土壤修复与改良利用的生物技术研究进展
Advances in Biotechnology Research on Soil Remediation and Improvement
DOI: 10.12677/HJSS.2018.64013, PDF,  被引量    国家自然科学基金支持
作者: 安世花, 王小利*, 王兴凯, 夏 东:贵州大学农学院,贵州 贵阳;段建军*:贵州大学烟草学院,贵州 贵阳;贵州省烟草品质研究重点实验室,贵州 贵阳
关键词: 土壤重金属污染土壤有机污染物土壤盐碱化生物修复Soil Heavy Metal Pollution Soil Organic Pollutants Soil Salinization Bioremediation
摘要: 随着工业的快速发展,我国的环境污染日益严重,尤其是土壤污染及退化,治理土壤污染和退化的工作越发受到重视。本文针对土壤重金属污染、土壤有机物污染和土壤盐碱地等问题,提出了生物修复技术,综述了其研究进展,明确土壤生物修复技术与盐碱地改良存在的技术难点,展望土壤污染治理新技术的研究前景,为改善土壤环境、增强土壤可持续利用提供理论依据。
Abstract: In recent years, soil pollution and degradation were increasingly becoming an important environ-mental problem. The research on the restoration and improvement of soil pollution is being paid more and more attention. In order to improve the soil environment and enhance the ability of the sustainable use of soil, biological technology is a new technology for soil treatment. This paper mainly summarizes the bioremediation of soil heavy metal pollution, soil organic pollution and soil salinization, including phytoremediation and improvement, microbial remediation and utilization. At the same time, the problems existed in soil bioremediation technology and improvement technology were reviewed. In the future, the development trend of biotechnology of soil treatment is prospected.
文章引用:安世花, 王小利, 段建军, 王兴凯, 夏东. 土壤修复与改良利用的生物技术研究进展[J]. 土壤科学, 2018, 6(4): 100-107. https://doi.org/10.12677/HJSS.2018.64013

参考文献

[1] 罗泽娇, 梁杏. 土壤修复与改良的微生物技术[J]. 安全与环境工程, 2005, 12(4): 3-6.
[2] 周际海, 袁颖红, 朱志保, 等. 土壤有机污染物生物修复技术研究进展[J]. 生态环境学报, 2015, 24(2): 343-351.
[3] 黄占斌, 孙朋成. 矿区重金属污染土壤的修复[J]. 科学, 2013, 65(6): 38-42.
[4] 侯向阳, 陈印军. 红黄壤地区农业区域治理与发展的几个问题[J]. 农业现代化研究, 2000, 21(1): 45-48.
[5] 唐世荣. 污染环境植物修复的原理与方法[M]. 北京: 科学出版社, 2006: 40-60.
[6] Timothy, M.V. (1996) Bioaugmentation as a Soil Bioremediation Approach. Current Opinion in Biotechnology, 7, 311-316. [Google Scholar] [CrossRef
[7] 王丽英, 张国印, 王志军. 土壤污染的生物修复技术研究进展及展望[J]. 河北农业科学, 2003(7): 75-76.
[8] Simonton, S., Dimsha, M., Thomson, B., et al. (2000) Long-Term Stability of Metals Im-mobilized by Microbial Reduction. Proceedings of the 2000 Conference on Hazardous Waste Research, Denver, 23-25 May 2000, 394-403.
[9] Shen, H. and Wang, Y.T. (1994) Biological Reduction of Chromium by E. coli. Journal of Environmental Engineering, 120, 560-572. [Google Scholar] [CrossRef
[10] Guha, H. and Maurrasse, K.J. (2003) Mi-crobiological Reduction of Chromium(VI) in Presence of Pyrolusite-Coated Sand by Shewanella alga Simidu ATCC 55627 in La-boratory Column Experiments. Chemosphere, 52, 175-183. [Google Scholar] [CrossRef
[11] 滕应, 黄昌勇. 重金属污染土壤的微生物生态效应及其修复研究进展[J]. 生态环境学报, 2002, 11(1): 85-89.
[12] 潘学芳, 倪秀珍. 菌株SD1对石油烃类降解机理的初步研究[J]. 长春师范学院学报, 2002, 21(2): 49-51.
[13] 沈德中. 污染环境的生物修复[M]. 北京: 化学工业出版社, 2000.
[14] Mars, A.E., Kingma, J., Kaschabek, S.R., et al. (1999) Conversion of 3-Chlorocatechol by Various Catechol 2,3-dioxygenases and Sequence Analysis of the Chlorocatechol Dioxygenase Region of Pseudomonas putida GJ31. Journal of Bacterio1ogy, 181, 1309-1318.
[15] Vidya Lakshmi, C., Kumar, M. and Khanna, S. (2008) Biotransformation of Chlorpyrifos and Bioremediation of Contaminated Soil. International Biodeterioration & Biodegradation, 62, 204-209. [Google Scholar] [CrossRef
[16] Cordova-Rosa S M, R I D, et al. (2009) Remediation of Phenol-Contaminated Soil by a Bacterial Consortium and Acinetobacter calcoaceticus Isolated from an Industrial Wastewater Treatment Plant. Journal of Hazardous Materials, 164, 61-66. [Google Scholar] [CrossRef] [PubMed]
[17] 李法云, 臧树良. 污染土壤生物修复技术研究[J]. 生态学杂志, 2003, 22(1): 35-39.
[18] 冯凤玲. 蚯蚓对Zn、Pb在土壤-植物系统中迁移转化的影响研究[D]: [硕士学位论文]. 济南: 山东师范大学, 2006.
[19] 杨野, 郭再华, 叶志娟, 等. 铝胁迫下不同耐铝性小麦根际pH值变化及其与耐铝性的关系[J]. 农业环境科学学报, 2010, 29(4): 636-641.
[20] 杨卓, 李术娜, 李博文, 等. 接种微生物对土壤中Cd、Pb、Zn生物有效性的影响[J]. 土壤学报, 2009, 46(4): 116-121.
[21] 孔繁翔, 尹大强, 严国安. 环境生物学[M]. 北京: 高等教育出版社, 2000: 361-379.
[22] 吴凡, 刘训理. 石油污染土壤的生物修复研究进展[J]. 土壤, 2007, 39(5): 701-707.
[23] Brady, J.O., et al. (1990) Uptake of Trichloroethylene by Hybrid Poplar Trees Grown Hydroponically in Flow through Plant Growth Chambers. Environmental Toxicology and Chemistry, 19, 895-903. [Google Scholar] [CrossRef
[24] Anderson, T.A. and Coats, J.R. (1994) Bioremediation through Rhizosphere Technology. American Chemical Society, Washington DC, 71-157. [Google Scholar] [CrossRef
[25] 苏玉红. 有机污染物在土壤-植物系统中迁移的机制及影响因素研究[J]. 2006.
[26] 罗斌, 王金亭. 我国的盐碱化土地与治理技术[J]. 林业科技通讯, 1994(3): 8-10.
[27] 牛东玲, 王启基. 盐碱地治理研究进展[J]. 土壤通报, 2002, 33(6): 449-455.
[28] 张振华, 严少华, 胡永红. 覆盖对滨海盐化土水盐运动和大麦产量影响的研究[J]. 土壤通报, 1996, 27(3): 136-138.
[29] 曾华宗, 罗利军. 植物抗旱、耐盐基因概述[J]. 植物遗传资源学报, 2003, 4(3): 270-273.
[30] 林栖凤, 李冠一. 植物耐盐性研究进展[J]. 生物工程进展, 2000, 20(2): 20-25.
[31] 崔润丽, 刁现民. 植物耐盐相关基因克隆与转化研究进展[J]. 中国生物工程杂志, 2005, 25(8): 25-30.

为你推荐