Zhong-Min Lian, Ph.D.
Research Area
Migration and transformation of the environmental contaminants at different scales and their ecological and environmental effects.
Contact Information
E-mail: lianzhongmin@lzu.edu.cn
Address: 216A Xiuyun Building, 222 South Tianshui Road, Lanzhou, 730000, Gansu, P. R. China
Education
2015.09-2020.01 Ph.D. (Environmental Science), Beijing Normal University
2012.09 -2015.07 M.Sc. (Ecology), University of Chinese Academy of Sciences
2008.07-2012.07 B.Sc. (Environmental Engineering), Northwest Normal University
Work Experience
2022.10- Present Young Research Fellow, Lanzhou University
2020.09-2022.09 Postdoctoral Researcher, Lanzhou University, China
Publications
*means corresponding author,# means co-first author
1. Lian, Z., Gu, X., Liu, L., Zhao, X. (2022). Diffuse phthalate acid esters losses induced from large amount of agricultural plastic film residues caused low risks for water quality in China during 1991–2017. Journal of Hazardous Materials 431, 128644.
2. Lian, Z., Han, Y., Zhao, X., Xue, Y., Gu, X. (2022). Rare earth elements in the upland soils of northern China: Spatial variation, relationships, and risk assessment. Chemosphere 307, 136062.
3. Lian, Z., Zhao, X., Gu, X., Li, X., Luan, M. Yu, M. (2022). Presence, sources, and risk assessment of heavy metals in the upland soils of northern China using Monte Carlo simulation. Ecotoxicology and Environmental Safety 230, 113154.
4. Lian, Z., Ouyang, W., Liu, H., Zhang, D., Liu, L. (2021). Ammonia volatilization modeling optimization for rice watersheds under climatic differences. Science of The Total Environment, 144710.
5. Lian, Z., Ouyang, W., Hao, F., Liu, H., Hao, Z., Lin, C. (2018). Changes in fertilizer categories significantly altered the estimates of ammonia volatilizations induced from increased synthetic fertilizer application to Chinese rice fields. Agriculture, Ecosystems & Environment, 265, 112-122.
6. Ouyang, W., Lian, Z., Hao, X., Gu, X., Hao, F., Lin, C. (2018). Increased ammonia emissions from synthetic fertilizers and land degradation associated with reduction in arable land area in China. Land Degradation & Development, 29(11), 3928-3939.
7. Ouyang, W., Hao, F., Shi, Y., Gao, X., Gu, X., Lian, Z.M. (2018). Predictive ability of climate change with the automated statistical downscaling method in a freeze-thaw agricultural area. Climate Dynamics, 52(11), 1-16.
8. Gao, X., Ouyang, W., Hao, Z., Xie, X., Lian, Z.M., Hao, X., Wang, X. (2019). SWAT-N2O coupler: An integration tool for soil N2O emission modeling. Environmental Modelling & Software, 115, 86-97.
9. Gao, X., Ouyang, W., Lin, C., Wang, K., Hao, F., Hao, X., Lian, Z.M. (2020). Considering atmospheric N2O dynamic in SWAT model avoids the overestimation of N2O emissions in river networks. Water Research, 174, 115624.