Junjie Lin, Professor, PhD, selected for the Provincial Innovation and Entrepreneurship Leading Talents (Provincial Ten Thousand Talents Plan), introduced as a top talent at the provincial level, academic leader, and master's supervisor, mainly engaged in research on climate change and carbon and nitrogen cycling, agricultural waste resource utilization, and soil remediation. I have led two National Natural Science Foundation projects in China, six provincial and ministerial level major key projects, and participated in multiple international cooperation projects such as the EU's sustainable development of agriculture, published over 70 papers (including 2 highly cited papers) in the journals such as Global Change Biology, Soil Biology and Biochemistry, Journal of Hazardous Materials, Science of The Total Environment, and Geoderma.
Brief Education and Work Background
1. Zhejiang University of Science and Technology, Professor of Department of Environmental Engineering, Nov 2023-Present
2. University of California, Santa Cruz/George Mason University/Virginia Tech, Agricultural University of Athens Postdoctoral Fellow, Visiting Scholar, Jan 2017-March 2019
3. Shenyang Institute of Applied Ecology, Chinese Academy of Sciences, Doctor of Soil Science, Sep 2011-July 2016
4. Agricultural Products Supervision and Inspection Center of the Ministry of Agriculture/Heilongjiang Academy of Agricultural Reclamation Sciences /Heilongjiang ProvincialState Administration of Agricultural Reclamation and Environmental Protection/Chongqing Three Gorges University, Engineer, Lecturer, Associate Professor, Professor July 2008-Nov 2023
5. Jilin Agricultural University/Shenyang Institute of Applied Ecology, Chinese Academy of Sciences, Master of Environmental Engineering, Sep 2005-June 2008
6. Yanbian University, Bachelor of Environmental Science, Sep 2001-June 2005
Main Research Interests
Climate change and carbon and nitrogen cycle, Agricultural waste recycling and soil remediation.
Email: ybu_lin@126.com
Main Research Projects
1. Research on the key mechanism of temperature sensitivity of decadally cycling carbon pool decomposition in soil drying-wetting cycle process.National Natural Science Foundation of China (31770529) 2018.01-2021.12
2. Temperature sensitivity and microbial availability of new carbon and old carbon in farmland soil. National Natural Science Foundation of China (41301248) from January 2014.01-2017.12
3. Effects of increasing plant residues on the decomposition of decadally cycling carbon pool under warming and drying-wetting cycles. Key Project of Science and Technology Research of Chongqing Education Commission (KJZD-K20210 3501) 2021.10-2023.10
4. The priming effect and temperature sensitivity of soil carbon decomposition at different turnover rates. Chongqing Natural Science Foundation Project (cstc2020 jcyj-msxmX0095) 2020.07-2023.06
5. The microscopic mechanism of the influence of organic matter and internal sulfur cycle on methane emission in the sediments of the water-level-fluctuating zone. Chongqing Natural Science Foundation (cstc2018jcyjAX0813) 2018.08-2021.08
6. Effects of increased root exudates on the priming effect of soil carbon pool decomposition under elevated temperature conditions. Key Project of Science and Technology Research of Chongqing Education Commission (KJZD-K202001203) 2020.10-2023.10
7. Temperature sensitivity and greenhouse gas emission potential of organic matter decomposition in the sediments of the Three Gorges Reservoir (KJZD-K201801201). Key Project of Science and Technology Research of Chongqing Education Commission 2018.09-2021.09
Representative papers
1. Zhang, G., Liu, D., Lin, J* ., Kumar, A., Jia, K., Tian, X., ... & Zhu, B. (2023). Priming effects induced by degradable microplastics in agricultural soils. Soil Biology and Biochemistry , 180, 109006. (ESI TOP 1 % , Highly cited paper)
2. Chen, X., Lin, J *., Wang, P., Zhang, S., Liu, D., Zhu, B., 2022. Resistant soil carbon is more vulnerable to priming effect than active soil carbon. Soil Biology and Biochemistry 168, 108619. (ESI TOP 1 % , Highly cited paper)
3. Dong, H., Zhang, S., Lin, J* ., Zhu, B., 2021. Responses of soil microbial biomass carbon and dissolved organic carbon to drying-rewetting cycles: A meta-analysis. Catena 207, 105610.
4. Zhang, S., Yu, Z., Lin, J* ., Zhu, B., 2020. Responses of soil carbon decomposition to drying-rewetting cycles: A meta-analysis. Geoderma 361, 114069.
5. Lin J., Zhu B., Cheng W.*. (2015) Decadally cycling soil carbon is more sensitive to warming than faster-cycling soil carbon. Global Change Biology21(12), 4602-4612.
Other papers
6. Lin, J* ., Cheng, W., Zhang, S., Zhu, B., 2022. Drying-rewetting rather than sieving stimulates soil respiration. Pedosphere 32, 359-363.
7. Chen, X., Zhang, S., Liu, D., Yu, Z., Zhou, S., Li, R., Liu, Z., Lin, J* ., 2019. Nutrient inputs from the leaf decay of Cynodon dactylon (L.) Pers in the water level fluctuation zone of a Three Gorges tributary. Science of the Total Environment 688, 718-723.
8. Lin, J ., Tang, Y., Liu, D., Zhang, S., Lan, B., He, L., Yu, Z., Zhou, S., Chen, X., Qu, Y., 2019. Characteristics of organic nitrogen fractions in sediments of the water level fluctuation zone in the tributary of the Yangtze River. Science of the Total Environment 653, 327-333.
9. Lin, J ., Zhang, S., Liu, D., Yu, Z., Zhang, L., Cui, J., Xie, K., Li, T., Fu, C., 2018. Mobility and potential risk of sediment-associated heavy metal fractions under continuous drought-rewetting cycles. Science of the Total Environment 625, 79-86.
10. Yang, Z., Sha, Y., Kumar, A., Yu, Z., Lin, J* ., Lei, Y., 2023. Degradable microplastics induce more soil organic carbon loss via priming effects: a viewpoint. Plant and Soil. DOI: 10.1007/s11104-023-06141-0
11. Zhang, S., Lin, J* ., Wang, P., Zhu, B., 2023. The direct and legacy effects of drying-rewetting cycles on active and relatively resistant soil carbon decomposition. Land Degradation & Development 34, 2124-2135.
12. Zhao, Y., Lin, J* ., Cheng, S., Wang, K., Kumar, A., Yu, Z.-G., Zhu, B., 2023. Linking soil dissolved organic matter characteristics and the temperature sensitivity of soil organic carbon decomposition in the riparian zone of the Three Gorges Reservoir. Ecological Indicators 154, 110768.
13. Dong, H., Lin, J* ., Lu, J., Li, L., Yu, Z., Kumar, A., Zhang, Q., Liu, D., Chen, B., 2022. Priming effects of surface soil organic carbon decreased with warming: a global meta-analysis. Plant and Soil , https://doi.org/10.1007/s11104-11022-058 51-11101.
14. Lin, J ., Zhou, S., Liu, D., Zhang, S., Yu, Z., Yang, X., 2020. Relative contribution of environmental and nutritional variables to net primary production of Cynodon dactylon (Linn.) Pers in the riparian zone of a Three Gorges tributary. Ecology and Evolution 10, 7073-7081.
15. Zhou, S., Lin, J* ., Wang, P., Zhu, P., Zhu, B., 2022. Resistant soil organic carbon is more vulnerable to priming by root exudate fractions than relatively active soil organic carbon. Plant and Soil , https://doi.org/10.1007/s11104-11021- 05288-y.
