师资
基本概况:
郭芷琳,教育部青年人才。博士毕业于美国亚利桑那大学环境科学专业,美国加州大学戴维斯分校水文系博士后。2019年8月加入南方科技大学。围绕地下水污染机理与修复,以及全球变化下地下水资源的可持续性进行了十余年深入研究。目前负责国家重点研发计划项目课题、国家自然科学基金重点支持项目子课题、国家自然科学基金面上项目、广东省自然科学基金杰出青年项目等国家、省市级项目。现任联合国青年地下水组织副主席、美国地球物理学会地下水委员会和国际水利与环境学会地下水与管理委员会委员。兼任水文水资源领域国际知名期刊Water Resources Research,Journal of Hydrology,Groundwater副主编,以及多个国际顶级期刊的评审专家。
工作经历:
2022.09至今 南方科技大学,助理教授,博导
2019.09-2022.08 南方科技大学,副研究员,博导
2016.02-2019.08 加州大学戴维斯分校,博士后
2015.09-2016.01 亚利桑那大学,高级研究助理
2012.07-2015.08 亚利桑那大学,研究助理
教育背景:
2012.08-2015.08 亚利桑那大学,环境科学专业,博士
2010.08-2012.05 佛罗里达大学,环境工程科学专业,硕士
2006.09-2010.07 山西大学,资源环境与城乡规划管理专业,学士
社会兼职:
1. Water Resources Research, Journal of Hydrology, Hydrogeology Journal 副主编 (2023至今)
2. UNESCO Groundwater Youth Network 副主席(2022-2024)
3. Groundwater 副主编(2020至今)
4. 国际水利与环境工程学会(IAHR)水文地质委员会委员(2020至今)
5. 国家环境保护流域地表水-地下水污染综合防治重点实验室副主任(2023至今)
6. 中国环境科学学会生态地质环境专委会秘书长(2019至今)
7. 美国地球物理联合会(AGU)地下水委员会委员 (2017至今)
8. 美国地球物理联合会年会分会场召集人、主席 (2017-2021, 2023)
9. 美国地质学会分会场召集人、主席 (2020)
10. 欧洲地球物理联合会年会分会场召集人、主席 (2021)
11. 期刊审稿人 Advances in Water Resources; Groundwater; Hydrogeology Journal; Hydrological Processes; Journal of Contaminant Hydrology; Journal of Hydrology; Water Resources Research
获奖及荣誉:
1. 2024,教育部青年人才
2. 2024,广东省环境科学学会生态环境青年科技奖金奖
3. 2019, Water Resources Research Editor’s Choice
4. 2019, 第五届地下水青年论坛优秀报告
5. 2015, NIEHS K.C. Donnelly Externship Award
6. 2014, EPA Superfund Research Program Training Core Fellowship
7. 2015, 优秀研究生奖学金,亚利桑那大学
代表性科研项目:
1. 广东省自然科学基金杰出青年项目,滨海城市污染水文地质模拟与预测研究,2024.1-2027.12,主持,100万
2. 国家自然科学基金面上项目(42377045),区域地下水污染风险动态评价方法,2024.01-2027.12,主持,49万
3. 国家重点研发计划子课题(YFC3706501-2),场地非均质含水层污染物时空演化的高精度表征,2023.12-2027.11,子课题负责人,60万
4. 国家重点研发计划课题(2021YFC3200502),黄淮海地区地下水超采治理与保护关键技术及应用示范,2021.12-2025.5,主持,432.5万
5. 国家自然科学基金委,重点支持项目(92047202),西南河流源区地下水变化机理和模型研究,2021.1-2023.12,子课题负责人,120万
6. 国家自然科学基金委,青年项目(42007162),非稳定流条件下污染物迁移升尺度模型参数化方法研究,2021.1-2023.12,主持,24万
7. 广东省自然科学基金委员会,面上项目(2020A1515010891),工业园区地下水污染迁移研究及地下水环境管理系统开发,2019.10-2022.09,主持,10万
8. 深圳市科创委,面上项目(JCYJ20210324105009024),新型污染物 PFAS 在深圳市水环境中的迁移转化机理研究及模型开发,2021.10-2024.10,主持,40 万
9. 深圳市软科学研究计划(RKX20190718213410182),深圳市可持续发展典型案例及发展对策研究,2019.09-2020/09,主持,30万
研究方向:
1. 地下水流及污染物运移数值模拟
2. 污染场地修复模拟研究
3. 流域尺度污染物迁移的升尺度研究
4. 全球变化下地下水污染风险评估方法
学术成果:
[1] Yang Zhan, Zhilin Guo*, Sacha Ruzzante, Tom Gleeson, Charles B. Andrews, Vladan Babovic, Chunmiao Zheng*, Assessment of spatiotemporal risks for nationwide groundwater nitrate contamination[J]. Science of The Total Environment, Volume 947, 2024(174508), https://doi.org/10.1016/j.scitotenv.2024.174508.
[2] Yang Zhan, Zhilin Guo*, Bicheng Yan, Kewei Chen, Zhenbo Chang, Vladan Babovic, Chunmiao Zheng, Physics-informed identification of PDEs with LASSO regression, examples of groundwater-related equations[J]. Journal of Hydrology, Volume 638, 2024(131504), https://doi.org/10.1016/j.jhydrol.2024.131504.
[3] Yang Zhan, Balamurugan Murugesan, Zhilin Guo*, Hongkai Li, Kewei Chen, Vladan Babovic*, Chunmiao Zheng, Managed aquifer recharge in island aquifer under thermal influences on the fresh-saline water interface[J]. Journal of Hydrology,Volume 638,2024(131496), https://doi.org/10.1016/j.jhydrol.2024.131496.
[4] Wu Rixin , Guo Zhilin*, Zhan Yang, Cao Guoliang, Chen Kewei, Chang Zhenbo, Li Hongkai, He Xin, and Zheng Chunmiao, Impacts of Land Surface Nitrogen Input on Groundwater Quality in the North China Plain[J]. ACS ES&T Water Article ASAP, 2024, DOI: 10.1021/acsestwater.3c00712.
[5] Chang Zhenbo, Guo Zhilin*, Chen Kewei, Wang Zibo, Zhan Yang, Lu Wenxi, Zheng Chunmiao, A comparison of inversion methods for surrogate-based groundwater contamination source identification with varying degrees of model complexity[J]. Water Resources Research, 2024 , 60 , e2023WR036051. https://doi.org/10.1029/ 2023WR036051
[6] Kuang XingXing, Liu Junguo,Briget R. Scanlon, Jiu Jimmy Jiao, ... & Guo Zhilin, et al.,The changing nature of groundwater in the global water cycle[J]. Science, 2024, 383, eadf0630. DOI: 10.1126/ science.adf0630
[7] Xu Peng, Li Geng, Zheng Yi*, Fung Jimmy C. H. *, ... & Guo Zhilin, et al., Fertilizer management for global ammonia emission reduction[J]. Nature, 2024, 626, 792–798. https://doi.org/10.1038/s41586-024-07020-z
[8] Kang Xueyuan, Kokkinaki Amalia, Shi Xiaoqing*, Lee Jonghyun, Guo Zhilin, Ni Lingling, Wu Jichun*, Modeling upscaled mass discharge from complex DNAPL source zones using a Bayesian neural network: Prediction accuracy, uncertainty quantification and source zone feature importance[J]. Water Resources Research, 2024, 60, e2023WR036864. https://doi.org/10.1029/2023WR036864
[9] Zhang Yong, Liu Xiaoting, Lei Dawei, Yin Maosheng, Sun Hongguang*, Guo Zhilin, Zhan Hongbin, Modeling hydrologically mediated hot moments of transient anomalous diffusion in aquifers using an impulsive fractional-derivative equation[J]. Water Resources Research, 2024, 60, e2023WR036089. https://doi.org/10.1029/2023WR036089
[10] Kewei Chen, Zhilin Guo, Yang Zhan, Eric E. Roden*, Chunmiao Zheng*, Heterogeneity in permeability and particulate organic carbon content controls the redox condition of riverbed sediments at different timescales[J]. Geophysical Research Letters, 2024 51, e2023GL107761. https://doi.org/10.1029/2023GL107761
[11] Rui Ma, Kewei Chen, Charles B. Andrews, Steven P. Loheide, Audrey H. Sawyer, Xue Jiang, Martin A. Briggs, Peter G. Cook, Steven M. Gorelick, Henning Prommer, Bridget R. Scanlon, Zhilin Guo, and Chunmiao Zheng, Methods for Quantifying Interactions Between Groundwater and Surface Water[J]. Annual Review of Environment and Resources, 2024, 49 https://doi.org/10.1146/annurev-environ-111522-104534
[12] Peng Wang, Zheng Yan, Xiang Lin, Bingrui Yang, Wen Zhang, Dongsheng Wu, Zhilin Guo, Shengyan Pu, Influence of continuous phase evolution of non-aqueous phase liquid on the retention and transport of coexistence perfluorooctanoic acid in saturated porous media[J]. Journal of Hydrology, 2024, Volume 636, 1313, https://doi.org/10.1016/j.jhydrol.2024.13132
[13] Linfeng Fan, Fang Ji, Xingxing Kuang, Zhilin Guo, Rui Zhang & Chunmiao Zheng, Impacts of permafrost degradation on streamflow in the northern Himalayas[J]. Science China Earth Sciences, 2024, 67(6): 1990-2000.
[14] Liu Hanle*, Zhilin Guo*, Zhu Yinxia, Sarah Van Glubt, Mark L. Brusseau*, The influence of NAPL distribution on the transport of PFOS in Co-contaminated media[J]. Journal of Hazardous Materials, 2024, 462, 132794. https://doi.org/10.1016/j.jhazmat.2023.132794. (共一)
[15] Kewei Chen, Shuai Yang, Eric E. Roden, Xingyuan Chen, Kuang-Yu Chang, Zhilin Guo, Xiuyu Liang, Enze Ma, Linfeng Fan, Chunmiao Zheng, Influence of vertical hydrologic exchange flow, channel flow, and biogeochemical kinetics on CH4 emissions from rivers[J]. Water Resources Research, 2023, 59(12): e2023WR035341.
[16] Guo Zhilin, Fogg Graham E., Chen Kewei, Pauloo Rich, Zheng Chunmiao*, Sustainability of Regional Groundwater Quality in Response to Managed Aquifer Recharge[J]. Water Resources Research, 2023: 59.
[17] Guo Zhilin, Kewei Chen, Shuping Yi, and Chunmiao Zheng*. Response of groundwater quality to river-aquifer interactions during managed aquifer recharge: A Reactive transport modeling analysis[J]. Journal of Hydrology, 2023: 128847.
[18] Wang Yanxin*, Yuan Songhu, Shi Jianbo, Ma Teng, Xie Xianjun.,…, Guo Zhilin, Dong Yiran, Zheng Chunmiao, Jiang Guibin, Groundwater Quality and Health: Making the Invisible Visible[J]. Environmental Science & Technology, 2023.
[19] Chen Kewei, Yin Maosheng, Guo Zhilin, Liang Xiuyu, Wei Xiaoou, ... & Zheng hunmiao*, Estimating lateral groundwater inflow to rivers using heat as a tracer[J]. Journal Of Hydrology, 2023: 617.
[20] Yin Maosheng, Rui Ma*, Yong Zhang, Jingjing Lin, Zhilin Guo, and Chunmiao Zheng, Competitive control of multiscale aquifer heterogeneity on solute transport in an alluvial aquifer[J]. Journal of Hydrology, 2023: 128819.
[21] Jing Hao, He Xin, Tian Yong, Lancia Michele, Cao Guoliang, Crivellar Alessandro, Guo Zhilin, Zheng Chunmiao*, Comparison and interpretation of data-driven models for simulating human-impacted groundwater dynamics in the North China Plain[J]. Journal of Hydrology, 2023: 128751.
[22] Kewei Chen, Xingyuan Chen, James C. Stegen, Jorge A. Villa, Gil Bohrer, Xuehang Song, Kuang-Yu Chang, Matthew Kaufman, Xiuyu Liang, Zhiling Guo, Eric E. Roden, and Chunmiao Zheng*, Vertical hydrologic exchange flows control methane emissions from riverbed sediments[J]. Environmental Science & Technology, 2023 57 (9), 4014-4026
[23] Zheng Chunmiao*, Guo Zhilin*, Plans to protect China’s depleted groundwater[J]. Science, 2022, 375(6583):827-827.
[24] Yan Ni, Guo Zhilin, Brusseau Mark L.*, Sucralose as an oxidative-attenuation tracer for characterizing the application of in situ chemical oxidation for the treatment of 1,4-dioxane[J]. Environmental Science: Processes & Impacts, 2022 : 1165-1172.
[25] Yin Maosheng, Ma Rui, Zhang Yong, Chen Kewei, Guo Zhilin, Zheng, Chunmiao*, A dual heterogeneous domain model for upscaling anomalous transport with multi-peaks in heterogeneous aquifers[J]. Water Resources Research, 2022, 10.1029/2021WR031128.
[26] Feng Yu, Zeng Zhenzhong*, Searchinger Tim, … Guo Zhilin, … Zheng Chunmiao*, Doubling of annual forest carbon loss over the tropics during the early twenty-first century[J]. Nature Sustainability, 2022, 10.1038/s41893-022-00854-3.
[27] Liu Xiaoting, Zhang Yong, Sun Hongguang*, Guo Zhilin, A fractional-order dependent collocation method with graded mesh for impulsive fractional-order system[J]. Computational Mechanics, 2022, 69(4):1-19
[28] Guo Zhilin, Ma Rui, Zhang Yong, Zheng Chunmiao*, Contaminant transport in heterogeneous aquifers: A critical review of mechanisms and numerical methods of non-Fickian dispersion[J]. Science China: Earth Sciences, 2021, 64(8).
[29] Pauloo Richard A.*, Fogg Graham E., Guo Zhilin*, Henri, Christopher V., Mean flow direction modulates non-Fickian transport in a heterogeneous alluvial aquifer-aquitard system[J]. Water Resources Research, 2021, e2020WR028655.
[30] Pauloo Richard A.*, Fogg, Graham E., Guo Zhilin*, Harter Thomas, Anthropogenic basin closure and groundwater salinization (ABCSAL)[J]. Journal of Hydrology, 2021, 593, 125787.
[31] Jiang A, Liu Y, Yi S, Guo Z*, et al. Impact of artificial recharge on groundwater and springs: Jinan, China, case study[J]. Arabian Journal of Geosciences, 2021, 14: 1-10.
[32] Guo Zhilin*, Henri Christopher V., Fogg Graham E., Zhang Yong, Zheng, Chunmiao, Adaptive Multirate Mass Transfer (aMMT) Model: A New Approach to Upscale Regional-Scale Transport Under Transient Flow Conditions[J]. Water Resources Research, 2020, 56(2): e2019WR026000.
[33] Guo Zhilin*, Russo Ann E., DiFilippo Erica L., Zhang Zhihui, Zheng Chunmiao, Brusseau Mark L.*, Mathematical modeling of organic liquid dissolution in heterogeneous source zones[J]. Journal of Contaminant Hydrology, 2020, 235: 103716.
[34] Wang Jiaqi, Ma Rui*, Guo Zhilin, Qu Le, Yin Maosheng, Zheng Chunmiao, Experiment and multicomponent model based analysis on the effect of flow rate and nitrate concentration on denitrification in low-permeability media[J]. Journal of Contaminant Hydrology. 2020, 235: 103727.
[35] Hua Shanshan, Jing Hao, Yao Yingying, Guo Zhilin, Lerner David N., Andrews Charles B., Zheng Chunmiao*, Can groundwater be protected from the pressure of China’s urban growth? [J]. Environment International, 2020, 143: 105911.
[36] Guo Zhilin*, Fogg Graham E., Henri Christopher V., Upscaling of Regional Scale Transport Under Transient Conditions: Evaluation of the Multirate Mass Transfer Model[J]. Water Resources Research, 2019, 55(7): 5301-5320.
[37] Guo Zhilin*, Brusseau Mark L., Fogg Graham E., Determining the long-term operational performance of pump and treat and the possibility of closure for a large TCE plume[J]. Journal of Hazardous Materials, 2019, 365:796-803.
[38] Guo Zhilin*, Fogg Graham E, Brusseau Mark L, LaBolle Eric M, Lopez Jose, Modeling groundwater contaminant transport in the presence of large heterogeneity: a case study comparing MT3D and RWhet[J]. Hydrogeology Journal, 2019, 27(4):1363-1371.
[39] Brusseau, Mark L.*, Carroll Kenneth C., Guo Zhilin, Mainhagu, Jon, Borehole diffusive flux apparatus for characterizing diffusive mass-transfer in subsurface systems[J]. Environmental Earth Sciences, 2018, 77:648.
[40] Brusseau, Mark L.*, Guo Zhilin, The integrated contaminant elution and tracer test toolkit, ICET3, for improved characterization of mass transfer, attenuation, and mass removal[J]. Journal of Contaminant Hydrology, 2018, 208:17-26.
[41] Guo Zhilin, Brusseau Mark L*, The impact of well-field configuration and permeability heterogeneity on contaminant mass removal and plume persistence[J]. Journal of Hazardous Materials, 2017, 333: 109-115.
[42] Guo Zhilin, Brusseau Mark L.*, The impact of well-field configuration on contaminant mass removal and plume persistence for homogeneous versus layered systems[J]. Hydrological Processes, 2017, 31: 4748- 4756.
[43] Guo Zhilin, Brusseau Mark L.*, Modified well-field configurations for improved performance of contaminant elution and tracer tests[J]. Water Air & Soil Pollution, 2017, 228: 261.
[44] Brusseau Mark L.*, Guo Zhilin, Assessing contaminant-removal conditions and plume persistence through analysis of data from long-term pump-and-treat operations[J]. Journal of Contaminant Hydrology, 2014,164: 16-24.
[45] Matthieu III Donald E., Brusseau Mark L.*, Guo Zhilin, Plaschke Manfred, Carroll Kenneth C., Fred Brinker, Persistence of a Groundwater Contaminant Plume after Hydraulic Source Containment at a Chlorinated-Solvent Contaminated Site[J]. Groundwater Monitoring & Remediation, 2014, 34(4): 23-32.
[46] Zhilin Guo, Groundwater Quality Modeling and Assessment. LSGI research seminar, The Hong Kong Polytechnic University. 2024 (邀请讲座).
[47] Zhilin Guo, Graham E. Fogg, Christopher V. Henri, Yong Zhang, Chunmiao Zheng. Upscaling of Regional Scale Transport Under Transient Conditions. American Geophysical Union Fall Meeting, San Francsico, CA, US. 2019 (邀请).
[48] Zhilin Guo, Graham E. Fogg, Christopher V. Henri. Upscaling of regional scale transport under transient conditions: method development. American Geophysical Union Fall Meeting. Washington DC. US. 2018.
[49] Zhilin Guo, Rich Pauloo, Graham E. Fogg. Groundwater Salinization Due to Hydraulic Closure in Tulare Basin over a Long Term Time Scale. Toward Sustainable Groundwater in Agriculture - An International Conference Linking Science and Policy. San Francisco, CA. US. 2016.
[50] Zhilin Guo, Graham Fogg, Mark Brusseau. Case study of using the stochastic method for contaminant transport in groundwater. NIEHS Environmental Health Science FEST. Durham, NC. US. 2016 (邀请).
[51] Zhilin Guo, Assessing the Long-term Groundwater Quality in Regional Scale Aquifer, Lawrence Berkeley National Laboratory Climate Brownbag, Berkeley, US. 2019 (邀请).
[52] Zhilin Guo, Persistence of Groundwater Contaminants Plume. EPA Superfund Colloquium. Tucson, US. 2014 (邀请)
[53] 王佳琪,郭芷琳*,田勇,范林峰,曾文科,王晓丽,苏皝,Lancia Michele,郑春苗,海水入侵模拟与预测技术方法及应用,水文地质工程地质, 2022, doi:10.16030/j.cnki.issn.1000-3665.202105037
[54] 刘羽* 张丰收, 孙建强, 朱治强, 汪玉, 杨仲康, 张莘, 郭芷琳, 张博, 陈涛, 2022年度环境地球科学学科项目评审与结题成果分析, 地球科学进展, 2022, 37(12): 1286 -1298, doi:10.11867/j.issn.1001-8166.2022.099
[55] 郭芷琳,马瑞,张勇,郑春苗*,地下水污染物在高度非均质介质中的迁移过程:机理与数值模拟综述,中国科学:地球科学, 2021, doi:10.1360/SSTe-2020-0245.
[56] 郭芷琳, 华北平原地表氮输入对地下水水质影响。第一届全国地下水资源与生态环境大会。2024(邀请).
[57] Zhilin Guo, Yang Zhan; Groundwater contamination risk assessment from nitrate at a continental scale, 第49届国际水文地质大会, 武汉, 2022 (邀请).
[58] 郭芷琳,人工回灌对区域地下水水质可持续性影响研究。 第六届地下水青年论坛,成都,中国,2020。
[59] 郭芷琳,非稳态条件下流域尺度溶质运移的升尺度研究。 第五届地下水青年论坛,武汉,中国,2019。
[60] 一种地下水污染风险识别划分的方法与系统,郭芷琳,詹阳,李春明,张攀,岳松涛,郑春苗,2023
[61] 变密度水流与溶质运移模型软件VFT3D,软著登字第7506310号,郭芷琳,田勇,郑春苗 软件著作权2021
[62] 变密度地表水-地下水耦合反应溶质传输建模软件[简称: VisualVFT3D],田勇,王晓丽,郭芷琳,郑春苗 2021SR0864050 2021