Du Yangong Professor
Highest Education: Ph. D.
Subject: Ecology
E-mail: ygdu@nwipb.cas.cn
Address: No. 23, Xinning Avenue, Xining City, Qinghai Province, China
2019.11–, Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Professor
2013.07–2019.10, Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Associate Professor
2015.03–2016.03, Department of Industries, NSW, Australia, visiting scholar
2011.07–2013.06, Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Assistant Professor
2008.09–2011.07, University of Chinese Academy of Sciences, Ecology, Doctor
2005.09–2008.07, Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Ecology, Master
2001.09–2005.07, Qingdao Agriculture University, Horticulture, Bachelor[1] Du Yangong*, Shu Kai, Guo Xiaowei, et al. Moderate grazing promotes grassland nitrous oxide emission by increasing ammonia-oxidizing archaea abundance on the Tibetan Plateau. Current Microbiology, 2019, 76(5): 620-625
[2] Du Yangong*, Zhou Geng, Guo Xiaowei, et al. Spatial distribution of grassland soil organic carbon and potential carbon storage on the Qinghai Plateau. Grassland Science, 2019, 65(3): 141-146
[3] Du Yangong*, Ke Xun, Guo Xiaowei, et al. Soil and plant community characteristics under long-term continuous grazing of different intensities in an alpine meadow on the Tibetan plateau. Biochemical Systematics and Ecology, 2019, 85:72-75
[4] Du Yangong*, Guo Xiaowei, Zhou Geng, et al. Effect of grazing intensity on soil and plant δ15N of an alpine meadow. Polish Journal of Environmental Studies, 2017, 26(3):1071-1075
[5] Du Yangong*, Guo Xiaowei, Cao Guangmin, et al. Simulation and prediction of nitrous oxide emission by the water and nitrogen management model on the Tibetan plateau. Biochemical Systematics and Ecology, 2016, 65:49-56
[6] Du Yangong*, Guo Xiaowei, Cao Guangmin, et al. Increased nitrous oxide emissions resulting from nitrogen addition and increased precipitation in an alpine meadow ecosystem. Polish Journal of Environmental Studies, 2016, 25:447-451
[7] Du Yangong, Li Yikang*, Cao Guangmin. Dominant process and mechanism of nitrous oxide flux in an alpine meadow on the Tibetan Plateau. Research on Crops, 2014, 15(2):377-382
[8] Du Yangong, Cui Xiaorong*, Cao Guangmin, et al. Simulating N2O emissions from Kobresia humilis alpine meadow on Tibetan plateau with the DNDC model. Polish Journal of Ecology, 2011,59(3): 443-453
[9] Du Yangong, Cao Guangmin, Deng Yongcui, et al. Contribution of the vegetation layers in the nitrous oxide emission from alpine Kobresia humilis meadow ecosystem on the Tibetan plateau. Polish Journal of Ecology, 2010,58(1): 115-124
[10] Du Yangong, Cui Yingguang, Xu Xinglaing, et al. Nitrous oxide emissions from two alpine meadows in the Qinghai-Tibetan Plateau. Plant and Soil, 2008, 311(1): 245-254
1. General program of National Natural Science Foundation of China: Response of N2O emission characteristic to different nitrification inhibitors in alpine meadow, 2018.01–2021.12, 590 thousand. Principal investigator.
2. General program of National Natural Science Foundation of China: Effect of grazing intensity on N2O emission rates and its microbial mechanism in alpine meadow, 2015.01–2018.09, 880 thousand. Principal investigator.
3. Youth program of National Natural Science Foundation of China: Effect of alternate process of freezing and thawing on N2O emission rates and its mechanism in alpine meadow, 2013.01–2015.12, 230 thousand. Principal investigator.
4. General program of Natural Science Foundation of Qinghai Province: Response of key hydrological process of multistable grasslands to anthropogenic disturbance, 2018.01–2020.12, 350 thousand. Principal investigator.
5. Youth program of Natural Science Foundation of Qinghai Province: Effects of nitrogen deposition on alpine meadow biomass and N2O emission rates and model simulation, 2013.01–2015.12, 50 thousand. Principal investigator.
6. The West Light Foundation of the Chinese Academy of Sciences for Doctors of type A, Alpine meadow production function promotion based on nitrification inhibitors, 2017.09–2021.09, 500 thousand. Principal investigator.
7. The West Light Foundation of the Chinese Academy of Sciences for Doctors of type B, Effect of anthropogenic disturbance on soil nitrogen transform processes in alpine meadow, 2012.09–2014.09, 100 thousand. Principal investigator.