共查询到19条相似文献,搜索用时 78 毫秒
1.
有机螯合剂在镍污染土壤植物修复中的研究进展 总被引:7,自引:0,他引:7
有机螯合剂的存在能促进土壤中的固相Ni向水溶态转化,提高Ni的生物可利用性。本文讨论了土壤中镍的存在形态以及有机螯合剂对土壤中镍形态的影响。并从植物吸收Ni的机制出发,阐述有机螯合剂对植物吸收Ni和植物生物量的影响。分析了植物修复的螯合诱导技术的一些局限性,并对植物修复螯合诱导技术提出展望。 相似文献
2.
随着工业和经济的发展,土壤重金属污染越来越严重,因此重金属污染土壤的修复迫在眉睫。植物修复技术因其经济、环保等优点已经成为国内外研究的热点,但存在修复植物稀少的问题。将其他技术与植物修复技术联用可能是突破植物修复这一局限性的关键举措之一。介绍了基因工程技术与植物修复技术联用的研究进展;总结了微生物技术与植物修复技术联用中植物根际促生细菌、菌根真菌的作用;概述了材料化学技术联合植物修复的应用现状,着重介绍了土壤改良剂和螯合剂的实际应用。最后对基因工程、微生物、材料化学等技术联合植物修复技术在研究和应用中的未来方向进行了前景展望,旨在为植物修复技术发展提供更多新的思路和参考。 相似文献
3.
植物修复--大面积低剂量放射性污染的新治理技术 总被引:5,自引:0,他引:5
放射性污染是当今难以治理的环境污染问题,对于大面积低剂量的放射性污染,植物修复是种较适用的新型治理技术.系统阐述了植物修复技术的概念与内容,对放射性污染植物修复技术研究现状与进展、植物修复的优缺点进行了重点评述,并对这技术在未来放射性污染治理中的应用与研究提出了建议. 相似文献
4.
有机螯合剂的存在能促进土壤中的固相Ni向水溶态转化 ,提高Ni的生物可利用性。本文讨论了土壤中镍的存在形态以及有机螯合剂对土壤中镍形态的影响 ,并从植物吸收Ni的机制出发 ,阐述有机螯合剂对植物吸收Ni和植物生物量的影响 ,分析了植物修复的螯合诱导技术的一些局限性 ,并对植物修复螯合诱导技术提出展望 相似文献
5.
重金属污染土壤植物修复及进展 总被引:21,自引:0,他引:21
土壤污染是当今面临的一个重要环境问题。常规的土壤污染物化学治理技术,如客土换土法、冲洗法、热处理、固化、玻璃化、动电修复法等,由于其技术要求高或经济成本高昂,对土壤结构的扰动破碎较严重,因而,大规模推广应用存在较大问题。重金属超累积植物的不断发现,使人们认识到有可能利用植物于土壤污染的治理修复。自20世纪90年代起,植物修复成为环境污染治理研究领域的一个前沿性课题。研究表明,通过植物的吸收、挥发、根滤、稳定等作用,可以净化土壤或水体中金属污染物,达到净化环境的目的。近10年来,在超累积植物的找寻培育、植物根际微生物共存体系研究、植物对重金属的耐忍性、超量吸收及其解毒机制以及植物修复的工艺技术方面已有不少研究,并取得长 的进展,现代分子生物学的发展以及基因工程技术的应用有可能使植物修复技术取得根本性的突破。 相似文献
6.
生物修复技术是目前高氯酸盐污染环境整治的最具潜力的修复技术之一,具有成本低、无二次污染的特点,是国内外一个新的研究热点,亦是仅见的污染控制及修复的环境友好技术。介绍了环境中高氯酸盐污染的来源与分布,阐述了生物修复(主要包括植物修复和微生物修复)的特点及作用机制,认识到2种类型修复技术各有其优劣势;重点综述了生物修复高氯酸盐污染的国内外研究现状,得出植物根际降解对植物修复高氯酸盐起着十分重要作用,而微生物修复是目前最有希望获得大规模应用的高氯酸盐污染修复技术;最后提出了植物-微生物联合强化修复高氯酸盐污染的技术将更具应用前景。 相似文献
7.
植物修复及重金属在植物体内形态分析综述 总被引:2,自引:0,他引:2
《环境污染与防治》2017,(11)
植物修复是重金属污染土壤治理的重要方法,因其具有高效、经济及生态协调性等优势而广受关注。当前相关研究主要包括超积累植物体内重金属的迁移转化与形态分析方法,土壤修复后植物的减量化、无害化和资源化利用等方面。实验研究及修复工程中存在的问题主要体现为:(1)基础研究方面,目前对植物超积累重金属的分子机制、调控原理等方面的研究不够完善;(2)应用技术方面,修复植物的规模化种植、适用的栽培技术、收获物安全处置及资源化利用方面仍是植物修复技术发展的瓶颈。因此,目前需要深入研究超积累植物吸收、运输和积累重金属的生理机制,利于植物生长的农业措施以及用于修复的植物收获后的相应处理技术。同时,应结合重金属在植物体内的形态,对修复后的植物进行合理的减量化、无害化、资源化处理,以便于更加科学合理地选择土壤重金属修复植物,大规模推广植物修复技术的应用。 相似文献
8.
石油污染土壤的植物与微生物修复技术 总被引:20,自引:3,他引:20
石油污染土壤的生物修复技术具有成本低、简便高效、对环境影响小等优点,正逐步成为石油污染治理研究的热点领域,具有广阔的发展前景.介绍了我国的石油污染概况及生物修复技术在石油污染治理中的应用,重点对石油污染土壤的微生物修复、植物修复、植物一微生物联合修复技术的研究进展及各自的优点、局限性进行了综述,并提出了石油污染土壤生物修复技术研究的重点领域. 相似文献
9.
10.
11.
12.
13.
Teixeira J Sousa A Azenha M Moreira JT Fidalgo F Fernando Silva A Faria JL Silva AM 《Chemosphere》2011,85(5):744-750
In this work, the phytoremediation potential of metalaxyl, a commonly used persistent, mobile and leachy fungicide, by Solanum nigrum L. plants was studied. The study revealed that this plant species can be used as an excellent metalaxyl phytoremediation tool, thus providing a cost effective and environmentally friendly clean technology for the decontamination of sites and effluents. As it can be sowed directly in the remediation site, is able to complete its life cycle without suffering major stress. Because it accumulates high amounts of the fungicide in the aboveground tissues, enables its concentration and proper disposal by cutting off the corresponding plant part. The study also suggests that the tolerance to metalaxyl is due to a suitable antioxidant response comprising proline accumulation and guaiacol peroxidase and glutathione-S-transferase enhanced activities, that reduce oxidative damage to the plant organs. 相似文献
14.
15.
A multi-process phytoremediation system for removal of polycyclic aromatic hydrocarbons from contaminated soils 总被引:10,自引:0,他引:10
Huang XD El-Alawi Y Penrose DM Glick BR Greenberg BM 《Environmental pollution (Barking, Essex : 1987)》2004,130(3):465-476
To improve phytoremediation processes, multiple techniques that comprise different aspects of contaminant removal from soils have been combined. Using creosote as a test contaminant, a multi-process phytoremediation system composed of physical (volatilization), photochemical (photooxidation) and microbial remediation, and phytoremediation (plant-assisted remediation) processes was developed. The techniques applied to realize these processes were land-farming (aeration and light exposure), introduction of contaminant degrading bacteria, plant growth promoting rhizobacteria (PGPR), and plant growth of contaminant-tolerant tall fescue (Festuca arundinacea). Over a 4-month period, the average efficiency of removal of 16 priority PAHs by the multi-process remediation system was twice that of land-farming, 50% more than bioremediation alone, and 45% more than phytoremediation by itself. Importantly, the multi-process system was capable of removing most of the highly hydrophobic, soil-bound PAHs from soil. The key elements for successful phytoremediation were the use of plant species that have the ability to proliferate in the presence of high levels of contaminants and strains of PGPR that increase plant tolerance to contaminants and accelerate plant growth in heavily contaminated soils. The synergistic use of these approaches resulted in rapid and massive biomass accumulation of plant tissue in contaminated soil, putatively providing more active metabolic processes, leading to more rapid and more complete removal of PAHs. 相似文献
16.
17.
Improvement of the hydrocarbon phytoremediation rate by Cyperus laxus Lam. inoculated with a microbial consortium in a model system 总被引:5,自引:0,他引:5
Escalante-Espinosa E Gallegos-Martínez ME Favela-Torres E Gutiérrez-Rojas M 《Chemosphere》2005,59(3):405-413
Hydrocarbon phytoremediation by Cyperus laxus Lam. growing on perlite and inoculated with hydrocarbon-degrading microorganisms was evaluated. Total petroleum hydrocarbons (TPH) were extracted from weathered soil (60.7 g of TPH kg(-1) of dry soil) and spiked on perlite at initial concentration of 5 g of TPH kg(-1) of dry perlite. Phenological characteristics, total microbial viable counts, hydrocarbon degraders and residual hydrocarbons were determined through 180 days of culture. Phenological characteristics of inoculated plants were improved as compared with non-inoculated plants: root biomass was 1.6 times greater, flowering time was reduced (13%), and the number of inflorescences was 1.5 times higher. The rhizospheric bacterial and fungi counts were higher for planted treatments (inoculated and not inoculated) than for unplanted pots. The maximum phytoremediation rate (0.51 mg of TPH g(-1) of dry plant d(-1)) for inoculated plants was reached at 60 days of culture, and was two times higher than for non-inoculated plants (55% TPH removal). Similar hydrocarbon phytoremediation extent values for inoculated (90%) and non-inoculated (85%) plants were obtained at 180 days of culture. The present study demonstrated that mutual benefits between C. laxus and inoculated hydrocarbon-degrading microorganisms are improved during phytoremediation. It is pertinent to note that this is the first report of hydrocarbon phytoremediation by Cyperus laxus Lam., a native plant growing in highly contaminated swamps. 相似文献
18.
Sara Di Lonardo Maurizio Capuana Miluscia Arnetoli Roberto Gabbrielli Cristina Gonnelli 《Environmental science and pollution research international》2011,18(1):82-90