1. 个人信息
常军军,教授、博士、博士生导师,yl6809永利 环境科学与工程系系主任。1985年5月生,云南祥云人。邮箱:changjunjun@ynu.edu.cn
2. 研究方向和兴趣
Ø 人工湿地污水处理和物质转化循环及其作用机制;
Ø 水环境特征解析与水生态修复;
Ø 污染/退化土壤的生态修复。
3. 教育与工作经历
2019/12至今,学院,yl6809永利,教授。
2014/12-2019/11,学院,yl6809永利,副研究员;
2015/09-2016/01,复旦大学,环境科学与工程系,访问学者;
2012/08-2014/11,学院,工程技术研究院,助理研究员;
2007/09-2012/07,中国科学院水生生物研究所,环境科学专业,博士;
2003/09-2007/06,山东大学,环境科学与工程学院,环境科学专业,学士。
4. 主要承担项目
(1)“高原浅水富营养化湖泊污染协同综合治理关键技术集成与示范”课题任务—农田关键生态调蓄带及其农田尾水收集与资源化循环利用,研究期限:2022-2025;
(2)云南省应用基础研究计划面上项目:铁-碳填料人工湿地处理农田径流的效能、温室气体排放及其作用机制研究,研究期限:2022-2025, 主持;
(3)异龙湖治理工程先导研究项目:异龙湖水体有机物来源、组成特征及其防控对策研究,研究期限:2022-2025,主持;
(4)云南省“万人计划”青年拔尖人才专项经费,2019-2023,主持;
(5)国家自然科学基金(地区项目):基于植物质的复合滤床修复含重金属矿区排水及其作用机理研究,研究期限:2017-2020,主持;
(6)国家自然科学基金(青年项目):基于废弃植物质为碳源的波形流生态池正负效应及其微生物机制研究,研究期限:2015-2017,主持;
(7)云南省高原山地生态与退化环境修复重点实验室开放基金项目:铁基生态滤球原位净化污染地表水的环境生态效应研究,研究期限: 2021-2023,主持。
5. 发表论文
先后以第一或通讯作者发表论文50余篇,包含TOP期刊论文10余篇。
近年论文:
【2023】
[1]. Yun Zhou#, Bohua Ji#, Ming Jiang, Yiyang Jin, Junjun Chang*. Performance and microbial community features of tidal-flow biochar-amended constructed wetlands treating sodium dodecyl sulfate (SDS)-containing greywater, Journal of Cleaner Production, 2023, 396, 136545. (TOP, IF2021: 11.07)
【2022】
[1]. Junjun Chang*, Shengjiong Deng, Xuan Li, Yutong Li, Jinquan Chen, Changqun Duan*. Effective treatment of acid mine drainage by constructed wetland column: Coupling walnut shell and its biochar product as the substrates, Journal of Water Process Engineering, 2022, 49, 103116.(二区, IF2021: 7.34)
[2]. Bohua Ji, Ming Jiang, Ying Yang, Shengjiong Deng, Jinquan Chen, Junjun Chang*. High treatment effectiveness for secondary effluent in Fe-C microelectrolysis constructed wetlands with electron donor supplementation. Journal of Cleaner Production, 2022, 342, 130934.(TOP, IF2021: 11.07)
[3]. Chang, J., Peng, D., Deng, S., Chen, J.*, Duan, C*. Efficient treatment of mercury(Ⅱ)-containing wastewater in aerated constructed wetland microcosms packed with biochar. Chemosphere, 2022, 290, 133302.(TOP, IF2021: 8.94)
[4]. Junjun Chang#, Zhengjian Yan#, Jia Dong, Xinni Wu, Zhuang Meng, Yu Shi, Jinquan Chen. Mechanisms controlling the transformation of and resistance to mercury(II) for a plant-associated Pseudomonas sp. strain, AN-B15, Journal of Hazardous Materials, 2022,425: 127948. (TOP,IF2021: 14.22)
[5]. 陈小弯, 田华川, 常军军*, 陈礼强, 舒兴权, 冯秀祥. 杞麓湖中河河口表流湿地净化河道污染水的效果及其微生物群落特征. 生态环境学报, 2022, 31(09), 1865-1875.
【2021】
[1]. Jinquan Chen#, Shengjiong Deng#, Wei Jia, XuanLi, JunjunChang*. Removal of multiple heavy metals from mining-impacted water by biochar-filled constructed wetlands: Adsorption and biotic removal routes. Bioresource Technology, 2021, 331: 125061. (TOP, IF2020: 9.64)
[2]. Shengjiong Deng, Jinquan Chen, Junjun Chang*. Application of biochar as an innovative substrate in constructed wetlands/biofilters for wastewater treatment: Performance and ecological benefits. Journal of Cleaner Production, 2021, 293, 126156. (TOP, IF2020: 9.30, review)
[3]. Bohua Ji#, Jinquan Chen#, Wei Li, Jian Mei, Ying Yang, Junjun Chang*. Greenhouse gas emissions from constructed wetlands are mitigated by biochar substrates and distinctly affected by tidal flow and intermittent aeration modes. Environmental Pollution, 2021, 271, 116328. (TOP, IF2020: 8.07)
[4]. Jinquan Chen#, Xuan Li#, Wei Jia, Shili Shen, Shengjiong Deng, Bohua Ji, Junjun Chang*. Promotion of bioremediation performance in constructed wetland microcosms for acid mine drainage treatment by using organic substrates and supplementing domestic wastewater and plant litter broth. Journal of Hazardous Materials, 2021, 404, 124125. (TOP,IF2020: 10.59)
[5]. Junjun Chang#, Guangzheng Si#, Jia Dong, Qingchen Yang, Yu Shi, Yaling Chen, Kexin Zhou, Jinquan Chen*. Transcriptomic analyses reveal the pathways associated with the volatilization and resistance of mercury(II) in the fungus Lecythophora sp. DC-F1. Science of the Total Environment, 2021, 752, 142172. (TOP,IF2020: 7.96)
[6]. Junjun Chang*, Bohua Ji, Wei Li, Jianping Wu*. Bellamya aeruginosa (Reeve) regulates bacterial community features in sediment harbouring different submerged macrophytes under different nutrient levels, Aquatic Sciences, 2021. 83(2), 35. (三区, IF2019: 2.40)
【2020】
[1]. Ji, B., Chen, J., Mei, J., Chang, J.*, Li, X., Jia, W., Qu, Y. Roles of biochar media and oxygen supply strategies in treatment performance, greenhouse gas emissions, and bacterial community features of subsurface-flow constructed wetlands. Bioresource Technology, 2020, 122890. (TOP, IF2020: 9.64)
[2]. Junjun Chang#, Yu Shi#, Guangzheng Si, Qingchen Yang, Jia Dong, Jinquan Chen*. The bioremediation potentials and mercury(II)-resistant mechanisms of a novel fungus Penicillium spp. DC-F11 isolated from contaminated soil. Journal of Hazardous Materials, 2020, 396, 122638. (TOP,IF2020: 10.59)
[3]. Shili Shen; Jinquan Chen; Junjun Chang*; Beicheng Xia. Using bioenergy crop cassava (Manihot esculenta) for reclamation of heavily metal-contaminated land. International Journal of Phytoremediation, 2020, 22(12): 1313-1320. (三区, IF2020: 3.21)
[4]. 寄博华, 李玮, 常军军*, 李璇, 司光正, 何芳, 陈金全*. 滇池湖滨湿地不同挺水植物区沉积物细菌群落结构特征. 生态与农村环境学报, 2020, 36(3):390-398.
[5]. 贾威, 陈金全, 常军军*. 汞污染生物修复研究进展. 环境工程, 2020, 38(5): 171-178.
【2019】
[1]. Chang, J., Mei, J., Jia, W., Chen, J.*, Li, X., Ji, B., Wu, H.* Treatment of heavily polluted river water by tidal-operated biofilters with organic/inorganic media: Evaluation of performance and bacterial community. Bioresource Technology, 279, 34-42, 2019. (TOP, IF2020: 9.64)
[2]. Chang J.#, Duan Y.#, Dong J., Shen S., Si G., He F., Yang Q., Chen J.* Bioremediation of Hg-contaminated soil by combining a novel Hg-volatilizing Lecythophora sp. fungus, DC-F1, with biochar: Performance and the response of soil fungal community. Science of the Total Environment, 2019, 671: 676-684.(TOP,IF2020: 7.96)
[3]. Chang, J.#, Yang, Q.#, Dong, J., Ji, B., Si, G., He, F., Li, B, Chen, J.* Reduction in Hg phytoavailability in soil using Hg-volatilizing bacteria and biochar and the response of the native bacterial community. Microbial biotechnology, 12(5), 1014-1023, 2019. (二区, IF2020: 5.81)
[4]. Chang, J., Deng, S., Liang, Y., Chen, J.* Cr (VI) removal performance from aqueous solution by Pseudomonas sp. strain DC-B3 isolated from mine soil: characterization of both Cr (VI) bioreduction and total Cr biosorption processes.
Environmental Science and Pollution Research, 2019, 26:28135–28145. (3区, IF2020: 4.22)
[5]. Chen, J., Dong, J., Shen, S., Mei, J., Chang, J.* Isolation of the Hg(II)-volatilizing Bacillus sp. strain DC-B2 and its potential to remediate Hg(II)-contaminated soils.Journal of Chemical Technology and Biotechnology, 94(5), 1433-1440, 2019. (4区, IF2020: 3.17)
[6]. Liang, Y., Chen, J.Q., Mei, J., Chang, J.J.*, Wang, Q.Y., Wan, G.S., Yin, B.Y. Characterization of Cu and Cd biosorption by Pseudomonas sp. strain DC-B3 isolated from metal mine soil. International Journal of Environmental Science and Technology, 16(8), 4035-4046, 2019. (4区, IF2020: 2.86)
[7]. 陈乐, 周永强, 周起超*, 李凯迪, 张运林, 赵玉伟, 陆轶峰, 常军军*. 抚仙湖有色可溶性有机物的来源组成与时空变化. 湖泊科学, 2019, 31(5): 1357-1367.
[8]. 黄立成,周远洋,周起超,王玮璐,董云仙,李凯迪,常军军*.云南程海浮游植物初级生产力的时空变化及其影响因子.湖泊科学.2019,31(5):1424-1436.
6. 授权专利
[1]. 常军军, 舒兴权, 冯秀祥, 田华川, 陈礼强, 彭栋梁, 邓盛炯, 一种用于提升表面流人工湿地净化效能的过滤装置, 2022-3-8, 中国, ZL 202121925695.6.
[2]. 常军军, 屈莹, 陈金全, 王良洁, 朱梓齐, 李琦. 一种太阳能间歇曝气式生物炭基污水净化人工湿地系统, 实用新型, 2019.12., 201920234344.7.
[3]. 常军军, 寄博华, 梅坚, 邓盛炯. 一种生物炭基序批式人工湿地污水处理系统, 2020.4.10, 实用新型, ZL201920949145.4.
[4]. 常军军, 贾威, 李璇, 邓盛炯, 朱吉颖, 马睿杰.一种集矿山废水处理和植残处理为一体的生态湿地系统, 2020.7.31, ZL201922092425.0.
[5]. 常军军, 李璇, 贾威,邓盛炯.一种处理酸性重金属废水的生物炭基滤床装置,2020.7.10, ZL201922002712.8.
[6]熊延伟(本科生), 朱垚松(本科生), 张洋源(本科生), 侯宗昊(本科生), 常军军. 一种处理农田排水的复合人工湿地系统. 2023.3.24, ZL 2022
7. 入选人才培养项目/获得奖励
(1) 首批云南省“万人计划”青年拔尖人才,2018年;
(2) 学院东陆青年学者,2022年;
(3) 学院红云园丁奖,2021年;
(4) 滇池流域农田和山地面源污染防控关键技术体系及应用,云南省科技进步一等奖,2021年,第9完成人(9/22);
(5) “三点一线”科研-教学-社会服务深度融合的生态学高层次人才培养模式创建,云南省研究生教学成果二等奖,2023年,第4完成人;
(6) 学院校友总会郭氏创新创业优秀教师奖,2019年。
8. 本科生培养情况
讲授课程《环境学概论》、《水环境生态工程》等,参编《环境生物学》教材。先后指导大学生创新创业项目10余项,包含国家级4项,指导本科生获得互联网+云南省金奖、云南省“挑战杯”二等奖、生命科学竞赛云南省三等奖等奖项。
9. 研究生培养情况
先后指导博士研究生3人,硕士研究生16人,毕业硕士生7人,其中6人获国家奖学金,3人获学院熊庆来奖学金,2篇论文获得云南省优秀硕士毕业论文,1人获云南省研究生优秀创新成果奖。讲授课程《修复生态学》课程。
10. 招收研究生
生态学、资源与环境专业博士、硕士研究生。
要求:具有环境科学与工程、环境生态工程相关专业背景,具有自主学习的意愿和能力,身心健康,对专业有兴趣,工作时踏实努力认真、生活中阳光积极向上。
欢迎开展博士后(生态学博士后工作站)合作研究。