冉凤维

1、个人基本信息：

姓    名：冉凤维

性    别： 女

出生年月：1993.12

技术职称：   讲师

毕业院校：   湖南师范大学

学历（学位）：博士

所在学科： 地理信息科学

2、学习和工作经历：

学习经历：

2020.09-2024.06 湖南师范大学，自然地理学专业，博士

2016.09-2019.06 江西农业大学，农业资源利用专业，硕士

2012.09-2016.06 贵州师范大学，资源环境与城乡规划管理专业，学士

工作经历：

2024.06-至今 欧博官网 水利与环境工程学院，讲师

3、目前研究领域：

湖泊碳循环及其对全球变化（气候变化、人类活动）的响应，土壤侵蚀过程及其物质驱动机制，生态系统弹性与稳态转换，社会-生态耦合系统

4、主持在研或已完成主要课题：

5、主要科研成果（发表学术论文、出版著作、授权发明专利）：

1. Ran F, Wang   S, Nie X, et al. Driver-response relationships in a large shallow lake since   the Anthropocene: Short-term abrupt perturbations vs. long-term sustainable   pressures[J]. Global Change Biology, 2024, 30(4), e17267.（SCI，中科院1区TOP）

2. Ran F, Nie   X, Wang S, et al. A significant loop of lake sedimentation state links   catchment eco‐surroundings and lake biogenic regime shifts[J].   Limnology and Oceanography, 2023, 68(8): 1775-1790.（SCI，中科院1区TOP，IF=4.5）

3. Wang S#, Ran F#, Nie   X, Li Z, et al. Coupled effects of human activities and river-lake   interactions evolution alter the sources and fate of sedimentary organic   carbon in a typical river-lake system. Water Research, 2024, 255: 121509.（共一；SCI，中科院1区TOP）

4. Ran F, Nie   X, Li Z, et al. Chronological records of sediment organic carbon at an   entrance of Dongting Lake: Response to historical meteorological events[J].   Science of the Total Environment, 2021, 794: 148801.（SCI，中科院1区TOP）

5. Ran F, Nie   X, Wang S, et al. Anthropogenic-driven chronological increase of sediment   organic carbon burial in a river-lake system[J]. Environmental Research,   2022, 215: 114392.（SCI，中科院2区TOP）

6. 冉凤维, 聂小东, 王诗兰, 等.近百年来洞庭湖粒度指示的沉积环境演变特征[J].湖泊科学,2023,35(03):1111-1125.（EI，CSCD）

7. Xiao T, Ran F, Li   Z, et al. Sediment organic carbon dynamics response to land use change in   diverse watershed anthropogenic activities[J]. Environment International,   2023, 172: 107788. （SCI，中科院1区TOP）

8. Yang C, Li Z,   Wang S, Ran F, et al. Anthropogenic activities control   the source dynamics of sediment organic carbon in the lower reach of an   inland river[J]. Water Research, 2023, 233: 119779. （SCI，中科院1区TOP）

9. Liu Y, Nie X, Ran F, et   al. The occurrence and distribution characteristics of microbial necromass   carbon in lake sediments[J]. Catena, 2024, 239: 107944. （SCI，中科院1区TOP）

10.   Wang   S, Nie X, Li Z, Ran F, et al.   Quantification of sedimentary organic carbon sources in a land–river–lake continuum combined with   multi-fingerprint and un-mixing models[J]. International Journal of Sediment   Research, 2024, 39(2):230-242. In press（SCI，中科院2区）

11.   Wang   S, Nie X, Ran F, et al. Human activities control   the source of eroded organic carbon in lake sediments over the last 100   years: Evidence from stable isotope fingerprinting[J]. Fundamental Research,   2023.（SCI，IF=6.2）

12.   Sun   Y, Nie X, Li Z, Wang S, Chen J, Ran F. The   applicability of commonly-used tracers in identifying eroded organic matter   sources[J]. Journal of Hydrology, 2021, 603: 126949. （SCI，中科院1区TOP）

13.   Li   Z, Wang S, Nie X, Sun Y, Ran F. The application   and potential non-conservatism of stable isotopes in organic matter source   tracing[J]. Science of the Total Environment, 2022, 838: 155946.（SCI，中科院1区TOP）

14.   Liao   W, Tong D, Li Z, Nie X, Liu Y, Ran F, Liao S.   Characteristics of microbial community composition and its relationship with   carbon, nitrogen and sulfur in sediments[J]. Science of the Total   Environment, 2021, 795: 148848.（SCI，中科院1区TOP）

6、所获学术荣誉及学术影响：

7、联系电话：17373136157  联系邮箱：rfwei@csust.edu.cn