谭琦亓 - 中国农业大学 - 草业科学与技术学院

个人简介

谭琦亓，1991年生，博士，副教授，中国农业大学优秀人才，参讲研究生课程《草地理论生态学》和《草地生态学研究进展》，担任草业科学、Soil Biology and Biochemistry、Science of The Total Environment等期刊审稿人。学习经历 2016.09.------2019.06 中国农业大学资源与环境学院环境科学与工程专业博士 2014.09.------2016.07 中国农业大学资源与环境学院农业资源利用专业硕士 2010.09.------2014.07 中国农业大学资源与环境学院环境科学专业学士工作经历 2021.07.------至今中国农业大学草业科学与技术学院草地资源与生态系副教授 2019.07.------2021.06 中国农业科学院农业资源与农业区划研究所生物学博士后 2019.10.------2021.02 美国科罗拉多州立大学生态学博士后（2019年度博士后国（境）外交流项目-派出项目）科研项目国家牧草产业技术体系-土壤改良与产地环境治理，岗位成员 2019年度博士后国（境）外交流项目-派出项目，主持国家973计划：亚欧内陆荒漠生态系统对全球变化的响应特征与区域生态安全，项目号：2014CB954202（2014-2018），参与国家自然科学基金：植物碳同位素组成与温度和降雨之间的关系：来自对同一地点植物碳同位素二十多年连续的测量，项目号：41772171（2018-2021），参与

研究领域

草地资源管理与生态保护，重点研究农牧交错带和草原恢复人工草地高产栽培盐碱地土壤改良全球变化（氮沉降、干旱等）对草原土壤碳循环的影响。利用我国400mm等降雨量线样带研究在最小化降水效应下，植物和土壤碳氮磷以及金属元素化学计量关系沿温度梯度带的变化

近期论文

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Han, Y., Jia, Y., Wang, G.*, Tan, Q.*, Liu, X., & Chen, C. (2023). Coupling of soil carbon and nitrogen dynamics in drylands under climate change. Catena, 221, 106735. Tan, Q.*, Chen, Y., & Wang, G.* (2022). Changes in soil micronutrients along a temperature gradient in northern China. Science of the Total Environment, 851, 158145. Tan, Q.*, Jia, Y., & Wang, G.* (2021). Decoupling of soil nitrogen and phosphorus dynamics along a temperature gradient on the Qinghai-Tibetan Plateau. Geoderma, 396, 115084. Tan, Q.*, Wang, G.*, Smith, M. D., Chen, Y., & Yu, Q.* (2021). Temperature patterns of soil carbon: nitrogen: phosphorus stoichiometry along the 400 mm isohyet in China. Catena, 203, 105338. Tan, Q., Han, W., Li, X., & Wang, G.* (2020). Clarifying the response of soil organic carbon storage to increasing temperature through minimizing the precipitation effect. Geoderma, 374, 114398. Tan, Q., Chen, Y., Han, W., & Wang, G.* (2020). Dynamics of soil metallic nutrients across a 6000-km temperature transect in China. Science of the Total Environment, 744, 140888. Tan, Q., Hao, T., Gao, S., Liu, X., Wang, G.*, & Yu, Q.* (2020). Soil organic carbon turnover recovers faster than plant diversity in the grassland when high nitrogen addition is ceased: Derived from soil 14C evidences. Global Ecology and Conservation, 24, e01229. Tan, Q., Li, J., Chen, Z., Ma, Y., Wang, G.*, Jia, Y., Yao, H., & Han, W.* (2019). Clarifying the influence of temperature on variances in plant metallic nutrients through minimizing the effect of precipitation. Science of the Total Environment, 646, 347-356. Tan, Q., Li, J., Chen, Z., Wang, G.*, Jia, Y., Yao, H., & Han, W.* (2018). Minimizing the effect of precipitation in clarifying the responses of leaf N and P stoichiometry to temperature. Environmental Pollution, 243, 404-409. Tan, Q., Wang, G.*, Liu, X., Hao, T., & Tan, W. (2018). Responses of soil organic carbon turnover to nitrogen deposition are associated with nitrogen input rates: derived from soil 14C evidences. Environmental Pollution, 238, 500-507. Tan, Q., & Wang, G.* (2016). Decoupling of nutrient element cycles in soil and plants across an altitude gradient. Scientific Reports, 6, 34875.