热点话题人物,欢迎提交收录!
最优雅的名人百科,欢迎向我们提交收录。
吴谋松
2023-05-11 15:17
  • 吴谋松
  • 吴谋松 - 副教授-南京大学-地理与海洋科学学院-个人资料

近期热点

资料介绍

个人简历


教育经历
· 2007.09-2011.06: 农业水利工程专业,工学学士,武汉大学
· 2011.09-2016.06: 水利水电工程专业,博士研究生,武汉大学(导师:黄介生教授)
· 2014.09-2016.04: 水土资源工程专业,博士研究生,瑞典皇家理工学院(导师:Prof. Per-Erik Jansson)
工作经历
· 2016.06-2018.06: 陆地碳循环数据同化,博士后研究,瑞典隆德大学(合作导师:Dr. Marko Scholze)
· 2018.06-2018.09: 陆地碳循环数据同化,博士后研究,瑞典哥德堡大学(合作导师:陈德亮教授)
· 2018.10-2021.03: 碳循环数据同化系统,特任副研究员,南京大学国际地球系统科学研究所
2021.03至今: 陆地生态系统碳循环与数据同化,副教授,南京大学国际地球系统科学研究所
科研成果
授权专利技术
[1]伍靖伟,吴谋松,谭霄,黄介生,郑轩,刘洁颖. 一种监测高含盐量土壤中水分和盐分的时域反射仪探头. CN201320183380.8(作者排名2/6)
[2]谭霄,吴谋松,伍靖伟,黄介生,李大成,权维新,刘洁颖,郑轩. 一种应用于高含盐量土壤的热时域反射仪探头. CN201320658007.3(作者排名2/8)
[3]谭霄,王康,吴谋松,黄介生,伍靖伟,刘俊伍,李大成. 一种适于扩展的高含盐土壤水分测量的TDR系统方法. CN201410017191.2(作者排名3/7)
国际会议及报告情况
[1]Mousong Wu, Per-Erik Jansson, Xiao Tan, Jiesheng Huang, Jingwei Wu. A coupled model for water, heat and solute transport in frozen soil: evaluation with laboratory experiments. (国际冻土大会ICOP,2016年7月20-24,德国,波茨坦,做口头报告)
[2]Mousong Wu, Marko Scholze. Multi-site assimilation of a terrestrial biosphere model (BETHY) using satellite derived soil moisture data. (欧洲地球物理学会年会EGU,2017年4月23-28,奥地利,维也纳,做PICO报告)
[3]Mousong Wu, Per-Erik Jansson, Xiao Tan, Jiesheng Huang, Jingwei Wu. Simulations of water, heat, and solute transport in partially frozen soils. (亚洲冻土大会ACOP,2017年7月2-6,日本,札幌,做口头报告)
[4]Mousong Wu, Marko Scholze, Michael Voßbeck, Thomas Kaminski. Multi-site evaluation of ecosystem carboncycles: A comparison of a carbon cycle data assimilation system (CCDAS) with process-based model (LPJ-GUESS). (国际CO2会议ICDC10,2017年8月20-25,瑞士,因特拉肯,海报展示)
[5]Mousong Wu, Marko Scholze, Michael Voßbeck, Thomas Kaminski. Constraining carbon fluxes in cold regions using carbon cycle data assimilation system - A model-data fusion approach. (Arctic Terrestrial Modelling Workshop,2017年9月14-15,英国,牛津,做口头报告)
[6]Mousong Wu. Multi-scale study on soil moisture and terrestrial carbon cycle data assimilation. (南京大学,邀请报告,2018年2月)
[7]Mousong Wu, Marko Scholze, Michael Voßbeck, Thomas Kaminski. Using 6-year soil moisture data combining CO2 flask samples to constrain carbon fluxes at 2º×2º global scale within CCDAS. (欧洲地球物理学会年会EGU,2018年4月9-13,奥地利,维也纳,做口头报告)
[8]Mousong Wu. Multi-scale study on soil water, heat and terrestrial carbon cycle data assimilation. (武汉大学,青年论坛报告,2018年4月)
[9]Mousong Wu. Multi-scale study on soil water, heat and terrestrial carbon cycle data assimilation. (中科院西北生态环境与资源研究院,邀请报告,2018年4月)
[10]Mousong Wu. Multi-scale study on soil water, heat and terrestrial carbon cycle data assimilation. (中山大学,邀请报告,2018年4月)
[11]Mousong Wu. From soil hydrology to terrestrial carbon cycles: model-data fusion and uncertainty analysis at multiple scales. (瑞典哥德堡大学,邀请报告,2018年5月)
[12]Mousong Wu, Marko Scholze, Wolfgang Knorr, Michael Vossbeck, Thomas Kaminski. Modeling ecosystem processes with a terrestrial biosphere model (BETHY) within CCDAS. (瑞典隆德大学,BECC会议报告,2018年6月)
[13]Mousong Wu. Linking multiple satellite observations to terrestrial carbon cycle modeling under a Carbon Cycle Data Assimilation System (CCDAS). (瑞典隆德大学,内部邀请报告,2018年6月)
[14]Mousong Wu, Marko Scholze, Thomas Kaminski, Michael Vossbeck. Using 6-year of SMOS soil moisture data in combination with CO2 flask samples to constrain terrestrial carbon fluxes at 2°×2° global scale within CCDAS. (第三届ICOS会议,2018年9月,捷克,布拉格,海报展示)
[15]Mousong Wu, Marko Scholze, Thomas Kaminski, Michael Vossbeck. Using 6-year of SMOS soil moisture data in combination with CO2 flask samples to constrain terrestrial carbon fluxes at 2°×2° global scale within CCDAS. (Green House Gases (GHG) workshop,2018年10月,南京,海报展示)
[16]Mousong Wu. From soil hydrology to terrestrial carbon cycles: model-data fusion and uncertainty analysis at multiple scales. (中国农业大学,邀请报告,2019年1月)
[17]Mousong Wu, Marko Scholze, Thomas Kaminski, Michael Voßbeck. Combining SMOS soil moisture and JRC-TIP FAPAR for better constraining global carbon fluxes during 2010-2015 within CCDAS. (欧洲地球物理学会年会EGU,2019年4月8-12,奥地利,维也纳,做口头报告)
[18]Mousong Wu, Marko Scholze, Thomas Kaminski, Michael Voßbeck. Global carbon cycle inferred by remotely sensed soil moisture within a carbon cycle data assimilation system (CCDAS). (瑞典哥德堡大学,邀请报告,2019年4月)
[19]Mousong Wu, Marko Scholze, Thomas Kaminski, Michael Voßbeck & ESSI全球变化研究团队. 基于碳循环数据同化系统CCDAS的遥感土壤水分同化与全球碳循环研究. (武汉大学/华中科技大学,邀请报告,2020年8/9月)
[20]Mousong Wu, Marko Scholze, Thomas Kaminski, Michael Voßbeck. Using 6-year SMOS soil moisture data combining CO2 flask samples to constrain carbon fluxes at 2o×2o global scale within CCDAS. (ICOS 2020 Science Meeting,特邀报告,2020年9月)
项目经历
2021.01至今: 主持国家自然科学基金国际合作项目NSFC-STINT“高分辨率碳同化系统构建与区域碳循环模拟”(42111530184)
2020.01至今: 主持江苏省自然科学基金青年项目“遥感土壤水分与植物光学厚度联合同化的农田生态系统生产力时空特征研究”(BK20190317)
2020.01至今: 主持国家自然科学基金青年项目“遥感土壤水分与CO2柱浓度联合同化的陆地生态系统碳通量时空特征研究”(41901266)
2020.01至今: 主持冻土工程国家重点实验室开放基金项目“基于CoupModel的气候变化条件下黄河源区冻土水文与碳循环模拟研究”(SKLFSE201914)
2018.10至今: 参与重点研发计划项目“高分辨率全球碳同化系统的构建与应用” (2016YFA0600204)
2018.01-2019.12: 主持武汉大学水资源与水电工程科学国家重点实验室开放基金项目“Simultaneous Modeling of Water, Heat and Solute Transport in Cold-Arid Irrigated Agricultural Regions: A Model-Data Fusion Approach”(2017NSG02)
2016.06-2018.06: 作为主要负责人完成瑞典空间局SMOS土壤水分同化项目(Rymdstyrelsen 102/14)
2016.09-2018.12: 作为主要完成人参与完成欧洲空间局SMOS土壤水分与植物光学厚度VOD同化项目(4000107490/12/NL/FF/lf)
2012.09-2016.06: 作为骨干参加国家自然科学基金项目“基于数据同化的灌区土壤盐渍化预测”(51279142)
2011.09-2014.06: 作为骨干参加十二五科技支撑项目“农业综合节水技术集成”(2011BAD25B07)

研究领域


陆地碳循环及数据同化;多源遥感观测数据同化算法;寒区水文及生态系统过程;土壤-植物-大气水热碳氮耦合模型开发与应用;变化气候条件下农业水碳管理""

近期论文


[1]Mousong Wu, Qiang Zhao, Per-Erik Jansson, Jingwei Wu, Xiao Tan, Zheng Duan, Kang Wang, Peng Chen, Minjie Zheng, Jiesheng Huang, Wenxin Zhang. Improved soil hydrological modeling with the implementation of salt-induced freezing point depression in CoupModel: Model calibration and validation [J]. Journal of Hydrology, 2020 (SCI, IF=4.500)
[2]Mousong Wu, Marko Scholze, Michael Voßbeck, Thomas Kaminski, Torbern Tagesson. Using SMOS soil moisture data combining CO2 flask samples to constrain carbon fluxes during 2010–2015 within a Carbon Cycle Data Assimilation System (CCDAS) [J]. Remote Sensing of Environment, 2020, 240 (SCI, IF=9.085)
[3]Xiao Tan, Mousong Wu*,Jiesheng Huang, Jingwei Wu, Jingjing Chen.Similarity of Soil Freezing Characteristic and Soil Water Characteristic: Application in Saline Frozen Soil Hydraulic Properties Prediction [J]. Cold Regions Science and Technology, 2020, 173 (SCI, IF=2.739)
[4]Mousong Wu, Xiao Tan, Jingwei Wu, Jiesheng Huang, Per-Erik Jansson, Wenxin Zhang. Coupled water and heat flux in seasonally frozen soils: uncertainties identification in multi-site calibration [J]. Environmental Earth Sciences, 2020 (SCI, IF=2.180)
[5]Mousong Wu, Youhua Ran, Per-Erik Jansson, Peng Chen, Xiao Tan, Wenxin Zhang. Global Parameters Sensitivity Analysis of Modeling Water, Energy and Carbon Exchange of an Arid Agricultural Ecosystem [J]. Agricultural and Forest Meteorology, 2019, 271: 295-306 (SCI, IF=4.651)
[6]Mousong Wu, Jingwei Wu, Xiao Tan, Jiesheng Huang, Per-Erik Jansson, Wenxin Zhang. Simulation of dynamical interactions between soil freezing/thawing and salinization for improving water management in cold/arid agricultural region [J]. Geoderma, 2019, 338: 325-342 (SCI, IF=4.848)
[7]Mousong Wu, Marko Scholze, Michael Voßbeck, Thomas Kaminski, Georg Hoffmann. Simultaneous Assimilation of Remotely Sensed Soil Moisture and FAPAR for Improving Terrestrial Carbon Fluxes at Multiple Sites Using CCDAS [J]. Remote Sensing, 2018.12.25, 11(27) (SCI, IF=4.509)
[8]WU Mousong, HUANG Jiesheng, TAN Xiao, WU Jingwei. In-situ Study of Water, Salt and Heat Influences on C/N Dynamics in Seasonally Frozen Soils in Hetao Irrigation District, Inner Mongolia, China [J]. Pedosphere,2019, 29(5): 632-641(SCI, IF=3.736)
[9]Mousong Wu, Xiao Tan, Jiesheng Huang, Jingwei Wu, Per-Erik Jansson. Solute and water effects on soil freezing characteristics based on laboratory experiments [J]. Cold Regions Science and Technology, 2015, 115: 22-29 (SCI, IF=2.739)
[10]Mousong Wu, Jiesheng Huang, Jingwei Wu, Xiao Tan, Per-Erik Jansson. Experimental study on evaporation from seasonally frozen soils under various water, solute and groundwater conditions in Inner Mongolia, China [J]. Journal of Hydrology, 535(2016): 46-53 (SCI, IF=4.500)
[11]Mousong Wu, Per-Erik Jansson, Xiao Tan, Jingwei Wu, Jiesheng Huang. Constraining Parameter Uncertainty in Simulations of Water and Heat Dynamics in Seasonally Frozen Soil Using Limited Observed Data [J]. Water, 2016, 8(2), 64; doi:10.3390/w8020064 (SCI, IF=2.544)
[12]Minjie Zheng, Florian Adolphi, Jesper Sjolte, Ala Aldahan, Goran Possnert, Mousong Wu, Peng Chen, Raimund Muscheler. Solar and climate signals revealed by seasonal 10Be data from the NEEM ice core project for the neutron monitor period [J]. Earth and Planetary Science Letters, 2020, 541 (SCI, IF=4.823)
[13]Minjie Zheng, Jesper Sjolte, Florian Adolphi, Ala Aldahan, Goran Possnert, Mousong Wu, Raimund Muscheler. Solar and meteorological influences on seasonal atmospheric 7Be in Europe for 1975 to 2018 [J]. Chemosphere, 2020, 128318 (SCI, IF=5.778)
[14]Peng Chen, Peng Yi, Ling Xiong, Zhongbo Yu, Ala Aldahan, Raimund Muscheler, Huijun Jin, Dongliang Luo, Goran Possnert, Mousong Wu, Chengwei Wan, Minjie Zheng. Use of 10Be isotope to predict landscape development in the source area of the Yellow River (SAYR), northeastern Qinghai-Tibet Plateau [J]. Journal of Environmental Radioactivity, 203(2019):187-199 (SCI, IF=2.161)
[15]Xiao Tan, Jingwei Wu, Jiesheng Huang, Mousong Wu, Wenzhi Zeng. Design of a new TDR probe to measure water content and electrical conductivity in highly saline soils [J]. Journal of Soils and Sediments (2017), https://doi.org/10.1007/s11368-017-1838-6 (SCI, IF=2.627)
[16]Kang Wang, Mousong Wu, Renduo Zhang. Water and solute fluxes in soils undrgoing freezing and thawing. Soil Science [J]. 2016, 181(5): 193-201 (SCI, IF=1.700)
[17]Zeng, W. Z., Xu, C., Wu, J. W., Huang, J. S., Zhao, Q. and Wu, M. S. 2014. Impacts of salinity and nitrogen on the photosynthetic rate and growth of sunflowers (Helianthus annuus L.) [J]. Pedosphere, 2014, 24(5): 635-644 (SCI, IF=3.736)
[18]吴谋松,王康,谭霄,黄介生. 土壤冻融过程中水流迁移特性及通量模拟[J]. 水科学进展, 2013, 24(4): 543-550 (EI)
[19]吴谋松,黄介生,谭霄,伍靖伟. 不同地下水补给条件下非饱和砂壤土冻结试验及模拟[J]. 水科学进展, 2014, 25(1): 60-68 (EI)
[20]吴谋松,洪林. 基于农田排水氮素流失试验的虚拟实验设计[J]. 武汉大学学报(工学版), 2012, 45(3): 305-309 (CSCD)
[21]Thomas Kaminski, Marko Scholze, Michael Vossbeck, Mousong Wu, Paolo Ferrazzoli, Yann Knerr, Arnaud Mialon, Philippe Richaume, Nemesio Jose Rodriguez-Fernandez, Cristina Vittucci, Jean-Pierre Wigneron, Matthias Drusch. CONSTRAINING TERRESTRIAL CARBON FLUXES THROUGH ASSIMILATION OF SMOS PRODUCTS, IGARSS2018, 2018.7.22-2018.7.27 (EI)
[22]曾文治,黄介生,谢华,吴谋松,彭振阳,徐驰. 不同棉田暗管布置下棉田排水的硝态氮流失量分析[J]. 农业工程学报, 2012, 28(4): 89-93 (EI)
[23]袁念念,黄介生,黄志强,谢华,吴谋松. 控制排水和施氮量对旱地土壤氮素运移转化的影响[J]. 农业工程学报, 2012, 28(13): 106-112 (EI)
[24]曾文治,黄介生,吴谋松,徐驰. 不同棉田暗管布置方式对氮素流失影响的模拟分析[J]. 灌溉排水学报, 2012(2): 124-126 (CSCD)
[25]刘晶晶,黄介生,吴谋松. 清江宜都段不同水文及土地利用情景下非点源污染研究[J]. 中国农村水利水电, 2015(1) (CSCD)
任IPCC AR6报告审稿人,担任Agricultural and Forest Meteorology, Vadose Zone Journal, Journal of Hydrology, JGR等杂志的审稿人,EGU(European Geophysical Union)会员,PYRN(Permafrost Young Researchers Network)会员,合作指导本科生1名,硕士生4名,并作为合作导师指导博士生4名

相关热点

扫码添加好友