主要研究领域
1. 土壤污染与修复
2. 固废资源转化与安全利用
3. 环境新污染物与风险管理
4. 生物地球化学过程与全球环境变化
代表性研究项目
1. 国家自然科学基金面上项目“填埋稳定化过程不同粒径组分原位固相腐殖质电子转移功能演变机制”,2024-2027,主持
2. 国家自然科学基金面上项目“土壤不同团聚体组分原位固相有机质电子转移能力对增温的响应机制”,2020-2023,主持
3. 国家自然科学基金青年项目“土壤原位固相腐殖质的电子转移机制研究”,2016-2018,主持
4. 北京市自然科学基金面上项目“京津冀再生水灌溉背景下土壤异质性组分原位固相有机质电子转移机制研究”,2021-2023,主持
5. 国家科技重大专项子课题“滏阳河中游重污染支流洨河水质改善综合示范”,2013-2018,主持
6. 国家自然科学基金重点项目“垃圾填埋场自然稳定化全过程碳氮转化及典型污染物反应性迁移机制研究”,2021-2025,骨干
7. 国家科技重大专项项目“京津冀地下水污染防治关键技术研究与工程示范项目”,2018-2021,骨干
代表性论文
1. Wang S, Gao Y, Hu S, Wang G, Li L, Jia Y, Chen Z, Tan W*. 2025. Electron accepting capacity of soil dissolved organic matter increases while electron donating capacity decreases along a temperature gradient. Geoderma 462, 117541.
2. Tan W, Xi B. 2025. Silent crisis in water: Navigating the labyrinth of antibiotic pollution and resistome spread for smart mitigation. Environmental Chemistry and Ecotoxicology 7, 2212–2222.
3. Tan W. 2025. Soil aggregate-specific heterogeneity in humic acid governs cadmium and lead fractionation and bioavailability. Journal of Hazardous Materials 498, 139813.
4. Zhang J, Li D, Yuan Y, Hui K, Tan W*. 2025. Transport, transformation, and ecological impacts of brominated flame retardants in soils: A comprehensive review. Environmental Chemistry and Ecotoxicology 7, 1142–1157.
5. Jiang W, Wang Z, Xiao H, Abou-Elwafa SF, Alshehri MA, Wu Y, Yu H, Tan W*. 2024. Response of soil heavy metal forms and bioavailability to the application of microplastics across five years in different soil types. Journal of Hazardous Materials 480, 136068.
6. Tan W, Xi B. 2024. Toward sustainable urine resource management: denitrification purification with simultaneous electricity generation and H2O2 production. ACS Sustainable Chemistry & Engineering 12, 14568–14570.
7. Tan W, Xi B. 2024. Toward carbon emission reduction in steel production by substituting pulverized coal and coke with biochar. ACS ES&T Engineering 4, 1253–1255.
8. Gao Y, Zhang Y, Ge X, Gong Y, Chen H, Su J, Xi B, Tan W*. 2024. Differential responses of the electron transfer capacities of soil humic acid and fulvic acid to long-term wastewater irrigation. Science of the Total Environment 933, 173114.
9. Shan G, Wei X, Li W, Liu J, Bao S, Wang S, Zhu L, Xi B, Tan W*. 2024. Effect of aqueous phase from hydrothermal carbonization of sewage sludge on heavy metals and heavy metal resistance genes during chicken manure composting. Journal of Hazardous Materials 471, 134398.
10. Shan G, Li W, Liu J, Tan W*, Bao S, Wang S, Zhu L, Hu X, Xi B. 2023. Macrogenomic analysis of the effects of aqueous-phase from hydrothermal carbonation of sewage sludge on nitrogen metabolism pathways and associated bacterial communities during composting. Bioresource Technology 389, 129811.
11. Shan G, Li W, Tan W*, Bao S, Liu J, Wang S, Zhu L, Chen L, Xi B. 2023. Effect of the aqueous phase from the hydrothermal carbonization of sewage sludge as a moisture regulator on nitrogen retention and humification during chicken manure composting. Chemical Engineering Journal 470, 144398.
12. Hui K, Yuan Y, Xi B, Tan W*. 2023. A review of the factors affecting the emission of the ozone chemical precursors VOCs and NOx from the soil. Environment International 172, 107799.
13. Shan G, Li W, Bao S, Hu X, Liu J, Zhu L, Tan W*. 2023. Energy and nutrient recovery by spent mushroom substrate-assisted hydrothermal carbonization of sewage sludge. Waste Management 155, 192–198.
14. Shan G, Li W, Zhou Y, Bao S, Zhu L, Tan W*. 2023. Effects of persulfate-assisted hydrothermal treatment of municipal sludge on aqueous phase characteristics and phytotoxicity. Journal of Environmental Sciences 126, 163–173.
15. Yu H, Wei X, Tan W*. 2022. High nitrogen enrichment increases the allocation of new organic carbon to deep soil layers. Geoderma 406, 115515.
16. Liu P, Chen S, Cui Y, Tan W*. 2021. Insights into the inhibition effects of Cd on soil enzyme activities: From spatial microscale to macroscale. Journal of Hazardous Materials 418, 126274.
17. Wang S, Yu H, Xi B, Tian Z, Wang G, Tan W*. 2021. Change in the bio-uptake of soil phthalates with increasing mulching years: Underlying mechanism and response to temperature rise. Journal of Cleaner Production 287, 125049.
18. Shan G, Li W, Gao Y, Tan W*, Xi B. 2021. Additives for reducing nitrogen loss during composting: A review. Journal of Cleaner Production 307, 127308.
19. Hu H, Tan W*, Xi B. 2021. Lignin-phenol monomers govern the pyrolytic conversion of natural biomass from lignocellulose to products. Environmental Science and Ecotechnology 8, 100131.
20. Tan W, Liu N, Dang Q, Cui D, Xi B, Yu H. 2020. Insights into the removal efficiencies of aged polycyclic aromatic hydrocarbons in humic acids of different soil aggregate fractions by various oxidants. Environmental Pollution 264, 114678.
21. Tan W, Xi B, Zhao X, Dang Q. 2020. Emerging views on the overall process treatment of municipal domestic waste for the sustainable use of landfills in China. Engineering 6, 733–735.
22. Tan W, Zhao X, Dang Q, Cui D, Xi B. 2020. Microbially reducible extent of solid-phase humic substances is governed by their physico-chemical protection in soils: Evidence from electrochemical measurements. Science of the Total Environment 708, 134683.
23. Tan W, Wang G, Zhao X, Dang Q, Li R, Xi B, Jiang J, Zhang H, Li D, Cui D, Jia Y. 2019. Molecular-weight-dependent redox cycling of humic substances of paddy soils over successive anoxic and oxic alternations. Land Degradation & Development 30, 1130–1144.
24. Tan W, Yuan Y, Zhao X, Dang Q, Yuan Y, Li R, Cui D, Xi B. 2019. Soil solid-phase organic matter-mediated microbial reduction of iron minerals increases with land use change sequence from fallow to paddy fields. Science of the Total Environment 676, 378–386.
25. Tan W, Xi B, Wang G, He X, Gao R, Jiang J, Zhu B. 2019. Microbial-accessibility-dependent electron shuttling of in situ solid-phase organic matter in soils. Geoderma 338, 1–4.
26. Tan W, Yu H, Huang C, Li D, Zhang H, Zhao X, Li R, Wang G, Zhang Y, He X, Xi B. 2018. Intercropping wheat and maize increases the uptake of phthalic acid esters by plant roots from soils. Journal of Hazardous Materials 359, 9–18.
27. Tan W, Zhang Y, Xi B, He X, Gao R, Huang C, Zhang H, Li D, Zhao X, Li M, Li L, Jiang J, Wang G. 2018. Discrepant responses of the electron transfer capacity of soil humic substances to irrigations with wastewaters from different sources. Science of the Total Environment 610–611, 333–341.
28. Tan W, Jia Y, Huang C, Zhang H, Li D, Zhao X, Wang G, Jiang J, Xi B. 2018. Increased suppression of methane production by humic substances in response to warming in anoxic environments. Journal of Environmental Management 206, 602–606.
29. Tan W, Xi B, Wang G, Jiang J, He X, Mao X, Gao R, Huang C, Zhang H, Li D, Jia Y, Yuan Y, Zhao X. 2017. Increased electron-accepting and decreased electron-donating capacities of soil humic substances in response to increasing temperature. Environmental Science & Technology 51, 3176–3186.
30. Tan W, Wang G, Huang C, Gao R, Xi B, Zhu B. 2017. Physico-chemical protection, rather than biochemical composition, governs the responses of soil organic carbon decomposition to nitrogen addition in a temperate agroecosystem. Science of the Total Environment 598, 282–288.
专著
1. 余红, 檀文炳, 席北斗. 2021. 土壤腐殖质电子转移过程及其环境影响, 化学工业出版社.
2. 席北斗, 何小松, 檀文炳, 赵昕宇. 2019. 村镇有机废物堆肥及土壤利用, 化学工业出版社.
