个人信息简介

姓名：单光春

学历：博士研究生

职称：讲师

职务：无

邮箱：gxshan2437@foxmail.com/10130203@henu.edu.cn

学术兼职

无

研究方向与招生

有机固废资源化利用、土壤和地下水污染修复研究

教育经历

2011.09-2015.07 江西农业大学 环境科学 理学学士

2015.09-2018.7 广西大学 生物化工 工学硕士 

2020.09-2024.09 哈尔滨工业大学     环境科学与工程     工学博士

工作经历

2018.6-2019.5 绿康生化湖北大学微生物研究所 研发

2019.7-2020.5   中国环境科学研究院   科研助理

2024.10-至今     河南大学地理科学学院    助理教授

承担课程

无

科研项目

Ø 堆肥生境中裂解多糖单加氧酶功能表达及其协同降解木质纤维素作用机制研究，国家自然科学基金面上项目，参与。

Ø 填埋稳定化过程不同粒径组分原位固相腐殖质电子转移功能演变机制，国家自然科学基金面上项目，参与。

Ø 土壤不同团聚体组分原位固相有机质电子转移能力对增温的响应机制，国家自然科学基金面上项目，参与。

Ø 庆阳石化石油污染场地土壤和地下水修复中试，中国环境科学研究院，参与。

著作论文

[1] 何小松，席北斗，单光春. 堆肥有机质演化特征及其环境效应[M]. 科学出版社, 2020-03

[2] Shan, G., Li, W., Gao, Y., Tan, W., Xi, B. 2021. Additives for reducing nitrogen loss during composting: A review. Journal of Cleaner Production, 307, 127308. (ESI Top 1% Highly Cited Paper in 2024/2025)

[3] Shan, G., Li, W., Zhou, Y., Bao, S., Zhu, L., Tan, W. 2023. Effects of persulfate-assisted hydrothermal treatment of municipal sludge on aqueous phase characteristics and phytotoxicity. Journal of Environmental Sciences, 126, 163-173.

[4] Shan G, Liu J, Zhu B, et al. 2023. Effect of hydrochar on antibiotic-resistance genes and relevant mechanisms during chicken manure composting. Journal of Hazardous Materials, 131459.

[5] Shan, G., Li, W., Tan, W., Bao, S., Liu, J., Wang, S., et al., 2023d. Effect of the aqueous phase from the hydrothermal carbonization of sewage sludge as a moisture regulator on nitrogen retention and humification during chicken manure composting. Chemical Engineering Journal, 470, 144398. 

[6] Shan, G., Li, W., Bao, S., Li, Y., Tan, W. 2023. Co-hydrothermal carbonization of agricultural waste and sewage sludge for product quality improvement: Fuel properties of hydrochar and fertilizer quality of aqueous phase. Journal of Environmental Management, 326, 116781.

[7] Shan, G., Li, W., Liu, J., Zhu, L., Hu, X., Yang, W., Tan, W., Xi, B. 2023. Nitrogen loss, nitrogen functional genes, and humification as affected by hydrochar addition during chicken manure composting. Bioresource Technology, 369, 128512. 

[8] Shan, G., Li, W., Bao, S., Hu, X., Liu, J., Zhu, L., Tan, W. 2023. Energy and nutrient recovery by spent mushroom substrate-assisted hydrothermal carbonization of sewage sludge. Waste Management, 155, 192-198.

[9] Shan, G., Li, W. Tan, W., Xi, B. 2023. Shan, G., Li, W., Bao, S., Liu, J., Zhu, L., Tan, W., 2023. Evaluating the aqueous phase obtained from hydrothermal carbonization of municipal sludge as possible liquid fertilizer for plant growth: An analysis of heavy metals and their molecular composition. Journal of Cleaner Production. 404, 136989. 

[10] Shan, G., Li, W., Liu, J., Tan, W., Bao, S., Wang, S., et al., 2023. Macrogenomic analysis of the effects of aqueous-phase from hydrothermal carbonation of sewage sludge on nitrogen metabolism pathways and associated bacterial communities during composting. Bioresource Technology. 389, 129811.

[11] Shan G, Li W, Liu J, Bao S, Li Z, Wang S, Zhu L, Xi B, Tan W (2024). Co-hydrothermal carbonization of municipal sludge and agricultural waste to reduce plant growth inhibition by aqueous phase products: Molecular level analysis of organic matter. Science of The Total Environment: 173073.

[12] Shan G, Wei X, Li W, Liu J, Bao S, Wang S, Zhu L, Xi B, Tan W (2024). Effect of aqueous phase from hydrothermal carbonization of sewage sludge on heavy metals and heavy metal resistance genes during chicken manure composting. Journal of Hazardous Materials, 471: 134398.

[13] Shan, G., Xu, J., Jiang, Z., Li, M., Li, Q. 2019. The transformation of different dissolved organic matter subfractions and distribution of heavy metals during food waste and sugarcane leaves co-composting. Waste Management, 87, 636-644. 

[14] Shan, G., Lu, H., Li, Q. 2018. The properties and dynamic changes of DOM subfractions during food waste and sugarcane leaves co-composting. Environmental Science and Pollution Research, 25(8), 7433-7442.

[15] Lei T, Su J, Chang L, He R, Shan G, Jiang X, Lei Y, Guo X (2024). Artificial humic acid produced from wet distillers grains in a microwave-assisted hydrothermal process: Physicochemical characteristics and stimulation to plant growth. Chemosphere, 364: 142979.

[16] Zhu L, Huang C, Li L, Wang S, Wu X, Shan G, Tian Y (2024). Innovative insights into organic nitrogen degradation through protein family domains analysis in chicken and pig manure composting using metagenomic sequencing. Bioresource Technology, 406: 131048.

[17] Lu, Y., Shan, G., Huang, J., Li, Q. (2018). Insights into characteristics of dissolved organic matter fractions in co-composted dairy manure and Chinese herbal residues. Waste and Biomass Valorization, 9(5), 777-782.

[18] Zheng, Y., Xi, B., Shan, G., et al. (2021) High proportions of petroleum loss ascribed to volatilization rather than to microbial degradation in greenhouse-enhanced biopile. Journal of Cleaner Production, 303, 127084.

[19] Guo, X., Huang, J., Lu, Y., Shan, G., Li, Q. (2016). The influence of flue gas desulphurization gypsum additive on characteristics and evolution of humic substance during co-composting of dairy manure and sugarcane pressmud. Bioresource Technology, 219, 169-174.

[20] Li, Q., Lu, Y., Guo, X., Shan, G., Huang, J. (2017). Properties and evolution of dissolved organic matter during co-composting of dairy manure and Chinese herbal residues. Environmental Science and Pollution Research, 24(9), 8629-8636.

[21] Li, Q., Guo, X., Lu, Y., Shan, G., Huang, J. (2016). Impacts of adding FGDG on the abundance of nitrification and denitrification functional genes during dairy manure and sugarcane pressmud co-composting. Waste Management, 56, 63-70.

[22] Huang, J., Guo, X., Zeng, Y., Lu, Y., Shan, G., Xu, J., Li, Q. (2020). the effects of flue gas desulphurization gypsum on the properties of dissolved organic matter and bacterial community during composting. Waste and Biomass Valorization, 11(5), 2039-2046.

[23] Xu, J., Lu, Y., Shan, G., He, X. S., Huang, J., Li, Q. (2019). Inoculation with compost-born thermophilic complex microbial consortium induced organic matters degradation while reduced nitrogen loss during co-composting of dairy manure and sugarcane leaves. Waste and Biomass Valorization, 10(9), 2467-2477.

[24] 郑一鸣, 何小松, 单光春, 等. (2021). 石油污染对场地中细菌群落的影响及其反馈机制. 环境科学研究, 1-14.

[25]  刘洪宝, 袁英, 宋彩红, 单光春, 等. (2020). 二维相关光谱结合移动窗口技术研究堆肥溶解性有机质演化. 环境卫生工程(04), 11-16+21.

[26]  马妍, 赵航正, 虞敏达, 崔骏, 单光春, 等. (2021). 光谱参数法快速识别石油烃污染场地水体特征. 光谱学与光谱分析(03), 822-827.

重要奖项

无

其他

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