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植物种植修复土壤重金属污染的模式、技术与效果综述 总被引:1,自引:0,他引:1
重金属污染是当今土壤污染中污染面积最广、危害最大的环境问题之一, 其中植物修复技术以其经济有效、不易产生二次污染且适于大面积土壤修复等优点越来越受到重视。因此, 以植物修复技术对重金属污染修复的影响为研究内容, 侧重研究桉树、白花泡桐、向日葵、毛白杨以及节节草等植物对土壤重金属污染修复的研究进展, 以期为重金属污染修复技术的发展提供一定的理论基础和实践意义。 相似文献
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铜污染土壤的生物修复研究进展 总被引:1,自引:0,他引:1
随着工业化与农业化进程的加快,土壤重金属污染问题日益突出。铜(Cu)既是生命体生长发育的必需微量元素,也是重金属污染物之一。土壤中过量的Cu不仅会对植物产生毒害,而且能够通过食物链的富集作用,对人类健康造成严重威胁。生物修复技术作为治理重金属污染土壤的一种新型技术受到广泛关注。文中对生物修复的主要技术如植物修复、微生物修复、植物-微生物联合修复、动物修复等在治理Cu污染土壤方面的研究进展进行综述,以期为重金属污染土壤有效治理和可持续农业的发展提供理论依据。 相似文献
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印度梨形孢-植物共生关系的建立及共生体对重金属胁迫的响应 总被引:1,自引:0,他引:1
《中国科学:生命科学》2021,(4)
重金属污染土壤的治理一直是全球热点问题,植物-微生物联合修复技术因其高效、经济和减少二次污染而被广泛关注.印度梨形孢是一种能够与植物共生的真菌,它能够通过与植物建立共生关系的方式来提高宿主植物的生长和耐胁迫能力.本文系统总结了印度梨形孢-植物体共生关系的建立过程,以及重金属胁迫下共生体的生长、光合作用、抗性生理指标、防御基因表达和对重金属富集等响应的研究进展,并针对研究现状提出了展望.文章对深入了解利用印度梨形孢与植物共生体对重金属污染土壤的修复提供了理论参考. 相似文献
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强化植物修复重金属污染土壤的策略及其机制 总被引:4,自引:0,他引:4
重金属对生态环境、农业生产、人类健康等诸多方面造成重要危害。植物修复因其具有经济有效、绿色生态等优点,已经成为土壤重金属污染修复研究领域的热点。由于植物重金属毒害、修复耗时过长等因素致使植物修复技术受限于研究阶段而不能广泛应用于实践。采用科学合理的强化措施提高植物修复的效率可能是解决该矛盾的关键之一。讨论了根瘤菌、丛枝菌根真菌、溶磷微生物和内生真菌构建的微生物-植物共生系统在强化植物修复过程中的具体应用;概述了EDTA、EDDS等螯合剂在改变土壤中重金属可溶态,促进重金属从土壤向植株转运的重要作用;介绍了植物中编码金属转运蛋白、金属硫蛋白、植物螯合肽等与重金属转运和代谢相关的基因在植物修复领域的实际应用;归纳了上述强化策略主要机制为微生物促进植物生长、缓解重金属植物毒性以及提高了土壤中重金属生物利用度,从而促进重金属在富集植物中积累和植物生物量的增加;最后总结并展望了植物修复强化技术在今后研究的重点及存在的问题。综述植物修复技术采用的主要强化策略及其机制,旨在为利用植物修复技术治理土壤重金属污染提供重要参考。 相似文献
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随着近代工业的发展,土壤重金属污染问题日益严重。重金属即使在极低浓度下仍然可以对人畜造成健康上的威胁,因此迫切需要有效的修复方法对土壤进行修复。生物修复,特别是植物修复目前已经成为重金属污染修复的重要手段之一,了解相关植物的重金属解毒和积累分子机制是提高修复效率、解决重金属污染问题的基础。文中以土壤修复方式为起点,结合植物吸收积累重金属以及解毒的相关分子机制研究,探讨了植物修复的发展现状以及趋势。 相似文献
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近年来重金属污染等生态环境问题日益受到重视,而物理、化学修复方法存在的诸如成本高、二次污染等问题,使得利用植物、微生物等进行联合治理成为环境修复的重要手段。植物根系分泌物作为植物与土壤进行营养和信息交流的重要媒介,不但对植物的生长具有重要作用,其在污染及沙化土壤修复中作用的研究也得以广泛开展。本文对根系分泌物的组成、分泌机制进行了阐述,并对其在植物吸收重金属、化感作用、植物根系与根际微生物互作、改变土壤理化性质等过程中的作用及机理进行了总结。此外,本文还对利用根系分泌物和根际微生物在生态环境治理中的应用现状、面临的难题及未来的发展等进行了讨论。希望本文可为基于植物与微生物进行的环境修复技术的实际应用提供理论支撑。 相似文献
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植物内生细菌在植物修复重金属污染土壤中的应用 总被引:1,自引:0,他引:1
土壤重金属污染是威胁人群健康和经济可持续发展的重要环境问题。植物修复具有经济、环保等特点,已成为治理重金属污染土壤的重要技术。如何提高植物对重金属的抗性、促进植物生长是影响植物修复效率的关键之一。内生菌群-植物共生关系在此方面具有独特优势。其中,植物内生细菌可改善植物营养、降低植物病菌感染、影响酶活性,以及分泌激素、含铁载体和有机配位体等,进而提高超积累植物对重金属的吸收作用。本文综述了近年来国内外关于抗重金属植物内生细菌筛选与应用的研究进展,分析了内生细菌促进植物生长、增强植物对重金属抗性、促进重金属向茎叶转移的机理,阐述了植物内生细菌在重金属污染土壤修复中的应用前景与研究重点。 相似文献
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利用能源植物治理土壤重金属污染 总被引:7,自引:0,他引:7
随着工农业的发展,土壤重金属污染日益加剧,严重威胁着粮食生产和人类健康。植物修复因其成本低、环境友好以及可大规模原位修复等优点备受关注,成为近年来迅速发展的重金属污染土壤治理技术。在介绍国内外植物修复技术发展与应用现状的基础上,提倡大力发展能源植物修复重金属污染土地,并结合湖南重金属污染田间试验结果,重点对甜高粱(Sorghum bicolor(Linn.)Moench)用于重金属污染土壤修复的优势、可行性及提高修复效率的措施进行了深入分析与探讨。利用甜高粱治理土壤重金属污染,能将土壤修复与生物能源生产有机结合,使重金属从粮食链转入能源链,同时兼顾了生态和经济效益,具有广阔的应用前景。 相似文献
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植物修复因投资成本低、环境扰动少、二次污染易控制、美化环境等优点成为重金属污染土壤修复重要的治理技术。植物内源细胞分裂素调控植物生理活动,外源细胞分裂素对植物生理生态特征产生显著影响,且在植物修复中逐渐受到研究人员的关注。细胞分裂素能够调控植物根茎发育、叶片衰老、激素传递等过程,同时在重金属胁迫下也参与蒸腾、光合、抗性、解毒等系统的运转。以细胞分裂素对植物生理活动的调控作用研究为基础,阐述了细胞分裂素在植物修复中的作用机制。主要包括:增强光合作用,延缓叶片衰老,提升植物抗性能力;调控根茎叶发育,增加植物生物量,强化植物富集效果;增强转运蛋白表达,提高叶面蒸腾作用,促进重金属吸收转运;参与解毒过程,降低重金属毒性,调控重金属体内转化。最后提出了细胞分裂素在重金属污染土壤植物修复中的研究方向,这对促进细胞分裂素在植物修复中的实际应用具有重要意义。 相似文献
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生物修复技术,作为可持续发展的重要方向,因其环境友好、高效且无二次污染并能从根本上解决土壤污染问题而受到关注,已经在土壤污染治理中得到了广泛的应用。为了梳理和凝练生物修复技术的发展状况,本专刊收录了该研究领域的16篇论文,分别从植物修复、微生物修复、联合修复、重金属吸收积累的相关分子机制、资源化再利用等方面,详细阐述生物修复技术的发展动态,展望未来的发展趋势,为促进生物修复技术的发展提供参考。 相似文献
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As an herbaceous perennial, Miscanthus has attracted extensive attention in bioenergy refinery and ecological remediation due to its high yield and superior environmental adaptability. This review summarizes current research advances of Miscanthus in several aspects including biological properties, biofuels production, and phytoremediation of contaminated soil. Miscanthus has relatively high biomass yield, calorific value, and cellulose content compared with other lignocellulosic bioenergy crops, which make it one of the most promising feedstocks for the production of second‐generation biofuels. Moreover, Miscanthus can endure soil pollutions caused by various heavy metals and survive in a variety of adverse environmental conditions. Therefore, it also has potential applications in ecological remediation of contaminated soil, and reclamation of polluted soil and water resources. Nevertheless, more endeavors are still needed in the genetic improvement and elite cultivar breeding, large‐scale cultivation on marginal land, and efficient conversion to biofuels, when utilizing Miscanthus as a bioenergy crop. Furthermore, more efforts should also be undertaken to translate Miscanthus into a bioenergy crop with the phytoremediation potential. 相似文献
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重金属污染的转基因植物修复——原理与应用 总被引:5,自引:0,他引:5
污染环境的植物修复技术具有成本低、不造成二次污染等优点。从自然界中寻找用于污染环境修复的超富积植物不仅难度大 ,而且受生物量、生长周期以及地理环境等因素的限制。近几年迅速发展起来的通过转基因植物进行污染环境的修复技术显示了广阔的应用前景。外源基因在植物的高效表达可以提高植物吸收、运输、降解污染物的能力以及修复的效率 ,并可以作为研究不同污染物修复机理的实验系统。以转基因植物修复几种主要的重金属污染为例 ,介绍了转基因植物修复的原理、现状及存在问题 ,并探讨了提高转基因植物修复效率的一些方法 。 相似文献
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解磷微生物修复土壤重金属污染研究进展 总被引:6,自引:0,他引:6
土壤重金属污染问题日益严重,具有普遍性、隐蔽性、表聚性、不可逆性等特点,已经成为环境污染治理中的热点、难点问题。解磷微生物能够依靠自身的代谢产物或通过与其他生物的协同作用,将土壤中的难溶性磷转化为可供植物吸收利用的磷,具有多重植物促生长功能和重金属解毒能力,可在重金属毒害水平下,促进植物生长、提高植物抗病能力、克服重金属对植物生长的不利影响,从而增强重金属修复植物的生存竞争力。从解磷微生物的研究现状入手,介绍了解磷微生物对土壤重金属污染的修复能力,综述了解磷微生物对土壤重金属污染修复的作用机制,分析了目前解磷微生物在重金属修复过程中存在的问题,并提出了今后研究的方向,为重金属污染土壤的修复提供了新思路。 相似文献
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Heavy metal pollution is one of most toxic pollutions and cause serious threat to organisms as well as the environment. The tremendous increase in industrialization and other anthropogenic activities magnify the rate of heavy metal pollution. The present study reveals the heavy metal pollution assessment in Kadalundi Vallikunnu Community Reserve (KVCR), a scheduled community reserve of Kerala, India. The results from the study indicate that the heavy metal pollution index of KVCR was less because of the mangrove cover in this region. KVCR is endowed with different mangroves and it plays a significant role in controlling the heavy metal pollution and water quality. The higher Importance Value Index and Relative Importance Value Index was shown in the case of Avicennia officinalis, followed by Acanthus ilicifolius and the lowest values of these indices were observed in the case of Sonneratia alba. The less accumulation of heavy metals in the soil sediments was due to the potential of mangrove species for effective absorption of toxic metals from the soil sediments. Mangrove vegetation in the wetlands is potent phytoremediators and can play a significant role in phytoremediation of wetlands. The high BCF value of A. ilicifolius indicates its suitability for heavy metal remediation in wetlands. Eco restoration of heavy metal polluted wetlands using mangroves is a promising and sustainable solution for heavy metal pollution in such ecologically fragile areas.
相似文献17.
Heavy metal contamination of land and freshwater resources is a serious concern worldwide. It adversely affects the health of animals, plants and humans. Therefore, remediation of toxic heavy metals must be highly considered. Unlike other techniques, phytoremediation is a holistic technology and can be used in large scale for soil remediation as it is costless, novel, environmentally-safe and solar-driven technology. Utilization of non-edible plants in phytoremediation is an ingenious technique as they are used to generate new bioenergy resources along with the remediation of contaminated soils. Some nonfood bioenergy crops such as Salix species, Miscanthus species, Populus species, Eucalyptus species, and Ricinus communis exhibit high capability to accumulate various metals and to grow in contaminated lands. However, there are still sustainable challenges facing coupling phytoremediation with bioenergy production from polluted lands. Therefore, there has long been a need for developing different strategies to resolve such challenges. In this article review, we will discuss the phytoremediation mechanism, the technique of phytoremediation coupling with bioenergy production, sustainable problems facing linking phytoremediation with energy production as well as possible strategies to enhance the efficiency of bioenergy plants for soil decontamination by improving their characteristics such as metal uptake, transport, accumulation, and tolerance. 相似文献
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Suitability of aromatic plants for phytoremediation of heavy metal contaminated areas: a review 总被引:1,自引:0,他引:1
AbstractThis review briefly elucidates the research undertaken and benefits of using aromatic plants for remediation of heavy metal polluted sites. A sustainable approach to mitigate heavy metal contamination of environment is need of the hour. Phytoremediation has emerged to be one of the most preferable choices for combating the metal pollution problem. Aromatic plants can be used for remediation of contaminated sites as they are non-food crops thus minimizing the risk of food chain contamination. Most promising aromatic plants for phytoremediation of heavy metal contaminated sites have been identified from families – Poaceae, Lamiaceae, Asteraceae, and Geraniaceae. They act as potential phytostabilisers, hyper accumulators, bio-monitors, and facultative metallophytes. Being high value economic crops, monetary benefits can be obtained by growing them in tainted areas instead of food crops. It has been observed that heavy metal stress enhances the essential oil percentage of certain aromatic crops. Research conducted on some major aromatic plants in this context has been highlighted in the present review which suggests that aromatic plants hold a great potential for phytoremediation. It has been reported that essential oil from aromatic crops is not contaminated by heavy metals significantly. Thus, aromatic plants are emerging as an ideal candidate for phytoremediation.Highlights? Aromatic plants hold a great potential for phytoremediation of heavy metal contaminated sites.? Being high value economic crops, monetary benefits can be obtained by growing them in contaminated areas instead of food crops.? Research done on some major aromatic plants in this context has been highlighted in the present review. 相似文献
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Heavy metal-contaminated soil is one of the major environmental
pollution problems of agricultural production and human health in the world.
Remediation of heavy metals in soil is one of the most popular research subjects.
Different remediation strategies have been reported to remove heavy metals from
contaminated soil, among which phytoremediation is the most important one.
Compared with other major crops, cotton shows the strongest and most widespread resistance to abiotic stresses, such as heavy metals. Although heavy metal
stress adversely affects the growth and development of cotton, cotton possesses a
set of sophisticated stress-resistance strategies. As the main product of cotton is
nonedible fibers, which have a large biomass and strong heavy metal absorption
and enrichment capacities, cotton is an ideal crop to restore heavy metal-contaminated
soils and has unique advantages in terms of both ecological and economic benefits,
with great application prospects. In this review, based on domestic and foreign
research results in recent years, the effects of heavy metals on cotton growth and
product quality were analyzed, the heavy metal absorption, accumulation, translocation and enrichment characteristics of cotton plants were summarized, and the
adaptation and tolerance mechanisms of cotton to heavy metals were explored.
Furthermore, the view that cotton is an effective crop to remediate heavy metal
pollution in farmland soil has been proposed, and popularization and application
suggestions for planting cotton to repair heavy metal pollution have been put
forward to provide a reference for the comprehensive evaluation of the economic
feasibility of cotton to repair heavy metal pollution in farmland soil. 相似文献