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冉凤维

2024-09-14

 

教师基本信息表

1、个人基本信息:

    名:冉凤维

    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 bat365在线唯一官网登录 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1TOP

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

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1TOP

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2TOP

6. 冉凤维, 聂小东, 王诗兰, .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.EICSCD

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1TOP

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1TOP

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1TOP

10.   Wang   S, Nie X, Li Z, Ran F, et al.   Quantification of sedimentary organic carbon sources in a landriverlake continuum combined with   multi-fingerprint and un-mixing models[J]. International Journal of Sediment   Research, 2024, 39(2):230-242. In pressSCI,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.SCIIF=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1TOP

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1TOP

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1TOP

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

 

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