Taking the soil-plant system as the research object, the team studies the mechanism and applied technology of crop water conservation and reduced fertilizer application, quality and efficiency improvement, resource utilization of crop waste, pollution control of heavy metals and organic matter in soil and water environments, and resource utilization of agricultural waste. In recent years, the team has presided over more than 60 projects, including general projects of the National Natural Science Foundation of China, sub-projects of the National Key R&D Program during the 13th FYP period, joint projects of Beijing Municipal Commission of Education and Natural Science Foundation, as well as special and horizontal projects of the Ministry of Ecology and Environment, and the Ministry of Agriculture and Rural Affairs, etc. Young faculty members of the team have visited the CSIRO and the University of Georgia for collaborative research. In the past five years, team members have received 2 second prizes of Beijing Natural Science Award, published more than 50 SCI papers, edited and co-edited 12 books, and obtained 2 authorized invention patents, and its "Science and Technology Backyard" was selected as one of "Top 10 Science and Technology Backyards" by the United Front Work Department of the Beijing Municipal Committee. In addition, team members have made positive contributions to Beijing's rural revitalization as industrial specialists of Beijing's special campaign titled "Thousands of Talents Entering Thousands of Enterprises".
Recent Projects of the National Natural Science Foundation of China and the Beijing Municipal Natural Science Foundation Presided over by the Team:
(1) Physiological and molecular mechanisms of water regulation of strawberry fruit quality and yield
(2) Signal transduction mechanism of polyamine oxidase FaPAO5 regulating drought tolerance and fruit quality in strawberry
(3) Mechanisms of synergistic regulation of water conservation and fruit quality formation in strawberry by polyamines and abscisic acid
(4) Enrichment characteristics and trophic transport of BFRs in birds from the Yellow River estuary
(5) Microbiological mechanisms of arsenic co-transformation with dissolved organic matter in red loamy rice soils
(6) Screening of pyrethroid pesticide degrading bacteria in soil and cloning and expression of degrading enzyme genes
(7) Cloning and expression of a gene for chitinase from an antagonistic actinomycete of root rot in lawns
(8) Physiological and molecular mechanisms of polyamine regulation of water conservation and fruit quality formation in strawberry
Recent Selected Publications:
Guo JX*, Wang SF, Yu XY, Dong R, Li YZ, Mei XR, Shen YY.Polyamines regulate strawberry fruit ripening by abscisic acid, auxin, and ethylene.Plant Physiology, 2018, 177(1): 339-351. (高被引论文)
Hao XX, Zhang XQ,Duan BH*, Huo SS, Lin WZ, Xia XX, Liu K. Screening and genome sequencing of deltamethrin-degrading bacterium ZJ6.Current Microbiology, 2018, 9(75): 1-9.
Zhang LY,Gaston LA, Sun WG, Selim HM. Transport of Cationic Silver in Soils: Miscible displacement experiments and nonlinear modeling, Soil Science, 2018, 183(1): 11-21.
Zhang XQ, Hao XX, Huo SS, Lin WZ, Xia XX, Liu K,Duan BH*. Isolation and identification of the Raoultella ornithinolytica-ZK4 degrading pyrethroid pesticides within soil sediment from an abandoned pesticide plant.Archives of Microbiology, 2019, 201(9): 1207-1217.
Yang YP, Tang XJ, Zhang HM, Cheng WD, Duan GL, Zhu YG. The characterization of arsenic biotransformation microbes in paddy soil after straw and biochar amendments.Journal of Hazardous Materials, 2020, 391: 122200.
Liu L,Yang YP, Duan GL, Wang J, Tang XJ, Zhu YG. The chemical-microbial release and transformation of arsenic induced by citric acid in paddy soil.Journal of Hazardous Materials, 2022, 421: 126731.
Jia YH, Li J, Zeng XB, Zhang N, Wen J, Liu J, Jiku MAS, Wu CX, Su SM. The performance and mechanism of cadmium availability mitigation by biochars differ among soils with different pH: Hints for the reasonable choice of passivators.Journal of Environmental Management, 2022, 312:114903.
Chen XX, Gu XJ,Gao F,Guo JX*, Shen YY. The protein kinase FvRIPK1 regulates plant morphogenesis by ABA signaling using seed genetic transformation in strawberry.Frontiers in Plant Science, 2022, 13:1026571.
Gao F, Li JY, Li WJ, Shi S, Song SH, Shen YY,Guo JX*. Abscisic acid and ployamines coordinately regulate strawberry drought responses.Plant Stress, 2024, 11: 100387.
Gao F,Guo JX*, Shen YY. Advances from chlorophyll biosynthesis to photosynthetic adaptation, evolution and signaling.Plant Stress, 2024: 100470.
Tian M,Gao F*, Zeng Y, Zhang X, Yang C, Guo J, Zhao Y, Chen, S. Factors impacting human exposure to legacy and emerging contaminants in residential dust in Beijing, China: Characteristics of indoor microenvironment.Chemosphere, 2024, 358: 142095.
Team Members:
1.Guo Jiaxuan, e-mail: guojiaxuangjx@163.com
2.Duan Bihua, e-mail: dbhbac@sohu.com
3.Jia Yuehui, e-mail: yhjia@bua.edu.cn
4.Gao Fan, e-mail: gaofan0324@163.com
5.Liu Jie, e-mail: jiel@bua.edu.cn
6.Yang Yuping, e-mail:ypyang@bua.edu.cn
7.Zhang Liyun, e-mail: lyzhang@bua.edu.cn
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