The overall goal of the center is to coordinate and organize the research forces related to climate in the hospital, carry out comprehensive and integrated research, meet the needs of the country to adapt to climate change and sustainable development, and provide scientific support for government decision-making; Build the center into a scientific "think tank" for the country to deal with environmental diplomatic negotiations; Cultivate the core strength of climate change research of China Academy of Sciences; Participate in major international cooperation in the field of climate change on behalf of China Academy of Sciences.
Short-term goals include: completing the establishment of the Climate Change Research Center of China Academy of Sciences; Systematically summarize, evaluate and integrate the existing achievements in response to the national environmental diplomatic negotiations and the national demand for climate change; Deploy some new research projects and form new research plans; According to the needs, a number of strategic research reports of the latest research results are formed irregularly; Prepare a comprehensive climate change information database.
The main research contents of CCRC include the following aspects:
I. Research oriented to international negotiations
Including accepting the tasks of decision makers and negotiators, tackling key problems in a targeted manner, and making suggestions based on the results of comprehensive research in order to gain the initiative in negotiations.
Second, research on national decision-making on climate change.
Including according to the national development plan and plan, put forward the national report of regional climate change trend and its influence on China's social and economic development, and put forward the best countermeasures and suggestions to adapt to and alleviate climate change by using scientific methods such as virtual experiments.
Third, research on basic scientific problems facing climate change.
Including the attribution, prediction, impact and adaptation of climate change and countermeasures.
The CCRC Academic Committee consists of the Institute of Atmospheric Physics, the Institute of Geology and Geophysics, the Institute of Earth Environment, the Institute of Remote Sensing Application, the Institute of Oceanography, the Institute of Qinghai-Tibet Plateau, the Institute of Environment and Engineering in Cold and Arid Regions, the Institute of Geographical Sciences and Resources, the Institute of Nanhai Oceanography, the Nanjing Soil Institute, the Institute of Science and Technology Policy and Management of China Meteorological Bureau, the University of Hawaii, the Climate Change Response Department of the National Development and Reform Commission, and the Social Development Science and Technology Department of the Ministry of Science and Technology. Academician Ding Zhongli, Academician Fu Yunbin and Academician Wu Guoxiong are deputy directors of the Academic Committee. CCRC management committee is composed of leaders from China Academy of Sciences, Institute of Resources, Environment and Technology, Institute of Atmospheric Physics, Institute of Address and Geophysics, Institute of Science and Technology Policy and Management, Research Center of Ecological Environment, Institute of Qinghai-Tibet Plateau, Institute of Environment and Engineering in Cold and Arid Regions, South China Sea Oceanographic Research Institute, Institute of Oceanography, Planning and Finance Bureau, Personnel Education Bureau and High-tech Research and Development Department. Director of the Management Committee is Fan Weiming, director of the Bureau of Resources and Environment, and deputy directors are Wang Huijun, director of the Institute of Atmospheric Physics, and Chang Xu, deputy director of the Bureau of Resources and Environment. The director is Guo (Institute of Geology and Geophysics), Yu Guirui (Institute of Geography), Wang Yi (Institute of Policy), (Institute of Atmospheric Physics), Yan Xiaodong (Institute of Atmospheric Physics) and Zhou Tianjun (Institute of Atmospheric Physics). The academic secretary of the center is Dr. Zhang Ying. The existing fixed members are Jiang Dabang, Ju, Fu Yuanhai and Shi Ning (postdoctoral). Cloud precipitation physics and severe storms have always been important research fields in atmospheric physics research institute. In the 1960s and 1970s, the Institute of Atmospheric Physics established the Cloud Physics Laboratory and the Mesoscale Rainstorm Laboratory. Under the leadership of famous Chinese scientists Gu Zhenchao, Tao Shiyan, Huang Dollar, Zhou Xiuji, Zhou Xiaoping and Zhao, after half a century's exploration and development, great progress has been made in the study of cloud precipitation physics, weather modification, severe convective weather and mesoscale dynamics in China: (1) We have a certain understanding of cloud structure and precipitation process, and put forward a world-famous theory of warm cloud fluctuation growth. It well explained a big problem that puzzled the international cloud and precipitation physics field at that time, that is, the threshold problem of cloud droplets changing from condensation growth to gravity collision growth, which was a great scientific and theoretical contribution to this field by China cloud and precipitation physicists. (2) Initiated the research on severe weather such as rainstorm in China, improved the level of rainstorm forecasting, and made important contributions to the research on rainstorm mechanism and forecasting method; (3) Studied the hail cloud physics, put forward the hail cloud classification identification method and artificial hail suppression technology, which made great contributions to the theoretical and technical research of artificial hail suppression in China and led the artificial hail suppression work in China. The physics research of rainstorm and cloud precipitation won the first prize and the second prize of natural science of Chinese Academy of Sciences respectively. He has written and published monographs and some related articles such as Rainstorm in China, Physical Basis of Clouds and Precipitation, Hail and Artificial Hail Suppression, and trained a group of young and middle-aged scientific and technological talents.
The laboratory of cloud precipitation physics and severe storm was established on the basis of the cloud physics laboratory and mesoscale rainstorm laboratory of the former Institute of Atmospheric Research. Since its establishment, we have adhered to the combination of detection experiment, numerical simulation and theoretical research, paid attention to the research and development of detection technology, experiment, detection design and model, and focused on the physical process of cloud and precipitation and various severe convective weather processes in major weather systems related to the national economy and people's livelihood, in order to reveal the formation process of natural precipitation in typical precipitation cloud systems, the theory and method of artificially influencing cloud precipitation, the formation mechanism of mesoscale rainstorm and the methods to improve the forecast level. At the same time, it also developed special observation instruments needed for research.
Through the efforts in recent years, the laboratory has formed its own characteristics and advantages in the research fields of cloud precipitation physics, weather modification, mesoscale severe storms, etc., and has achieved a series of influential innovations in the research of some related major scientific issues, expanded its social influence, and has a high academic status at home and abroad. (1) The macro-micro structure, water balance, precipitation process and mechanism of a typical stratiform cloud system for artificial precipitation enhancement are studied by combining in-depth detection and numerical simulation, and the phase state, particle spectrum structure and precipitation formation links of stratiform cloud system are defined, a three-layer conceptual model of stratiform cloud is developed, a comprehensive evaluation method of artificial precipitation enhancement potential is put forward, and a scientific conceptual model of artificial precipitation enhancement is established. (2) Through numerical simulation, the macroscopic characteristics of hail cloud, the microphysical process of hail formation and the mechanism of hail suppression by catalysis are analyzed and studied, and a three-dimensional numerical model of hail cloud catalysis is developed, which has been applied in relevant research departments and some universities in more than ten provinces in China; The temperature at the top of hail cloud echo is proposed as the identification index of parameters. This identification method has been included in the national regulations on artificial hail suppression and has become a norm to guide artificial hail suppression operations in various places. (3) Study on quantitative diagnosis of rainstorm process. The dynamic theory of rainstorm forecast is studied, and the rainstorm forecast technology is put forward, which improves the rainstorm forecast level. These include generalized wet potential vortex rainstorm forecasting technology, new convection vorticity vector forecasting technology, generalized scalar frontogenesis forecasting technology, new wet and hot advection parameter forecasting technology combining generalized wet potential temperature gradient with dry and cold advection gradient, new water vapor vertical helicity forecasting technology suitable for low vortex rainstorm forecasting and wave action density rainstorm forecasting technology.
The laboratory has extensive contacts and cooperation with corresponding international research institutions and academic organizations, and has close cooperation with NSSL- National Severe Storm Laboratory under the National Oceanic and Atmospheric Administration of the United States, and scientists often exchange visits. Established a strategic cooperative relationship with CAPS- Storm Analysis and Prediction Center (University of Oklahoma); Established an annual visit system with the Russian Institute of Atmospheric Physics; Established an annual academic exchange mechanism with the Korea Institute of Meteorological Science.
According to the international frontier and national demand of atmospheric science, through the above research and cooperative research, from 2005 to 2009, the laboratory won the second prize of National Science and Technology Progress Award 1 item (the unit ranked second and the individual ranked fifth), the first prize of China Meteorological Bureau 1 item (the individual ranked fifth), and four second prizes of provincial and ministerial science and technology progress, and published papers in international CSCD journals. Representative achievements were published in international first-class academic journals such as J. GeophysRes and Geophys. Ritter's resolution. Journal of atmospheric science. Weather and forecast. Lasg Key Laboratory for Mesospheric Atmosphere and Global Environment Detection (LAGEO) was established in April 1995. The first and second sessions of the laboratory were headed by Academician Lu Daren and Researcher Chen Hongbin respectively, and the academic committee was headed by Academician Zhou Xiuji.
Since its establishment, the laboratory has condensed and trained a group of outstanding talents, paid equal attention to basic research and applied basic research, and carried out research on scientific issues related to the mesosphere, atmospheric physical processes and remote sensing of the atmosphere and environment, in order to provide theoretical and technical support for the development, utilization and safety of adjacent space areas, remote sensing monitoring of atmospheric physical processes and sustainable development of the national economy. The main subjects are: 1. Mesospheric processes and their weather and climate effects, 2. Atmospheric radiation, remote sensing of atmosphere and environment, 3. Global atmospheric electricity, lightning and thunderstorm electricity, and 4. Advanced atmospheric and environmental detection technology.
In the past five years, the laboratory has undertaken more than 50 national, provincial and ministerial scientific research projects, including the national "973" major basic projects, major and key projects of the National Natural Science Foundation, important directional projects of the knowledge innovation project of the Chinese Academy of Sciences, and provincial and ministerial key scientific research projects. In recent three years, nearly 200 academic papers have been published in core journals at home and abroad, including more than 60 SCI(E) papers and 5 patents.
There are 36 researchers in the laboratory (4 are renewed), including academician of China Academy of Sciences 1 person, winner of National Outstanding Talents Fund 1 person and winner of Overseas Outstanding Youth Science Fund 1 person. There are 6 in-service doctoral supervisors, researcher 13, associate researcher 10, and senior engineer; There are 22 people with doctorates. There are 3 visiting researchers in the laboratory, all of whom are well-known experts from famous foreign universities. There are 24 doctoral students, 8 master students/kloc-0 and 2 postdoctoral students in the laboratory.
Laboratory has become one of the cradles of cultivating high-level scientific research talents in atmospheric physics and middle atmosphere in China. A large number of young and promising scholars stand out from here and enter the world-famous atmospheric science research institutions. A large number of young scholars have become the backbone of domestic atmospheric science research and national defense modernization. As a platform for academic exchanges and scientific research cooperation at home and abroad, the laboratory has carried out extensive academic exchanges and scientific research cooperation with the United States, France, Germany, Japan, Britain, Canada, Hongkong, Taiwan Province and other countries and regions. At the same time, dozens of laboratory researchers and technicians went to developed countries and regions to carry out scientific research cooperation and academic exchanges.
The laboratory has scientific research instruments and equipment worth more than 30 million yuan. Taking the knowledge innovation project of Chinese Academy of Sciences as an opportunity, we have developed and purchased a large number of advanced large-scale instruments and equipment at home and abroad, and promoted the construction of scientific research technology platform. Representative instruments and equipment include: large VHF wind radar system, X-band Doppler polarization radar, Dobson atmospheric ozone vertical integrator, stratospheric high-altitude scientific balloon distribution, measurement and control, recovery and other comprehensive technical systems, aerosol and radiation research experimental platform, vehicle-mounted lidar system, ozone and carbon monoxide gas analysis and collection and 32-meter meteorological tower, MODIS satellite data receiving platform, multi-parameter high-time resolution lightning detection and recording integrated observation system and so on.
The laboratory implements the operation mechanism of "openness, mobility, competition and union". By strengthening international and domestic academic contacts, establishing stable cooperation channels and realizing complementary sharing of scientific and technological resources, the laboratory is aimed at building into a national high-level talent training base, a high-level scientific research base and an international academic exchange center for intermediate and advanced atmospheric and atmospheric physics, promoting the development of related disciplines in China and becoming a first-class laboratory at home and abroad that can not only serve the national and national defense objectives, but also carry out high-level scientific and technological innovation research. The State Key Laboratory of Atmospheric Boundary Layer Physics and Atmospheric Chemistry (LAPC) was established with a loan from the World Bank in 1988, and was officially established and opened to the public with the approval of China Academy of Sciences in 199 1. 1995 passed the acceptance of the State Planning Commission; The first national assessment was adopted in 2000; In 2005, as a calibration laboratory, it passed the second evaluation with good results. The laboratory is located in the 325m meteorological tower of China Academy of Sciences with beautiful scenery and supported by lasg. The current academic committee director is Academician Lu Daren of China Academy of Sciences, and the laboratory director is researcher Wang Zifa.
The laboratory is a national key laboratory established at the intersection of two important branches of atmospheric science (atmospheric boundary layer physics and atmospheric chemistry), which has unique interdisciplinary advantages. For more than 20 years, the laboratory has always been pioneering, developed and utilized various research methods, such as theoretical research, laboratory simulation experiment, field stereo comprehensive observation experiment, satellite telemetry and numerical simulation, and maintained a leading position in the research fields of atmospheric boundary layer physics, atmospheric chemical model, carbon and nitrogen biogeochemical cycle and so on. In recent 10 years, laboratories in the field of networked observation, prediction and forecasting of regional air pollution have mushroomed; In recent five years, the laboratory has occupied the commanding height in the youngest research field of the interaction between atmospheric chemical processes and climate change. After more than 20 years of unremitting efforts, the laboratory has produced a large number of high-level research results, trained a large number of outstanding talents, established a number of high-level substantive international cooperation platforms, and accumulated a considerable number of advanced instruments and equipment. In particular, it has trained and brought up a scientific research team with high research level, reasonable discipline collocation and large age gradient, coupled with sound rules and regulations and scientific and democratic management system, which has enabled the laboratory to leap to a new level in recent five years.
Overall orientation of the laboratory:
The State Key Laboratory of Atmospheric Boundary Layer Physics and Atmospheric Chemistry is located in the basic research of physical and chemical processes in the lower atmosphere. Facing the frontier of international disciplines and the needs of national development, we should adhere to the combination of observation experiments, theoretical analysis and numerical simulation, lead the development and intersection of atmospheric boundary layer physics and atmospheric chemistry in China, cultivate outstanding talents, build excellent teams, carry out key and forward-looking basic and applied basic research in key research fields such as basic theory of atmospheric boundary layer, development and application of atmospheric chemistry model, key processes of marine geochemical cycle, and interaction between atmospheric chemical process and climate change, thus becoming a representative with national first-class level and international influence in this field. At the same time, as a base for the development of atmospheric boundary layer physics and atmospheric chemistry, personnel training and applied research and development, it serves the sustainable development of social economy and provides scientific support for national climate and environmental diplomacy.
Research direction of the laboratory:
According to the current development trend of disciplines at home and abroad, the frontier trend of disciplines and the strategic needs of the country, the laboratory constantly adjusts and improves its research direction in combination with its recent development advantages and long-term work accumulation. The current research directions and contents are as follows:
(1) Physics of Atmospheric Boundary Layer
Turbulence and gust mechanism of coherent structure boundary layer of urban complex underlying surface, exchange process of atmospheric boundary layer structure and non-uniform underlying surface; Laws and characteristics of material and energy exchange in different ecosystems; Physical process of marine atmospheric boundary layer, parameterization of atmospheric boundary layer in numerical model
(2) Atmospheric chemistry and atmospheric environment
Network observation of atmospheric boundary layer physics and atmospheric chemistry: development of online observation instrument and photochemical smog box for gas pollutants and aerosol chemistry; Formation mechanism, transport process and evolution mechanism of regional air combined pollution; Develop air quality numerical forecasting model and multi-model ensemble forecasting platform with independent intellectual property rights; The development and integration of simulation and early warning technology of sudden air pollution risk field and mobile platform organically combine the technologies of sudden condition simulation, multiphase pollution process simulation and observation simulation.
(3) Biogeochemical cycle of carbon and nitrogen
Improve and perfect the observation technology of greenhouse gas concentration and interface exchange flux; The effects of human activities and climate change on the changes of material and energy budget in temperate semi-arid grassland, alpine meadow grassland and Qinghai-Tibet Plateau; Agricultural non-point source nitrogen emission mechanism, regulation approach and its response to climate change: characteristics of carbon and nitrogen process, energy exchange flux of interface materials and environmental change in temperate forest land: emission of volatile organic compounds in forest ecosystem; Establish and develop the carbon and nitrogen cycle process model of terrestrial ecosystem with independent intellectual property rights, so as to serve the compilation of national greenhouse gas inventory, the formulation of terrestrial greenhouse gas emission reduction and exchange enhancement strategy and the performance negotiation.
(4) Atmospheric chemistry and climate change
Interaction between atmospheric composition change and climate change; The role of greenhouse gases, tropospheric ozone and aerosols in climate change is studied from the chemical process and mechanism; The influence of climate change on the transport, distribution and concentration of pollutants; Aerosol-cloud-climate interaction; Development of biogeochemical process and mechanism model in the global climate system model: impact assessment of national energy conservation and emission reduction on atmospheric environment and climate.
The development goal of the laboratory:
A series of basic research and basic work with important international influence have been made in the study of atmospheric boundary layer physics, atmospheric chemistry, carbon and nitrogen biogeochemical cycle and climate change; It has made great contributions to the sustainable development of China's economy and society in applied basic research such as atmospheric environment and air pollution forecast. LASG State Key Laboratory for Numerical Simulation of Atmospheric Science and Geophysical Fluid Dynamics (LASG) was established in 1985, officially opened to the public in September of the same year, and was promoted to the State Key Laboratory in 1989. Under the leadership of the first three directors, Academician Zeng Qingcun, Academician Wu Guoxiong and Researcher Wang Bin, LASG has become a well-known research institution of atmospheric science and geophysical fluid dynamics at home and abroad, with the results of 1988, 1992, 1996, 2000, 2005 and 20 10. LASG 1990 was awarded the title of advanced collective by the State Planning Commission and Chinese Academy of Sciences, 1994 was awarded the Golden Bull Award by the State Planning Commission, in 2004, it was awarded the "Advanced Collective of National Key Laboratory Program" by the Ministry of Science and Technology, and 201/kloc-0 was awarded the National Excellent Team Award for the Implementation of the Eleventh Five-Year Science and Technology Plan. The current academic committee director is Academician Li Chongyin, and the laboratory director is Lu.
According to the development trend of disciplines at home and abroad, the needs of national economic construction, and the new requirements for the State Key Laboratory in the period of knowledge innovation, the current research direction of the laboratory is: to study and develop the systematic theory of the macro evolution law and mechanism of the earth's fluid (atmosphere and ocean); Learn the theory of weather and climate dynamics, master the changing law of weather and climate system and the occurrence mechanism of its anomalies; The development and numerical simulation of modular earth system model and regional model system will provide new theories and methods for improving forecasting ability, preventing and mitigating weather and climate disasters and rationally utilizing climate and water resources. The key research fields of the laboratory are: 1) the development and application of the earth system model; 2) Weather and climate dynamics; 3) Predictability of weather and climate; 4) Geophysical fluid dynamics, and the study of climate problems is determined as the key research content in the next five years.
From 200 1, the burden of the laboratory fell on the younger generation of leadership. After nearly ten years of hard work, we have gone up a storey still higher on the original basis and achieved gratifying results. 200 1, Li chongyin was elected as an academician of China academy of sciences; Zhao won the Heli Science and Technology Progress Award; Mu Mu and others won the first prize in natural science of China Academy of Sciences; Wang Huijun won the National Outstanding Youth Fund (referred to as "Jieqing"); Liu Yimin won 100 excellent doctoral dissertations in China. In 2002, the LASG research team was supported by the "Innovative Research Group Science Fund" of the National Foundation of China. Li Chongyin won the He Liang Heli Science and Technology Progress Award; Zhang Renhe (200 1 was a member of LASG before) won Jieqing. In 2003, Ye Duzheng, an academic consultant of LASG, won the ——IMO Award, the highest international meteorological award. The research case written by Wang Bin won the highest honor award in the computer field-21century achievement award; Huang, and won the first prize of national scientific and technological progress; Wu Guoxiong was elected as the vice chairman of the Executive Committee of the International Society of Meteorology and Atmospheric Sciences (IAMAS); Li Jianping won Jie Qing. In 2004, LASG research team was funded by the International Partnership Program for Innovative Teams of China Academy of Sciences. In 2005, Ye Duzheng won the highest national science and technology award; Zeng Qingcun and others won the second prize of National Natural Science; Jiang Mumu and Wang Bin were awarded national excellent postdoctoral fellows; LASG successfully held a series of large-scale international conferences-IAMAS 2005. In 2006, the 973 project applied by Wu Guoxiong and Li Jianping was funded; LASG "innovative research group science fund" continued to support; Yu Rucong (member of LASG before 2004) won Jie Qing; Wang Bin was elected member of the Atmospheric Science Committee of the World Meteorological Organization; Duan Wansuo won 100 excellent doctoral dissertations in China. In 2007, Wu Guoxiong, as the first scholar from Asia, was elected as the chairman of IAMAS; Mu Mu was elected as an academician of China Academy of Sciences; Wu Guoxiong and others won the second prize of National Natural Science; Shi Guangyu, as the first scholar outside Japan, won the Fujiwara Prize, the highest prize of the Japanese Meteorological Society. Lu Yan Jie Qing; Li Jianping is the director of the International Planning Office for the Asian Monsoon Year. In 2008, Wu Guoxiong won the He Liang Heli Science and Technology Award; Jiang Mumu was elected as an academician of the Academy of Sciences for the Developing World (formerly the Third World Academy of Sciences); Wang Bin was elected director of the American Meteorological Society; Wang Bin was elected as a member of WCRP Coupled Simulation Working Group (WGCM); Li Jianping is the coordinator of the international climate plan for East Asia. In 2009, LASG "Innovative Research Group Science Fund" was funded for the second time, becoming the only group project in this field that was funded for three consecutive times; The 973 project applied by Wang Huijun was funded; Liu Wei was awarded Jie Qing; Zhou Tianjun was elected as a member of WCRP Asia-Australia Monsoon Working Group (AAMP); Li Jianping was elected as a member of the International Climate Commission.
Up to now, LASG has won 30 national and provincial awards, including national awards 10 (3 second and third prizes in natural science, 1 and 2 second prizes in scientific and technological progress 1 item, and the first prize in Chinese Academy of Sciences 1 1 item (6 natural science awards and 5 scientific and technological progress awards). Participated in various international model comparison programs for many times, made invited reports at major international conferences, presided over major international academic conferences, held positions in major international academic organizations, and participated in the decision-making of international research plans. , making the laboratory an internationally renowned atmospheric science research center and talent training base.
Since 1996, LASG has been newly elected as 4 academicians of China Academy of Sciences, 2 young scientists awarded by China 1, 2 young scientists awarded by China, 8 young people trained in Jieqing, 4 young overseas scholars' cooperative fund, 5 "Hundred Talents Program" sponsored by China Academy of Sciences, 3 winners of National Top 100 Doctoral Dissertation Awards, 3 outstanding young people awarded by China Academy of Sciences and 5 young scientists awarded by China Academy of Sciences. At present, LASG has 5/kloc-0 researchers and about 120 graduate students. Is a young and middle-aged academic backbone as the main research team. LASG has established four innovative teams, namely, global climate system model, weather and climate dynamics, weather and climate predictability and geophysical fluid dynamics, with strong technical support teams. Since 200 1, LASG has funded 85 open projects, invited 439 visiting scholars, hired overseas doctoral supervisors 12, visited researchers 17 and invited 8 researchers, making due contributions to the development of LASG. The Key Laboratory of East Asia Climate-Environment of China Academy of Sciences is an open laboratory approved by China Academy of Sciences and established on the basis of the former lasg East Asia Global Change Research Center. The research field includes many aspects of global change research such as East Asian regional environment and climate change, and interdisciplinary research is the basic feature of our laboratory. At the same time, the laboratory also undertakes the international function of the East Asia regional research center of the international START organization (Global Change Analysis, Research and Training System).
In order to understand the behavior law and mechanism of regional environmental system, develop forecasting theory and method, and establish the scientific basis of human orderly adaptive countermeasures, the main research directions of the laboratory are as follows:
1, interaction mechanism and collaborative observation of monsoon climate-ecosystem-human activities;
2. Development and application of regional model of the earth system;
3. Regional impact of global change and human adaptation.
The laboratory has made great contributions to the implementation and completion of major national projects in the field of global change. He has successively presided over the national "Climbing Plan" project and the National Basic Research Plan (973) project in the field of global change, and participated in or presided over a number of major and key projects of the National Natural Science Foundation and major projects of the Chinese Academy of Sciences. At present, he is in charge of the "National Basic Research Plan" (973) project "Drought and Human Adaptation in North China"; At the same time, he presided over the major international cooperation project of the National Fund: comparative study on the interaction between atmosphere, vegetation and water in semi-arid areas of Asia and North America, and the key project of the National Fund: study on the mechanism of climate and water process change in northwest and west regions under the background of climate warming; We are organizing and implementing the large-scale international cooperation plan "regional integration in monsoon Asia", and at the same time initiating and organizing the international Asia-Pacific network cooperation project: the third phase of the regional model comparison plan.
Some research work in the laboratory has international influence:
1, the scientific concepts of "monsoon driven ecosystem" and "generalized monsoon system", and the integrated simulation system of regional environmental system (RIMS) developed under the guidance of these concepts;
2. Numerical simulation of regional environmental system with land use and change as the core;
3. The international project of "Regional Model Comparison Plan for Asia" (RMIP) led by the laboratory (the comprehensive performance of RIEMS is in the leading position in the 10 major international regional models that RIMP participates in in);
4. The Air-Vegetation Interaction Model (AVIM) which is suitable for various climates and ecosystems got high marks in the International Ecosystem Model/Data Comparison Program (EMDI, 1999-2002).
The laboratory also carries out nonlinear dynamics and extremum of regional environmental system, soil moisture, ecosystem model, application of satellite remote sensing in climate and macro-ecological research, and atmospheric radiation research. Recently, with the support of the 973 Project, a new scientific idea of human orderly adaptation was put forward in view of the drought in northern China.
The laboratory has a strong research team, including two academicians of China Academy of Sciences, 12 researchers and several associate researchers. It is under construction.