管冬兴

教育经历

2012.09~2016.06     南京大学 环境学院 环境科学与工程   博士

2009.09~2012.03     同济大学 环境科学与工程学院 环境工程   硕士

2005.09~2009.06     四川大学 建筑与环境学院 环境工程   本科

工作经历

2020.08~至今         浙江大学  环境与资源学院  副教授

2019.01~2020.07   天津大学  地球系统科学学院 副教授

2016.08~2018.12   南京大学  地球科学与工程学院  博士后

2016.02~2016.05   英国贝尔法斯特女王大学  全球食品安全研究所  访问学者

研究兴趣

□环境土壤学：污染物和微量元素在土壤-植物-人体系统的迁移转化机制和生物有效性

□环境地球化学：环境微界面化学物质运移的原位表征方法开发和动力学机制

科研项目

1. 国家自然科学基金重点项目(42330703)，岩溶地质高背景土壤重金属的生物有效性与人体健康风险，2024.01~2028.12，227万，骨干

2. 国家自然科学基金面上项目(42177194)，耦合高分辨成像技术研究硅对水稻磷吸收的动力学作用机制，2022.01~2025.12，56万元，主持

3. 中央高校基本科研业务费专项资金项目(2021QNA6004)，重金属在地质高背景土壤-作物-人体系统的迁移动力学与潜在健康风险，2021.01~2022.12，25万元，主持

4. 国家自然科学基金青年科学基金项目(41807353)，基于XAFS和DGT技术原位研究土壤铅在磷酸盐矿物相锁定和再活化的分子机理，2019.01~2021.12，24万元，主持

发表论文

1. Pang, Z., F. de Tombeur, S. E. Hartley, C. M. Zohner, M. Nikolic, C. Violle, L. Mo, T. W. Crowther, D. X. Guan, Z. Luo, Y. G. Zhu, Y. Wang, P. Zhang, H. Peng, C. A. E. Strömberg, N. Nikolic*, and Y. Liang*. 2025. Convergent evidence for the temperature-dependent emergence of silicification in terrestrial plants. Nature Communications 16(1): 1155.

2. Qiu, L. X., D. X. Guan*, Y. W. Liu, Y. Luo, H. H. Teng, Y. Kuzyakov, and L. Q. Ma. 2025. Interactions of silicon and arbuscular mycorrhizal fungi on phosphorus uptake during rice vegetative growth. Geoderma 454: 117184.

3. Qiu, L. X., K. X. Xu, D. X. Guan*, Y. W. Liu, Y. Luo, X. Y. Zhu, H. H. Teng, Y. Kuzyakov, and L. Q. Ma. 2025. Contrasting effects of arsenic on mycorrhizal-mediated silicon and phosphorus uptake by rice. Journal of Environmental Management 373: 124005.

4. Yang, J. M., H. L. Chen, X. Wang*, D. X. Guan*, X. H. Ji, Y. H. Xie, R. Huang, B. Peng, and Q. B. Qin. 2025. Toward safe rice production in As-Cd co-contaminated paddy soils: Biogeochemical mechanisms and remediation strategies. Critical Reviews in Environmental Science and Technology 55(1): 1-24.

5. Qiu, L. X., D. X. Guan*, Y. W. Liu, H. H. Teng, Z. B. Li, A. Lux, Y. Kuzyakov, and L. Q. Ma. 2024. Mechanisms of arbuscular mycorrhizal fungi increasing silicon uptake by rice. Journal of Agricultural and Food Chemistry 72(30): 16603-16613.

6. Guan, D. X., T. J. Wei*, G. H. Yu, J. Luo, and G. Li*. 2024. Technical development for in situ measurement of labile silicate in waters and soils. Environmental Technology & Innovation 34: 103613.

7. Zhang, C., D. X. Guan*, Y. F. Jiang, D. Menezes-Blackburn, T. Yu, Z. Yang, and L. Q. Ma. 2024. Insight into the availability and desorption kinetics of Se and Cd in naturally-rich soils using diffusive gradients in thin-films technique. Journal of Hazardous Materials 465: 133330.

8. Li, X. Y., S. Q. Li, Y. F. Jiang, Q. Yang, J. C. Zhang, Y. Kuzyakov, H. H. Teng, and D. X. Guan*. 2024. Multi-imaging platform for rhizosphere studies: Phosphorus and oxygen fluxes. Journal of Environmental Management 351: 119763.

9. Zeng, J. Y., D. X. Guan*, Z. H. Dai, J. Y. Chen, W. J. Dong, S. Ding, and L. Q. Ma. 2023. Selenium contents, speciation and bioaccessibility of Se-enriched rice grains from Chinese markets. Soil & Environmental Health 1(3): 100037.

10. Guan, D. X., S. X. He, G. Li, H. H. Teng, and L. Q. Ma*. 2022. Application of diffusive gradients in thin-films technique for speciation, bioavailability, modeling and mapping of nutrients and contaminants in soils. Critical Reviews in Environmental Science and Technology 52(17): 3035-3079.

11. Dai, Z. H., Y. J. Peng, S. Ding, J. Y. Chen, S. X. He, C. Y. Hu, Y. Cao, D. X. Guan*, and L. Q. Ma*. 2022. Selenium increased arsenic accumulation by upregulating the expression of genes responsible for arsenic reduction, translocation, and sequestration in arsenic hyperaccumulator Pteris vittata. Environmental Science & Technology 56(19): 14146-14153.

12. Ding, S., D. X. Guan*, Z. H. Dai, J. Su, H. H. Teng, J. Ji, Y. Liu, Z. Yang, and L. Q. Ma. 2022. Nickel bioaccessibility in soils with high geochemical background and anthropogenic contamination. Environmental Pollution 310: 119914.

13. Ma, Q., W. Zhao, D. X. Guan*, H. H. Teng, J. Ji, and L. Q. Ma. 2020. Using CaCl2, EDTA and DGT methods to predict Cd and Ni accumulation in rice grains from contaminated soils. Environmental Pollution 260: 114042. 

14. Guan, D. X., Y. Q. Li, N. Y. Yu, G. H. Yu, S. Wei, H. Zhang, W. Davison, X. Y. Cui, L. Q. Ma, and J. Luo. 2018. In situ measurement of perfluoroalkyl substances in aquatic systems using diffusive gradients in thin-films technique. Water Research 144: 162-171.  

15. Guan, D. X., C. Ren, J. Wang, Y. Zhu, Z. Zhu, and W. Li. 2018. Characterization of lead uptake by nano-sized hydroxyapatite: A molecular scale perspective. ACS Earth and Space Chemistry 2(6): 599-607.  

16. Guan, D. X., J. L. Zheng, J. Luo, H. Zhang, W. Davison, and L. Q. Ma. 2017. A diffusive gradients in thin-films technique for the assessment of bisphenols desorption from soils. Journal of Hazardous Materials 331: 321-328.  

17. Guan, D. X., P. N. Williams, H. C. Xu, G. Li, J. Luo, and L. Q. Ma. 2016. High-resolution measurement and mapping of tungstate in waters, soils and sediments using the low-disturbance DGT sampling technique. Journal of Hazardous Materials 316: 69-76.  

18. Guan, D. X., P. N. Williams, J. Luo, J. L. Zheng, H. C. Xu, C. Cai, and L. Q. Ma. 2015. Novel precipitated zirconia-based DGT technique for high-resolution imaging of oxyanions in waters and sediments. Environmental Science & Technology 49(6): 3653-3661.

19. 管冬兴，魏天娇，袁召锋，李刚，陈正. 2021. 基于被动采样技术的砷有效性和界面过程研究：进展与展望. 土壤学报 58(2): 344-356.

20. 李希媛，滕辉，赵玉杰，陈春梅，余光辉，管冬兴*. 2020. 薄膜梯度扩散（DGT）技术在环境微界面物质运移过程研究中的应用. 农业环境科学学报 39(8): 1649-1660.