任杰
研究方向:矿山废弃地生态修复,土壤污染控制与修复
联系方式:renie@mail.bnu.edu.cn
科研项目
1.国家自然科学基金“功能菌群驱动赤泥多级团聚体结构形成和稳定的成土演变机制研究”,主持。
2.内蒙古自然科学基金,“干旱半干旱区草地土壤有机碳固存对放牧强度的微观响应机制”,主持。
3.呼市科技创新领域人才项目,“蒙西地区退化草原生态修复与提质增效技术集成示范”,主持。
4.国家自然科学基金“酸性有机材料调控赤泥有机矿质复合体形成机制与成土趋势研究”,主持。
5.内蒙古自然科学基金“煤矸石土壤化处置团聚体的形成机制与稳定性调控研究”,主持。
6.技术服务项目“农用地土壤污染安全利用评估模型专题研究”,主持。
7.技术服务项目“农田土壤中重金属的运移及钝化过程模拟”,主持。
8.内蒙古自治区科技厅项目“内蒙古农牧交错区农田土壤质量健康诊断研究,参与。
科研成果
1.Zhang Z P, Hu L J, Liu Y T, Guo Y X, Tang S M, Ren J*. Land use shapes the microbial community structure by altering soil aggregates and dissolved organic matter components. Journal of Integrative Agriculture 2025; 24(3): 2-19.
2.Hu L, Du P, Ren J*, Zhang Y, Liu Y, Chen K. Restoration-mediated protein substances preferentially drive underlying bauxite residue macroaggregate formation during the simulated ecological reconstruction process. Science of The Total Environment 2024; 951: 175636.
3.Tuo P1, Zhang Z1, Du P, Hu L, Li R, Ren J*. Changes in coal waste DOM chemodiversity and Fe/Al oxides during weathering drive the fraction conversion of heavy metals. Science of The Total Environment 2024; 926: 172063.
4.Hao C, Du P, Ren J*, Hu L, Zhang Z. Halophyte Elymus dahuricus colonization regulates microbial community succession by mediating saline-alkaline and biogenic organic matter in bauxite residue. Science of The Total Environment 2023; 905.
5.Zhang, X., Ren, J.*, Hao, C., Li, R., Tuo, P., 2023. Tolerant plant growth improves the conversion of bauxite residue to soil-like substrates by altering aggregate stability. Plant and Soil.
6.Tuo, P., Ren, J.*, Hao, C., Zhang, X., Li, R., 2023. Decades of weathering improves coal waste biogeochemical properties by altering dissolved organic matter and microbial communities: A case‐study of a coal waste pile. Land Degrad. Dev.
7.Tang, S., Zhang, X.1, Ren, X., Du, P., Ren, J.*, 2023. Quantifying the relative contribution of driving factors to the transformation of bauxite residue into a plant growth substrate. Soil and Tillage Research 225.
8.Ren, J., Yang, B., Chen, J., Luo, H.L., Liang, T., Du, P.**, Li, F.S.*, 2022. Alkalinity neutralization of bauxite residue by nitrohumic acid: Mineral transformation and subsequent formation of organo-mineral complexes. Appl. Geochem. 136.
9.Ren, X.Q., Zhang, X., Tuo, P.P., Yang, B., Chen, J., Guo, W., Ren, J.*, 2022. Neutralization of bauxite residue with high calcium content in abating pH rebound by using ferrous sulfate. Environ Sci Pollut Res 29, 13167–13176.
10.Ren, J., Ren, X., Chen, J., Guo, W., Yang, B., Du, P.*, 2021. Humic-mineral interactions modulated by pH conditions in bauxite residues – Implications in stable aggregate formation. Geoderma 385.
11.Ren, J., Chen, J., Guo, W., Yang, B., Qin, X.-p., Du, P., 2019. Physical, chemical, and surface charge properties of bauxite residue derived from a combined process. Journal of Central South University 26(2), 373-382.
12.Ren, J., Chen, J., Han, L., Wang, M., Yang, B., Du, P.**, Li, F.S.*, 2018. Spatial distribution of heavy metals, salinity and alkalinity in soils around bauxite residue disposal area. Science of The Total Environment 628-629, 1200-1208.
13.Ren, J., Zhang, Z., Wang, M., Guo, G.L., Du, P.**, Li, F.S.*, 2018. Phosphate-induced differences in stabilization efficiency for soils contaminated with lead, zinc, and cadmium. Frontiers of Environmental Science & Engineering 12(2): 10.
14.Ren, J., Liu, J., Chen, J., Liu, X.L., Li, F.S., Du, P.*, 2017. Effect of ferrous sulfate and nitrohumic acid neutralization on the leaching of metals from a combined bauxite residue. Environmental Science & Pollution Research, 24(10), 9325-9336.
