教育背景和研究工作简历（从大学开始）

2007.9-2011.7 东北林业大学 生命科学学院 生物科学 学士

2011.9-2014.7 山东大学 生命科学学院 微生物学 硕士

2016.9-2019.6 南开大学 环境科学与工程学院 环境科学 博士

2019.7-2022.6 南开大学 环境科学与工程学院 博士后

2022.6-2023.12 曲阜师范大学 生命科学学院 讲师

2023.12-至今 曲阜师范大学 生命科学学院 副教授

研究方向、承担课题及发表论文概述

主要研究方向为纳米材料的生态毒理效应；典型污染物对耐药基因传播扩散的影响。

承担课题：

1. 国家自然科学基金青年项目，42007228，溶解性纳米生物炭对抗生素抗性基因在细菌间传播的影响及机理研究，2021.1-2023.12，结题，主持

2. 国家自然科学基金-山东省联合基金重点项目，U1806216，黄河三角洲土壤污染生态修复机制研究，2019.01-2022.12，结题，参与。

代表性论文：

1. Liu, X. M.,   Ahmad, S., Ma, J. K., Wang, D., Tang, J.C.*. Comparative study on the toxic   effects of secondary nanoplastics from biodegradable and conventional   plastics on Streptomyces coelicolor M145. Journal of Hazardous   Materials, 2023, 460, 132343.

2. Liu, X.M.,   Wang, D., Wang, L., Tang, J.C.*. Dissolved biochar eliminates the effect of   Cu(Ⅱ) on the transfer of antibiotic resistance genes between   bacteria. Journal of Hazardous Materials, 2022, 424: 127251.

3. Liu, X.M., Wei, H.Y., Ahmad,   S., Wang R.J.,^* Gao, P.K., Chen, J.F., Song, Y.H., Liu, C.C., Ding, N., Tang, J.C.*. Effects and mechanism   of microplastics on abundance and transfer of antibiotic resistance genes in   the environment- A critical review. Critical Reviews in Environmental Science   and Technology, 2024.

4. Liu, X.M., Ma, J.K.,   Guo, S.S., Shi, Q.Y., Tang, J.C.*. The combined effects of nanoplastics and   dibutyl phthalate on Streptomyces coelicolor M145. Science of the   Total Environment, 2022, 826: 154151.

5. Liu, X.M., Ma, J.K.,   Yang, C.L., Wang, L., Tang, J.C.*. The toxicity effects of nano/microplastics   on an antibiotic producing strain - Streptomyces coelicolor M145.   Science of the Total Environment, 2021, 764: 142804.

6. Liu, X.M., Tang,   J.C.*, Wang, L., Liu, R.T. Synergistic toxic effects of ball-milled biochar   and copper oxide nanoparticles on Streptomyces coelicolor M145.   Science of the Total Environment, 2020, 720: 137582.

7. Liu, X.M. *, Wang, X.L., Wang,   R.J., Guo, S.S., Ahmad, S., Song, Y.H., Gao, P.K., Chen, J.F., Liu, C.C.,   Ding, N. Effects comparison between the secondary nanoplastics released from   biodegradable plastics and conventional plastics on the transfer of   antibiotic resistance genes between bacteria. Environmental pollution, 2023,   317, 120680.

8. Liu, X.M., Wang, D.,   Tang, J.C.*, Liu, F., Wang, L. Effect of dissolved biochar on the transfer of   antibiotic resistance genes between bacteria. Environmental Pollution, 2021,   288: 117718.

9. Liu, X.M., Tang,   J.C.*, Wang, L., Giesy, J.P. Al₂O₃ nanoparticles   promote secretion of antibiotics in Streptomyces coelicolor by regulating   gene expression through the nano effect. Chemosphere, 2019, 226: 687-695.

10. Liu, X.M., Tang, J.C.*,   Wang, L., Liu, Q.L., Liu, R.T. A comparative analysis of ball-milled biochar,   graphene oxide, and multi-walled carbon nanotubes with respect to toxicity   induction in Streptomyces. Journal of Environmental Management, 2019, 243:   308-317.

11. Liu, X.M., Tang, J.C.*,   Wang, L., Giesy, J.P. Mechanisms of oxidative stress caused by CuO   nanoparticles to membranes of the bacterium Streptomyces coelicolor M145.   Ecotoxicology and Environmental Safety, 2018, 158: 123-130.

12. Liu, X.M.,   Li, Y., Tang, J.C.*, Wang, D., Guo, S.S., Liu, Q.L.,   Giesy, J.P. Nano   and microplastics aided by extracellular polymeric substances facilitate   conjugative transfer of antibiotic resistance genes in bacteria, ACS ES&T   Water, 2022, 2, 2528-2537.

13. Liu, X.M., Tang,   J.C.*, Song, B.R., Zhen, M.N., Wang, L., Giesy, J.P. Exposure to Al₂O₃   nanoparticles facilitates conjugative transfer of antibiotic resistance genes   from Escherichia coli to Streptomyces. Nanotoxicology, 2019, 13(10):   1422-1436.

14. He, J., Tang,   J.C.*, Zhang, Z., Wang, L., Liu, Q.L., Liu, X.M.*. Magnetic   ball-milled FeS@biochar as persulfate activator for degradation of   tetracycline. Chemical Engineering Journal, 2021, 404: 126997.

15. Guo, S.S.¹,   Liu, X.M.¹, Wang, L., Liu., Q.L.,   Xia, C. Q., Tang, J.C.* Ball-milled biochar can act as a preferable   biocompatibility material to enhance phenanthrene degradation by stimulating   bacterial metabolism. Bioresource Technology, 2022, 350: 126901.

16. Zhang, W.Z.¹,   Liu, X.M.¹, Liu, L.N., Lu, H.X., Wang,   L., Tang, J.C.* Effects of microplastics on greenhouse gas emissions and   microbial communities in sediment of freshwater systems. Journal of Hazardous   Materials, 2022, 435: 129030.