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基本信息Personal Information
博士生导师
曾获荣誉:
XXX
性别 : 女
学历 : 博士研究生毕业
学位 : 博士学位
在职信息 : 在岗
所在单位 : 生物科学与技术系
入职时间 : 2018-01-01
学科 : 环境工程. 生物科学
联系方式 : dongyr@cug.edu.cn
- [16]Dong, Y.*, Sanford, R. A., Boyanov, M. I., Flynn, T. M., O’Loughlin, E. J., Kemner, K. M., George, S., Fouke, K. E., Li, S., Huang, D., Li, S., Fouke, B. W. (2020) Controls on iron reduction and biomineralization over broad environmental conditions as suggested by the Firmicutes Orenia metallireducens strain Z6. Environ Sci Technol 54: 10128-10140.
- [17]Xu, R., Li, B., Xiao, E., Young, L. Y., Sun, X., Kong, T., Dong, Y., Wang, Q., Yang, Z., Chen, L. (2020) Uncovering microbial responses to sharp geochemical gradients in a terrace contaminated by acid mine drainage. Environmental Pollution 261: 114226.
- [18]Sun, X., Xu, R., Dong, Y., Li, F., Tao, W., Kong, T., Zhang, M., Qiu, L., Wang, X., Sun, W. (2020) Investigation of the ecological roles of putative keystone taxa during tailing revegetation. Environ Sci Technol 54: 11258-11270.
- [19]Sun, X., Xu, R., Dong, Y., Li, F., Tao, W., Kong, T., Zhang, M., Qiu, L., Wang, X., Sun, W*. (2020), Investigation of the ecological roles of putative keystone taxa during tailing revegetation, Environmental Science & Technology, 54(18), 11258-11270.
- [20]Yang R, Wang H, Shi M, Jiang Y, Dong, Y., Shi, L. (2020) Biosurfactant rhamnolipid affacts the desorption of sorbed As (III), As (V), Cr (VI), Cd (II) and Pb (II) on iron (oxyhydr) oxides and clay minerals. Int Biodeter Biodegr 153: 105019.
- [21]Sun, W., Xiao, E., Krumins, V., Dong, Y., Li, B., Deng, J., Wang, Q., Xiao, T., Liu, J. Comparative analyses of the microbial communities inhabiting coal mining waste dump and an adjacent acid mine drainage creek, Molecular Ecology, 2019, 651-664
- [22]Deng, J., Zhou, L., Sanford, R., Shechtman, L., Dong, Y., Alcalde, R., Sivaguru, M., Fried, G., Werth, C.*, Fouke, B., Adaptive evolution of Escherichia coli to ciprofloxacin in controlled stress environments: contrasting patterns of resistance in spatially varying versus uniformly mixed concentration conditions, Environmental Science & Technology, 2019, 53, 14, 7996-8005
- [23]Dong, Y., Sanford, R. A., Inskeep, W. P., Srivastava, V., Bulone, V., Fields, C., Yau, P. W., Ahren, D., Fouke, K. W., Weber, J. R., Werth, C., Cann, I. K., Keating, M. K., Khetani, R. S., Hernandez, A. G., Wright, C. L., Band, M., Imai, B. S., Fried, G. A., Fouke, B. W.*, Physiology, Metabolism, and Fossilization of Hot-Spring Filamentous Microbial Mats, Astrobiology, 2019, 19, 1442-1458 (Cover feature)
- [24]Sun, W*, Xiao, E, H?ggblom, M. M., Krumins, V, Dong, Y., Sun, X., Li, F., Wang, Q., Li, B., Yan, B., Bacterial survival strategies in an alkaline tailing site and the physiological mechanisms of dominant phylotypes as revealed by metagenomic analyses, Environmental Science & Technology, 52 (22), 13370-13380
- [25]Sun, W*, Xiao, E, Krumins, V, H?ggblom, M. M., Dong, Y., Pu, Z., Li, B., Wang, Q, Rhizosphere microbial response to multiple metal (loid) s in different contaminated arable soils indicates crop-specific metal-microbe interactions, Appl. Environ. Microbiol., 00701-18
- [26]Sun, W.*, Xiao, E., Pu, Z., Krumins, V., Dong, Y., Li, B., Hu, M., Paddy soil microbial communities driven by environment-and microbe-microbe interactions: A case study of elevation-resolved microbial communities in a rice terrace, Science of the Total Environment, 2018, 612, 884-893
- [27]Sun, W.*, Krumins, V., Dong, Y., Gao, P., Ma, C., Hu, M., Li, B, Xia, B., He, Z., Xiong, S. A Combination of Stable Isotope Probing, Illumina Sequencing, and Co-occurrence Network to Investigate Thermophilic Acetate-and Lactate-Utilizing Bacteria, Microbial Ecology, 2018, 75, 113-122
- [28]Dong, Y.*, Sanford, R. A., Chang, J., McInerney M., Fouke, B. W., Hematite reduction buffers acid generation and enhances nutrient uptake by a fermentative iron reducing bacterium, Orenia metallireducens strain Z6, Environmental Science & Technology 2017, 51, 232-242
- [29]Sun, W.*, Xiao, E., Xiao, T., Krumins, V., Wang, Q., Haggblom, M. M., Dong, Y., Tang, S., Hu, M., Li, B., Xia, B., Liu, W., Response of soil microbial communities to elevated antimony and arsenic contamination indicates the relationship between the innate microbiota and contaminant fractions, Environmental Science & Technology, 51, 9165-9175
- [30]Xiao, E., Krumins, V., Xiao, T., Dong, Y., Tang, S., Ning, Z., Huang, Z., Sun, W.*, Depth-resolved microbial community analyses in two contrasting soil cores contaminated by antimony and arsenic, Environmental Pollution, 2017, 221, 244-255

