姜志翔，男，博士，副教授，硕士生导师
Tel：**
Email：jzx_qdu@qdu.edu.cn



1. 工作经历：
2013.08-至今：青岛大学环境科学与工程学院
2018.10－2019.10：美国University of Massachusetts, Amherst，访问****
2. 教育背景：
2010.09-2013.07：中国海洋大学环境科学与工程学院，环境规划与管理专业，工学博士
2006.09-2009.07：华中农业大学土地资源管理学院，土地管理专业，管理学硕士
2002.09-2006.07：临沂师范学院地理与旅游系，资源环境与城乡规划管理专业，理学学士
3. 科研领域：
(1) 湿地生态修复和碳循环
(2) 生物炭应用及其环境效应
(3)废弃生物质资源化利用
4. 科研项目：
(1) 国家自然科学基金青年基金项目，**，基于生物炭的生物有机质堆肥及其土地利用的温室气体排放研究，2018.01-2020.12，24万元，在研，主持
5. 科研团队：
详见湿地生态与环境研究团队主页http://www.wetland-eco-env.com/
6. 代表性成果：

(1) Jiang, Z., Lian, F., Wang, Z., Xing, B., 2020. The role of biochars in sustainable crop production and soil resiliency. Journal of Experimental Botany 71, 520-542.
(2) Dai, Y., Zheng, H., Jiang, Z.,^* Xing, B., 2020. Combined effects of biochar properties and soil conditions on plant growth: A meta-analysis. Science of the Total Environment 713, 136635.
(3) Dai, Y., Zheng, H., Jiang, Z.,^* Xing, B., 2020. Comparison of different crop residue-based technologies for their energy production and air pollutant emission. Science of the Total Environment 707, 136122.
(4) Jiang, Z., Dai, Y., Luo, X., Liu, G., Wang, H., Zheng, H., Wang, Z. 2017. Assessment of bioenergy development potential and its environmental impact for rural household energy consumption: A case study in Shandong, China. Renewable and Sustainable Energy Reviews 67, 1153-1161.
(5) 姜志翔, 郑浩, 李锋民, 王震宇. 2013. 生物炭技术缓解我国温室效应潜力初步评估. 环境科学, 34(6), 2486-2492.
(6) 姜志翔, 郑浩, 李锋民, 王震宇. 2013. 生物炭碳封存技术研究进展. 环境科学, 34(7), 3327-3333.
(7) Wang, X., Jiang, Z., Li, Y., Kong, F., Xi, M., 2019. Inorganic carbon sequestration and its mechanism of coastal saline-alkali wetlands in Jiaozhou Bay, China. Geoderma 351, 221-234.
(8) Dai, Y., Chen, F., Yue, L., Li T., Jiang, Z., Xu, Z., Wang, Z., Xing, B., 2020. Uptake, transport, and transformation of CeO2 nanoparticles by strawberry and their impact on rhizosphere bacterial community. ACS Sustainable Chemistry & Engineering. https://doi.org/10.1021/acssuschemeng.9b07422.
(9) Dai, Y., Wang, Z., Zhang, L., Jiang, Z., Pu, S., Fan, Q., Zhao, J., Xing, B., 2020. Transfer and transformation of CeO2 NPs along a terrestrial trophic food chain. Environmental Science: Nano. https://doi.org/10.1039/C9EN01143A.
(10) Dai, Y., Zhao, J., Liu, X., Yu, X., Jiang, Z., Bu, Y., Xu, Z., Wang, Z., Zhu, X., Xing, B., 2019. Transformation and species identification of CuO nanoparticles in plant cells (Nicotiana tabacum). Environmental Science: Nano 6, 2724-2735.
(11) Liu, G., Zheng, H., Jiang, Z., Zhao, J., Wang, Z., Pan, B., Xing, B., 2018. Formation and Physicochemical Characteristics of Nano Biochar: Insight into Chemical and Colloidal Stability. Environmental Science & Technology 52(18), 10369-10379.
(12) Liu, G., Zheng, H., Jiang, Z., Wang, Z., 2018. Effects of biochar input on the properties of soil nanoparticles and dispersion/sedimentation of natural mineral nanoparticles in aqueous phase. Science Of the Total Environment 634, 595-605.
(13) Liu, G., Chen, L., Jiang, Z., Zheng, H., Dai, Y., Luo, X., Wang, Z. 2017. Aging impacts of low molecular weight organic acids (LMWOAs) on furfural production residue-derived biochars: Porosity, functional properties, and inorganic minerals. Science Of the Total Environment 607-608, 1428-1436.
(14) Wang, H., Zheng, H., Jiang, Z., Dai, Y., Liu, G., Chen, L., Luo, X., Liu, M., Wang, Z. 2017. Efficacies of biochar and biochar-based amendment on vegetable yield and nitrogen utilization in four consecutive planting seasons. Science of The Total Environment 593-594, 124-133.
(15) Luo, X., Liu, G., Xia, Y., Chen, L., Jiang, Z., Zheng, H., Wang, Z. 2016. Use of biochar-compost to improve properties and productivity of the degraded coastal soil in the Yellow River Delta, China. Journal of Soils and Sediments 17(3), 780-789.
(16) Wang, Z., Chen, L., Sun, F., Luo, X., Wang, H., Liu, G., Xu, Z., Jiang, Z., Pan, B., Zheng, H. 2017. Effects of adding biochar on the properties and nitrogen bioavailability of an acidic soil. European Journal of Soil Science 68(4), 559-572.