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用植物清除土壤重金属污染 总被引:1,自引:0,他引:1
伴随着人类社会工业的发展,环境污染也越来越严重,其中土壤的污染已日益引起人们的重视。土壤污染物按其性质可分为有机污染和无机污染两种,前者包括有机农药、石油和有机洗涤剂等,后者指重金属和放射性元素等。以往人们曾经想了很多办法来治理这些污染,如客土法、淋溶法和络合浸提法等。然而应用这些方法通常需要巨额的花费,而且还容易造成二次污染。那么是否有更好的办法吗?答案是肯定的,这就是利用植物来清除土壤的污染物。以土壤重金属污染为例,有人注意到,在一些多年的煤矿以及一些工业排污区,只有少数植物可以生长,而其他… 相似文献
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重金属超量积累植物研究进展 总被引:109,自引:1,他引:109
重金属超量积累植物具有极高的吸收和积累重金属的能力。本文介绍了超量积累植物的特性、种类,对重金属的吸收与忍耐机理,及其在治理污染土壤中的潜力等方面的最新研究进展。 相似文献
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随着人口的增长和工业的发展,废物废水的排放和矿山废弃地不断增加,加之各种化学物质在人类活动中的广泛使用,重金属污染已成为人们日益关注的环境问题之一。土壤被重金属污染以后,一方面直接影响作物生产并通过食物链危害人类;另一方面由于大多数重金属元素进入土壤以后很难移动,使治理重金属污染的土壤变得十分困难。自然净化过程极其漫长,一般需要成千上万年的时间。采用客土法和淋溶法治理,不仅成本昂贵,需要特殊仪器和经过培训的专业人员,还不能从根本上解决问题。随着人OJ对环境保护的日益重视,一些科学家开始探索在不破… 相似文献
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植物修复——治理土壤重金属污染的新途径 总被引:16,自引:0,他引:16
介绍了重金属污染土壤的植物修复的概念、原理与研究动态以及重金属超积累植物的特性 ,及其在治理污染土壤中的潜力 ,为土壤重金属污染的整治及其生态的修复提出新途径。 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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重金属污染土壤的植物-微生物联合修复研究进展 总被引:6,自引:0,他引:6
重金属污染土壤的生物修复技术是土壤污染整治的重要手段之一,是近几年来国内外研究的热点,同时也是现今土壤污染治理中环境友好、成本低廉的技术.本文主要论述了重金属污染土壤的植物-微生物联合修复的原理与形式,介绍了此技术中土壤重金属污染物特性、植物本身生理生化特性及植物根际环境等影响因素的研究进展,并讨论了植物-微生物联合修复今后的研究重点.Abstract: Bioremediation is one of the important means in controlling soil heavy metals pollu-tion, which has the advantages of environmentally friendly and cost-effective, and attracted much attention around the world. This paper discussed the principles and forms of plant-microorganism combined remediation, and introduced the research progress on the behaviors of heavy metals in soils, the physiological and biochemical characteristics of plants, and the changes in rhizosphere environment under the remediation. Some perspectives for future research were proposed. 相似文献
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Fenghua Wang Shuangchen Chen Xiaohong Wang Guangyuan Li 《Soil & Sediment Contamination》2011,20(8):977-985
The effects of Cu contamination on RumexK-1 were studied using a pot trial. The results showed that the dry weight of leaves and roots did not change significantly under Cu stress when compared with CK (0 mg kg?1 Cu). Additionally, there was no difference in the amounts of chlorophylla, chlorophyllb, chlorophyll (a+b), and the chlorophylla/b ratio between the CK and Cu treatments. The Cu accumulated in leaves and roots, particularly in the roots, with more Cu accumulating in the plants at higher Cu concentrations in the soil. The proline and soluble protein contents in the leaves were more sensitive to Cu contamination than in the roots. Finally, Cu contamination significantly inhibited the acid phosphatase, alkaline phosphatase, and peroxidase activities in the leaves. These results indicate that RumexK-1 is a plant that can accumulate Cu, exhibits some different metabolic mechanisms under Cu stress, and may be suitable for the phytoremediation of Cu contaminated soils. 相似文献
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植物修复技术(Phytoremediation)是近年来发展起来的一种主要用于清除土壤重金属污染的绿色生态技术,重金属超富集植物(hyperaccumulator)及植物修复技术是当前学术界研究的热点领域,目前虽已有Cd、Co、Cr、Cu、Mn、Ni、Pb、Zn等超富集植物发现的报道,但尚无一例报道来自于中国,中国具有广袤的国土面积、丰富的植物类型和多种(处)古老的矿山开采与冶炼场所,在中国开展超富集植物的寻找,研究与开发工作,将会有重要突破,并具有重要的理论与实践意义,本文拟就国内外在这一领域的研究进展作一简要综述。 相似文献
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通过植物的采集、培育和选种,获得了海芋、合果芋、蜘蛛兰和密穗砖子苗等4种同时具备去碳、脱氮、除磷和积累重金属的高效修复植物,并对这些植物修复污染水体的性能进行了研究.结果表明,这4种植物均能有效地处理有机物和重金属复合污染水体.鲜重55-60g的植物,处理10LBOD5、CODCr、TP、TN、Cu2+和Cr6+浓度分别为140、280、6,8、40、10和10mg·L-1的模拟水样14d后,上述指标的去除率分别高达80%、72%、64%、53%、75%和68%以上,植物的促进作用分别为32%、27%、27%、28%、37%和19%以上.处理后水样的pH和DO分别为6.63~7.63和3.02~3.84mg·L-1. 相似文献
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The cadmium (Cd) tolerance and metal-accumulation characteristics of 29 species (18 families) of weed were studied by using outdoor pot-culture experiments. The results of this screening showed that Bidens pilosa and Kalimeris integrifolia (both Asteraceae) expressed some properties that are characteristic of Cd hyperaccumulators. In 10 mg/kg Cd-spiked soil, they accumulated a good deal of Cd in shoots (28 and 25 mg/kg DW, respectively) with high Cd enrichment factors (EFs; concentration in plant/soil). Cd accumulations in shoots were greater than those in roots (translocation factor (TF) >1, concentration in shoot/root) and the shoot biomasses did not decreased significantly compared to the unspiked control. The other weed species showed little accumulation of Cd, Pb, Cu, or Zn. In a concentration-gradient experiment, the Cd accumulation potentials of B. pilosa and K. integrifolia were examined further. Cd concentrations in leaves of B. pilosa growing in soils spiked with 25, 50, and 100 mg/kg Cd were up to 145, 160, and 192 mg/kg, respectively, and the Cd content in stems in the 100 mg/kg Cd-spiked soil was 115 mg/kg, all greater than the 100 mg/kg notional criterion for Cd hyperaccumulation. The Cd EFs and TFs were all greater than 1. The shoot biomasses did not decrease significantly compared to the controls. B. pilosa was thus shown to have some characteristics of a true Cd hyperaccumulator plant. 相似文献
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铅锌矿区土壤和植物重金属污染调查分析 总被引:25,自引:0,他引:25
对有色金属矿区土壤和植物重金属污染状况调查结果表明,由于遭受尾矿砂及矿毒水污染,矿区土壤极端贫瘠,土壤中Pb、Cd、Zn和Cu含量分别达764.74、4.10、372.75和95.57 mg.kg-1,重金属污染较为严重。在矿区周边有9种优势植物能够在污染土壤上定居,对Cu、Cd、Pb和Zn 4种重金属元素均有不同程度的积累,积累量均未达到超累积植物所规定的临界含量。其中的野菊花〔Dendranthema indicum(L.)Des Mou l.〕、旋鳞莎草〔Cyperusm ichelianus(L.)L ink〕、五节芒〔M iscanthus floridulus(Lab ill.)W arb.ex Schum.et Laut.〕3种植物地上部生物量较大且对某些重金属向地上部转运能力较强,对重金属污染土壤有一定的修复潜力。 相似文献
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Metal mobility and the fractionation of elements and thus the biological uptake of Zn, Pb and Cd by plants were investigated using a simplified analytical procedure for soluble and bioavailable metals using a four-step sequential extraction procedure. Results showed that there was a low proportion of immediately soluble metals, as well as a high proportion of metals that could be released and would so be available for plant uptake. In the sequential extraction procedure, considering the total partition, there was a large proportion of Pb, Cd and Zn extracted in a readily mobile form. In acidic soils the content of metals in ready mobile form (exchangeable-bound to carbonates as well as to Fe and Mn oxides) and bound to organic matter constitutes an important source of potentially available elements. The same pattern was observed in alkaline soils, where almost 80% of the metals could be remobilized and be potentially available to plants. Knowing the metal partitioning and mobility of heavy metals it is very important for evaluating the phytoremediation efficiency. 相似文献