山区河流保护与治理全国重点实验室
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宋春林,现任副研究员,硕士生导师。中国科学院与耶鲁大学联合培养博士。主要从事寒区水文与生物地球化学领域的研究工作,结合野外观测、室内实验、同位素、尺度上推、统计模型等方法研究寒区河湖水域生态系统生物地球化学循环的格局、过程、机制和影响。近期研究兴趣包括气候变化背景下的高寒山区陆源碳在河流等水体中的迁移转化、冰冻圈内陆水体温室气体排放和冻土变化影响下的寒区流域水文过程和变化机制等。主持国家自然科学基金面上项目和青年科学基金项目、国家重点研发计划子课题、四川省自然科学基金青年基金等科研项目多项。在Science AdvancesNature CommunicationsPNASWater Resources ResearchGlobal Biogeochemical CyclesJournal of HydrologyEnvironmental Research LettersAgricultural and Forest MeteorologyScience China Earth Science等刊物发表论文40余篇,其中第一/(共同)通讯作者论文20余篇,论文Google Scholar总被引1400余次,H指数17;参编专著2部;获专利4项。获得中国科学院优秀博士学位论文奖、全国大学生水利创新设计大赛优秀指导教师奖等奖项。担任中国冰冻圈科学学会青年工作委员会委员和国际多年冻土青年学者网络组织(PYRN)执行委员等。

 

Email: songchunlin@scu.edu.cn; 342283408@qq.com

地址:四川省成都市武侯区一环路南一段24号四川大学水利水电学院

招生:专业为081501水文学及水资源,包括水资源利用及水环境保护、水文变化规律及其应用及生态水文方向。

 

工作经历

2020.06-,四川大学,山区河流保护与治理全国重点实验室,历任特聘副研究员、硕士生导师、副研究员

2019.07-2020.06,中国科学院水利部成都山地灾害与环境研究所,特别研究助理

 

教育经历

2013.09-2019.06,中国科学院大学/中科院成都山地所,自然地理学,硕博连读,导师:王根绪研究员

2017.11-2019.01,耶鲁大学,生物地球化学,联合培养博士,导师:Prof. Peter A. Raymond

2009.09-2013.06,四川大学,水文与水资源工程,本科

 

主要科研成果

第一或通讯作者论文(*通讯作者;#相同贡献):

1.      Song, C.*#, Liu, S.#, Wang, G.*#, Zhang, L., Rosentreter, J. A., Zhao, G., Sun, X., Yao, Y., Mu, C., Sun, S., Hu, Z., Lin, S., Sun, J., Li, Y., Wang, Y., Li, Y., Raymond, P. A., Karlsson, J. (2024). Inland water greenhouse gas emissions offset the terrestrial carbon sink in the northern cryosphere. Science Advances, 10(39), eadp0024. https://doi.org/10.1126/sciadv.adp0024

2.      Li, Y., Wang, G.*, Sun, S., Lin, S., Huang, P., Xiao, J., Guo, L., Li, J., Song, C.* (2024). Methane emissions from the Qinghai-Tibet Plateau ponds and lakes: Roles of ice thaw and vegetation zone. Global Biogeochemical Cycles, 38(4): e2024GB008106. https://doi.org/10.1029/2024GB008106

3.      Li, J., Wang, G.*, Song, C.*, Sun, S., Ma, J., Wang, Y., Guo, L., Li, D. (2024). Recent Intensified Erosion and Massive Sediment Deposition in the Tibetan Plateau Rivers. Nature Communications  15, 722. https://doi.org/10.1038/s41467-024-44982-0

4.      Wang, Y., Wang, G., Sun, X., Li, J., Song, C.* (2024). Spatiotemporal variability of organic carbon in streams and rivers of the Northern Hemisphere cryosphere. Science of The Total Environment, 167370. https://doi.org/10.1016/j.scitotenv.2023.167370

5.      Li, J., Wang, G.*, Li, K., Li, Y., Guo, L., Song, C.* (2023). Impacts of climate change and freeze-thaw cycles on water and sediment fluxes in the headwater region of the Yangtze River, Qinghai-Tibet Plateau. Catena, 227C, 107112. https://doi.org/10.1016/j.catena.2023.107112

6.      Song, C., Wang, G.*, Sun, X., Li, Y., Ye, S., Hu, Z., ... & Lin, S. (2023). Riverine CO2 variations in permafrost catchments of the Yangtze River source region: Hot spots and hot moments. Science of The Total Environment, 863, 160948. https://doi.org/10.1016/j.scitotenv.2022.160948

7.      Wang, Z., Sun, S., Wang, G. *, & Song, C.* (2023). Determination of Low-Flow Components in Alpine Permafrost Rivers. Journal of Hydrology, 617, 128886. https://doi.org/10.1016/j.jhydrol.2022.128886

8.      Wang, Z., Sun, S., Song, C.*, Wang, G.*, Lin, S., & Ye, S. (2022). Variation characteristics of high flows and their responses to climate change in permafrost regions on the Qinghai-Tibet Plateau, China. Journal of Cleaner Production, 376, 134369. https://doi.org/10.1016/j.jclepro.2022.134369

9.      Song, C., & Wang, G.* (2021). Land carbon sink of the Tibetan Plateau may be overestimated without accounting for the aquatic carbon export. Proceedings of the National Academy of Sciences118(46), e2114694118, https://doi.org/10.1073/pnas.2114694118 (Letter)

10.  Song, C., Wang, G.*, Sun, X., & Hu, Z. (2021). River runoff components change variably and respond differently to climate change in the Eurasian Arctic and Qinghai-Tibet Plateau permafrost regions. Journal of Hydrology601, 126653, https://doi.org/10.1016/j.jhydrol.2021.126653

11.  Song, C., Wang, G.*, Hu, Z., Zhang, T., Huang, K., Chen, X., & Li, Y. (2020). Net ecosystem carbon budget of a grassland ecosystem in central Qinghai-Tibet Plateau: Integrating terrestrial and aquatic carbon fluxes at catchment scale. Agricultural and Forest Meteorology290, 108021, https://doi.org/10.1016/j.agrformet.2020.108021

12.  Song, C., Wang, G.*, Haghipour, N., & Raymond, P. A. (2020). Warming and monsoonal climate lead to a large export of millennial-aged carbon from permafrost catchments of the Qinghai-Tibet Plateau. Environmental Research Letters, 15(7): 074012. https://doi.org/10.1088/1748-9326/ab83ac

13.  Song, C., Wang, G.*, Mao, T., Huang, K., Sun, X., Hu, Z., ... & Raymond, P. A. (2020). Spatiotemporal variability and sources of DIC in permafrost catchments of the Yangtze River source region: insights from stable carbon isotope and water chemistry. Water Resources Research, 56(1): e2019WR025343. https://doi.org/10.1029/2019WR025343

14.  Song, C., Wang, G.*, Mao, T., Dai, J., & Yang, D. (2020). Linkage between permafrost distribution and river runoff changes across the Arctic and the Tibetan Plateau. Science China Earth Sciences, 63(2): 292-302. https://doi.org/10.1007/s11430-018-9383-6

15.  Song, C., Wang, G.*, Mao, T., Chen, X., Huang, K., Sun, X., & Hu, Z. (2019). Importance of active layer freeze-thaw cycles on the riverine dissolved carbon export on the Qinghai-Tibet Plateau permafrost region. PeerJ, 7:e7146. https://doi.org/10.7717/peerj.7146

16.  Song, C., Wang, G.*, Liu, G., Mao, T., Sun, X., & Chen, X. (2017). Stable isotope variations of precipitation and streamflow reveal the young water fraction of a permafrost watershed. Hydrological Processes, 31(4), 935-947. https://doi.org/10.1002/hyp.11077

17.  Song, C., Wang, G.*, Sun, X., Chang, R., & Mao, T. (2016). Control factors and scale analysis of annual river water, sediments and carbon transport in China. Scientific Reports, 6:25963. https://doi.org/10.1038/srep25963

18.  李宇灏, 王根绪, 李阳, 宋春林* (2023).长江源多年冻土区河流溶解性有机碳的时空动态和同位素特征.冰川冻土, 2023, 45(2): 738-752.

19.  叶思露, 叶虎林, 赵静毅, 邹海明, 郭林茂, 宋春林* (2023).长江黄河源区不同径流组分变化及成因分析. 中国农村水利水电,2023(6): 79-85+94.

20.  宋春林, 孙向阳, 王根绪* (2015). 森林生态系统碳水关系及其影响因子研究进展. 应用生态学报, 2015, 26(9): 2891-2902.

21.  宋春林, 孙向阳, 王根绪* (2015). 贡嘎山亚高山降水稳定同位素特征及水汽来源研究. 长江流域资源与环境, 2015, 24(11): 1860-1869.

合著论文(*通讯作者;#相同贡献):

1.      Zhu, M., Kuang, X., Song, C., Feng, Y., He, Q., Zou, Y., et al. (2024). Glacier-Fed Lakes Are Significant Sinks of Carbon Dioxide in the Southeastern Tibetan Plateau. Journal of Geophysical Research: Biogeosciences, 129(4). e2023JG007774.

2.      Lin, S., Sun, X., Huang, K., Song, C., Sun, J., Sun, S., ... & Hu, Z. (2024). The seasonal variability of future evapotranspiration over China during the 21st century. Science of The Total Environment, 171816.

3.      Wang, Z., Sun, S., Wang, G. *, & Song, C. (2024). Spatial-Temporal Differentiation of Supra- and Sub-Permafrost Groundwater Contributions to River Runoff in the Eurasian Arctic and Qinghai-Tibet Plateau Permafrost Regions. Water Resources Research, 60(3), e2023WR035913.

4.      Sun, J., Sun, X., Wang, G., Dong, W., Hu, Z., Sun, S., ... & Lin, S. (2024). Soil water components control plant water uptake along a subalpine elevation gradient on the Eastern Qinghai-Tibet Plateau. Agricultural and Forest Meteorology345, 109827.

5.      Hu, Z., Wang, G., Sun, X., Huang, K., Song, C., Li, Y., ... & Lin, S. (2024). Energy partitioning and controlling factors of evapotranspiration in an alpine meadow in the permafrost region of the Qinghai-Tibet Plateau. Journal of Plant Ecology, rtae002.

6.      Sun, X., Zhang, X., Wang, G., Hu, Z., Song, C., Lin, S., ... & Sun, S. (2023). An Increasing Effect of Soil Moisture on Semiempirical Water‐Use Efficiency Models From Wet to Dry Climate Regions. Journal of Geophysical Research: Biogeosciences128(6), e2022JG007347.

7.      Hu, Z., Sun, S., Sun, X., Lin, S., Song, C., & Wang, G. (2023). Controlling Factors of the Spatial‐Temporal Fluctuations in Evapotranspiration Along an Elevation Gradient Across Humid Montane Ecosystems. Water Resources Research59(1), e2022WR033228.

8.      Lin, S., Wang, G., Hu, Z., Sun, X., Song, C., Huang, K., ... & Yang, Y. (2023). Contrasting response of growing season water use efficiency to precipitation changes between alpine meadows and alpine steppes over the Tibetan Plateau. Agricultural Water Management289, 108571.

9.      Sun, X.*, Wang, G.*, Sun, J., Sun, S., Hu, Z., Song, C., & Lin, S. (2022). Contrasting water sources used by a coniferous forest in the high-altitude, southeastern Tibetan Plateau. Science of The Total Environment849, 157913.

10.  Li, Y., Wang, G., Bing, H., Wang, T., Huang, K., Song, C., ... & Chang, R. (2021). Watershed scale patterns and controlling factors of ecosystem respiration and methane fluxes in a Tibetan alpine grassland. Agricultural and Forest Meteorology306, 108451.

11.  Rosentreter, J. A., Borges, A. V., Deemer, B. R., Holgerson, M. A., Liu, S., Song, C., ... & Eyre, B. D. (2021). Half of global methane emissions come from highly variable aquatic ecosystem sources. Nature Geoscience14(4), 225-230.

12.  Huang, K.#, Dai, J.#, Wang, G.*, Chang, J., Lu, Y., Song, C., ... & Ye, R.  (2020). The Impact of Land Surface Temperatures on Suprapermafrost Groundwater on the Central Qinghai-Tibet Plateau. Hydrological Processes.

13.  Sun, X., Wang, G.*, Huang, M., Chang, R., Hu, Z., Song, C., & Sun, J. (2020). The asynchronous response of carbon gain and water loss generate spatio-temporal pattern of WUE along elevation gradient in southwest China. Journal of Hydrology, 581, 124389.

14.  Song, X., Wang, G.*, Ran, F., Huang, K., Sun, J., & Song, C. (2020). Soil moisture as a key factor in carbon release from thawing permafrost in a boreal forest. Geoderma, 357, 113975.

15.  Hu, Z., Wang, G.*, Sun, X., Wang, J., Chen, X., Song, C., ... & Lin, S.  (2019). Variations in belowground carbon use strategies under different climatic conditions. Agricultural and Forest Meteorology, 268, 32-39.

16.  Hu, Z., Wang, G.*, Sun, X., Zhu, M., Song, C., Huang, K., & Chen, X. (2018). Spatial-Temporal Patterns of Evapotranspiration Along an Elevation Gradient on Mount Gongga, Southwest China. Water Resources Research, 54(6), 4180-4192.

17.  Chen, X., Wang, G.*, Zhang, T., Mao, T., Wei, D. A., Song, C., ... & Huang, K. (2017). Effects of warming and nitrogen fertilization on GHG flux in an alpine swamp meadow of a permafrost region. Science of the Total Environment, 601, 1389-1399.

18.  Chen, X., Wang, G.*, Huang, K., Hu, Z., Song, C., Liang, Y., ... & Lin, S. (2017). The effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations. Ecological Engineering, 107, 183-191.

19.  Song, X., Wang, G.*, Ran, F., Chang, R., Song, C., & Xiao, Y. (2017). Effects of topography and fire on soil CO2 and CH4 flux in boreal forest underlain by permafrost in northeast China. Ecological Engineering, 106, 35-43.

20.  Wang, G.*, Mao, T., Chang, J., Song, C., Huang, K. (2017). Processes of runoff generation operating during the spring and autumn seasons in a permafrost catchment on semi-arid plateaus. Journal of Hydrology, 550:307-317.

21.  Chen, X., Wang, G.*, Zhang, T., Mao, T., Wei, D., Hu, Z., & Song, C. (2017). Effects of warming and nitrogen fertilization on GHG flux in the permafrost region of an alpine meadow. Atmospheric Environment, 157, 111-124.

22.  Sun, X. Y., Wang, G. X.*, Huang, M., Hu, Z. Y., & Song, C. L. (2017). Effect of climate change on seasonal water use efficiency in subalpine Abies fabri. Journal of Mountain Science, 14(1), 142-157.

授权专利:

1.      王冉宋春林王莹,孟晨,周禹昕,余明睿. 一种基于NB-IoT的水面温室气体自动监测设备. 专利类型: 实用新型,专利号:ZL 202320954156.82023-11-10.

2.      李金龙, 王根绪,李凯,宋春林,孙守琴. 一种基于GEE的青藏高原河流悬移质泥沙反演检测方法. 专利类型: 发明,专利号:ZL 202211562758.52023-08-29.

3.      王根绪, 宋春林, 王志伟, 孙守琴. 一种多年冻土区缺资料流域地下水径流评价方法. 专利类型: 发明,专利号:ZL 202211523833.72023-07-24.

4.      黄克威,王根绪,周剑,文磊,宋春林. 一种多年冻土区温度主导的变源产流模式模拟方法. 专利类型: 发明,专利号:ZL202011206395.22021-05-25.

5.      宋春林,王根绪,孙向阳. 一种水面温室气体自动采样静态箱. 专利类型: 发明,专利号:ZL201610102693.42019-06-21.

6.      宋春林,孙向阳,胡兆永,王根绪. 一种真空砂芯抽滤装置. 专利类型: 实用新型, 专利号:ZL201520272366.4, 2015-09-16.

专著教材:

1.      参编《冰冻圈变化的生态过程与碳循环影响》(王根绪,宜树华等著),科学出版社,2019.09

2.      参编《生态水文学概论》(王根绪,张志强,李小雁等著),科学出版社,2020.11

学术会议:

1.      Genxu Wang, Chunlin Song (speaker). Mechanism of the surface runoff processes of a permafrost watershed in the Qinghai-Tibet plateau. The 2nd Asian Conference on Permafrost, Sapporo, Japan. 07/03/2017.

2.      Chunlin Song, Genxu Wang, Tianxu Mao. Seasonal riverine export of dissolved carbon affected by active layer freeze-thaw cycles in headwater streams of the Qinghai-Tibet Plateau permafrost region. AGU Fall Meeting 2017, New Orleans, USA. 12/13/2017.

3.      Peter A. Raymond, Chunlin Song, Shaoda Liu, George H. Allen. Stream and River Methane Emissions. AGU Fall Meeting 2018, Washington, D.C., USA. 12/14/2018.

4.      宋春林. 青藏高原多年冻土河流碳输出动态规律与机制. 19届中国生态学大会. 线上会议,20201121.

5.      宋春林. 考虑水体碳通量的流域净生态系统碳收支:以青藏高原风火山流域为例. 第二届中国生态水文论坛. 中国长沙,202173.

6.      宋春林. 青藏高原多年冻土变化对河流溶解态碳输出的影响. 第七届青年地学论坛. 中国贵阳,2021711.

7.      宋春林. 青藏高原多年冻土区河流碳输出动态、来源及影响. 中国科学院青年科学家论坛. 中国成都,202198.

8.      Chunlin Song, Genxu Wang, Negar Haghipour, Peter A. Raymond. Millennial-aged carbon export from permafrost catchments of the Qinghai-Tibet Plateau. Cryosphere Forum 2021: Status of research on changing permafrost and associated impacts in the Hindu Kush Himalaya. Online Meeting. 09/23/2021.

9.      Chunlin Song. Carbon export from permafrost catchments of the Qinghai-Tibet Plateau. 2022 International Symposium on Ecohydraulics. Online Meeting. 10/11/2022.

10.  Chunlin Song, Genxu Wang. Riverine carbon content, fluxes, sources, and impacts in the Qinghai-Tibet Plateau permafrost watersheds. 28th IUGG General Assembly, Berlin, Gemany. 13 July 2023.

11.  宋春林. 北半球冰冻圈河湖水体温室气体排放研究. 第三届冰冻圈科学青年论坛. 中国成都,2024413.

12.  担任第三届中国生态水文论坛议题“流域生源要素循环与生态水文调控”召集人,20237

13.  担任第三届冰冻圈科学青年论坛和第九届青年地学论坛“冰冻圈变化与碳循环”专题召集人,20244月和5

 

主要科研项目

国家自然科学基金面上项目“青藏高原冻土区河流碳循环昼夜节律及其驱动机制研究”,2025.01-2028.12,项目负责人

四川大学“从01”创新研究项目“青藏高原寒区流域水沙动态过程精细刻画及演变机制研究”,2024.01-2025.12,项目负责人

国家重点研发项目课题“能量和水分相态变化对长江黄河源区产汇流过程的影响及模拟”,2022.12-2025.11,子课题负责人

国家自然科学基金联合基金重点项目“长江源区水沙动态过程及多因素耦合演变机制与模拟”,2022.01-2025.12,项目骨干

四川省青年科学基金项目“贡嘎山海螺沟不同海拔梯度河流甲烷释放特征及其影响因素”,2022.01-2023.12,项目负责人

国家自然科学基金青年科学基金项目“青藏高原多年冻土区河流水气界面CO2排放及冻融过程的影响”,2022.01-2024.12,项目负责人

三江源国家公园联合研究专项子课题“三江源区典型下垫面SPAC系统水热传输和耦合过程”,2020-2022,项目负责人

三江源国家公园联合研究专项子课题“三江源水系统安全保护策略”,2020-2022,项目负责人

四川大学引进人才科研启动经费资助项目“青藏高原多年冻土区河流碳循环关键过程及其对流域碳平衡的影响研究”,2020-2023,项目负责人

中国博士后科学基金面上资助项目,青藏高原连续多年冻土区河流溶解态碳输出年龄和源解析,2019-2021,项目负责人

第二次青藏高原综合科学考察研究项目任务三子专题“典型湿地生态系统的生态水文过程与水源涵养功能”,2019-2024,共同负责人

 

教学培养工作

联合讲授研究生课程《生态水文学》

多次担任大学生创新性实验计划指导老师

多次担任本科生毕业论文(设计)指导老师

担任全国水利创新大赛指导老师,获全国特等奖1

在读研究生:李宇灏,丁佳丽,顾琼薇;已毕业研究生:叶思露,王莹

 

主要荣誉奖励

2023年获全国大学生水利创新设计大赛优秀指导教师奖

2020年获中国科学院优秀博士学位论文奖

2017年获留学基金委公派奖学金

2017年获中国科学院大学“三好学生标兵”称号

2017年获Bronze Prize of ACOP 2017 Photo Contest

2016年获博士研究生国家奖学金

2015年获中国科学院成都分院院长奖学金

2014年获硕士研究生国家奖学金

2013年获四川大学优秀本科毕业论文

 

学术兼职

    担任Permafrost Young Researchers NetworkPYRN)国际组织执行委员

    担任中国冰冻圈科学学会青年工作委员会委员

    American Geophysical Union会员; International Association of Cryospheric Sciences会员;中国冰冻圈科学学会会员;中国生态学学会会员;中国水利学会会员

    政府间气候变化专门委员会第六次评估报告(IPCC AR6)第二工作组青年评阅人

    国家自然科学基金通讯评审专家

    教育部学位中心学位论文评审专家

    担任Sustainability期刊Section Board Member

    担任Frontiers in Environmental Science期刊特刊编辑

    担任Advances in Water Resources, Catena, Earth and Space Science, Earth System Science Data, Environmental Research Letters, Frontiers in Earth Science, Frontiers in Environmental Science, Geoderma, Hydrology and Earth System Sciences, Hydrological Processes, Inland Waters, Journal of Hydrology, Journal of Hydrology: Regional Studies, Journal of Mountain Science, Limnology and Oceanography, Quaternary International, Science of the Total Environment, Sustainability, The Cryosphere, Water, Water Research, Water Resources Research, 湖泊科学, 应用生态学报, 冰川冻土等国内外期刊审稿人

 

其他

CV: https://songchunlin.net/files/others/songchunlin_cv.pdf

Google Scholar: https://scholar.google.com/citations?user=ULVszuoAAAAJ

ResearchGate: https://www.researchgate.net/profile/Chunlin-Song

OCRiD: http://orcid.org/0000-0003-3627-2350

 

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