广东工业大学环境生态工程研究院A+类特聘教授,博/硕导。
一 基本信息
马传鑫,美国马萨诸塞大学阿默斯特分校植物与土壤科学博士,国家优秀青年科学基金项目(海外)获得者,广东工业大学环境生态工程研究院A+类特聘教授。
二 研究方向
工程纳米颗粒在土壤中的环境行为及生态毒理、植物抗逆生理、新型纳米材料农业应用、微纳米塑料环境健康
三 教育经历
2004.9-2008.6,天津理工大学,环境科学,获学士学位;
2008.9-2011.6,天津理工大学,环境科学,获硕士学位;
2011.9-2016.6,美国马萨诸塞大学阿默斯特分校,植物与土壤科学,获博士学位。
四 工作经历
2016.09-2017.08 美国康涅狄格州农业试验站 博士后(Postdoc Agricultural Scientist)
2017.09-2019.04 美国威斯康星大学麦迪逊分校 研究助理(Research Associate)
2019.04-2020.07 美国康涅狄格州农业试验站研究助理(Postdoc Associate)
2020.09-至今,广东工业大学环境生态工程研究院,教授、博/硕导。
五 学术兼职
1. Carbon Research 青年编委
2. Reviews of Environmental Contamination and Toxicology 青年编委(Intern Editor)
3. International Journal of Environmental Research and Public Health 编委
4. Plant Physiology and Biochemistry期刊编委
5. Frontiers in Marine Science, Frontiers in Environmental Science 期刊编委
6. Frontiers in Environmental Science 客座编辑
7. Sustainable Nanotechnology Organization (SNO)会员
六 科研项目
1. 国家自然科学基金优秀青年科学基金项目(海外),2022-2024, 在研,主持;
2. 国家自然科学基金面上项目, 2022-2025,在研,主持;
3. 企业委托-技术开发项目,2021-2022,在研,主持;
4. “青年百人计划A+”科研启动经费, 2020-2025,在研,主持;
5. 美国自然科学基金-化学创新项目,2016-2019, 结题,主要参与;
6. 美国农业部(USDA)-农业与食品研究计划(AFRI),2016-2019,结题,主要参与;
7. 美国农业部(USDA)-农业与食品研究计划(AFRI),2011-2016,结题,主要参与。
七 科研成果
1. Ma, C.; Borgatta, J.; Hudson, B.; Tamijani A.; Torre-Roche, R.; Zuverza-Mena, N.; Shen, Y.; Elmer, W.; Xing, B.; Mason, S.; Hamers, R.; White, J.C. †; Advanced material modulation of nutritional and phytohormone status alleviates damage from soybean sudden death syndrome, Nature Nanotechnology 2020, 15(12): 1033-1042. (Front cover article)
2. Ma, C.; Li, Q.; Jia, W.; Shang, H.; Zhao, J.; Hao, Y.; Li, C.; Tomko, M.; Zuverza-Mena, N.; Elmer W.; White, J.C. †, Xing, B., Role of nanoscale hydroxyapatite in disease suppression of fusarium-infected tomato. Environmental Science & Technology 2021, 55(20): 13465-13476. (Front cover article)
3. Ma, C.; Hao, Y.; Zhao, J.; Zuverza-Mena, N.; Meselhy, A.; Dhankher, O.; Rui, Y.; White, J.C. †; Xing, B., Graphitic Carbon Nitride (C3N4) Reduces Cadmium and Arsenic Phytotoxicity and Accumulation in Rice (Oryza sativa L.). Nanomaterials 2021, 11(4): 839.(特邀约稿)
4. Xu, X.; Zhao, C.; Qian, K.; Sun, M.; Hao, Y.; Han, L.; Wang, C.; Ma, C. †; White, J.C.; Xing, B., Physiological responses of pumpkin to zinc oxide quantum dots and nanoparticles. Environmental Pollution 2022, 296, 118723.
5. Sun, M.; Zhao, C.; Shang, H.; Hao, Y.; Han, L.; Qian, K.; White, J.C.; Ma, C. †; Xing, B., ZnO quantum dots outperform nanoscale and bulk particles for enhancing tomato (Solanum lycopersicum) growth and nutritional values. Science of The Total Environment 2023, 857, 159330.
6. Ma, C.; Liu, H.; Guo, H.; Chen, G.; Zhao, Q.; Rakesh M.; Long, S.; Tang, Y.; Saad, E.; DeLa TorreRoche, R.; White, J.; Dhankher, P.*; Xing, B.*,Dual roles of glutathione in silver nanoparticle detoxification and enhancement of nitrogen assimilation in soybean (Glycine max L. [Merrill]). Environmental Science: Nano 2020, 7, 1954-1966 (Recent HOT Articles)
7. Hao, Y.*; Ma, C.†; White, J.; Adeel, M.; Jiang, R.; Zhao, Z.; Rao, Y.; Rui, Y.†; Xing, B., Physiological response and endophytic fungal composition in rice (Oryza sativa L.) as affected by different carbon-base nanomaterials. Environmental Science: Nano 2020, 7, 2047-2060
8. Ma, C.; Borgatta, J.; Torre-Roche, R.; Zuverza-Mena, N.; White, J.†; Hamers, R.; Elmer, W.,Time-dependent transcriptional response of tomato (Solanum lycopersicumL.) to Cu nanoparticle exposure upon infection withFusarium oxysporum f. sp. lycopersici. ACS Sustainable Chemistry & Engineering 2019, 7 (11): 10064-10074
9. Rui, M.*;Ma, C.†, *; Jason C. White; Hao, Y.; Wang, Y.; Tang, X.; Yang, J.; Jiang, F.; Rui, Y.†; Cao, W.; Chen, G.; Xing, B., Metal oxide nanoparticles alter peanut (Arachis hypogaeaL.) physiological response and reduce nutritional quality: A life cycle study. Environmental Science: Nano 2018, 5: 2088-2102
10. Hao, Y.*; Yuan, W.*; Ma, C.†, *; White, J.C.; Zhang, Z.; Adeel, M.; Zhou, T.†; Rui, Y.†; Xing, B., Engineered nanomaterials suppress Turnip mosaic virus infection in tobacco (Nicotiana benthamiana). Environmental Science: Nano 2018, 5: 1685-1693
11. Ma, C.; White, J.; Zhao, J.; Zhao, Q.; Xing, B.†, Uptake of nanoparticles by food crops: characterization, mechanisms, and implications. Annual Review of Food Science and Technology 2018, 9: 129-153 (主编特邀约稿)
12. Ma, C.; White, J. C.; Dhankher, O. P.†; Xing, B.†, Metal-based nanotoxicity and detoxification pathways in higher plants. Environmental science & technology 2015, 49 (12): 7109-7122 (ESI高被引)
13. Ma, C.; Chhikara, S.; Minocha, R.; Long, S.; Musante, C.; White, J. C.; Xing, B.†; Dhankher, O. P.†, Reduced silver nanoparticle phytotoxicity in Crambe abyssinica with enhanced glutathione production by overexpressing bacterial γ-glutamylcysteine synthase. Environmental Science & Technology 2015,49 (16): 10117-10126
14. Ma, C.; Liu, H.; Guo, H.; Musante, C.; Coskun, S.H.; Nelson, B.C.; White, J.C.; Xing, B.†; Dhankher, O.P.†, Defense mechanism and nutrient displacement of Arabidopsis thalianain response to exposures of CeO2and In2O3nanoparticles. Environmental Science: Nano 2016, 3: 1369-1379
15. Ma, C.*; Liu, H.*, †; Chen, G.; Zhao, Q.; Eitzer, B.; Wang, Z.; Cai, W.; Newman, L.; White, J. C.; Dhankher, P.; Xing, B.†, Effects of titanium oxide nanoparticles on tetracycline accumulation and toxicity in Oryza sativa L. Environmental Science: Nano 2017, 4: 1827-1839
16. Liu, H.*; Ma, C.*; Chen, G.; White, J.C.; Wang, Z.; Xing, B.†; Dhankher, P.†, Titanium dioxide nanoparticles alleviate tetracycline toxicity toArabidopsis thaliana. ACS Sustainable Chemistry & Engineering 2017, 5: 3204-3213
17. Zhao, Q.*,†; Ma, C.*; White, J.C.; Dhankher, O. P.; Zhang, X.; Zhang, S.; Xing, B.†, Quantitative evaluation of multi-walled carbon nanotube uptake by terrestrial plants. Carbon 2017, 114: 661-670
18. Rui, M.*; Ma, C.*; Tang, X.; Yang, J.; Jiang, F.; Pan, Y.; Xiang, Z.; Hao, Y.; Rui, Y.†; Cao, W.; Xing, B., Phytotoxicity of silver nanoparticles to peanut (Arachis hypogaea): physiological responses and food safety. ACS Sustainable Chemistry & Engineering 2017, 5:6557-6567
19. Hao, Y.*; Ma, C.*; Zhang, Z.; Song, Y.; Cao, W.; Guo, J.; Zhou, G.; Rui, Y.†; Liu, L.; Xing, B., Carbon nanomaterials alterplant physiology and soil microbial community composition in a rice-soil-microbial ecosystem. Environmental Pollution 2018, 232: 123-136
20. Ma, C.; Chhikara, S.; Xing, B.; Musante, C.; White, J. C.; Dhankher, O. P.†, Physiological and molecular response ofArabidopsis thaliana (L.) to nanoparticle cerium and indium oxide exposure. ACS Sustainable Chemistry & Engineering 2013, 1(7), 768-778
21. Cao, Y.; Ma, C.†; Zhang, J.; Wang, S.; White, J.; Chen, G.†; Xing, B., Accumulation and spatial distribution of copper and nutrients in willow as affected by soil flooding: A synchrotron-based X-ray fluorescence study. Environmental Pollution 2019, 246, 980-989
22. Cao, X.; Ma, C.; Zhao, J.; Musante, C.; White, J.; Wang, Z.†; Xing, B.†, Interaction of graphene oxide with co-existing arsenite and arsenate: adsorption, transformation and joint toxicity. Environment International 2019, 131, 104992
23. Guo, H.; Ma, C.; Thistle, L.; Huynh M.; Yu, C.; Clasby, D.; Chefetz, B.; Polubesova, T.; White, J.; He, L.†; Xing, B.†, Transformation of Ag ions to Ag nanoparticle-loaded AgCl microcubes in the plant root zone. Environmental Science: Nano 2019, 6, 1099-1110 (Recent HOT Articles)
24.Shang, H.; Ma, C.; Li, C.; White, J.; Chefetz, B.; Polubesova, T.; Xing, B.†,Copper sulfide nanoparticles suppress Gibberella fujikuroi infection in rice (Oryza sativa L.) by multiple mechanisms: contact-mortality, nutritional modulation and phytohormone regulation. Environmental Science: Nano 2020, 7(9): 2632-2643
八 我的团队
欢迎具有环境、生物、化学等相关背景的学生报考硕士研究生;欢迎相关专业博士毕业生进站从事博士后研究!
联系地址:广州市番禺区广州大学城外环西路100号环境生态工程研究院
联系方式:chuanxin.ma@gdut.edu.cn
邮政编码:510006
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