研究队伍

姓名:
牟翠翠
性别:
专家类别:
博士生导师
学历:
博士
电话:
18119354116
传真:
 
电子邮件:
mucc@lzu.edu.cn
个人主页:
 
邮政编码:
730000
通讯地址:
甘肃省兰州市东岗西路320号

简历:

教育经历:
2004年9月-2008年6月,青岛科技大学,环境科学,学士。
2008年9月-2011年6月,上海大学,环境科学与工程,硕士。
2012年4月-2012年10月,美国地质调查局(USGS),联合项目培养。
2011年9月-2014年6月,中国科学院寒区旱区环境与工程研究所,自然地理学,博士。
工作经历:
2014年7月-2017年5月,兰州大学资源环境学院,讲师。
2017年12月-2018年12月,美国科罗拉多大学地质系,访问学者。
2017年5月--至今,兰州大学资源环境学院,教授。

研究领域:

 自然地理学;寒区工程与环境(多年冻土与环境

职称:

教授

职务:

获奖及荣誉:

 获得2020年度教育部“长江学者奖励计划”青年学者,
获得2021年第十届甘肃青年科技奖,
获得2021年第十三届青藏高原青年科技奖,
获得2021年入选甘肃省领军人才(第二层次),
获得2022年兰州大学“国华青年英才奖”,
获得2023年兰州大学“巾帼标兵”荣誉称号,
获得2017年度国际冰冻圈科学协会(IACS)颁发的“最佳青年报告奖”。
获得2017年度“施雅风冰冻圈与环境基金”青年科学家奖。  
获得2015年度兰州大学大学生创新创业行动计划“优秀指导老师”荣誉称号。
获得2016年度兰州大学西部环境教育部重点实验室 “西部环境奖-青年教师创新奖”。

代表论著:

 [1] Zhao, W.Y., Mu, C.C. *, Han, L., Sun, W., Sun, Y.H., Zhang, T.J. 2023. Spatial and temporal variability in snow density across the Northern Hemisphere. CATENA, 232, 107445. 
[2] Peng, X.Q., Zhang, T.J., Frauenfeld, O.W., Mu, C.C.*, Wang, K., Wu, X.D., Guo, D.L., Luo, J., Hjort, J., Aalto, J., Karjalainen, O., Luoto, M. 2023. Active layer thickness and permafrost area projections for the 21st century. Earth's Future, 11: e2023EF003573.
[3] Zhang, G.F., Mu, C.C. *, Nan, Z.T., Wu, X.D., Cheng, G.D. 2023. Elevation dependency of future degradation of permafrost over the Qinghai-Tibet Plateau. Environmental Research Letters, 18, 075005.
[4] Mu, M., Mu, C.C.*, Liu, H.B., Chi, H.T., Zhu, Y.J., Shang, J.G., Fan, C.Y., Wu, X.D., Zhang, G.F. 2023. Carbon loss and emissions within a permafrost collapse chronosequence. CATENA, 231, 107291.
[5] Mu, C.C., Mu, M., Wu, X.D.*, Jia, L., Fan, C.Y., Peng, X.Q., Ping, C.L., Wu, Q.B., Xiao, C.D., Liu, J.B. 2023. High carbon emissions from thermokarst lakes and their determinants in the Tibet Plateau. Global Change Biology, 29(10), 2732-2745.
[6] Peng, X.Q., Zhang, T.J., Frauenfeld, O. W., Wang, K., Mu, C.C. * 2022. An integrated index of cryospheric change in the Northern Hemisphere. Global and Planetary Change, 218, 103984.
[7] Peng, X.Q., Zhang, T.J.*, Frauenfeld, O.W., Du, R., Jin, H.D., Mu, C.C.* 2021. A Holistic assessment of 1979–2016 global cryospheric extent. Earth's Future, 9, e2020EF001969.
[8] Li, Z.L., Mu, C.C.*, Chen, X., Wang, X.Y., Dong, W.W., Jia, L., Mu, M., Irina, S., Valery, G., Sergey, S., Alexander, K., Wu, X.D. 2021. Changes in net ecosystem exchange of CO2 in Arctic and their relationships with climate change during 2002-2017. Advances in Climate Change Research, 12, 475-481.
[9] Zhang, S.M., Mu, C.C.*, Li, Z.L., Dong, W.W., Wang, X.Y., Irina, S., Valery, G., Sergey, S., Alexander, K., Wu, X.D. 2021. Export of nutrients and suspended solids from major Arctic rivers and their response to permafrost degradation. Advances in Climate Change Research, 12, 466-474.
[10] Peng, X.Q, Frauenfeld, O. W., Jin, H.D., Du, R., Qiao, L.N., Zhao, Y.H., Mu, C.C.*, Zhang, T.J.* (2021). Assessment of temperature changes on the Tibetan Plateau during 1980–2018. Earth and Space Science, 8, e2020EA001609.
[11] Mu, C.C., Abbott, B.W., Norris, A.J., Mu, M., Fan, C.Y., Chen, X., Jia, L., Yang, R.M., Zhang, T.J., Wang, K., Peng, X.Q., Wu, Q.B., Guggenberger, G., Wu, X.D. 2020. The status and stability of permafrost carbon on the Tibetan Plateau. Earth-Science Reviews, 211, 103433.
[12] Mu, C.C., Shang, J.G., Zhang, T.J., Fan, C.Y., Wang, S.F., Peng, X.Q., Zhong, W., Zhang, F., Mu, M., Jia, L. 2020. Acceleration of thaw slump during 1997–2017 in the Qilian Mountains of the northern Qinghai-Tibetan plateau. Landslides, 17, 1051–1062.
[13] Mu, C.C., Zhang, F., Mu, M., Chen, X., Li, Z.L., Zhang, T.J. 2020. Organic carbon stabilized by iron during slump deformation on the Qinghai-Tibetan Plateau. Catena, 187, 104282.
[14] Mu, C.C., Schuster, P.F., Abbott, B.W., Kang S.K., Guo, J.M., Sun, S.W., Wu, Q.B., Zhang, T.J. 2020. Permafrost degradation enhances the risk of mercury release on Qinghai-Tibetan Plateau. Science of the Total Environment, 708, 135127.
[15] Mu, C.C., Zhang, F., Chen, X., Ge, SM., Mu, M., Jia, L., Wu, QB., Zhang, T.J. 2019. Carbon and mercury export from the Arctic rivers and response to permafrost degradation. Water Research, 161, 54-60.
[16] Peng, X., Zhang, T., Frauenfeld, O.W., Wang, S.J.*, Qiao, L.N., Du, R., Mu, C.C*. Northern hemisphere greening in association with warming permafrost. Journal of Geophysical Research: Biogeosciences, 125, e2019JG005086.
[17] Mu, C.C., Li, L.L., Wu, X.D., Zhang, F., Jia, L., Zhao, Q., Zhang, T.J., 2018. Greenhouse gas released from the deep permafrost in the northern Qinghai-Tibetan Plateau. Scientific Reports, 8, 4205.
[18] Mu, C.C., Li, L.L., Zhang, F., Li, Y.X., Xiao, X.X., Zhao, Q., Zhang, T.J., 2018. Impacts of permafrost on above- and belowground biomass on the northern Qinghai-Tibetan Plateau. Arctic, Antarctic, and Alpine Research, 50: 1, e1447192. 
[19] Mu, C.C., Abbott, B.W., Wu, X.D., Zhao, Q., Wang, H.J., Su, H., Wang, S.F., Gao, T.G., Peng, X.Q., Zhang, T.J., 2017. Thaw depth determines dissolved organic carbon concentration and biodegradability on the northern Qinghai-Tibetan Plateau. Geophysical Research Letters, 44, 9389-9399. 
[20] Mu, C.C., Abbott, B.W., Zhao, Q., Su, H., Wang, S.F., Wu, Q.B., Zhang, T.J., Wu, X.D., 2017. Permafrost collapse shifts alpine tundra to a carbon source but reduces N2O and CH4 release on the northern Qinghai-Tibetan Plateau. Geophysical Research Letters, 44, 8945-8952. 
[21] Mu, C.C., Zhang, T.J., Zhao, Q., Su, H., Wang, S.F., Cao, B., Peng, X.Q., Wu, Q.B., Wu, X.D., 2017. Permafrost affects carbon exchange and its response to experimental warming on the northern Qinghai-Tibetan Plateau. Agricultural and Forest Meteorology, 247, 252-259. 
[22] Mu, C.C., Wu, X.D., Zhao, Q., Smoak, J.M., Yang, Y.L., Hu, L.A., Zhong, W., Liu, G.M., Xu, H.Y., Zhang, T.J., 2017. Relict mountain permafrost area (Loess Plateau, China) exhibits high ecosystem respiration rates and accelerating rates in response to warming. Journal of Geophysical Research: Biogeosciences, 122, 2580-2592.
[23] Mu, C., Zhang, T., Wu, Q., Peng, X., Zhang, P., Yang, Y., Hou, Y., Zhang, X., Cheng, G., 2016. Dissolved organic carbon, CO2, and CH4 concentrations and their stable isotope ratios in thermokarst lakes on the Qinghai-Tibetan Plateau. Journal of Limnology, 75, 313-319. 
[24] Mu, C., Zhang, T., Zhang, X., Cao, B., Peng, X., Cao, L., Su, H., 2016. Pedogenesis and physicochemical parameters influencing soil carbon and nitrogen of alpine meadows in permafrost regions in the northeastern Qinghai-Tibetan Plateau. Catena, 141, 85-91. 
[25] Mu, C., Zhang, T., Zhang, X., Li, L., Guo, H., Zhao, Q., Cao, L., Wu, Q., Cheng, G., 2016. Carbon loss and chemical changes from permafrost collapse in the northern Tibetan Plateau. Journal of Geophysical Research: Biogeosciences, 121, 1781-1791. 
[26] Mu, C., Zhang, T., Zhang, X.Y., Cao, B., Peng, X., 2016. Sensitivity of soil organic matter decomposition to temperature at different depths in permafrost regions on the northern Qinghai‐Tibet Plateau. European Journal of Soil Science, 67, 773-781. 
[27] Mu, C.C., Zhang, T.J., Zhao, Q., Guo, H., Zhong, W., Su, H., Wu, Q.B., 2016. Soil organic carbon stabilization by iron in permafrost regions of the Qinghai‐Tibet Plateau. Geophysical Research Letters, 43, 10286-10294. 
[28] Mu, C.C., Zhang, T. J., Wu, Q.B., Peng, X.Q., Cao, B., Zhang, X.K., Cao, B., Cheng, G.D., 2015. Editorial: Organic carbon pools in permafrost regions on the Qinghai–Xizang (Tibetan) Plateau. The Cryosphere, 9 (2), 479-486. 
[29] Mu, C., Zhang, T., Wu, Q., Cao, B., Zhang, X., Peng, X., Wan, X., Zheng, L., Wang, Q., Cheng, G., 2015. Carbon and nitrogen properties of permafrost over the eboling mountain in the Upper Reach of Heihe River Basin, Northwestern China. Arctic, Antarctic, and Alpine Research, 47, 203-211. 
[30] Mu, C., Zhang, T., Schuster, P.F., Schaefer, K., Wickland, K.P., Repert, D.A., Liu, L., Schaefer, T., Cheng, G., 2014. Carbon and geochemical properties of cryosols on the North Slope of Alaska. Cold Regions Science and Technology, 100, 59-67. 

承担科研项目情况:

 1、国家重点研发计划项目:北极快速变化的机理、影响及其气候效应研究(2019YFA0607003),课题负责人,2019/11-2024/10。
2、第二次青藏高原综合科学考察研究,任务六专题五:跨境污染物调查与环境安全(2019QZKK0605),子子专题负责人,2019/11-2022/10。
3、国家自然科学基金委面上项目:青藏高原季节性热融湖塘甲烷排放及微生物作用研究(42371132),主持人,2024/01-2027/12。
4、国家自然科学基金委面上项目:青藏高原中部热融湖塘温室气体排放季节变化规律及机理研究(41871050),主持人,2019/01-2022/12。
5、甘肃省基础研究创新群体项目:黄河源区高寒草地生态系统变化与碳循环(23JRRA1171),主持人,2023/01-2025/12.
6、国家自然科学基金委青年项目:热融滑塌对高寒草甸区土壤有机碳分解及温室气体排放的影响-以俄博岭多年冻土区为例(No. 41601063),主持人,2017/1-2019/12。
7、中国科学院战略性先导科技专项(A类):祁连山“山水林田湖草”系统优化调配(XDA2010010305),项目骨干,2018/03-2023/03。
8、“中央高校基本科研业务费专项资金”学科交叉创新团队建设项目: 高寒生态系统演变及碳循环(lzujbky-2021-ct13),主持人,2021/01-2023/12。
9、国家自然科学基金委与香港研究资助局联合科研资助合作研究项目:青藏高原热喀斯特地貌的时空演变及未来预测(4211101014),项目骨干, 2021/01-2023/12。