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In situ stimulation vs. bioaugmentation: Can microbial inoculation of plant roots enhance biodegradation of organic compounds.

机译：原位刺激与生物强化：微生物接种植物根可以增强有机化合物的生物降解。

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The use of plant roots and their associated rhizosphere bacteria for biocontainment and biorestoration offers several advantages for treating soil-dispersed contaminants and for application to large land areas. Plant roots function as effective delivery systems, since root growth transports bacteria vertically and laterally along the root in the soil column (see ( 1,2)). Movement of microbes along roots and downward in the soil column can be enhanced via irrigation (1-4). For example, Ciafardini et al. (3) increased the nodulation and the final yield of soybeans during pod filling by including Bradyrhizobium japonicum in the irrigation water. Using rhizosphere microorganisms is advantageous for biodegradation of compounds that are degraded mainly by cometabolic processes, e.g., trichloroethylene (TCE). The energy source for bacterial growth and metabolism is supplied by the plant in the form of root exudates and other sloughed organic material. Plants are inexpensive, and by careful choice of species that possess either tap or fibrous root growth patterns, they can be used to influence mass transport of soil contaminants to the root surface via the transpiration stream (5). Cropping of plants to remove heavy metals from contaminated soils has been proposed as a viable, low-cost, low-input treatment option (6). The interest in use of plants as a remediation strategy has even reached the popular press (7), where the use of ragweed for the reclamation of sites contaminated with tetraethyl lead and other heavy metals was discussed.

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作者
Kingsley, M. T.; Metting, F. B.; Fredrickson, J. K.; Seidler, R. J.;
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年度 1993
页码 1-14
总页数 14
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Organic Compounds; Soils; Biotechnology; Aromatics; Bacteria; Biodegradation; Remedial Action; Rhizobium; Waste Processing; Meetings; EDB/540220; EDB/540250; EDB/550700;

机译：有机化合物;土壤;生物技术;芳烃;细菌;生物降解;补救行动;根瘤菌;废物处理;会议; EDB / 540220; EDB / 540250; EDB / 550700;

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2. Use of aged sludge bioaugmentation in two-stage activated sludge system to enhance the biodegradation of toxic organic compounds in high strength wastewater [J] . Boonnorat Jarungwit, Techkarnjanaruk Somkiet, Honda Ryo, Chemosphere . 2018,第JULa期

机译：在两阶段活性污泥系统中使用老化污泥生物增强技术来增强高强度废水中有毒有机物的生物降解
3. Development Physiological and Stimulation of Roots Architecture in Cucumis sativus L. Plants Inoculated with Trichoderma longibrachiatum [J] . Mendez-Trujillo Vianey, Vargas-Bejarano Emmanuel, Carlos Vazquez-Angulo Juan, Journal of Pure & Applied Microbiology . 2013,第2期

机译：接种长木霉菌的黄瓜（Cucumis sativus L.）植物的根系发育发育生理和刺激
4. Abiotic and Microbial Degradation of Nitrogenous and Chlorinated Organic Compounds in Wetlands: Role of Iron Sulfide and Plant Roots [C] . Sarah Tritschler, Christina Powell, Abinash Agrawal International Conference on Remediation of Chlorinated adn Recalcitrant Compounds . 2010

机译：湿地中含氮和氯化有机化合物的非生物和微生物降解：硫化铁和植物根的作用
5. The impact of microbial population dynamics on the transport and biodegradation of organic compounds. [D] . Sandrin, Susannah Kathleen. 2001

机译：微生物种群动态对有机化合物的运输和生物降解的影响。
6. Effect of Inorganic N Top Dressing and Trichoderma harzianum Seed-Inoculation on Crop Yield and the Shaping of Root Microbial Communities of Wheat Plants Cultivated Under High Basal N Fertilization [O] . María Illescas, M. Belén Rubio, Víctor Hernández-Ruiz, 2020

机译：无机N顶级敷料和Trichoderma Harzianum种子接种作物产量的作用及小麦植物栽培根微生物群落的成型
7. Insights into the biodegradation of weathered hydrocarbons in contaminated soils by bioaugmentation and nutrient stimulation [O] . Jiang Ying, Brassington Kirsty J., Prpich George, 2016

机译：通过生物强化和养分刺激对风化烃在污染土壤中的生物降解的认识
8. In situ stimulation vs. bioaugmentation: Can microbial inoculation of plant roots enhance biodegradation of organic compounds [R] . Kingsley, M. T., Metting, F. B., Fredrickson, J. K., 1993

机译：原位刺激与生物强化：微生物接种植物根可以增强有机化合物的生物降解

In situ stimulation vs. bioaugmentation: Can microbial inoculation of plant roots enhance biodegradation of organic compounds.

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