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副教授
渠晨晨
发布人:汤春燕发布时间:2022-09-06


基本信息

   名: 渠晨晨

副教授

政治面貌: 中共党员

办公室:资环楼513

   箱:qcc@mail.hzau.edu.cn

研究方向: 土壤生物化学,矿物-微生物界面作用及其环境效应

个人简介

渠晨晨,男,副教授。本科到博士后均在华中农业大学学习。研究领域为土壤生物化学,重点关注微生物参与的土壤界面过程及其环境效应。围绕国家生态安全及双碳战略需求,当前研究方向为重金属、有机碳在土壤颗粒表面的粘附过程及稳定机制。未来希望联合多学科方法,利用组学、谱学和显微技术,研究土壤根系-微生物-矿物界面养分及污染元素的生物地球化学行为及其调控策略。在Environ Sci TechnolJ Hazard MaterEnviron Int、科学通报等期刊发表论文十余篇。


 教育及工作经历                                                                                    

2022.08至今 华中农业大学 资源与环境学院 土壤与植物营养系 副教授

2019.07-2022.07 华中农业大学 生命科学与技术学院 博士后;合作导师:陈雯莉教授

2018.12- 2019.03 格里菲斯大学 澳大利亚 访问学者;导师:Professor Chengrong Chen

2018.01- 2018.03 利兹大学 英国 访问学者;导师:Professor Caroline Peacock

2013.09-2019.06 华中农业大学 资源与环境学院 土壤学博士 导师:黄巧云教授

2013.02-2013.06 国立中兴大学 环境科学专业 交换生

2009.09-2013.06 华中农业大学 资源与环境学院 农业资源与环境专业 本科

主持及参与项目_                                                                                    

1. 2020-2024 多组分土壤互作界面污染物物化-生物耦合过程表征 国家重点研发计划 课题骨干

2. 2021-2023 不同类型氧化铁吸附土壤有机质的机理及模型研究 自然科学基金青年项目 主持24

3. 2020-2021湖北省博士后科技活动项目择优资助 主持 3

4. 2020-2021生物有机肥施用及水分调控污染农田Cd形态转化的机制 博士后基金面上 主持 8

   发表论文  

1. 渠晨晨, 任稳燕, 李秀秀, 蔡鹏, 陈雯莉, & 黄巧云*, 2022. 重新认识土壤有机质. 科学通报, 67(10): 913-923. Qu, C., Ren W., Li X., Cai P., Chen W., Huang, Q.*, 2022. Revisit soil organic matter. Science China Bulletin (In Chinese)

2. Qu, C., Yang, S., Mortimer, M., Zhang, M., Chen, J., Wu, Y., Chen, W., Cai*, P., Huang, Q., 2022. Functional group diversity for the adsorption of lead(Pb) to bacterial cells and extracellular polymeric substances. Environmental Pollution. 295, 118651.

3. Qu, C., Chen, J., Mortimer, M., Wu, Y., Cai*, P., Huang, Q., 2022. Humic acids restrict the transformation and the stabilization of Cd by iron (hydr)oxides, Journal of Hazardous Materials. 430, 128365

4. Qu, C., Fein, J.B., Chen, W.*, Ma, M., Cai, P., Huang, Q.*, 2021. Mechanistic investigation and modeling of Cd immobilization by iron (hydr)oxide-humic acid coprecipitates. Journal of Hazardous Materials. 420, 126603.

5. Qu, C., Chen, W., Fein, J.B., Cai, P., Huang, Q.*, 2020. The role of interfacial reactions in controlling the distribution of Cd within goethite-humic acid-bacteria composites. Journal of Hazardous Materials. 124081-124081.

6. Qu, C., Chen, W.*, Hu, X., Cai, P., Chen, C., Yu, X.-Y., Huang, Q.*, 2019. Heavy metal behaviour at mineral-organo interfaces: Mechanisms, modelling and influence factors. Environment International. 131, 104995-104995.

7. Qu, C., Qian, S., Chen, L., Guan, Y., Zheng, L., Liu, S., Chen, W.*, Cai, P., Huang, Q.*, 2019. Size-Dependent Bacterial Toxicity of Hematite Particles. Environmental Science & Technology. 53, 8147-8156.

8. Qu, C., Ma, M., Chen, W.*, Cai, P., Yu, X.-Y., Feng, X., Huang, Q.*, 2018. Modeling of Cd adsorption to goethite-bacteria composites. Chemosphere. 193, 943-950.

9. Qu, C., Du, H., Ma, M., Chen, W.*, Cai, P., Huang, Q.*, 2018. Pb sorption on montmorillonite-bacteria composites: A combination study by XAFS, ITC and SCM. Chemosphere. 200, 427-436.

10. Du, H.#, Qu, C.#, Liu, J., Chen, W.*, Cai, P., Shi, Z., Yu, X.-Y., Huang, Q.*, 2017. Molecular investigation on the binding of Cd(II) by the binary mixtures of montmorillonite with two bacterial species. Environmental Pollution. 229, 871-878.

11. Qu, C., Ma, M., Chen, W.*, Cai, P., Huang, Q.*, 2017. Surface complexation modeling of Cu(II) sorption to montmorillonite–bacteria composites. Science of The Total Environment. 607, 1408-1418.

12. Wang, W., Zhang, W., Fan, Y., Qu, C., Ren, W., Huang, X., Hong, M., Liu, F., Yin, H.*, 2022. Facet-dependent adsorption of aluminum(iii) on hematite nanocrystals and the influence on mineral transformation. Environmental Science: Nano. 9(6), 2073-2085.

13. Xu, Z., Liu, X., Peng, J., Qu, C., Chen, Y., Zhang, M., Liang, D., Lei, M., Tie, B., Du, H*, 2022. Tungsten–humic substances complexation. Carbon Research. 1(1), 11.

14. Li, X., Huang, J., Qu, C., Chen, W., Chen, C., Cai, P., Huang, Q*. 2022. Diverse regulations on the accumulation of fungal and bacterial necromass in cropland soils. Geoderma. 410: 115675.

15. Hu, X., Qu, C., Han, Y., Chen, W., Huang, Q.*, 2022. Elevated temperature altered the binding sequence of Cd with DOM in arable soils. Chemosphere. 288: 132572..

16. Han, Y., Qu, C., Hu, X., Wang, P., Wan, D., Cai, P., Rong, X., Chen, W., Huang, Q.*, 2022. Warming and humidification mediated changes of DOM composition in an Alfisol. Science of The Total Environment. 805, 150198.

17. Yang, S., Qu, C., Mukherjee, M., Wu, Y., Huang, Q., Cai, P.*, 2021. Soil phyllosilicate and iron oxide inhibit the quorum sensing of Chromobacterium violaceum. Soil Ecology Letters. 3, 22-31.

18. Yang, S., Wu, Y., Qu, C., Fein, J.B., He, Y., Huang, Q., Cai, P.*, 2021. Quantitative analysis of the surficial and adhesion properties of the Gram-negative bacterial species Comamonas testosteroni modulated by c-di-GMP. Colloids and Surfaces B: Biointerfaces. 198, 111497.

19. Xiong, J., Zhou, M., Qu, C., Yu, D., Chen, C., Wang, M., Tan, W.*, 2021. Quantitative analysis of Pb adsorption on sulfhydryl-modified biochar. Biochar. 3, 37-49.

20. Zhang, M., Peacock, C. L., Cai, P.*, Xiao, K.-Q., Qu, C., Wu, Y., Huang, Q., 2021. Selective retention of extracellular polymeric substances induced by adsorption to and coprecipitation with ferrihydrite. Geochimica et Cosmochimica Acta. 299: 15-34.

21. Du, H.*, Qu, C., Ma, M., Lei, M., Tie, B., Liu, X., Wei, X., Yang, Y., 2019. Insights into Pb(II) binding by Fe/Al hydroxide–microbe composite: XAFS spectroscopy and isothermal titration calorimetry study. Chemical Geology. 510, 84-90.

22. Li, F., Xie, G., Huang, J., Zhang, R., Li, Y., Zhang, M., Wang, Y., Li, A., Li, X., Xia, T., Qu, C., Hu, F., Ragauskas, A., Peng, L.*, 2017. OsCESA9 conserved-site mutation leads to largely enhanced plant lodging resistance and biomass enzymatic saccharification by reducing cellulose DP and crystallinity in rice. Plant Biotechnology Journal. 15(9): 1093-1104.

23. Liang, X., Wei, G., Xiong, J., Tan, F., He, H.*, Qu, C., Yin, H., Zhu, J., Zhu, R., & Qin, Z. 2017. Adsorption isotherm, mechanism, and geometry of Pb(II) on magnetites substituted with transition metals. Chemical Geology. 470, 132–140.



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