Since 2002, in terms of forest carbon sink, in view of the realistic basis of the existence of a large number of Phyllostachys pubescens forests in southern China and the important role of Phyllostachys pubescens forests in mitigating global climate change, the research on carbon sequestration characteristics and dynamics of Phyllostachys pubescens forests, the research and development of remote sensing estimation technology of carbon sequestration capacity and carbon storage of Phyllostachys pubescens forests, and the management, monitoring and measurement of Phyllostachys pubescens carbon sink forests have been carried out, and some important research results have been obtained. In 2008, China Green Carbon Fund organized and implemented the first bamboo carbon sink forest project in China. In 2009, he was hired as a consultant of "Low-carbon City" by Hangzhou Municipal Government. In 2009, he was invited to attend the15th United Nations Climate Change Conference in Copenhagen and became an expert on forest carbon sink and low-carbon economy. In 20 10, the first master plan of carbon sequestration forestry construction in China-Lin 'an master plan of carbon sequestration forestry construction was compiled. 20 10 was awarded the first batch of forestry carbon sink measurement and monitoring qualification units in China (the only one in Zhejiang province), and was responsible for the measurement and monitoring of carbon sinks of China Green Carbon Fund and China Green Carbon Fund in Yinzhou. At the 6th meeting of the United Nations Climate Change Conference held in Cancun, Mexico in 20 10, a research report entitled Bamboo and Climate Change Mitigation was published in cooperation with four authors from other countries in the world, which aroused strong response from domestic and foreign media. According to the preliminary statistics of international bamboo and rattan organizations, 128 was widely reported by domestic and foreign media. 1, sponsored by National 973 Project "Verification Platform of Internet of Things and Application Demonstration of Carbon Balance Monitoring" (201-2013).
2. Supported by National Natural Fund "Survival, Stability and Regulation Mechanism of Carbon in Intensive Management of Phyllostachys pubescens Forest" (200 10-20 12).
3. National Natural Foundation of China "Characteristics of greenhouse gas emission from soil of intensive Phyllostachys pubescens forest and its relationship with soil water-soluble carbon and nitrogen" (2008-20 10).
4. National Forestry Administration's "948" project "Carbon fixation capacity of bamboo forest and introduction of remote sensing estimation technology of carbon storage" (2008-20 12), presided over.
5. China Green Carbon Fund Project "Research and Demonstration of Bamboo Forest Carbon Sequestration Project in Lin 'an, China" (2008-2028), presided over.
6. The key scientific and technological project of Zhejiang Province, "Study on Monitoring, Early Warning and Continuous Control Technology of Non-point Source Pollution in Source Forest Areas of Main Water Systems in Zhejiang Province" (2005-20 10), presided over.
7. Ministry of Science and Technology (Transformation of Achievements), "Demonstration of Comprehensive Technology Extension for Forest Managers in Collective Forest Areas" (2004-2007), presided over.
8. Hangzhou Science and Technology Bureau (major project) "Research and application of biological prevention and control technology of forest fires in Hangzhou" (2005-2009), presided over.
9. The project of Institute of Statistics and Mathematics, Ministry of Education, Culture, Sports, Science and Technology of Japan, "Comparative Investigation and Research on Environmental Awareness between China and Japan" (2005-2007), presided over. 1, Zhou Guomao, Pei, Lu Feng Mo. Bamboo: a possible way to control global warming. International journal of nonlinear science. Numerical Simulation, 2009, 10(5):547-550. Science (same as science)
2. Zhou Guomao, Pei. Effects of management measures on seasonal dynamics of soil organic carbon in bamboo forests. PEDOSPHERE, 2006,16 (14): 525-531. Science (same as science)
3. Estimation of aboveground carbon storage of Phyllostachys pubescens. Pubescens) forest and land satellite thematic imager image. International Journal of Remote Sensing, 20 1 1, 32 (5):1431-1448. Science (same as science)
4. Changqing Xu and Guo Mo (correspondent Zhou). Establishing forest growth model with differential matrix. Proceedings of the Third International Symposium on Matrix Analysis, 2009, 3: 369-372. SCI。
5. Du Huaqiang, Zhou Guomao, Fan, Ge, Shi Yongjun, Fan. Spatial heterogeneity and carbon contribution of aboveground biomass of Phyllostachys pubescens based on geostatistics theory. Plant Ecology, 20 10/0,207 (1):131-139. Science (same as science)
6. Lu Dengsheng, Tian Hanqin, Zhou Guomao, Ge Lu. Regional Mapping of Human Settlements in Southeast China Based on Multi-sensor Remote Sensing Data. Environmental Remote Sensing, 2008, 1 12(9), 3668-3679. Science (same as science)
7. Zhou Guomo, Liu Enbin, Shi Yongxin, etc. Accurate estimation of Phyllostachys pubescens biomass in Zhejiang Province based on minimum scale. Forestry Science, 20 1 1, 47 (1): 1-5.
8. Zhou, Zhou Yufeng, Yu Shuquan, et al. Combustibility of litter with different moisture content was studied by cone calorimeter. Forestry Science, 2008,44 (5): 96-101.
9. Zhou, Liu Enbin, Liu Anxing, et al. Improvement of identification and determination method of Weibull distribution parameters of DBH age distribution in Phyllostachys pubescens forest in Zhejiang Province. Journal of Ecology, 2006,26 (9): 2918-2926.
10, Zhou, Wu, etc. Evolution of soil active organic carbon pool during intensive management of Phyllostachys pubescens forest. Forestry Science, 2006,42 (6):124-128.
1 1, Zhou, Wu, Jiang Peikun. Effects of different management modes on carbon storage of Phyllostachys pubescens forest. Journal of Beijing Forestry University, 2006,28 (6): 51-55.
12, Zhou, Jiang Peikun. Carbon density, carbon storage and its spatial distribution in Phyllostachys pubescens forest. Forestry Science, 2004,40 (6): 20-24.
13, Zhou, Jiang Peikun. Effects of different vegetation restoration on activated carbon pool in eroded red soil. Journal of Soil and Water Conservation, 2004.
14,, Du Huaqiang, Zhou,, etc. Erf-BP mixed pixel decomposition and its application in forest remote sensing information extraction. Forestry Science, 20 1 1, 47(2): 30-38.
15, Fan, Du Huaqiang, Zhou Guomao (correspondent), etc. Effect of atmospheric correction on biomass estimation of Phyllostachys pubescens. Acta applied ecology, 20 10/0,21(1):1-8.
16, Liu enbin, Li Yongfu, Zhou guomo (correspondent), etc. Accurate biomass estimation model and parameter identification method and their applications. Journal of Ecology, 20 10/0,30 (10): 2549—2561.
17, Liu Enbin, Zhou Guomo (correspondent), Ge, et al. Construction and application of multi-scale unified model of DBH release of Phyllostachys pubescens based on maximum entropy principle. Journal of Ecology, 2009,29 (8): 4070-4077.
18, Liu Enbin, Zhou, Shi Yongjun, et al. Binary probability distribution of tree-measuring factors: a case study of Phyllostachys pubescens. Forestry Science, 20 10/0,46 (10): 29-36.
19, Liu enbin, Zhou, Jiang peikun, et al. Construction of unified biomass model and nonlinear partial least squares identification —— A case study of Phyllostachys pubescens. Journal of Ecology, 29, 2009 (10): 5561-5569.
20. Fan, Du Huaqiang, et al. Mixed pixel decomposition of simulated real scene, 20 10, Journal of Remote Sensing,14 (6):1241-1258.
2 1, Zhou Guomao, Jiang Peikun, Xu. 20 10. Carbon fixation and transformation in bamboo forest ecosystem. Science press.
22. Lou Yiping, Li Yanxia, Catherine Buckingham, Giles Henry, Zhou Guomao. Bamboo and climate change mitigation, in Technical Report No.32, Science and Technology Achievement Award.
1, rapid construction technology of forest ecosystem in southeast China; Won the second prize of national science and technology progress, 20 10, ranking 2/ 10.
2. Research and popularization of key technologies for improved seed selection and directional cultivation of four major economic forests in South China; Won the second prize of National Science and Technology Progress Award, ranking 4/9 in 2007.
3. Research on the source test of Camptotheca acuminata and key technologies of leaf garden construction: won the second prize of scientific and technological progress of Zhejiang Provincial People's Government, and ranked 1/9 in 2007.
4. Research on supporting technology of forest ecosystem in key soil and water loss prevention areas of Zhejiang Province: won the second prize of scientific and technological progress of Zhejiang Provincial People's Government, ranking 1/9 in 2006.
5. Community characteristics, dynamic change and ecological restoration technology of evergreen broad-leaved forest in Zhejiang Province: won the second prize of scientific and technological progress of Zhejiang Provincial People's Government and ranked second in 2005.
6. Research on monitoring, early warning and continuous control technology of non-point source pollution in the headwater forest region of Taihu Lake system: the third prize of Zhejiang provincial government for scientific and technological progress, 20 10, ranking 1/7.
7. Study on the evolution characteristics and control technology of soil bamboo shoot quality in intensive management of Phyllostachys praecox forest: Liang won the third prize of forestry science and technology award and the second/seventh place in 2007.
8. Research on carbon process, carbon monitoring and carbon sink enhancement technology of bamboo forest ecosystem: won the first prize of Zhejiang Science and Technology Award 20 12, and took the lead in completing it.
Teaching achievement award
1, theory and practice of transformation and construction of forestry specialty; The first prize of outstanding teaching achievement in Zhejiang Province in 2005, ranking 1/5.