meteorological Society of Japan, 2007

EXPERIENCE:
Institute of Atmospheric Physics (IAP), Chinese Academy of Sciences,
Beijing 100029, China
Professor (May 2004-Present)
☆ Trend of Change in Clouds and Solar Radiation during the past 20 Years over China and its Climate Implication
☆ Impacts of Asian Dust on Primary Products of Ocean
☆ A Physival Model Sduty on Temperature Anomaly during the Past 420,000 Years over Vostok, Antarctica


Research Institute of Humanity and Nature, Kyoto, Japan
Guest Professor (Oct. 2003～March 2004)
☆ Trend of Atmospheric Aeosol Optical Depth in China over Past 50 Years and its Climate Implication


Institute of Atmospheric Physics (IAP), Chinese Academy of Sciences,
Beijing 100029, China
Professor (August, 1997～Sept. 2003)
☆ Effects of clouds, radiation and other forcing factors on Climate
☆ Climate effect of the atmospheric aerosols
☆ Experimental study on the ozone minimum over Qinghai-Xizang Plateau
☆ Ground-based observation of atmospheric aerosols (supported by NASDA)


National Climate Center (NCC), China Meteorology Administration,
Beijing 100081, China
Professor and Chief of Lab for Climate Study (Mar 1997～July 1997)
☆ Effects of clouds, radiation and other forcing factors on Climate over China
☆ Climate effect of the atmospheric aerosols


Center for Environmental Remote Sensing, Chiba University, Chiba 263, JAPAN
Guest Professor (Oct. 1996 - Mar. 1997)
☆ Surface radiation budget


NCC, China Meteorology Administration, Beijing 100081, China
Professor and Chief of Lab for Climate Study (May 1995 - Oct 1996)
☆ Development of a coupled AGCM and OGCM climate model (Cooperator : Guo-Xong Wu and Xue-Hong Zhang)
☆ Atmospheric ozone change and its impact on climate environment over China
☆ Development of a physically-based climate model and its application to explain the surface temperature change over last centrury and to predict the future global warming


IAP, Chinese Academy of Sciences, Beijing 100029, China
Professor and Chief of Lab for Earth Environment System (May 1994 - May 1995)
☆ Development of a coupled AGCM and OGCM climate model (Cooperator : Guo-Xong Wu and Xue-Hong Zhang)
☆ Atmospheric ozone change and its impact on climate environment over China
☆ Development of a physically-based climate model and its application to explain the surface temperature change over last centrury and to predict the future global warming


Center for Climate System Research, University of Tokyo, Tokyo 153, Japan
Guest Professor (Nov. 1993 - May 1994)
☆ Improvement of radiative transfer scheme for GCM use


IAP, Chinese Academy of Sciences, Beijing 100029, China
Professor and Chief of Lab for Earth Environment System (Feb. 1992 - Oct. 1993)
☆ Greenhouse effect of carbon dioxide and other trace gases
☆ Model study of chemistry-climate interaction
☆ Model study of global carbon cycle
☆ Radiative - climate effects of atmospheric aerosols
☆ Balloon observation of atmospheric trace gases and aerosols


CSIRO Division of Applied Physics, Sydney, Australia
Guest Worker (Nov. 1991 - Jan. 1992)
☆ Development of 2-D Dynamics-Radiation-Chemistry Model


Atmospheric Science Research Center, SUNY at Albany, NY 12205, U. S. A.
Visiting Scholar (June 1991 - Oct. 1991)
☆ Development of wide band radiation scheme for GCM climate model


IAP, Chinese Academy of Sciences, Beijing 100029, China
Professor and Chief of Lab for Earth Environment System (Dec. 1988-May. 1991)
☆ Development of Radiative - convective model and model study of greenhouse effect
☆ Model study of carbon uptake by ocean
☆ Observation of optical property of atmospheric aerosols


Atmospheric and Environmental Research Inc. (AER),
840 Memorial Drive, Cambridge, MA 02139, U.S.A
Senior Scientist (Mar. 1986 - Nov. 1988)
☆ Development of wide band radiation model for GCM climate modeling
☆ Incorporation of the thermal radiative effect of CH4, N2O, CF2Cl2 and CFCl3 into the NCAR Community Climate Model (CCM1)
☆ Coupled RC - PC (Radiative-Convective/PhotoChemistry) model
☆ Radiative aspect on ozone hole
☆ Solar radiation and climate characteristics over desert area of China


IAP, Chinese Academy of Sciences, Beijing 100029, China
Associated Professor and Chief of Lab for Atmospheric Radiation and Chemistry (May. 1982 - Feb. 1986)
☆ Calculation of atmospheric cooling rate
☆ Comparison of radiation model
☆ Balloon observation of atmospheric ozone, aerosol and longwave radiation
☆ Remote sensing of atmospheric ozone


Tohoku University, Sendai 980, Japan
Visiting Scholar (Oct. 1979 - Apr. 1982)
☆ Exact calculation and representation of infrared transmission function of atmospheric constituents


IAP, Chinese Academy of Sciences, Beijing 100029, China
Assistant Professor (Jan. 1970 - Sept. 1979)
☆ Atmospheric remote sensing with Lidar
☆ Studies in Fourier spectroscopy and development of IRIS
☆ Ab initio calculation in quantum chemistry


Research interests

Atmospheric radiation and climate change, such as radiative forcing of green house gases and atmosphere aerosol and their climate effects, direct and indirect effect of aerosols, Aerosol-Cloud interaction

the Surface Ocean and Lower Atmosphere Study (SOLAS), and the impact of Asian dust on ocean ecosystem

Atmosphere Brown Clouds (ABC) study

Ongoing Projects

The Major Program of NSFC, Study on the Coupling of the Biogeochemical-Physical Processes in Surface Ocean and Lower Atmosphere.

Task 1 of the Major Program of NSFC, Effects of Asian Dust on Primary Productivity in the China seas and Its Climate Impact.

Task of National “973 Program” The Direct Radiative Effect of Aerosol.

The General Project of NSFC, Physical Model Study of Surface Temperature Variations in the Past 420, 000 Years.

International Scientific and Technical Cooperation Projects of the Ministry of Science and Technology, Study on Climate and Environment Effect of Asian Dust

Research and Development Project for the Applied System Engineering of Fengyun-III Meteorological Satellite, Algorithm of Ocean Primary Productivity and Its Prototype Software Research and Development.

Publications

1. Data quality control and the long-term trend of ground solar radiation over China, JAMC, 2007, accepted, in press.
   
   
2. The Relationship between Absorption Coefficient and Temperature and Their Effect on the Atmospheric Cooling Rate, Journal of Quantitative Spectroscopy and Radiative Transfer, 2007, doi:10.1016/j.jqsrt. 2006.11.008. In Press.
   
   
3. Greenhouse Gases, Aerosols and their Radiative Focing, in《National Assessment Report for Climate Change》, Vol.1, Chp3,,pp43-79, Academic Press, 2007, Beijing, China.
   
   
4. Progresses and Perspectives in China SOLAS, in《Frontier Scietific Issues in SOLAS》,Eds Feng, Shi and Gao, pp206-211, Meteorology Press, 2006, Beijing, China.
   
   
5. Progresses in the Milankovich Theory of Earth’s Climate Change, Advances in Earth Sciences, Vol.21(No.3)(2006),p278-285.
   
   
6. Sensitivity experiments on the effects of optical properties of dust aerosols on their radiative forcing under clear sky condition, JMSJ, Vol. 83A, 333-346 (2005).
   
   
7. A new approach to solve correlated k-distribution function, JQSRT, Vol 96, Issue 2, 311-324 (2005).
   
   
8. Analysis of 40 years of solar radiation data from China, 1961-2000, Geophys. Res. Lett, 32, L06803, doi:10.1029/2004GL022322, 2005.
   
   
9. Radiative forcing due to dust aerosol over east Asia-north Pacific region during spring 2001, Chinese Science Bulletin, Vol. 49 No. 20 2212—2219 (2004).
   
   
10. Analyzing global trends of different cloud types and their potential impacts on climate by using the ISCCP D2 dataset, Chinese Science Bulletin Vol. 49 No. 12, 1301—1306 (2004).
    
    
11. Numerical Simulation of Global Temperature Change during the 20th Century with the IAP/LASG GOALS Model, ADVANCES IN ATMOSPHERIC SCIENCES, VOL. 21, NO. 2, 227–235 (2004).
    
    
12. Several scientific issues of studies on the dust storms, Chinese Journal of Atmospheric Sciences, 27, No.4, 591 (2003).
    
    
13. An optimal approach to overlapping bands with correlated k distribution method and its application to radiative calculations, J. Geophys. Res., 108, D20, 4641(2003).
    
    
14. Numerical explanation for accurate radiative cooling rates resulting from the correlated K-distribution hypothesis, Journal of Quantitative Spectroscopy & Radiative Transfer, No.74, p299-306 (2002).
    
    
15. Impact of human activities on the climate, II Impacts on the East Asia and China, Climate and Environmental Studies, 7, 255-266 (2002).
    
    
16. Balloon observation of atmospheric ozone over Lahsa, Tibet, Advances in Geophysical Sciences, 15, No.5, 522-524(2000)
    
    
17. A fast and efficient line-by-line calculation method for atmospheric absorption, Chinese Journal of Atmospheric Sciences, , 24, 111-121 (2000).
    
    
18. Numerical modeling for distribution of carbon and nutrient in the ocean, Climate and Environmental Research, 4, 375-387 (1999).
    
    
19. On the k-distribution and correlated k-distribution models in the atmospheric radiation calculations, SCIENTIA ATMOSPHERICA SINICA, 22, 659-676 (1998).
    
    
20. Horizontal two-dimensionsl distribution of radiative forcing and climate effect due to stratospheric aerosol, SCIENTIA ATMOSPHERICA SINICA, 22, 18-24 (1998).
    
    
21. One-Dimensional analysis of global carbon cycle, Chinese Journal of Atmospheric Sciences, 21, 216-230 (1997).
    
    
22. A physical model for the global mean surface air temperature anomalies over the last century, Chinese Science Bulletin, 42, 658-662 (1997).
    
    
23. The behavir of atmospheric trace gases and ozone as examined by a two-dimensional model, in 《Atmospheric Ozone Variation and its Impacts on Climate-Environment over China II》(Ed. X.-J. Zhou), China Meteorology Press, Beijing, 1997, pp.207-214.
    
    
24. Some issues in the study on global climate change, in 《Studies on Climate Change and Its Influences over China》(Eds. Y.-H. Ding and G.-Y. Shi), study, China Meteorology Press, Beijing, 1997, pp.26-35.
    
    
25. An assessment of China forest CO2 emmission and uptake, ibid, pp.85-94.
    
    
26. Measurement and analysis of optical properties of atmospheric aerosols over Taiwan area, Quarterly Journal of Applied Meteorology, 8, 252-253 (1997).
    
    
27. Chemical characteristics of individual particles over Xianghe, in 《Atmospheric Ozone Variation and its Impacts on Climate-Environment over China II》(Ed. X.-J. Zhou), China Meteorology Press, Beijing, 1997, pp.86-93.
    
    
28. Radiative transfer process, in 《Basic Principle and Technology of Climate Models》(Eds. M. Dong et al.), China Meteorology Press, Beijing, 1997, pp.85-96.
    
    
29. Balloon observation of atmospheric ozone and aerosolsina, Scientia Atmospherica Sinica, 20, 401-407 (1996).
    
    
30. Mineral particles collected in China and Japan during the same dust-storm event, Atmospheric Environment, 30, 347-351(1996).
    
    
31. A two-dimensional chemical model and its application to simulate the atmospheric composition, in 《Atmospheric Ozone Variation and its Impacts on Climate-Environment over China I》(Ed. X.-J. Zhou), China Meteorology Press, Beijing, 1996, pp.209-221.
    
    
32. One-dimensional study on climate effect of trace gases, 《Climate Change and its Numerical Simulation》(Eds. L.-X. Chen et al.), China Meteorology Press, Beijing, 1996, pp.11-16.
    
    
33. The relation between long-term variation of insolation and the late-Pleistocene climate, ibid, pp.17-25.
    
    
34. One dimesional model study on the past and future atmospheric ozone change, ibid, pp.26-36.
    
    
35. The role of radiative forcing in climate change, Proceedings of the second international study conference on GEWEX in Asia and GAME, pp102-105, Pattaya, Thailand, 1995.
    
    
36. Recent progresses in the study of radiative forcing of climate change, Proceeding s of the XVIII Pacific Science Congres, June 5-12, Beijing, China, 1995.
    
    
37. Transient Climate Effect induced by Greenhouse Gases, J. Geograph. Sci. (in Chinese), 1995.
    
    
38. One Dimentional Model Analysis of Aerosol Climate Effect, Scientia Atmospherica Sinica, Vol. 18, Supplemenntary Issue, 125-132(1994).
    
    
39. Analysis of Global Carbon Dioxide Budget, Proceedings of the International Symposium on Global Cycles of Atmospheric Greenhouse Gases, Mar. 7-10, 1994, Sendai, Japan, 265-277.
    
    
40. Preliminary Analysis of CO2 and CFCs concentrations in the Equatorial Western Pacific Ocean, ibid, 175-178.
    
    
41. Climate-chemical interactions and greenhouse effects of trace gases, in 《Ozone in the Troposphere and Stratosphere, Part I》, NASA CP-3266, 429-432 (1994).
    
    
42. Climate Change and Its Causes, Proceedings of International Conference on Regional Environment and Climate Changes in East Asia, Nov. 30-Dec.3, 1993, Taipei, China, 364-369.
    
    
43. Measurements of atmospheric aerosols' optical properties in HEIFE area, Proceedings of International Symposium on HEIFE, Nov. 8-12, 1993, Kyoto, JAPAN, 642-647.
    
    
44. Could solar variability be responsible for recent climate change on the earth? IAMAP-IAHS'93, M3-48, July 11-23, 1993, Yokohama, JAPAN.
    
    
45. 《Atmospheric Radiation》, Teaching Materials for Graduate School of Chinese Science and Technology University, 1993.
    
    
46. Meaasurements of Atmospheric Aerosol' Optical Properties over Beijing Area during Spring-Summer Season of 1991, Proceedings of 4th National Conference on Atmosspheric Aerosols, Sept. 14-20, 1992, Hefei, Anhui, 33-37.
    
    
47. Past, Present and Future Climatic Forcing due to Greenhoues Gases, Advances in Atmospheric Sciences, Vol.9, No.3, 279-286(1992).
    
    
48. Global Warming Potential due to CFCs and Their Substitutes, Scientia Atmospherica Sinica, Vol. 16, 345-352 (1992).
    
    
49. 《Global Warming》, translated from Japanese, Meteorological Press, Beijing, CHINA, ISBN 7-5029-0831-5/P.0422, pp.132, 1992.
    
    
50. Radiative Forcing and Greenhouse Effect due to Atmospheric Trace Gases, Science in China,Vol.35, No.2, 217-229(1992).