陈勋文 chenxw3 at sustech.edu.cn
简历
科研
教学
发表论著
陈勋文博士毕业于香港科技大学。研究方向为1)植物-微生物互作在土壤污染修复与生态功能中的作用与机制,2)微生物对碳循环(如纤维素合成)贡献及机理,3)可持续人工生态系统功能与服务构建,4)生物/生态因素对土壤物理稳定性(如斜坡稳定性)的影响。
目前任职
南方科技大学环境科学与工程学院,研究助理教授(副研究员),硕士生导师
教育背景
2013-2017: 香港科技大学,土木与环境工程,博士
2009-2012: 香港浸会大学,生物,硕士
2008-2009: 香港浸会大学,环境与公共卫生管理,硕士
2002-2006: 华中科技大学,环境工程,学士
工作经历
2018.8-至今: 南方科技大学环境科学与工程学院,研究助理教授(副研究员),硕士生导师
2017-2017: 香港教育大学,科学与环境学系,客座讲师
2017-2018: 香港科技大学,土木与环境工程学系,博士后研究员
2012-2013: 香港理工大学,工业与系统工程学系,研究助理
研究兴趣
1. 构建植物-真菌-细菌互作模型系统,研究三者互作在土壤污染修复与生态功能中的作用与机制
2. 共生真菌对植物碳循环(纤维素合成)贡献的基础研究
3. 城市区域可持续人工生态系统功能与服务构建
4. 生物/生态因素对土壤物理稳定性的影响
学术兼职
客座编辑
2019 Guest Editors, Jaume Bech, M. Manuela Abreu and Xunwen Chen, Environmental Geochemistry and Health Special Issue “Metallophytes for soil remediation”.
期刊审稿人
• Science of the Total Environment
• Environmental Geochemistry and Health
• International Journal of Phytoremediation
• Environmental Earth Sciences
• International Journal of Environmental Research
发表论著
[1] Ye, Q., Liang, C., Chen, X., Fang, T., Wang, Y., Wang, H., 2019. Molecular characterization of methanogenic microbial communities for degrading various types of polycyclic aromatic hydrocarbon. J Environ Sci 86, 97–106.
[2] Chen, X.W., Wu, L., Luo, N., Mo, C.H., Wong, M.H., Li, H., 2019. Arbuscular mycorrhizal fungi and the associated bacterial community influence the uptake of cadmium in rice. Geoderma 337, 749–757.
[3] Wong, J.T.F., Chen, X., Deng, W., Chai, Y., Ng, C.W.W., Wong, M.H., 2019. Effects of biochar on bacterial communities in a newly established landfill cover topsoil. Journal of Environmental Management 236, 667–673.
[4] Chen, X.W., Kang, Y., So, P.S., Ng, C.W.W., Wong, M.H., 2018. Arbuscular mycorrhizal fungi increase the proportion of cellulose and hemicellulose in the root stele of vetiver grass. Plant Soil 425, 309–319.
[5] Chen, X.W., Wong, J.T.F., Chen, Z.T., Leung, A.O.W., Ng, C.W.W., Wong, M.H., 2018. Arbuscular mycorrhizal fungal community in the topsoil of a subtropical landfill restored after 18 years. J. Environ. Mang. 225, 17–24.
[6] Chen, X.W., Wong, J.T.F., Chen, Z.T., Tang, T.W.L., Guo, H.W., Leung, A.O.W., Ng, C.W.W., Wong, M.H., 2018. Effects of biochar on the ecological performance of a subtropical landfill. Sci. Total Environ. 644, 963–975.
[7] Li, N., Chen, X.-W., Deng, W.-J., Giesy, J.P., Zheng, H.-L., 2018. PBDEs and Dechlorane Plus in the environment of Guiyu, Southeast China: A historical location for E-waste recycling (2004, 2014). Chemosphere 199, 603–611.
[8] Ni, J.J., Chen, X.W., Ng, C.W.W., Guo, H.W., 2018. Effects of biochar on water retention and matric suction of vegetated soil. Géotechnique Letters 8, 1–23.
[9] Chen, X.W., Wong, J.T.F., Leung, A.O.W., Ng, C.W.W., Wong, M.H., 2017. Comparison of plant and bacterial communities between a subtropical landfill topsoil 15 years after restoration and a natural area. Waste Manage. 63, 49–57.
[10] Chen, X.-W., Wu, F.-Y., Li, H., Chan, W.-F., Wu, S.-C., Wong, M.-H., 2017. Mycorrhizal colonization status of lowland rice (Oryza sativa L.) in the southeastern region of China. Environ Sci Pollut Res 24, 5268–5276.
[11] Wong, J.T.F., Chen, Z., Chen, X., Ng, C.W.W., Wong, M.H., 2017. Soil-water retention behavior of compacted biochar-amended clay: a novel landfill final cover material. J Soils Sediments 17, 590.
[12] Wong, J.T.F., Chen, X.W., Mo, W.Y., Man, Y.B., Ng, C.W.W., Wong, M.H., 2016. Restoration of plant and animal communities in a sanitary landfill: A 10-year case study in Hong Kong. Land Degrad. Develop. 27, 490–499.
[13] Li, H., Chen, X.W., Wong, M.H., 2016. Arbuscular mycorrhizal fungi reduced the ratios of inorganic/organic arsenic in rice grains. Chemosphere 145, 224–230.
[14] Chen, X.W., Wong, J.T.F., Mo, W.Y., Man, Y.B., Ng, C.W.W., Wong, M.H., 2016. Ecological performance of the restored South East New Territories (SENT) landfill in Hong Kong (2000–2012). Land Degrad. Develop. 27, 1664–1676.
[15] Chen, X.W., Wong, J.T.F., Ng, C.W.W., Wong, M.H., 2016. Feasibility of biochar application on a landfill final cover—a review on balancing ecology and shallow slope stability. Environ. Sci. Pollut. Res. 23, 7111–7125.
[16] Deng, W.-J., Zheng, H.-L., Tsui, A.K.Y., Chen, X.-W., 2016. Measurement and health risk assessment of PM2.5, flame retardants, carbonyls and black carbon in indoor and outdoor air in kindergartens in Hong Kong. Environ. Int. 96, 65–74.
[17] Mo, W.Y., Cheng, Z., Choi, W.M., Lun, C.H.I., Man, Y.B., Wong, J.T.F., Chen, X.W., Lau, S.C.K., Wong, M.H., 2015. Use of food waste as fish feeds: effects of prebiotic fibers (inulin and mannanoligosaccharide) on growth and non-specific immunity of grass carp (Ctenopharyngodon idella). Environ. Sci. Pollut. Res. 22, 17663–17671.
[18] Huang, M., Chen, X., Shao, D., Zhao, Y., Wang, W., Wong, M.H., 2014. Risk assessment of arsenic and other metals via atmospheric particles, and effects of atmospheric exposure and other demographic factors on their accumulations in human scalp hair in urban area of Guangzhou, China. Ecotoxicol. Environ. Saf. 102, 84–92.
[19] Huang, M., Chen, X., Zhao, Y., Chan, Y.C., Wang, W., Wang, X., Wong, M.H., 2014. Arsenic speciation in total contents and bioaccessible fractions in atmospheric particles related to human intakes. Environ. Pollut. 188, 37–44.
[20] Chen, X.W., Wu, F.Y., Li, H., Chan, W.F., Wu, C., Wu, S.C., Wong, M.H., 2013. Phosphate transporters expression in rice (Oryza sativa L.) associated with arbuscular mycorrhizal fungi (AMF) colonization under different levels of arsenate stress. Environ. Exper. Bot. 87, 92–99.
[21] Chen, X., Li, H., Chan, W.F., Wu, C., Wu, F., Wu, S., Wong, M.H., 2012. Arsenite transporters expression in rice (Oryza sativa L.) associated with arbuscular mycorrhizal fungi (AMF) colonization under different levels of arsenite stress. Chemosphere 89, 1248–1254.
[22] Li, H., Ye, Z.H., Chan, W.F., Chen, X.W., Wu, F.Y., Wu, S.C., Wong, M.H., 2011. Can arbuscular mycorrhizal fungi improve grain yield, As uptake and tolerance of rice grown under aerobic conditions? Environ. Pollut., Nitrogen Deposition, Critical Loads and Biodiversity 159, 2537–2545.
研究兴趣:
1. 构建植物-真菌-细菌互作模型系统,研究三者互作在土壤污染修复与生态功能中的作用与机制
2. 共生真菌对植物碳循环(纤维素合成)贡献的基础研究
3. 城市区域可持续人工生态系统功能与服务构建
4. 生物/生态因素对土壤物理稳定性的影响
生态修复
[1] Ye, Q., Liang, C., Chen, X., Fang, T., Wang, Y., Wang, H., 2019. Molecular characterization of methanogenic microbial communities for degrading various types of polycyclic aromatic hydrocarbon. J Environ Sci 86, 97–106.
[2] Chen, X.W., Wu, L., Luo, N., Mo, C.H., Wong, M.H., Li, H., 2019. Arbuscular mycorrhizal fungi and the associated bacterial community influence the uptake of cadmium in rice. Geoderma 337, 749–757.
[3] Wong, J.T.F., Chen, X., Deng, W., Chai, Y., Ng, C.W.W., Wong, M.H., 2019. Effects of biochar on bacterial communities in a newly established landfill cover topsoil. Journal of Environmental Management 236, 667–673.
[4] Chen, X.W., Kang, Y., So, P.S., Ng, C.W.W., Wong, M.H., 2018. Arbuscular mycorrhizal fungi increase the proportion of cellulose and hemicellulose in the root stele of vetiver grass. Plant Soil 425, 309–319.
[5] Chen, X.W., Wong, J.T.F., Chen, Z.T., Leung, A.O.W., Ng, C.W.W., Wong, M.H., 2018. Arbuscular mycorrhizal fungal community in the topsoil of a subtropical landfill restored after 18 years. J. Environ. Mang. 225, 17–24.
[6] Chen, X.W., Wong, J.T.F., Chen, Z.T., Tang, T.W.L., Guo, H.W., Leung, A.O.W., Ng, C.W.W., Wong, M.H., 2018. Effects of biochar on the ecological performance of a subtropical landfill. Sci. Total Environ. 644, 963–975.
[7] Li, N., Chen, X.-W., Deng, W.-J., Giesy, J.P., Zheng, H.-L., 2018. PBDEs and Dechlorane Plus in the environment of Guiyu, Southeast China: A historical location for E-waste recycling (2004, 2014). Chemosphere 199, 603–611.
[8] Ni, J.J., Chen, X.W., Ng, C.W.W., Guo, H.W., 2018. Effects of biochar on water retention and matric suction of vegetated soil. Géotechnique Letters 8, 1–23.
[9] Chen, X.W., Wong, J.T.F., Leung, A.O.W., Ng, C.W.W., Wong, M.H., 2017. Comparison of plant and bacterial communities between a subtropical landfill topsoil 15 years after restoration and a natural area. Waste Manage. 63, 49–57.
[10] Chen, X.-W., Wu, F.-Y., Li, H., Chan, W.-F., Wu, S.-C., Wong, M.-H., 2017. Mycorrhizal colonization status of lowland rice (Oryza sativa L.) in the southeastern region of China. Environ Sci Pollut Res 24, 5268–5276.
[11] Wong, J.T.F., Chen, Z., Chen, X., Ng, C.W.W., Wong, M.H., 2017. Soil-water retention behavior of compacted biochar-amended clay: a novel landfill final cover material. J Soils Sediments 17, 590.
[12] Wong, J.T.F., Chen, X.W., Mo, W.Y., Man, Y.B., Ng, C.W.W., Wong, M.H., 2016. Restoration of plant and animal communities in a sanitary landfill: A 10-year case study in Hong Kong. Land Degrad. Develop. 27, 490–499.
[13] Li, H., Chen, X.W., Wong, M.H., 2016. Arbuscular mycorrhizal fungi reduced the ratios of inorganic/organic arsenic in rice grains. Chemosphere 145, 224–230.
[14] Chen, X.W., Wong, J.T.F., Mo, W.Y., Man, Y.B., Ng, C.W.W., Wong, M.H., 2016. Ecological performance of the restored South East New Territories (SENT) landfill in Hong Kong (2000–2012). Land Degrad. Develop. 27, 1664–1676.
[15] Chen, X.W., Wong, J.T.F., Ng, C.W.W., Wong, M.H., 2016. Feasibility of biochar application on a landfill final cover—a review on balancing ecology and shallow slope stability. Environ. Sci. Pollut. Res. 23, 7111–7125.
[16] Deng, W.-J., Zheng, H.-L., Tsui, A.K.Y., Chen, X.-W., 2016. Measurement and health risk assessment of PM2.5, flame retardants, carbonyls and black carbon in indoor and outdoor air in kindergartens in Hong Kong. Environ. Int. 96, 65–74.
[17] Mo, W.Y., Cheng, Z., Choi, W.M., Lun, C.H.I., Man, Y.B., Wong, J.T.F., Chen, X.W., Lau, S.C.K., Wong, M.H., 2015. Use of food waste as fish feeds: effects of prebiotic fibers (inulin and mannanoligosaccharide) on growth and non-specific immunity of grass carp (Ctenopharyngodon idella). Environ. Sci. Pollut. Res. 22, 17663–17671.
[18] Huang, M., Chen, X., Shao, D., Zhao, Y., Wang, W., Wong, M.H., 2014. Risk assessment of arsenic and other metals via atmospheric particles, and effects of atmospheric exposure and other demographic factors on their accumulations in human scalp hair in urban area of Guangzhou, China. Ecotoxicol. Environ. Saf. 102, 84–92.
[19] Huang, M., Chen, X., Zhao, Y., Chan, Y.C., Wang, W., Wang, X., Wong, M.H., 2014. Arsenic speciation in total contents and bioaccessible fractions in atmospheric particles related to human intakes. Environ. Pollut. 188, 37–44.
[20] Chen, X.W., Wu, F.Y., Li, H., Chan, W.F., Wu, C., Wu, S.C., Wong, M.H., 2013. Phosphate transporters expression in rice (Oryza sativa L.) associated with arbuscular mycorrhizal fungi (AMF) colonization under different levels of arsenate stress. Environ. Exper. Bot. 87, 92–99.
[21] Chen, X., Li, H., Chan, W.F., Wu, C., Wu, F., Wu, S., Wong, M.H., 2012. Arsenite transporters expression in rice (Oryza sativa L.) associated with arbuscular mycorrhizal fungi (AMF) colonization under different levels of arsenite stress. Chemosphere 89, 1248–1254.
[22] Li, H., Ye, Z.H., Chan, W.F., Chen, X.W., Wu, F.Y., Wu, S.C., Wong, M.H., 2011. Can arbuscular mycorrhizal fungi improve grain yield, As uptake and tolerance of rice grown under aerobic conditions? Environ. Pollut., Nitrogen Deposition, Critical Loads and Biodiversity 159, 2537–2545.
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南方科技大学环境科学与工程学院导师教师师资介绍简介-陈勋文
本站小编 Free考研考试/2021-06-12
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