基本情况

刘文深,男,1989年生,博士,副教授,硕士研究生导师。中山大学土壤污染修复创新团队成员,广东省土壤学会优秀青年科学家,广东省土壤学会青年工作委员会副主任委员,中国矿物岩石地球化学学会青工委委员,广东省环境科学学会标委会委员,《Plant and Soil》青年编委,主要从事离子型稀土矿区生态修复与资源化研究。热爱篮球,喜欢跑步、羽毛球、骑行等体育活动。

ResearchGate: https://www.researchgate.net/profile/Wen-Shen-Liu

ORCID: https://orcid.org/0000-0002-3948-0633

 

联系方式

电话:18933937862

邮箱:liuwsh8@mail.sysu.edu.cn

地址:广州市番禺区大学城外环东路132号环境大楼

 

教育经历

2016.09–2019.12中山大学环境科学与工程学院环境科学博士

2012.09–2014.07中山大学环境科学与工程学院环境科学硕士

2008.09–2012.07福建师范大学化学与材料学院环境科学学士

 

工作经历

2023.05–至今中山大学环境科学与工程学院副教授

2020.01–2023.04中山大学环境科学与工程学院博士后

2014.07–2016.08中山大学环境科学与工程学院科研助理

 

研究方向

稀土矿山修复与资源化

 

科研项目

国家自然科学基金委员会面上项目,超富集植物叶片差异性富集轻重稀土的关键机制研究(42377009),2024-2027,主持

广东省自然科学基金面上项目,基于水热转化的超富集植物美洲商陆生物质稀土选择性回收机理与技术(2024A1515011898),2024–2026,主持

国家自然科学基金委员会青年科学基金,铝、锰通道蛋白NRAMP和NIP在超富集植物芒萁根系稀土吸收中的功能(42007110),2021–2023,主持

中国博士后科学基金第69批面上资助,硅对超富集植物芒萁叶片稀土的解毒机制(2021M693664),2021–2023,主持

广东省青年优秀人才国际培养计划博士后项目,2020,主持

广东省自然科学基金面上项目,硅对超富集植物芒萁稀土吸收、转运和富集的作用机制(2022A1515010635),2022–2024,主持

广州市基础研究项目启航类,超富集植物美洲商陆选择性富集重稀土的分子机制(2024A04J4441),2023-2026,主持;

科学技术部科技部重点研发计划,珠三角典型产业集群区土壤与地下水协同修复技术及示范(2023YFC3709703),2023-2027,课题骨干(子课题负责人)

科学技术部科技部重点研发计划,有色金属采选冶聚集区遗留污染场地生物修复技术(2020YFC1807600),2021–2024,课题骨干;

国家自然科学基金面上项目,稀土元素在枝角类浮游动物中的生物动力学过程和生物累积机制,2021–2024,参与;

国家自然科学基金面上项目,南方稀土矿区及周边土壤中稀土再释放特征及胶体协同迁移机制研究,2021–2024,参与;

国家自然科学基金委员会面上项目,超富集植物对稀土元素的吸收、转运和分馏机制(41771343),2018–2021,参与;

江西省科学技术厅江西省重点研发计划,废弃稀土矿区生态修复关键技术研究(20192ACB70016),2019–2021,参与;

广东省科学技术厅,公益研究与能力建设项目,离子型稀土矿尾砂地综合治理技术示范(2016A020221013),2016–2019,参与。

 

获奖情况

第二届广东省土壤学会青年科学家奖

第十六届中国土壤学会科技奖二等奖(2/9),离子型稀土矿生态修复理论与技术

第三届广东省土壤学会科技奖一等奖(2/15),离子型稀土矿生态修复理论与技术

2023年广东省科技进步奖一等奖(14/15),基于多界面多过程耦合理论的重金属污染土壤修复技术与工程应用

 

一作/通讯论文

  1. Liu WS, Liu CD, Liu C, van der Ent A, Y Cao, YQ Chao, RL Qiu, Tang YT (2025)Microbial Phosphate Solubilization Promotes Rare Earth Element Accumulation in the Hyperaccumulator Dicranopteris linearis from China. Environ. Sci. Technol. 59: 17092–17102.
  2. Xu DX, Cheng XP, Huang CL, Liu XR, Xie CD, Qiu RL, Liu C, Guo MN, Morel JL, Liu WS*, Tang YT (2025) Recovery of rare earth elements from sediments affected by mining activities.J Hazard Mater 496: 139223.
  3. Liu RR, Huang CL, Zheng HX, Liu C, Zhang RQ, Cao Y, van der Ent A, Xie CD, Liu WS*, More JL, Sirguey C, Blaudez D, Tang YT*, Qiu RL (2025) Rare earth element hyperaccumulation in vascular plants: Occurrence, mechanisms, and applications. Crit. Rev. Environ. Sci. Technol. DOI: 10.1080/10643389.2025.2570729.
  4. Zhu SC, Xu DX, Liu WS*, Xie CD, Liu XR, Zheng HX, Liu C, Guo MN, Qiu RL, Chao YQ, Morel JL, Tang YT* (2025) Variations in root functional traits facilitate the adaptation of pioneer plants to rare earth element mine tailings. J. Appl. Eco. DOI: 10.1111/1365-2664.70219.
  5. Liu CD, Zhao JC, Liu WS*, van der Ent A, Qiu RL, Morel JL, Tang YT*. The effect on plant growth promotion: a review on mechanisms and the role of REE-dependent methylotrophs. Plant Soil. DOI: 10.1007/s11104-025-08041-x.
  6. Zhang RQ, Huang CL, Zhou LX, Qiu RL, Liu C, van der Ent A, Morel JL, Liu WS*, Tang YT* (2025) Foliar silicon application enhances rare earth element accumulation in the hyperaccumulator Phytolacca americana. J. Environ. Sci. DOI: 10.1016/j.jes.2025.09.035.
  7. Liu C, Ding TX, van der Ent A, Liu C, Morel JL, Sirguey C, Liu WS*, Tang YT, Qiu RL (2024) A novel method for in situ imaging of root exudates and labile elements reveals phosphorus deficiency-induced mobilization of rare earth elements in the rhizosphere of Phytolacca americana. Plant Soil 495, 13–26.
  8. Zheng HX, Yang YL, Liu WS*, Zhong Y, Cao Y, Qiu RL, Liu C, van der Ent A, Hodson MJ, Tang YT* (2023) Rare earth elements detoxification mechanism in the hyperaccumulator Dicranopteris linearis: [silicon-pectin] matrix fixation. J. Hazard. Mater. 452: 131254.
  9. Zheng HX, Liu WS#, Sun D, Zhu SC, Li Y, Yang YL, Liu RR, Feng HY, Cai X, Cao Y, Xu GH, Morel JL, van der Ent A, Ma LQ, Liu YH, Rylott EL, Qiu RL, Tang YT (2023) Plasma membrane-localized transporter nreet1 is responsible for rare earth element uptake in hyperaccumulator Dicranopteris linearis. Environ. Sci. Technol. 57: 6922–6933. (封面论文)
  10. Xie CD, Xiao Y, He C, Liu WS*, Tang YT, Wang SZ*, van der Ent A, Morel JL, Simonnot MO, Qiu RL (2022) Selective recovery of rare earth elements and value-added chemicals from the Dicranopteris linearis bio-ore produced by phytomining using green fractionation. J. Hazard. Mater. 443: 130253. 
  11. Liu C, Ding TQ, Liu WS*, Tang YT, Qiu RL (2022) Phosphorus mediated rhizosphere mobilization and apoplast precipitation regulate rare earth element accumulation in Phytolacca americana. Plant Soil 83: 697–709. (获评论性文章高度评价, DOI: 10.1007/s11104-022-05856-w) 
  12. Liu XR, Liu WS*, Tang YT, Wang SZ, Cao YJ, Chen ZW, Xie CD, Liu C, Guo MN, Qiu RL (2022) Effects of in situ leaching on the origin and migration of rare earth elements in aqueous systems of South China: Insights based on REE patterns, and Ce and Eu anomalies. J. Hazard. Mater. 435: 128959. 
  13. Liu WS, Zheng HX, Liu C, Guo MN, Zhu SC, Cao Y, Qiu RL, Morel JL, van der Ent A, Tang YT* (2021) Variation in rare earth element (REE), aluminium (Al) and silicon (Si) accumulation among populations of the hyperaccumulator Dicranopteris linearis in southern China. Plant Soil 461: 565–578. 
  14. Liu WS, Laird JS, Ryan CG, Tang YT*, Qiu RL, Echevarria G, Morel JL, van der Ent (2021). Rare earth elements, aluminium and silicon distribution in the fern Dicranopteris linearis revealed by μPIXE Maia analysis. Ann. Bot. 128: 17–30. 
  15. Liu C, Sun D, Zheng HX, Wang GB, Liu WS*, Cao Y*, Tang YT, Qiu RL (2021) The limited exclusion and efficient translocation mediated by organic acids contribute to rare earth element hyperaccumulation in Phytolacca americana. Sci. Total Environ. 805: 150335. 
  16. Liu WS, van der Ent A, Erskine PD, Morel JL, Echevarria G, Montargès-Pelletier E, Spiers KM, Qiu RL, Tang YT* (2020) Spatially-resolved localization of lanthanum and cerium in the rare earth element hyperaccumulator fern Dicranopteris linearis from China. Environ. Sci. Technol. 54: 2287–2294. 
  17. Liu WS, Chen YY, Huot H, Liu C, Guo MN, Qiu RL, Morel JL, Tang YT* (2020) Phytoextraction of rare earth elements from ion-adsorption mine tailings by Phytolacca americana: Effects of organic material and biochar amendment. J. Clean. Prod. 275: 122959. 
  18. Liu WS, Zheng HX, Guo MN, Liu C, Huot H, Morel JL, van der Ent A, Tang YT*, Qiu RL (2019) Co-deposition of silicon with rare earth elements (REEs) and aluminium in the fern Dicranopteris linearis from China. Plant Soil 437: 427–437.
  19. Liu WS, Guo MN, Liu C, Yuan M, Chen XT, Huot H*, Zhao CM, Tang YT*, Morel JL, Qiu RL (2019) Water, sediment and agricultural soil contamination from an ion-adsorption rare earth mining area. Chemosphere 216: 75–83. (高被引论文)
  20. Liu WS, Wu LL, Zheng MY, Chao YQ, Zhao CM, Zhong X, Ding KB, Huot H, Zhang MY, Tang YT*, Li C, Qiu RL (2019) Controls on rare-earth element transport in a river impacted by ion-adsorption rare-earth mining. Sci. Total Environ. 660: 697–704. 
  21. Qin BJ, Liu WS#, He EK, Li YY, Liu C, Ruan JJ*, Qiu RL, Tang YT* (2019) Vacuum pyrolysis method for reclamation of rare earth elements from hyperaccumulator Dicranopteris dichotoma grown in contaminated soil. J. Clean. Prod. 229: 480–488. 
  22. 刘文深, 刘畅, 王志威, 滕文凯, 汤叶涛*, 仇荣亮 (2015) 离子型稀土矿尾砂地植被恢复障碍因子研究. 土壤学报, 52: 879–887. (封面论文)

 

其它共同作者论文/专著

  1. Zhou FP, Guo MN, Liu WS, Watteau F, Zhang WH, Morel JL, Séré G*, Tang YT*, Qiu RL (2025) Synergistic Roles of Plant–Microbe Interactions and Soil Aggregate Dynamics in the Phytostabilization of Ion-Adsorption Rare Earth Tailings. ACS Sustainable Chem. Eng. 13, 30: 12046–12056
  2. Liu XR, Liu WS, Zhang MY, Jin C, Ding KB*, Baker AJM, Qiu RL, Tang YT, Wang SZ* (2024) Organic-mineral colloids regulate the migration and fractionation of rare earth elements in groundwater systems impacted by ion-adsorption deposits mining in South China. Water Res. 256(13):121582
  3. Zhu SC, Liu WS, Zhen ZW, Liu XR, Zheng HX, Chen BY, Zhi XY, Chao YQ, Qiu RL, Chu CJ, Liu C, Morel JL, van der Ent A, Tang YT* (2024) Abiotic legacies mediate plant-soil feedback during early vegetation succession on Rare Earth Element mine tailings. J. Appl. Ecol. 61:489–501.
  4. Wan Q, Liu BB, Zhang MY*, Zhao M, Dai Y, Liu WS, Ding KB, Lin QQ, Ni ZB, Li JJ, Wang SZ, Jin C, Tang YT, Qiu RL* (2023) Co-transport of biochar nanoparticles (BC NPs) and rare earth elements (REEs) in water-saturated porous media: New insights into REE fractionation. J. Hazard. Mater. 453: 131390. 
  5. Chen ZW, Fei YH, Liu WS, Ding KB, Lu JN, Cai X, Cui TT, Tang YT, Wang SZ, Chao YQ*, Qiu RL (2022) Untangling microbial diversity and assembly patterns in rare earth element mine drainage in South China. Water Res. 225: 119172.
  6. Guo MN, Zhong X, Liu WS, Wang GB, Chao YQ, Huot H, Qiu RL, Morel JL, Watteau F, Séré G*, Tang YT* (2022) Biogeochemical dynamics of nutrients and rare earth elements (REEs) during natural succession from biocrusts to pioneer plants in REE mine tailings in southern China. Sci. Total Environ. 828: 154361.
  7. Zhu SC, Zheng HX, Liu WS, Liu C, Guo MN, Huot H, Morel JL, Qiu RL, Chao YQ*, Tang YT* (2022) Plant-soil feedbacks for the restoration of degraded mine lands: a review. Front. Microbiol. 12: 751794.
  8. Liu C, Liu WS, Huot H, Guo MN, Zhu SC, Zheng HX, Morel JL, Yang YT*, Qiu RL (2022). Biogeochemical cycles of nutrients, rare earth elements (REEs) and Al in soil-plant system in ion-adsorption REE mine tailings remediated with amendment and ramie (Boehmeria nivea L.). Sci. Total Environ. 809: 152075. 
  9. Liu C, Liu WS, Huot H*, Yang YM, Guo MN, Morel JL, Yang YT, Qiu RL (2021). Responses of ramie (Boehmeria nivea L.) to increasing rare earth element (REE) concentrations in a hydroponic system. J Rare Earth. 40: 840–846.
  10. Chen ZW, Liu WS, Zhong X, Zheng MY, Fei YH, He H, Ding KB, Chao YQ*, Tang YT, Wang SZ, Qiu, RL* (2021) Genome- and community-level interaction insights into the ecological role of archaea in rare earth element mine drainage in South China. Water Res. 11: 117331.
  11. Chen ZW, Zhong X, Zheng MY, Liu WS, Fei YH, Ding KB, Li YY, Liu Y, Chao YQ*, Tang YT, Wang SZ, Qiu RL* (2021) Indicator species drive the key ecological functions of microbiota in a river impacted by acid mine drainage generated by rare earth elements mining in South China. Environ. Microbiol. 24: 919–937.
  12. Liu C, Liu WS, van der Ent A, Morel JL, Zheng HX, Wang GB, Tang YT*, Qiu RL (2021) Simultaneous hyperaccumulation of rare earth elements, manganese and aluminum in Phytolacca americana in response to soil properties. Chemosphere 282: 131096.
  13. Liu Y, Zhong X, Huot H, Liu WS, Liu C, Guo MN, Li YY, Fei YH, Chao YQ*, Wang SZ, Tang YT, Qiu RL (2020) Reclamation with organic amendments and plants remodels the diversity and structure of bacterial community in ion-adsorption rare earth element mine tailings. J. Soils Sediments 20: 3669–3680.
  14. Zhao CM, Shi X, Xie SQ, Liu WS, He EK, Tang YT, Qiu RL (2019) Ecological Risk Assessment of Neodymium and Yttrium on Rare Earth Element Mine Sites in Ganzhou, China. Bull. Environ Contam. Toxicol. 103: 565–570.
  15. Yuan M, Liu C, Liu WS, Guo MN, Morel JL, Huot H, Yu HJ, Tang YT*, Qiu RL (2018) Accumulation and fractionation of rare earth elements (REEs) in the naturally grown Phytolacca americana L. in southern China. Int. J. Phytoremediat. 20 (5): 415–423.
  16. Yuan M, Guo MN, Liu WS, Liu C, van der Ent A, Morel JL, Huot H, Zhao WY, Wei XG*, Qiu RL, Tang YT* (2017) The accumulation and fractionation of rare earth elements in hydroponically grown Phytolacca americana L. Plant Soil 1–16.
  17. Chao YQ, Liu WS, Chen YM, Chen WH, Zhao LH, Ding QB, Wang SZ, Tang YT*, Zhang T, Qiu RL* (2016) Structure, variation, and co-occurrence of soil microbial communities in abandoned sites of a rare earth elements mine. Environ. Sci. Technol. 50: 11481–11490.
  18. 彭钰欣, 刘叶, 陈子武, 刘文深, 王诗忠, 汤叶涛, 仇荣亮, 晁元卿 (2022) 废弃稀土尾砂地先锋植物根区核心菌群研究. 环境科学与技术. 45: 173–183.
  19. 陈莺燕,刘文深,袁鸣,郭美娜,刘畅,Hermine Huot,汤叶涛*,仇荣亮 (2019) 超富集植物对稀土元素吸收转运解毒与分异的研究进展. 土壤学报 56(3): 785–795.
  20. 陈莺燕,刘文深,丁铿博,汤叶涛*,仇荣亮 (2018) 有机改良剂及生物炭对离子型稀土矿尾砂地生态修复的改良探究. 环境科学学报 38(12): 4769–4778.
  21. Liu C, Yuan M, Liu WS, Guo MN, Huot H, Tang YT, Laubie B, Simonnot MO, Morel JL, Qiu RL* (2018) Element case studies: Rare earth elements. In: van der Ent A, Echevarria G, Baker AJM, Morel JL, eds. Agromining: farming for metals. Cham: Springer: 297–308. (专著)
  22. Liu C, Yuan M, Liu WS, Guo MN, Zheng HX, Huot H, Jally B, Tang YT*, Laubie B, Simonnot MO, Morel JL, Qiu RL* (2021) Element case studies: Rare earth elements. In: van der Ent A, Echevarria G, Baker AJM, Simonnot MO, Morel JL, eds. Agromining: farming for metals. Cham: Springer: 471–483. (专著)

 

专利申请与授权

  1. 汤叶涛, 黄翠玲, 刘文深, 谢灿垤, 仇荣亮. 一种稀土超富集植物制备的纳米颗粒及其制备方法与应用(专利号:ZL202311024194.4)
  2. 仇荣亮, 谢灿垤, 刘文深, 朱诗晨, 郑鸿祥, 黄翠玲, 汤叶涛. 一种基于稀土超富集植物得到的光致发光材料及其制备方法与应用(专利号:ZL 20231 1711635.8)
  3. 仇荣亮, 谢灿垤, 刘文深, 汤叶涛. 从超富集植物中回收稀土和生物质高附加值产物的方法(专利号:ZL202210742145.3)
  4. 汤叶涛, 郑鸿祥, 陈莺燕, 刘文深, 郭美娜, 阮菊俊, 晁元卿, 王诗忠, 仇荣亮. 一种利用美洲商陆进行稀土元素植物采矿的方法(专利号:ZL202010436771.0).
  5. 汤叶涛, 陈杰谦, 秦保家, 刘文深, 何尔凯, 仇荣亮, 阮菊俊. 一种从稀土超富集植物中回收稀土和能源物质的方法(专利号:ZL201911284574.5).
  6. 仇荣亮, 秦保家, 刘文深, 汤叶涛, 何尔凯, 阮菊俊. 一种从镍超富集植物中回收镍和能源物质的方法(专利号:ZL201911283577.7).
  7. 汤叶涛, 冯汉栩, 曹健, 黄哲, 阮菊俊, 刘文深, 单永能, 杨萍萍, 刘田杰, 徐玉仪, 仇荣亮. 一种从芒萁中回收、分离镧、钕、钇的方法(专利号:ZL202110714703.0)
  8. 仇荣亮, 阮菊俊, 章卫华, 刘文深, 黄雄飞, 韦行, 施圣恩, 郑杰, 陈喆. 一种治理土壤重金属污染净化系统(专利号:ZL201510302345.7).
  9. 汤叶涛, 朱诗晨, 刘文深, 许德祥, 郑鸿祥, 刘畅, 郭美娜, 晁元卿, 仇荣亮, 一种利用植物-土壤反馈原理的稀土矿山生态修复方法(专利申请号: CN202410425056.5)
  10. 仇荣亮,程暄谱,刘文深,许德祥,汤叶涛,刘晓芮,晁元卿,王诗忠. 一种从离子型稀土矿区污染水体中回收胶体态稀土的方法(专利申请号:CN202311193135.X)
  11. 刘冲, 汤叶涛, 刘文深, 刘畅, 王国保, 仇荣亮. 一种原位定量表征植物根系分泌物空间分布的成像方法(专利申请号:CN202210833857.6)
  12. 仇荣亮, 秦保家, 刘文深, 汤叶涛, 何尔凯, 阮菊俊. 一种从超富集植物中回收能源物质的装置及其应用(专利申请号:CN201911283560.1).
  13. 汤叶涛,袁鸣,仇荣亮,刘文深,刘畅,郭美娜,陈莺燕,游敏,晁元卿,王诗忠. 一种离子型稀土尾砂地改良剂及其修复方法(专利申请号:CN201810338539.6)
  14. 汤叶涛, 刘畅, 刘文深, 游敏, 袁鸣, 郭美娜, 杨奕鸣, 晁元卿, 王诗忠, 仇荣亮. 一种利用耐性经济植物苎麻修复离子型稀土尾砂区的方法(专利申请号:CN201710198811.0)
  15. 汤叶涛, 刘文深, 仇荣亮, 刘畅, 王至威, 滕文凯, 王诗忠. 一种离子型稀土矿尾砂地改良及植被复垦的方法(专利申请号:CN201410197494)