Li Jianping

Li Jianping

Li Jianping, male, Han nationality, CPC member, was born in May 1969. Graduated from Lanzhou University, mainly engaged in the field of climate dynamics and climate prediction. On June 30, 2014, he was the president of the Institute of global change and earth system science of Beijing Normal University. In January 2015, he was elected as one of the first IUGG members of the International Union of Geodesy and Geophysics (IUGG). Since 2019, professor and doctoral supervisor of Ocean University of China. From December 2020, he will be the dean of the future ocean College of Ocean University of China.

Profile

He is a doctoral supervisor, winner of the national fund for Distinguished Young Scholars, winner of the first national 100 Excellent Doctoral Dissertation Award. He once served as deputy director of the State Key Laboratory of atmospheric science and geohydrodynamics numerical simulation (LASG), Institute of Atmospheric Physics, Chinese Academy of Sciences, and President of the Institute of global change and earth system science, Beijing Normal University. He is now the Marine Education Department of Ocean University of China Professor of key laboratory and doctoral supervisor.

In 1991, he graduated from the Department of atmospheric science of Lanzhou University with a Bachelor of Science degree;

In 1994 and 1997, he obtained a master of Science degree and a doctor's degree from Lanzhou University.

In September 1997, he entered the postdoctoral mobile station of Institute of Atmospheric Physics, Chinese Academy of Sciences.

He left the station in May 1999 and worked in LASG.

In 2000, 2002 and 2004, he was a senior visiting scholar at Indiana University and Air Resources Laboratory (ARL) of National Oceanic and Atmospheric Administration (NOAA).

In 2006, he was selected into the 9th China Youth Science and technology award.

Academic part time job

Member of the International Committee on planetary atmospheres and their evolution (icpae)

The responsibility of "theoretical and applied climatology"

Editorial board member of advanced in Atmospheric Sciences

Executive editor of Atmospheric Science

Executive editor of Beijing computational fluid dynamics symposium

Member of Sino US Polar Research Committee

Secretary General of IAMAS China Committee

Member of the dynamic meteorology Committee of the Chinese meteorological society

2010, elected Fellow of the Royal Meteorological Society (rmets)

He is a part-time professor of Lanzhou University and Qingdao Ocean University.

He is an adjunct professor at the University of Hawaii and a visiting professor at Cambridge University.

He is currently vice chairman of the International Commission on climate and environmental change (CCEC) (2012 -), Secretary General of the international climate Commission (ICCL) (2011 -), CO chairman of the East Asia International Climate Program (2009 -), Secretary General of the IUGG China Committee (2007 -), member of the International Commission on dynamic meteorology (ICDM) (2010 -), member of the international IUGG honor and Award Committee (2010 -), and member of the world weather research institute Members of the monsoon expert group (2010 -), editorial board member of "tropical and applied climatology" (2003 -), etc.

Research direction

Climate dynamics, monsoon, annular model (Arctic Oscillation and Antarctic oscillation), predictability, water cycle, numerical simulation and calculation, etc.

He has published more than 60 papers and one monograph in academic journals at home and abroad.

He has been invited to give a special report at international and domestic academic conferences for many times.

research project

National climbing program

National 973 Project

Special fund for excellent State Key Laboratory

Youth fund of National Natural Science Foundation of China

Key projects of National Natural Science Foundation of China

National special fund for outstanding doctors of Chinese Academy of Sciences

Important direction project of knowledge innovation project of Chinese Academy of Sciences

General projects of NSFC

National Science Foundation for Distinguished Young Scholars

Innovation group project of NSFC

More than ten items, including the innovation team of the Chinese Academy of Sciences.

Honors and achievements

Zhao Jiuzhang Award for outstanding young and middle aged scientists (2005)

Title of Excellent Communist Party member of Chinese Academy of Sciences (2005)

The first national 100 Excellent Doctoral Dissertations Award (1999)

Ten outstanding postdoctoral titles of Chinese Academy of Sciences (1999)

First prize of Tu Changwang youth meteorological science and technology of China Meteorological Society (1998)

First prize of young and middle-aged scientific papers of Beijing Meteorological Society (2000)

The title of outstanding young scientific and technological worker

Gansu meteorological society youth meteorological science and Technology Award (1995, 1997) and many other awards.

Leading talents of national "ten thousand talents program" (2013), winner of national fund for Distinguished Young Scholars (2003), chief scientist of national 973 Program (2007-2010), chief scientist of major scientific research program of global change research (2010-2014), main author of ipccsrex, winner of the first national 100 Excellent Doctoral Dissertation Award (1999), and national "100 million talents project" were selected (2006), enjoy special government allowance.

academic achievements

(1) The global analysis theory of nonlinear climate dynamics and its application are systematically studied. The global behavior theorem of climate system is obtained. It is pointed out that the asymptotic behavior of climate system is a nonlinear adaptive process of external forcing. A new concept of three kinds of time boundary layer in climate system is proposed. The theory of adaptation and evolution process of climate system is established, and the root of equilibrium state is solved theoretically Source problem.

(2) Based on the global analysis theory, a new operator Constraint Principle and the monotonicity principle of atmospheric predictability are proposed for the design of forced dissipative numerical models.

The achievements in this field won the first prize of biogeography in the acceptance of State Key Laboratory of LASG in 2000, and were evaluated as innovative achievements. They were also included in the collection of knowledge innovation achievements of Chinese Academy of Sciences. They were invited to participate in the Fourth International Conference on dynamic systems and differential equations (dsde, 2002), the 23rd International iugg2003 and the Asia Oceania geophysical Association (aogs, 2004) ）"The first annual conference and other international conferences.

(3) In this paper, a new concept of annular active zone of atmospheric circulation is proposed, and a new and better Arctic Oscillation Index is constructed, which avoids the confusion and controversy caused by the traditional old index. The physical model of annular mode is proposed, and the important role of anomalous Ferrel circulation in the physical mechanism of annular mode is pointed out, which provides a new way to study the atmospheric circulation in middle and high latitudes.

The above results have been highly praised by international reviewers, and are considered as "giving the latest views on understanding the circulation characteristics of the northern hemisphere" and "having important scientific value for understanding and improving the work in this field. "

The achievement was selected by National Geographic Society's science exhibition in 2005 in Washington DC. It was included in the knowledge innovation engineering achievement exhibition of Chinese Academy of Sciences in 2004 and invited to give a special report at the International Conference of Meteorology and Atmospheric Science (iamas2005).

(4) It is found that there is a good positive correlation between the Southern Hemisphere annular model (SAM) in early spring and the precipitation in the middle and lower reaches of the Yangtze River in summer.

This discovery provides a new and valuable signal for the prediction of summer precipitation in the middle and lower reaches of the Yangtze River. Further analysis puts forward the "Ocean Bridge" theory, that is, the possible physical mechanism of the influence of the Spring Southern Hemisphere annular mode (SAM) on the summer precipitation in the middle and lower reaches of the Yangtze River is realized by the effect of the "Ocean Bridge" on the circulation of the East Asian summer monsoon.

(5) It is found that the former Winter Arctic Oscillation has a significant inverse correlation with the interdecadal variation of spring dust storm frequency in Northwest China.

(6) A unified monsoon index theory is proposed, and the nature of tropical monsoon is the result of the joint action of quasi stationary planetary waves as the "second driving force" caused by the planetary thermal convection circulation as the "first driving force" of tropical monsoon and the difference of ground surface characteristics.

(7) The principle of computational uncertainty in numerical simulation is proposed, and two universal relations between the optimal step size and the maximum effective computation time are found. An effective method to realize the optimal numerical integration is given. The results and applications column of the National Science Foundation of China (NSFC) (2000) and science times (August 5, 2001) are gradually adjusted to celebrate the 15th anniversary of the founding of NSFC The project was introduced in the special issue of NSFC, and was evaluated as an innovative achievement in the acceptance of the National Key Laboratory of LASG in 2000.

Original contributions

one

Li

,

J.

,2005:Generalexplicitdifferenceformulasfornumericaldifferentiation,JournalofComputationalandAppliedMathematics,

one hundred and eighty-three

⑴：29-52, doi:10.1016/j.cam.2004.12.026.ElectronicversionPDF

2.Ding,R.,

J.

Li

,S.Wang,

Chinese PinYin : Li Jian Ping