胡荣桂
博士生导师
硕士生导师
教师姓名:胡荣桂
教师拼音名称:huronggui
职称:教授
学历:博士研究生毕业
电子邮箱:
毕业院校:日本北海道大学
所属院系:资源与环境学院
所在单位:资源与环境学院
其他联系方式
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论文成果
- Qi-an Peng, Muhammad Shaaban, Ronggui Hu*, Yongliang Mo, Yupeng Wu,and Bashir Ullah. Effects of soluble organic carbon addition on CH4 and CO2 emissions from paddy soils regulated by iron reduction processes. Soil Research. 2015, 53:316–324.
- Muhammad Shaaban, Yupeng Wu, Qi-an Peng, Shan Lin, Yongliang Mo,Lei Wu,Ronggui Hu*, Wei Zhou. Effects of dicyandiamide and dolomite application on N2O emission from an acidic soil. Environ Sci Pollut Res. 2016, 23(7):6334–6342.
- Bashir Ullah, Muhammad Shaaban, HU Rong-gui*, ZHAO Jin-song, LIN Shan. Assessing soil nitrous oxide emission as affected by phosphorous and nitrogen addition under two moisture levels. Journal of Integrative Agriculture 2016, 15(12): 2865–2872.
- Muhammad Shaaban, Qi-an Peng, Shan Lin, Yupeng Wu, Muhammad Salman Khalid, Lei Wu, Yongliang Mo, Ronggui Hu*. Dolomite application enhances CH4 uptake in an acidic soil. Catena. 2016,140:9–14.
- M. Shaaban, Q. Peng, R. Hu*, S. Lin, J. Zhao. Soil Nitrous oxide and Carbon dioxide emissions following incorporation of above- and below-ground biomass of green bean. Int. J. Environ. Sci. Technol.2016, 13:179–186.
- Qi-an Peng, Muhammad Shaaban, Yupeng Wu, Ronggui Hu*,Buyun Wang, Jun Wang. The diversity of iron reducing bacteria communities in subtropical paddy soils of China. Applied Soil Ecology. 2016,101:20–27 .
- Y. WU, S. LIN, T. LIU, T. WAN, R. HU*. Effect of crop residue returns on N2O emissions from red soil in China. Soil Use and Management, 2016, 32, 80–88.
- Milan Wang, Ronggui Hu*, Jinsong Zhao, Yakov Kuzyakov, Shurong Liu. Iron oxidation affects nitrous oxide emissions via donating electrons to denitrification in paddy soils. Geoderma, 2016, 271:173–180.
- Muhammad Shaaban, Lei Wu, Qi-an Peng, Lukas van Zwieten, Muhammad Afzal Chhajro, Yupeng Wu, Shan Lin, Muhammad Mahmood Ahmed, Muhammad Salman Khalid, Muhammad Abid,Ronggui Hu*.Influence of ameliorating soil acidity with dolomite on the priming of soil C content and CO2 emission. Environ Sci Pollut Res 2017,24:9241–9250.
- Lei Wu, Shuirong Tang, Dongdong He, Xian Wu, Muhammad Shaaban, MilanWang, Jingsong Zhao, Imran Khan, Xunhua Zheng, Ronggui Hu*, William R. Horwath. Conversion from rice to vegetable production increases N2O emission via increased soil organic matter mineralization. Science of the Total Environment 2017,583:190–201.
