彭佩钦 教授、博士生导师
研究方向:环境土壤学、环境生态学、水土保持
电话/传真:+86
Email:pqpeng123@sina.com
学习与工作经历
1985年毕业于湖南农学院土壤农化专业;2003-2007年在湖南农业大学攻读植物营养学博士学位。1985-2007年起中国科学院亚热带农业生态研究所(长沙农业现代化研究所)从事科研与管理工作。2007年起在中南林业科技大学从事教学、科研工作。
学术任职及奖励
教授,博士生导师。历任中国科学院长沙农业现代化研究所科技处副处长、处长;中国科学院亚热带农业生态研究所第三、第一党支部书记;中南林业科技大学副研究员、教授、博士生导师、环境科学学术带头人。中国土壤学会会员,湖南省土壤肥料学会常务理事。获中国科学院、湖南省等省部级科技进步二、三等奖4项,湖南省优秀博士论文奖1项。发表学术论文150余篇,其中SCI、EI收录论文40余篇。
科研、教学及学术活动
主要从事土壤学、环境土壤学、水土保持、环境生态学等方面的研究,先后主持国家自然科学基金、国家科技支撑等科研课题。承担土壤学、环境土壤学、土壤污染与防治、土地整理、环境地理学等研究生和本科生课程。
近年主持的主要科研项目:
1、国家自然科学基金:亚热带典型森林土壤可溶性有机氮特征与转化淋溶机制(**);
2、农业部财政部科研重大专项:湖南重金属污染耕地修复及农作物种植结构调整试点:稻田灌溉水重金属净化技术研究与示范.
近年发表的代表性学术论文:
1. Li, X., Peng, P. *, Long, J. *, Dong, X., Jiang, K., Hou, H.. Plant-induced insoluble Cd mobilization and Cd redistribution among different rice cultivars.Journal of Cleaner Production, 2020, 120494. DOI: 10.1016/j.jclepro.2020.120494.
2. Kai Jiang, Xiao Deng, Hang Zhou, Jian Long, Xia Dong, Jing Huang, Hong-bo Hou, Pei-qin Peng* , Bo-han Liao. Health risk assessment of Cd pollution in irrigated paddy field system: A field investigation in Hunan Province, China,Human and Ecological Risk Assessment: An International Journal,2020, **.3. DOI:10.1080/**.2020.**
3. 覃建军,唐盛爽,蒋凯,黄敬,侯红波,龙坚*, 彭佩钦*. 螯合剂GLDA对象草修复镉污染农田的影响[J].环境科学:1-13. https://doi.org/10.13227/ j.hjkx.. EI
4. 黄敬,李欣阳,文沙,蒋凯,龙坚*, 彭佩钦*,侯红波. 不同母质发育土壤Cd环境行为对水分管理模式的响应差异[J].环境科学:1-14 . https://doi.org/ 10.13227/j.hjkx.. EI
5. Chen, Q.,Peng, P. Q.*, Long, J., Li, X. Y., Ding, X., Hou, H. B., Liao, B. H.. Cadmium phytoavailability evaluation in rice-soil system using a field capacity-derived soil solution extraction: An entire growth period study insubtropical China. Soil and Tillage Research, 2019, 194: 104315.
6. Qi Chen, Peiqin Peng*, Hongbo Hou, Xianqing Ding, Jian Long, Xinyang Li & Bohan Liao. Effects of soil properties on the Cd threshold in typical paddy soils using BCR sequential extraction.Human and Ecological Risk Assessment: An International Journal, 2019, 25.8: 2160-2173.
7. Xinyang Li, Jian Long, Peiqin Peng*, Chen Qi, Dong Xia, Jiang Kai, Hou Hong-bo, Bohan Liao. Evaluation of Calcium Oxide of Quicklime and Si–Ca–Mg Fertilizer for Remediation of Cd Uptake in Rice Plants and Cd Mobilization in Two Typical Cd-Polluted Paddy Soils[J]. International Journal of Environmental Research, 2018: 12(6), 877-885
8. Deng, X., Zhou, H., Qu, X. N., Long, J., Peng, P. Q. *, Hou, H. B., Liao, B. H. Optimization of Cd (II) removal from aqueous solution with modified corn straw biochar using Plackett-Burman design and response surface methodology[J]. Desalination and Water Treatment, 2017, 70: 210-219.
9. Liu, Y., Peng, P. Q. *, Zhu, X. L., & Ding, X. Q Effect of Paper Mill Sludge on Adsorption and Desorption of Cd (II) and Pb (II) in Paddy Soils. Advanced Materials Research. 2014, 955: 2539-2545.
10. Zhu, X. L., Gan, G. J., Zhou, H., Liu, Y., Deng, X., Hou, H. B., Peng, P. Q. * Transfer Characteristics of Cd in Paddy Soil-rice System under Field Condition Applied Mechanics and Materials 2015, 737: 367-373.
11. YUAN Hong-zhao, ZHU Zhen-ke, WEI Xiao-meng, LIUShou-long,PENG Pei-qin, AnnaGunina, SHEN Jian-lin, Yakov Kuzyakov, GE Ti-da , WU Jin-shui , WANG Jiu-rong. Straw and biochar strongly affect functional diversity of microbial metabolism in paddy soils. Journal of Integrative Agriculture. 2019, 18(7): 1474–1485
12. LI, Jiangnan;PENG,Peiqin; ZHAO, Jie. Assessment of soil nematode diversity based on different taxonomic levels and functional groups.Soil Ecology Letters, 2019, 1-7.
13. Luo, Y., Zhu, Z., Liu, S., Peng, P., Xu, J., Brookes, P., Wu, J.. Nitrogen fertilization increases rice rhizo deposition and its stabilization in soil aggregates and the humus fraction.Plant and Soil,2019, 445(1-2), 125-135.
14. Zhao, Z., Ge, T., Gunina, A., Li, Y., Zhu, Z., Peng, P., Kuzyakov, Y.. Carbon and nitrogen availability in paddy soil affects rice photosynthate allocation, microbial community composition, and priming: combining continuous
15. Liu,H Zang,T Ge, J Bai, S Lu, P Zhou, P Peng et al. Intensive fertilization (N, P, K, Ca, and S) decreases organic matter decomposition in paddy soil[J]. Applied Soil Ecology, 2018, 127: 51-57.
16. Y Luo, Z Zhu, S Liu, P Peng, J Xu, P Brookes, T Ge. Nitrogen fertilization increases rice rhizodeposition and its stabilization in soil aggregates and the humus fraction[J]. Plant and Soil, 2018: 1-11.
17. Wei X, Hu Y, Peng P, et al. Effect of P stoichiometry on the abundance of nitrogen-cycle genes in phosphorus-limited paddy soil[J]. Biology and Fertility of Soils, 2017: 1-10.
18. 蒋凯,龙坚,李欣阳,董霞,王树兵,刘文辉,侯红波,彭佩钦*,廖柏寒.外源Cl-添加对不同母质土壤溶液Cd2+浓度的影响[J].环境科学学报,2019,39(02):553-559.
19. 蒋凯,邓潇,周航,龙坚,李欣阳,董霞,王树兵,刘文辉,侯红波, 彭佩钦*,廖柏寒.湘中典型稻田系统Cd平衡分析[J].环境科学, 2019,40(07):3324-3330.
20. 蒋凯,邓潇,周航,龙坚,李欣阳,董霞,刘文辉,侯红波,彭佩钦*,廖柏寒. 植物塘人工湿地系统对灌溉水Cd的生态拦截效果[J].农业现代化研究,2019,40(03):518-526.
21. 李欣阳,龙坚,王树兵,陈齐,董霞,蒋凯,侯红波,彭佩钦*,廖柏寒.典型土壤双季稻对Cd吸收累积差异[J].环境科学,2018,39(01):406-414.
22. 李欣阳,龙 坚,董 霞,蒋 凯,王树兵,刘文辉,侯红波, 彭佩钦, 廖柏寒.硅钙镁肥对不同母质稻田土壤水稻Cd吸收累积的影响及其差异研究[J].湖南生态科学学报,2018,5(03):1-9.
23. 陈珊, 祝贞科, 袁红朝, 王久荣, 彭佩钦*, 葛体达, 吴金水. 拔节期水稻光合碳输入的动态变化及其对施氮的响应:
24. 柏菁,李奕霏,刘守龙,祝贞科,李科林,彭佩钦*,吴小红*,葛体达,吴金水.添加磷素对低磷稻田根际土壤固碳自养微生物数量的影响[J].环境科学,2018(12):1-12
25. 陈珊, 丁咸庆, 祝贞科, 王娟, 彭佩钦*, 葛体达, 吴金水. 秸秆还田对外源氮在土壤中转化及其微生物响应的影响[J]. 环境科学, 2017, 38(4): 1613-1621.
26. 陈齐,邓潇,陈珊,侯红波,彭佩钦*,廖柏寒.典型土壤不同提取态Cd与水稻吸收累积的关系[J].环境科学,2017,38(06):2538-2545.
27. 董霞,李虹呈,陈齐,李欣阳,蒋凯,黄敬,龙坚,侯红波,彭佩钦*,廖柏寒.石灰、硅钙镁改良剂对不同土壤-水稻系统Cd吸收累积的影响[J].环境化学,2019,38(06):1298-1306.
28. 董霞,李虹呈,陈齐,李欣阳,龙坚,侯红波,彭佩钦*,廖柏寒. (2019).不同母质土壤-水稻系统Cd吸收累积特征及差异.水土保持学报, 2019,33(4), 342-348.
29. 黄敬,龙坚,蒋凯,唐盛爽,覃建军,李欣阳,杨强,侯红波,彭佩钦,廖柏寒.外源有机酸对不同土壤中Cd解吸行为的影响[J].环境生态学,2019,1(04):54-62.
