牟翠翠,女,1984年8月生,兰州大学资源环境学院教授,博士生导师,教育部“长江学者奖励计划”青年学者,甘肃省领军人才。2017年获“施雅风冰冻圈与环境基金”青年科学家奖、获国际冰冻圈科学协会(IACS)颁发的“最佳青年报告奖”;2022年获“第十届甘肃青年科技奖”、青藏高原研究会“第十三届青藏高原青年科技奖”。
牟翠翠教授从事冰冻圈环境与碳循环的研究。明确全球碳收支是应对气候变化的前提,其中多年冻土碳反馈是国际关注的前沿科学问题。候选人聚焦多年冻土变化和碳源汇问题,长期在西部高海拔地区和北极开展工作,取得了具有影响力的创新性成果。主要成绩包括:(1)量化了不同冻土生态系统碳释放速率;(2)定量评估了热融滑塌对碳释放的影响;(3)阐明了多年冻土退化加速河流碳输移过程。以上成果在Earth-Science Reviews、Water Research、Geophysical Research Letters、Science of The Total Environment、Agricultural and Forest Meteorology、Earth’s Future等本领域期刊发表高质量论文40多篇。研究成果被联合国政府间气候变化专门委员会(IPCC)第六次评估报告多次引用,也被《Science》、《PNAS》、《Nature》及系列子刊等国际顶级期刊论文多次引证,得到北极纪录片(Boston Commons)、新华社、中国教育报、央视《焦点访谈》等国内外主流媒体报道。相关的成果多次以咨询报告形式提交给政府部门,为青藏高原生态文明建设和国家双碳目标实现的计划方案提供了科学支撑。
获得荣誉:
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2023年甘肃省巾帼建功标兵荣誉称号,
获得2022年兰州大学“国华青年英才奖”,
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。
在研项目:
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,2019/11-2024/10。
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. 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(41601063),主持人,2017/1-2019/12。
6. 甘肃省基础研究创新群体项目:高寒草地生态系统变化与碳循环(23JRRA1171),主持人,2023/01-2025/12.
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。
发表论文:
[1] Mu, C.*, Mo, X., Qiao, Y., Chen, Y., et al. 2023. Ecosystem CO2 exchange and its economic implications in northern permafrost regions in the 21st century. Global Biogeochemical Cycles, 37, e2023GB007750.
[2] 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.
[3] Peng, X.Q., Zhang, T.J., Frauenfeld, O.W., Mu, C.C.*, et al. 2023. Active layer thickness and permafrost area projections for the 21st century. Earth's Future, 11: e2023EF003573.
[4] 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.
[5] 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.
[6] 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.
[7] Mu M, Mu C*, Lei P, et al. Thermokarst lake changes along the Qinghai-Tibet Highway during 1991–2020. Geomorphology, 2023, 441: 108895.
[8] 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.
[9] 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.
[10] Li, Z.L., Mu, C.C.*, Chen, X., Wang, X.Y., et al. 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.
[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] Mu, C.C., Abbott, B.W., Wu, X.D., et al., 2017. Thaw depth determines dissolved organic carbon concentration and biodegradability on the northern Qinghai-Tibetan Plateau. Geophysical Research Letters, 44, 9389-9399.
[17] 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.
[18] 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.
[19] 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.
[20] 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.
牟翠翠,女,1984年8月生,兰州大学资源环境学院教授,博士生导师,教育部“长江学者奖励计划”青年学者,甘肃省领军人才。2017年获“施雅风冰冻圈与环境基金”青年科学家奖、获国际冰冻圈科学协会(IACS)颁发的“最佳青年报告奖”;2022年获“第十届甘肃青年科技奖”、青藏高原研究会“第十三届青藏高原青年科技奖”。
牟翠翠教授从事冰冻圈环境与碳循环的研究。明确全球碳收支是应对气候变化的前提,其中多年冻土碳反馈是国际关注的前沿科学问题。候选人聚焦多年冻土变化和碳源汇问题,长期在西部高海拔地区和北极开展工作,取得了具有影响力的创新性成果。主要成绩包括:(1)量化了不同冻土生态系统碳释放速率;(2)定量评估了热融滑塌对碳释放的影响;(3)阐明了多年冻土退化加速河流碳输移过程。以上成果在Earth-Science Reviews、Water Research、Geophysical Research Letters、Science of The Total Environment、Agricultural and Forest Meteorology、Earth’s Future等本领域期刊发表高质量论文40多篇。研究成果被联合国政府间气候变化专门委员会(IPCC)第六次评估报告多次引用,也被《Science》、《PNAS》、《Nature》及系列子刊等国际顶级期刊论文多次引证,得到北极纪录片(Boston Commons)、新华社、中国教育报、央视《焦点访谈》等国内外主流媒体报道。相关的成果多次以咨询报告形式提交给政府部门,为青藏高原生态文明建设和国家双碳目标实现的计划方案提供了科学支撑。
获得荣誉:
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2023年甘肃省巾帼建功标兵荣誉称号,
获得2022年兰州大学“国华青年英才奖”,
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。
在研项目:
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,2019/11-2024/10。
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. 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(41601063),主持人,2017/1-2019/12。
6. 甘肃省基础研究创新群体项目:高寒草地生态系统变化与碳循环(23JRRA1171),主持人,2023/01-2025/12.
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。
发表论文:
[1] Mu, C.*, Mo, X., Qiao, Y., Chen, Y., et al. 2023. Ecosystem CO2 exchange and its economic implications in northern permafrost regions in the 21st century. Global Biogeochemical Cycles, 37, e2023GB007750.
[2] 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.
[3] Peng, X.Q., Zhang, T.J., Frauenfeld, O.W., Mu, C.C.*, et al. 2023. Active layer thickness and permafrost area projections for the 21st century. Earth's Future, 11: e2023EF003573.
[4] 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.
[5] 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.
[6] 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.
[7] Mu M, Mu C*, Lei P, et al. Thermokarst lake changes along the Qinghai-Tibet Highway during 1991–2020. Geomorphology, 2023, 441: 108895.
[8] 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.
[9] 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.
[10] Li, Z.L., Mu, C.C.*, Chen, X., Wang, X.Y., et al. 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.
[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] Mu, C.C., Abbott, B.W., Wu, X.D., et al., 2017. Thaw depth determines dissolved organic carbon concentration and biodegradability on the northern Qinghai-Tibetan Plateau. Geophysical Research Letters, 44, 9389-9399.
[17] 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.
[18] 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.
[19] 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.
[20] 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.
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