Associate Professor, the member of International Society for Environmental Sciences. Have done many projects supported by National High Technology Research and Development Program, Major Science and Technology Program for Water Pollution Control and Treatment, National Nature Science Foundation of China, and so on. Research results have published more than 40 articles in peer-reviewed journals, and obtained five granted patents and two Provincial Science and Technology Award.

Wastewater treatment and biomass utilization of microbial granular technology; Optimization and process mechanism of ecological treatment technology ; Development and application of low-carbon technology for livestock wastewater and urban rivers.

1.学术论文

 (1) Liu, L.*, Yu, X., Wu, D., & Su, J. (2022). Antibiotic resistance gene profile in aerobic granular reactor under antibiotic stress: Can eukaryotic microalgae act as inhibiting factor?. Environmental Pollution, 304, 119221.

(2) Li, J., Liu, L.*, Huang, X., Liao, J., & Liu, C*. (2022). Cross-effect of wetland substrates properties on anammox process in three single-substrate anammox constructed wetlands for treating high nitrogen sewage with low C/N. Journal of Environmental Management, 304, 114329.

(3) Xin, Y., Liu, L.*, Wei, L., Huang, X., & Liu, C. (2021). Recycling of rural abandoned constructed wetlands: mariculture wastewater treatment. Water Reuse, 11(2), 279-288.

 (4) Liu, L.*, Li, J., Xin, Y., Huang, X., & Liu, C*. (2021). Evaluation of wetland substrates for veterinary antibiotics pollution control in lab-scale systems. Environmental Pollution, 269, 116152.

 (5) Liu, L.*, Chen, S., Xu, K., Huang, X., & Liu, C*. (2021). Influence of hydraulic loading rate on antibiotics removal and antibiotic resistance expression in soil layer of constructed wetlands. Chemosphere, 265, 129100.

(6) Liu, L., Xin, Yu., Huang, X., Liu, C*. (2020). Response of antibiotic resistance genes in constructed wetlands during treatment of livestock wastewater with different exogenous inducers: antibiotic and antibiotic-resistant bacteria. Bioresource Technology, 314, 123779.

(7) Liu, L., You, Q., Fan, H., Huang, X., Wei, L., & Liu, C*. (2019). Behavior of antibiotics and antibiotic resistance genes in aerobic granular reactors: Interrelation with biomass concentration. International Biodeterioration & Biodegradation, 139, 18-23.

 (8) Liao, J., Liu, C., Liu, L.*, Li, J., Fan, H., & Ye, J. (2019). Influence of hydraulic retention time on behavior of antibiotics and antibiotic resistance genes in aerobic granular reactor treating biogas slurry. Frontiers of Environmental Science & Engineering. 13(3), 31.

 (9) Liu, L., Li, J., Fan, H., Huang, X., Wei, L., & Liu, C*. (2019). Fate of antibiotics from swine wastewater in constructed wetlands with different flow configurations. International Biodeterioration & Biodegradation, 140, 119-125

(10) Liu, L., Zeng, Z., Bee, M., Gibson, V., Wei, L., Huang, X., & Liu, C*. (2018). Characteristics and performance of aerobic algae-bacteria granular consortia in a photo-sequencing batch reactor. Journal of hazardous materials, 349, 135-142.

(11) Liu, L.*, Hong, Y., Ye, X., Liao, J., Huang, X., & Liu, C*. (2018). Biodiesel production from microbial granules in sequencing batch reactor. Bioresource technology, 249, 908-915. (12) Liu, L.*, Fan, H., Liu, Y., Liu, C., & Huang, X. (2017). Development of algae-bacteria granular consortia in photo-sequencing batch reactor. Bioresource technology, 232, 64-71.

 (13) Liu, L.*, Liu, Y. H., Liu, C.X.*, & Huang, X. (2016). Accumulation of antibiotics and tet resistance genes from swine wastewater in wetland soils. Environmental Engineering & Management Journal, 15(10), 2137-2145.

(14) Liu, L.*, You, Q., Gibson, V., Huang, X., Chen, S., Ye, Z., & Liu, C*. (2015). Treatment of swine wastewater in aerobic granular reactors: comparison of different seed granules as factors. Frontiers of Environmental Science & Engineering, 9(6), 1139-1148.

(15) Liu, L.*, Gibson, V., Huang, X., & Liu, C*. (2015). Effects of antibiotics on characteristics and microbial resistance of aerobic granules in sequencing batch reactors. Desalination and Water Treatment, 57(18), 8252-8261.

(16) Liu, L.*, Liu, Y. H., Wang, Z., Liu, C. X., Huang, X., & Zhu, G. F. (2014). Behavior of tetracycline and sulfamethazine with corresponding resistance genes from swine wastewater in pilot-scale constructed wetlands. Journal of hazardous materials, 278, 304-310.

(17) Liu, L., Liu, Y. H., Liu, C. X*., Wang, Z., Dong, J., Zhu, G. F., & Huang, X. (2013). Potential effect and accumulation of veterinary antibiotics in Phragmites australis under hydroponic conditions. Ecological Engineering, 53, 138-143.

(18) Liu, L., Liu, C.*, Zheng, J., Huang, X., Wang, Z., Liu, Y., & Zhu, G. (2013). Elimination of veterinary antibiotics and antibiotic resistance genes from swine wastewater in the vertical flow constructed wetlands. Chemosphere, 91(8), 1088-1093.

(19) Liu, L., Gao, D.W.*, & Liang, H. (2012). Effect of sludge discharge positions on steady-state aerobic granules in sequencing batch reactor. Water Science and Technology, 66(8), 1722-1727.

(20) Liu, L., Gao, D.W.*, Zhang, M., & Fu, Y. (2010). Comparison of Ca2+ and Mg2+ enhancing aerobic granulation in SBR. Journal of Hazardous Materials, 181(1-3), 382-387.

(1) National Nature Science Foundation of China
(2) Major Science and Technology Program for Water Pollution Control and Treatment
(3) National High Technology Research and Development Program