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马传鑫
2023-05-10 11:41
  • 马传鑫
  • 马传鑫 - 教授 硕导-广东工业大学-环境生态工程研究院-个人资料

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资料介绍

个人简历


马传鑫,1985年生,美国马萨诸塞大学阿默斯特分校植物与土壤科学博士,广东工业大学环境生态工程研究院A+类特聘教授。

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。

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、硕导。

研究领域


主要从事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、新型纳米材料在农业生产中的应用等方面的研究。""

近期论文


1.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 maxL. [Merrill]).Environmental Science: Nano2020, 7, 1954-1966(IF: 7.704; Recent HOT Articles)
2. 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 sativaL.) as affected by different carbon-base nanomaterials.Environmental Science: Nano2020, 7, 2047-2060(IF: 7.704)
3.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 & Engineering2019, 7 (11): 10064-10074(IF: 6.970)
4. 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: Nano2018, 5: 2088-2102 (IF: 7.704)
5. 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: Nano2018, 5: 1685-1693 (IF: 7.704)
6.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 Technology2018, 9: 129-153 (Invited Review Article;IF: 8.511)
7.Ma, C.; White, J. C.; Dhankher, O. P.†; Xing, B.†, Metal-based nanotoxicity and detoxification pathways in higher plants.Environmental science & technology2015, 49 (12): 7109-7122(Critical Review; IF: 7.149;高被引)
8.Ma, C.; Chhikara, S.; Minocha, R.; Long, S.; Musante, C.; White, J. C.; Xing, B.†; Dhankher, O. P.†, Reduced silver nanoparticle phytotoxicity inCrambe abyssinicawith enhanced glutathione production by overexpressing bacterial γ-glutamylcysteine synthase.Environmental Science & Technology2015,49 (16): 10117-10126 (IF: 7.149)
9.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 ofArabidopsis thalianain response to exposures of CeO2and In2O3nanoparticles.Environmental Science: Nano2016, 3: 1369-1379 (IF: 7.704)
10.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 inOryza sativaL.Environmental Science: Nano2017, 4: 1827-1839 (IF: 7.704)
11. 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 & Engineering2017, 5: 3204-3213 (IF: 6.970)
12.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.Carbon2017, 114: 661-670 (IF: 7.466)
13. Chen, G.*,†;Ma, C.*;Mukherjee A.; Musante C.; Zhang, J.; White, J.C.; Dhankher, O.P.; Xing, B.†, Tannic acid alleviates bulk and nanoparticle Nd2O3toxicity to pumpkin: A physiological and molecular response.Nanotoxicology2016, 10 (9): 1243-1253 (IF: 5.955)
14. 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 & Engineering2017, 5:6557-6567 (IF: 6.970)
15. 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 Pollution2018, 232: 123-136 (IF: 5.714)
16.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 & Engineering2013,1(7), 768-778 (IF: 6.970)
17.Xu, Tao*;Ma, C.*; Aytac, Z.; Hu, X.; Ng, K.; White, J.†; Demokritou, P.†, Enhancing agrichemical delivery and seedling development with biodegradable, tunable, biopolymer-based nanofiber seed coatings.ACS Sustainable Chemistry & Engineering2020, 8 (25), 9537-9548(IF: 6.970)
18.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 Pollution2019, 246, 980-989(IF: 5.714)
19.Cao, Y.;Ma, C.; Chen, H.; Zhang, J.; Chen, G.†; White, J.; Xing, B.,Xylem based long-distance transport and phloem remobilization of copper inshrub willow Salix integra.Journal of Hazardous Materials2020, 392,122428(IF: 7.650)
20.Zhang, Z.; Xia, M.;Ma, C.; Guo, H.; We, W.; White, J.; Xing, B.; He, L.†, Rapid Organic Solvent Extraction Coupled with Surface Enhanced Raman Spectroscopic Mapping for Ultrasensitive Quantification of Silver Nanoparticles in Plant Leaves.Environmental Science: Nano2020,7, 1061-1067(IF: 7.704)
21.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 International2019, 131, 104992(IF: 7.943)
22. 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: Nano2019, 6, 1099-1110 (IF: 7.704; Recent HOT Articles)

23.Borgatta, Y.;Ma, C.; Hudson-Smith, N.; Elmer, W.; Plaza-Pere, C.;Roche, R.; Zuverza-Mena, N.; Haynes, C.; White, J.†; Hamers, R.†,Copper nanomaterials suppress root fungal disease in watermelon (Citrullus lanatus): Role of particle morphology, composition and dissolution behavior.ACS Sustainable Chemistry & Engineering2018, 6, 14847-14856(IF: 6.970)
24. Yue, L.;Ma, C.; Zhan, X.†; White, J. C.; Xing, B.†,Molecular mechanisms of maize seedling response to La2O3NPs exposure: water uptake, aquaporin gene expression and signaltransduction.Environmental Science: Nano2017, 4: 843-855 (IF: 7.704)
25.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: Nano2020(Accept; IF:7.704)
1.Plant Physiology and Biochemistry期刊编委
2.Sustainable Nanotechnology Organization (SNO)会员

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