陈哲
博士,副研究员,德国洪堡学者
云南省“青年千人”
学院高层次人才引进
邮箱:zhechen2019@ynu.edu.cn
地址:云南省昆明市呈贡区yl6809永利
【研究方向】
植物-土壤-微生物生态,退化环境的生态修复
l 农田、草地以及森林生态系统碳汇能力提升技术研发;
l 研发新型植物生长调节剂,利用蚯蚓堆肥、丛枝菌根真菌进行退化农田、草地土壤修复,包括土壤有机质提升、养分高效利用、微生物种群多功能性提升等;
l 利用野外和室内控制实验,数据整合分析等方法,研究气候变化因子对植物-土壤碳氮磷等循环过程的影响及微生物作用机制。
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有意向报考研究生的同学可提前联系!
【工作经历】
l 2019/12- 学院 yl6809永利,副研究员
l 2011/10-2019/09, 德国卡尔斯鲁厄理工学院 气象与气候环境研究所(KIT/IMK-IFU),博士后/Senior Scientist
l 2010/07 – 2011/10, 中国科学院大气物理研究所 大气边界层物理与大气化学国家重点实验室,助理研究员
【教育背景】
l 2007/09-2010/07,中国科学院亚热带农业生态研究所,生态学,博士
l 2005/09-2007/07,北京理工大学,生物化学与分子生物学,硕士
l 2001/09-2005/07,河南师范大学,生物技术,学士
【主持科研项目】
l 国家自然科学基金地区基金:梯度增温背景下亚热带森林土壤N2O产生和消耗的微生物机制(32260323),2023-2026,33万
l 云南省“兴滇人才”项目,2023-2027,80万
l 云南省科技厅重点研发项目“云南林草生态系统碳汇现状、潜力及增汇技术与碳交易示”-专题:草原碳汇能力提升技术研发与示范(202303AC100009),2023-2025,90万
l 云南省科技厅基础研究专项重大项目“云南植被志”-专题:云南植被志玉米农田植被调查(202101BC070002),2021-2024,20万
l 云南省科技厅面上基金:蚯蚓堆肥在云南高山退化草地植被和土壤恢复中的效应及作用机制(202201AT070165),2022-2025,10万
l 横向课题“云南省咖啡生长气候、土壤与管理数据采集与化验”,2023-2025,17.2万
l 横向课题“野生菌气象价格指数研究及应用”,2022-2023,6万
l 学院高层次人才引进启动经费(C176220100160),2020-2025,50万
l 德国洪堡基金:气候变化(增温降雨降雪减少)对高山草地氮素转化的影响机制(1148319),2013-2015,约95万
l 国家自然科学基金青年项目:氮沉降增加温带森林土壤N2O排放的微生物作用机制(21107109),2012-2014,28万
【奖励&人才】
2020:云南省高层次人才引进计划“青年人才”(现为“兴滇人才”)
2019:学院高层次人才引进
2015:德国洪堡学者
2010:中国生态系统研究网络10篇青年优秀学术论文
【发明专利】
一种RNA荧光探针及其制备方法和应用,专利号:ZL 2021 1 1464008.X
【主讲课程】
本科生:分子生态学、土壤学、传统文化与生态文明建设
研究生:分子生态学
【著作】
《生态文明建设实践》,参编
【第一作者和通讯作者论文】(#同等贡献作者,*通讯作者)
[1] Yong Liu, Jianping Shen, Changhui Zhang, Zhe Chen*. Impact of rubber-based land use changes on soil properties and carbon pools: A meta-analysis. Catena. 2023, 227, 107121 (IF 6.367)
[2] Junhua Liu, Yunjian Xu, Yingmo Zhu, Wen Yin, Danhua Fan, Guangxuan Yan, Syed Turab Raza, Zhiyun Lu, Zhe Chen*. Enhanced soil methane oxidation in both organic layer and topsoil during the succession of subtropical forests. Process Safety and Environmental Protection. 2023, 170, 865-876 (IF 7.926)
[3] Changhui Zhang, Junhua Liu, Yingmo Zhu, Syed Turab Raza, Chunhong Zhang, Zhe Chen*. Nitrous oxide emissions from vermicompost preparation and application phases: emission factors based on a meta-analysis, Applied Soil Ecology. 2023, 183, 104769. (IF 5.509)
[4] Zeming Xu, Changhui Zhang, Chunhong Zhang*, Zhe Chen*. Quantitative evaluation on phosphate adsorption by modified biochar: A meta-analysis. Process Safety and Environmental Protection. 2023, doi.org/10.1016/j.psep.2023.06.063 (IF 7.926)
[5] Syed Turab Raza, Jianping Wu*, Eldon R. Rene, Zulfiqar Ali, Zhe Chen*. Reuse of agricultural wastes, manure, and biochar as an organic amendment: A review on its implications for vermicomposting technology. Journal of Cleaner Production. 2022, 360,132200. (IF 11.072)
[6] Syed Turab Raza, Yingmo Zhu, Jianping Wu, Eldon R. Rene, Zulfiqar Ali, Adugna Feyissa, Nazir Ahmed Bazai, Zhe Chen*. Different ratios of Canna indica and maize–vermicompost as biofertilizers to improve soil fertility and plant growth: A case study from Southwest China. Environmental Research. 2022, 215, 114374. (IF 8.431)
[7] Syed Turab Raza, Jianping Wu*, Eldon R. Rene, Zulfiqar Ali, Zhe Chen*. Application of wetland plant-based vermicomposts as an organic amendment with high nutritious value. Process Safety and Environmental Protection. 2022, 165, 941-949. (IF 7.926)
[8] Xiong Yang#, Haijun Hou#, Yunjian Xu, Syed Turab Raza, Liming Wang, Wenxue Wei, Jianping Wu, Zhe Chen*. Divergent pattern of soil CO2, CH4 and N2O emissions in 18-year citrus orchard and Camellia oleifera plantations converted from natural shrub forests, Applied Soil Ecology. 2022, 175, 104447. (IF 5.509)
[9] Xiong Yang#, Yingmo Zhu#, Yunjian Xu, Shuting Zhang, Qindong Qian, Lingling Wang, Jianping Wu*, Zhe Chen*. Simulated warming and low O2 promote N2O and N2 emissions in subtropical montane forest soil. Journal of Soils and Sediments. 2022, 22, 2706-2719. (IF 3.536)
[10] Raza ST, Wu JP, Ali Z, Anjum R, Bazai NA, Feyissa A, Chen Z*. Differential effects of organic amendments on maize biomass and nutrient availability in Upland Calcareous soil. Atmosphere. 2021, 12:1034.
[11] Xing Wu#, Zhe Chen#, Ralf Kiese, Jin Fu, Silvia Gschwendter, Michael Schloter, Chunyan Liu, Klaus Butterbach-Bahl, Benjamin Wolf, Michael Dannenmann*. Dinitrogen (N2) pulse emissions during freeze-thaw cycles from montane grassland soil, Biology and Fertility of soils, 2020, 56: 959-972. (IF 6.6)
[12] Bernard Fungo#, Zhe Chen#, Klaus Butterbach-Bahl, Johannes Lehmann, Gustavo Saiz, Víctor Braojos, Allison Kolar, Tatiana Rittl, Moses Tenywa, Karsten Kalbitz, Henry Neufeldt, Michael Dannenmann*. Nitrogen turnover and N2O/N2 ratio of three contrasting tropical soils amended with biochar. Geoderma, 2019, 348: 12-20. (IF 7.4)
[13] Zhe Chen, Shan Lin*, Zhisheng Yao, Xunhua Zheng, Silvia Gschwendtner, Michael Schloter, Meiju Liu, Yanan Zhang, Klaus Butterbach-Bahl, Michael Dannenmann. Enhanced nitrogen cycling and N2O loss in water-saving ground cover rice production systems (GCRPS), Soil Biology & Biochemistry, 2018, 121: 77-86. (IF 8.5)
[14] Changhui Wang#, Zhe Chen#, Sebastian Unteregelsbacher, Haiyan Lu, Silvia Gschwendtner, Rainer Gasche, Allison Kolar, Michael Schloter, Klaus Butterbach-Bahl, Michael Dannenmann*. Climate change amplifies gross nitrogen turnover in montane grasslands of Central Europe in both summer and winter seasons. Global Change Biology, 2016, 22, 2963-2978. (IF 13.2)
[15] Yuan Wen#, Zhe Chen#, Michael Dannenmann, Andrea Carminati, Georg Willibald, Ralf Kiese, Benjamin Wolf, Edzo Veldkamp, Klaus Butterbach-Bahl, Marife D. Corre*. Disentangling gross N2O production and consumption in soil. Scientific Reports, 2016, 6:36517.
[16] Zhe Chen, Changhui Wang, Silvia Gschwendtner, Georg Willibald, Sebastian Unteregelsbacher, Haiyan Lu, Allison Kolar, Michael Schloter, Klaus Butterbach-Bahl, Michael Dannenmann*. Relationships between denitrification gene expression, dissimilatory nitrate reduction to ammonium and nitrous oxide and dinitrogen production in motane grassland, Soil Biology & Biochemistry, 2015, 87: 67-77. (IF 8.5)
[17] Zhe Chen, Jinbo Liu, Mina Wu, Xiaoli Xie, Jinshui Wu, Wenxue Wei*. Differentiated Response of Denitrifying Communities to Fertilization Regime in Paddy Soil. Microbial Ecology, 2012, 63, 446-459. (IF 4.2)
[18] Zhe Chen, Xiqian Luo, Ronggui Hu, Minna Wu, Jinshui Wu, Wenxue Wei*. Impact of long-term fertilization on the composition of denitrifier communities based on nitrite reductase analyses in a paddy soil. Microbial Ecology, 2010, 60: 850-861. (IF 4.2)
[19] Zhe Chen, Haijun Hou, Yan Zheng, Hongling Qin, Yijun Zhu, Jinshui Wu, Wenxue Wei*. Influence of fertilisation regimes on a nosZ-containing denitrifying community in a rice paddy soil. Journal of the Science of Food and Agriculture, 2012, 92, 1064-1072. (IF 4.1)
[20] 陈哲,陈春兰,王霞,吴敏娜,魏文学. 化肥对稻田土壤细菌多样性及硝化、反硝化功能菌组成的影响. 生态学报,2009, 29(11): 6142-6147
[21] 陈哲,袁红朝,吴金水,魏文学. 长期施肥制度对稻田土壤反硝化细菌群落活性和结构的影响. 生态学报,2009, 29(11): 5923-5929
[22] 陈哲,吴敏娜,秦红灵,魏文学. 土壤微生物溶磷分子机理研究进展. 土壤学报,2009, 46(5): 925-9315