侯德義,男,湖南人,先後畢業於清華大學,史丹福大學,劍橋大學。清華大學研究生院副院長、博士生導師,環境學院長聘教授、土壤與地下水環境教研所所長,國家傑出青年科學基金獲得者,聯合國國際土壤污染合作組織(INSOP)副主席。長期從事場地土壤地下水污染綠色可持續修復相關研究。主持科技部重點研發計畫項目、國家重大科技專項課題等,主持編寫10餘項國內技術標準和指南、5部土壤與地下水修復類專著,擔任Soil Use and Management主編、Science of the Total Environment副主編。2021-2022年連續入選科睿唯安“全球高被引科學家”。
1998.9 – 2002.6 清華大學環境科學與工程系 環境工程學士
2002.9 – 2003.6 史丹福大學土木與環境工程系 土木與環境工程碩士
2003.6 – 2005.9 史丹福大學 土木與環境工程系 土木與環境工程Degree of Engineer
2011.10 – 2014.11 劍橋大學工程系 環境工程博士
2015.11 – 今 清華大學 環境學院 準聘/長聘副教授、長聘教授、博導
2006.04 – 2015.11 Parsons公司 註冊工程師、項目經理
2005.10– 2006.04 美國加州東灣水利局 實習工程師
現任Soil Use and Management(影響因子3.67)主編
現任Science of the Total Environment(影響因子10.7)副主編
曾任Journal of Hazardous Materials(影響因子14.2)副主編
聯合國糧農署國際土壤污染合作組織(International Network on Soil Pollution)副主席;中國生態學學會污染生態專業委員會副主任委員;中國環境保護產業協會標準化委員會委員;中國水利學會地下水科學與工程專委會委員;中國質量檢驗協會水環境工程技術與裝備專家委員;英國土壤學會理事(Council Member);中國土壤學會國際合作與交流工作專委會委員;中國土壤學會土壤環境專委會委員;中國土壤學會土壤修復專委會委員;曾承擔歐盟瑪麗居里學者評審、香港研究資助局項目評審、新加坡國家環境局項目評審、中國國家自然基金委人才項目和研究項目評審、中國教育部人才項目和博士生論文評審、中國生態環境部項目評審等;Nature Sustainability,EST, JHM, EI等50餘個SCI期刊審稿人
1. 污染土壤和地下水的綠色及可持續修復技術開發,包括基於生物質廢棄物循環利用的生物炭材料、納米修復、緩釋長效修復、多相抽提等
2. 重金屬、揮發性有機污染物、微塑膠等在自然狀態及人為干擾下的遷移與歸趨,包括地下水污染遷移模型及取樣最佳化、氯代烴非平衡態遷移等
3. 鉛、砷、汞、四氯化碳等重點污染物的健康風險及防治策略,包括區域污染物分布、污染源削減方法、風險管控及修復最佳化策略等
4. 環境修復/生態修復的全生命周期建模,環境政策與環境管理對污染場地修復的影響,固體廢物資源化及其可持續性評估
1. 國家傑出青年科學基金項目,地下水系統污染過程與協同修復,2023-2027,項目負責人
2. 國家重點研發計畫,場地土壤多金屬污染長效穩定修復功能材料製備,2020-2023年,項目負責人
3. 國家自然科學基金面上項目,汞砷鎘複合污染農田土壤生物地球化學過程及風險阻抗機理研究,2021-2024,項目負責人
4. 國家重大專項,京津冀地下水污染防治關鍵技術研究與工程示範-典型污染場地地下水污染防治關鍵技術研究與工程示範,2018-2020年,課題負責人
5. 國家自然科學基金面上項目,氯代烴污染土壤修復過程中相間非平衡態空間遷移機理研究,2017-2020,項目負責人
6. 世界銀行全球環境基金-環保部對外合作中心項目,中國履行《關於汞的水俁公約》能力建設-陝西省原生汞礦選冶污染地塊風險管理框架制定項目,2019-2021,項目負責人
7. 公共衛生與健康學科交叉科研項目,全球土壤退化與新冠疫情耦合作用對糧食生產的影響及其健康效應,2022-2023,項目負責人
8. 地下水環境調查評估地下水污染數值模擬分析,2021-2022,項目負責人
9. 油庫污染地下水自然衰減與強化修復技術研究,2021-2023,任務負責人
10. “十三五”土壤污染治理與修復成效綜合評估,2021-2022,項目負責人
科睿唯安2022年度全球“高被引科學家”
北京市教育教學成果二等獎,2022,北京市教育委員會
廣東省科技進步一等獎,2022,廣東省人民政府
科睿唯安2021年度全球“高被引科學家”
第一屆首都生態文明獎,2021,北京市委生態文明建設委員會
《環境科學研究》2020年度最佳論文,2021,《環境科學研究》雜誌社
2020 Environmental Science & Technology Best Paper Awards, 2021, ES&T雜誌
環境技術進步獎一等獎,2020,中國環保產業協會
北京市科學技術進步獎二等獎,2020,北京市人民政府
環境保護科學技術獎二等獎,2019,中國環境科學學會
教學成果一等獎,2019,清華大學
中國環境科學學會青年科學家獎,2019
期刊文章(*標註通訊作者)
2022年
1. Hou, Deyi (*), China: protect black soil for biodiversity. Nature. 604:40-40. 連結:https://www.nature.com/articles/d41586-022-00942-6
2. He, M., Xu, Z., Hou, Deyi, Gao, B., Cao, X., Ok, Y.S., Rinklebe, J., Bolan, N.S., Tsang, D.C.W., Waste-derived biochar for water pollution control and sustainable development. Nature Reviews Earth & Environment. 2022. 3:444–460.
3. Wang, L., Gao, J., Wang, H., Luo, J., Hou, Deyi (*), Stimulated leaching of metalloids along 3D-printed fractured rock vadose zone. Water Research, 2022. 226:119224.
4. Gao, J. (#), Wang, L. (#), Ok, Y.S., Bank, M.S., Luo, J., Wu, W.M., Hou, Deyi (*), Nanoplastic stimulates metalloid leaching from historically contaminated soil via indirect displacement, Water Research, 2022. 218:118468.
5. Wang, C., David O'Connor, Liuwei Wang, Wei-Min Wu, Jian Luo, Hou, Deyi (*). Microplastics in urban runoff: Global occurrence and fate. Water Research, 2022. 225:119129.
6. 侯德義,我國工業場地地下水污染防治十大科技難題,環境科學研究,2022. 35(09). https://doi.org/10.13198/j.issn.1001-6929.2022.04.18
7. Wang, C., L Wang, YS Ok, DCW Tsang, Hou, Deyi (*), Soil plastisphere: Exploration methods, influencing factors, and ecological insights, Journal of Hazardous Materials, 2022. 430:128503.
8. Hou, R., L Wang, D O'Connor, J Rinklebe, Hou, Deyi (*), Natural field freeze-thaw process leads to different performances of soil amendments towards Cd immobilization and enrichment, Science of The Total Environment, 2022. 831:154880
2021年
1. O’Connor, D. (*), Hou, Deyi (*), Manage the environmental risks of perovskites. One Earth. 2021. 4: 1534-1537.
2. Hou, Deyi (*), Sustainable remediation in China: Elimination, immobilization, or dilution. Environmental Science & Technology. 2021. 55: 15572–15574.
3. Jin, Y., Wang, L., Song, Y., Zhu, J., Qin, M., Wu, L., Hu, P., Li, F., Fang, L., Chen, C., Hou, Deyi (*), Integrated Life Cycle Assessment for Sustainable Remediation of Contaminated Agricultural Soil in China. Environmental Science & Technology, 2021. 55:12032-12042.
4. Wang, L. (#), Li, P. (#), Zhang, Q., Wu, W., Luo, J., Hou, Deyi (*), Modeling the Conditional Fragmentation-Induced Microplastic Distribution. Environmental Science & Technology. 2021. 55:6012-6021.
5. Qi, S. (#), Wang, Y. (#), Wang, L., Luo, J., Hou, Deyi (*). Impact of Atmospheric Pressure Fluctuations on Nonequilibrium Transport of Volatile Organic Contaminants in the Vadose Zone: Experimental and Numerical Modeling. Water Resources Research, 2021. 57:e2020WR029344.
6. Zhu, J., Song, Y., Wang, L., Zhang, Z., Gao, J., Tsang, D.C.W., Ok, Y.S., Hou, Deyi (*), Green remediation of benzene contaminated groundwater using persulfate activated by biochar composite loaded with iron sulfide minerals. Chemical Engineering Journal, 2021. 429:132292.
7. Shen, Z., Zhang, Z., Zhang, M., Rinklebe, J., Ma, Y., Hou, Deyi (*), Effect of production temperature and particle size of rice husk biochar on mercury immobilization and erosion prevention of a mercury contaminated soil, Journal of Hazardous Materials, 2021, 420:126646.
8. Wang, L., Jin, Y., Weiss, D.J., Schleicher, N.J., Wilcke, W., Wu, L., Guo, Q., Chen, J., O'Connor, D., Hou, Deyi (*). Possible application of stable isotope compositions for the identification of metal sources in soil. Journal of Hazardous Materials. 2021. 407:124812
2020年
1. Hou, Deyi, O'Connor, D., Igalavithana, A., Alessi, D.S., Luo, J., Tsang, D.C.W., Sparks, D.L., Yamauchi, Y., Rinklebe, J., Ok, Y.S. (*), Metal contamination and bioremediation of agricultural soils for food safety and sustainability. Nature Reviews Earth & Environment, 2020. 1:366-381.
2. O'Connor, D., Hou, Deyi (*), Ok, Y.S., Lanphear, B.P., The effects of iniquitous lead exposure on health. Nature Sustainability. 2020, 3:77-79.
3. Wang, L., O'Connor, D., Rinklebe, J., Ok, Y.S., Tsang, D.C.W., Shen, Z., Hou, Deyi (*). Biochar Aging: Mechanisms, Physicochemical Changes, Assessment, And Implications for Field Applications. Environmental Science and Technology. 2020. 54: 14797–14814.
4. Qi, S., Luo, J., O'Connor, D., Cao, X., Hou, Deyi (*). Influence of groundwater table fluctuation on the non-equilibrium transport of volatile organic contaminants in the vadose zone. Journal of Hydrology. 2020. 580:124353.
5. Jia, X., Hou, Deyi (*), Wang, L., O'Connor, D., Luo, J., The development of groundwater research in the past 40 years: A burgeoning trend in groundwater depletion and sustainable management. Journal of Hydrology. 2020. 587:125006.
6. Wang, L., Hou, Deyi (*), Shen, Z., Zhu, J., Jia, X., Ok, Y.S., Tack, F.M.G., Rinklebe, J., Field trials of phytomining and phytoremediation: A critical review of influencing factors and effects of additives. Critical Reviews in Environmental Science and Technology. 50:2724-2774.
7. Jia, H., Hou, Deyi (*), O'Connor, D., Pan, S., Zhu, J., Bolan, N.S., Mulder, J., Exogenous phosphorus treatment facilitates chelation-mediated cadmium detoxification in perennial ryegrass (Lolium perenne L.). Journal of Hazardous Materials. 2020. 389:121849.
8. Wang, L., Li, X., Tsang, D.C.W., Jin, F., Hou, Deyi (*). Green remediation of Cd and Hg contaminated soil using humic acid modified montmorillonite: immobilization performance under accelerated ageing conditions. Journal of Hazardous Materials. 2020. 387:122005.
2019年
1. Hou, Deyi, Ok, Y.S. (*), Speed up mapping of soil pollution, Nature. 2019, 566:455-455. 連結:https://www.nature.com/articles/d41586-019-00669-x
2. Hou, Deyi (*), O’Connor, D., Sonne, C., Ok, Y.S. (*), Trade war threatens sustainability. Science. 2019. 364:1242-1243.
3. O’Connor, D., Hou, Deyi (*), Risks of replenishing China's groundwater, Nature. 2019, 569:487-487. 連結:https://www.nature.com/articles/d41586-019-01617-5
4. Shen, Z., Jin, F., O'Connor, D., Hou, Deyi (*), Solidification/Stabilization for Soil Remediation: An Old Technology with New Vitality. Environmental Science & Technology. 2019. 53:11615-11617.
5. O'Connor, D., Hou, Deyi (*), Ok, Y.S., Mulder, J., Duan, L., Wu, Q., Wang, S., Tack, F.M.G., Rinklebe, J., Mercury speciation, transformation, and transportation in soils, atmospheric flux, and implications for risk management: A critical review. Environment International. 2019. 126: 747-761.
6. Shen, Z., Zhang, J., Hou, Deyi (*), Tsang, D., Ok, Y.S., Alessi, D., Synthesis of MgO-coated corncob biochar and its application in lead stabilization in a soil washing residue. Environment International. 2019, 122: 357-362.
7. Jin, Y., O'Connor, D., Ok, Y.S., Tsang, D., Liu, A., Hou, Deyi (*), Assessment of sources of heavy metals in soil and dust at children’s playgrounds in Beijing using GIS and multivariate statistical analysis. Environment International. 2019. 124: 320-328.
8. Hou, Deyi (*), Luo, J. (*), Proof-of-Concept Modeling of a New Groundwater Sampling Approach. Water Resource Research. 2019. 55:5135-5146.
2018年
1. Hou, Deyi (*), Ding, Z., Li, G., Wu, L., Hu, P., Guo, G., Wang, X., Ma, Y., O'Connor, D., Wang, X., A Sustainability Assessment Framework for Agricultural Land Remediation in China. Land Degradation & Development. 2018, 29:1005-1018.
2. Hou, Deyi (*), Yinan Song, Junli Zhang, Min Hou, O'Connor, D., Melissa Harclerode, Climate change mitigation potential of contaminated land redevelopment: a city-level assessment method. Journal of Cleaner Production. 2018, 171:1396-1406.
3. O'Connor, D., Hou, Deyi (*), Ye, J., Zhang, Y., Ok, Y.S., Song, Y., Coulon, F., Peng, T., Tian, L., Lead-Based Paint Remains a Major Public Health Concern: A Critical Review of Global Production, Trade, Use, Exposure, Health Risk, and Implications. Environmental International. 2018, 121:85-101.
4. Zhang, P., Hou, Deyi (*), O'Connor, D., Li, X., Pehkonen, S., Varma, R., Wang, X. Green and Size-Specific Synthesis of Stable Fe-Cu Oxides as Earth-Abundant Adsorbents for Malachite Green Removal. ACS Sustainable Chemistry & Engineering. 2018, 6:9229-9236.
5. Shen, Z., Hou, Deyi (*), Xu, W., Zhang., J., Jin, F., Zhao, B., Pan, S., Peng, T., Alessi, D., Assessing Long-term stability of cadmium and lead in a soil washing residue amended with MgO-based binders using quantitative accelerated ageing. Science of the Total Environment. 2018, 643: 1571-1578.
6. Zhang, Y., Hou, Deyi (*), Xiong, G., Duan, Y., Cai, C., Wang, X., Li, J., Tao, S., Liu, W. (*) Structural equation modeling of PAHs in ambient air, dust fall, soil, and cabbage in vegetable bases of Northern China. Environmental Pollution. 2018, 239:13-20.
7. O’Connor, D., Peng, T., Zhang, J., Tsang, D.C.W., Alessi, D.S., Shen, Z., Bolan, N.S., Hou, Deyi (*), Biochar application for the remediation of heavy metal polluted land: A review of in situ field trials. Science of the Total Environment. 2018, 619-620: 815-826.
8. Zhao, B. 1, O’Connor, D. 1, Zhang, J., Peng, T., Shen, Z., Tsang, D.C.W., Hou, Deyi (*), Effect of pyrolysis temperature, heating rate, and residence time on rapeseed stem derived biochar. Journal of Cleaner Production. 2018, 174:977-987.
2017年及以前
1. Hou, Deyi (*), O'Connor, D., Nathanail, P., Tian, L., Ma, Y., Integrated GIS and multivariate statistical analysis for regional scale assessment of heavy metal soil contamination: a critical review. Environmental Pollution. 2017, 231:1188-1200.
2. Hou, Deyi (*), Qi, S., Zhao, B., Rigby, M., O'Connor, D., Incorporating life cycle assessment with health risk assessment to select the ‘greenest’ cleanup level for Pb contaminated soil. Journal of Cleaner Production. 2017, 162:1157-1168.
3. Qi, S., Hou, Deyi (*), Luo, J. (*), Optimization of groundwater sampling approach under various hydrogeological conditions using a numerical simulation model. Journal of Hydrology. 2017, 552:505-515.
4. Hou, Deyi (*) and Al-Tabbaa, A., Sustainability: A new imperative in contaminated land remediation, Environmental Science and Policy, 2014, 39: 25-34.
5. Hou, Deyi (*), Luo, J., and Al-Tabbaa, A., Shale Gas Can be a Double Edged Sword for Climate Change, Nature Climate Change, 2012, 2 (6): 385-387.
6. Hou, Deyi (*), Al-Tabbaa, A., Guthrie, P., and Watanabe, K. Sustainable Waste and Materials Management: National Policy and Global Perspective, Environmental Science and Technology, 2012, 46 (5): 2494−2495.
7. Hou, Deyi (*), Vision 2020: More Needed in Materials Reuse and Recycling to Avoid Land Contamination, Environmental Science and Technology, 2011, 45 (15), 6227-6228.
8. Hou, Deyi, Rabinovici, S. J., Boehm, A. B. (*). Enterococci Predictions from Partial Least Squares Regression Models in Conjunction with a Single-Sample Standard Improve the Efficacy of Beach Management Advisories. Environmental Science and Technology. 2006, 40 (6): 1737 1743.