排序方式: 共有181条查询结果,搜索用时 15 毫秒
31.
32.
33.
Cristina Gonnelli Stefano Marsili-Libelli Alan Baker Roberto Gabbrielli 《International journal of phytoremediation》2000,2(4):343-351
One of the most serious and long-term consequences of environmental pollution is heavy metal contamination of soils. Elements such as zinc, cadmium, lead, nickel, and chromium are being released into the environment by many industrial processes and have now reached concentrations that are of concern. Phytoremediation is a new, low-cost, and environmentally friendly technique that relies on the natural properties of some plants to clean-up the ground through their ability to take up metals from the soil. Hyperaccumulator plants, capable of accumulating metals far in excess of any normal physiological requirement, represent a most promising tool for metal phytoextraction, but the in field establishment of their conditions for utilization needs a long period because of the plant life-cycle. The use of a mathematical model is proposed to process growth and uptake data from in vitro experiments for a rapid assessment of the time and concentration parameters for the deployment of hyperaccumulator plants for phytoextraction purposes. This preliminary research has been carried out using Alyssum bertolonii Desv., a nickel hyperaccumulator endemic to Italian serpentine soils. 相似文献
34.
Kochian Leon V. Pence Nicole S. Letham Deborah L.D. Pineros Miguel A. Magalhaes Jurandir V. Hoekenga Owen A. Garvin David F. 《Plant and Soil》2002,247(1):109-119
Plants have evolved sophisticated mechanisms to deal with toxic levels of metals in the soil. In this paper, an overview of recent progress with regards to understanding fundamental molecular and physiological mechanisms underlying plant resistance to both aluminum (Al) and heavy metals is presented. The discussion of plant Al resistance will focus on recent advances in our understanding of a mechanism based on Al exclusion from the root apex, which is facilitated by Al-activated exudation of organic acid anions. The consideration of heavy metal resistance will focus on research into a metal hyperaccumulating plant species, the Zn/Cd hyperaccumulator, Thlaspi caerulescens, as an example for plant heavy metal research. Based on the specific cases considered in this paper, it appears that quite different strategies are used for Al and heavy metal resistance. For Al, our current understanding of a resistance mechanism based on excluding soil-borne Al from the root apex is presented. For heavy metals, a totally different strategy based on extreme tolerance and metal hyperaccumulation is described for a hyperaccumulator plant species that has evolved on naturally metalliferous soils. The reason these two strategies are the focus of this paper is that, currently, they are the best understood mechanisms of metal resistance in terrestrial plants. However, it is likely that other mechanisms of Al and/or heavy metal resistance are also operating in certain plant species, and there may be common features shared for dealing with Al and heavy resistance. Future research may uncover a number of novel metal resistance mechanisms in plants. Certainly the complex genetics of Al resistance in some crop plant species, such as rice and maize, suggests that a number of presently unidentified mechanisms are part of an overall strategy of metal resistance in crop plants. 相似文献
35.
四种景天属植物对锌吸收和累积差异的研究 总被引:17,自引:0,他引:17
采用营养液培养试验 ,比较研究了 4种景天属植物对Zn的吸收、积累和运输特性。结果表明 ,东南景天(SedumalfrediiHance)耐Zn毒的能力远强于珠芽景天 (S .sarmentosumBunge)、凹叶景天 (S .bulbiferumMakino)和垂盆草 (S .emarginatumMigo) ,其地上部和根系的干物质产量随着Zn浓度的增加而逐渐减少 ;当浓度≤ 40mg·L-1时 ,东南景天的地上部和根系的干物质产量均随Zn浓度的增加而增加 ,其地上部Zn含量、积累量及其Zn运输速率均显著高于珠芽景天、凹叶景天和垂盆草 ;当Zn浓度低于 80mg·L-1时 ,东南景天地上部Zn含量随着营养液中Zn浓度的增加而增加 ,在 80mg·L-1浓度 ,其地上部Zn含量高达 19.0 9mg·g-1。东南景天的地上部Zn含量 /根系Zn含量的比值大于 1,而株芽景天、凹叶景天和垂盆草的地上部Zn含量 /根系Zn含量比值小于 1。东南景天是在我国首次发现的具有生物量大、生长速率快的一种新的Zn超积累植物 相似文献
36.
37.
38.
Molecular mechanisms of metal hyperaccumulation in plants 总被引:11,自引:1,他引:10
39.
Shira Corem Armando Carpaneto Paolo Soliani Laura Cornara Franco Gambale Joachim Scholz-Starke 《European biophysics journal : EBJ》2009,38(4):495-501
We applied the patch-clamp technique to investigate the transport properties of the Slow Vacuolar (SV) channel identified
in leaf vacuoles of Alyssum bertolonii Desv., a nickel hyperaccumulator plant growing in serpentine soil of the northern Apennines (Italy). SV currents recorded
in vacuoles from adult plants collected in their natural habitat showed high sensitivity towards cytosolic nickel. Dose-response
analyses indicated half-maximal current inhibition at submicromolar concentrations, i.e. up to three orders of magnitude lower
than previously reported values from other plant species. The voltage-dependent increase of residual currents at saturating
nickel concentrations could be interpreted as relief of channel block by nickel permeation at high positive membrane potentials.
Including young plants of A. bertolonii into the study, we found that SV channels from these plants did not display elevated nickel sensitivity. This difference
may be related to age-dependent changes in nickel hyperaccumulation of A. bertolonii leaf cells. 相似文献
40.
Thallium is an extremely toxic metal which, due to its similarities to K, is readily taken up by plants grown in Tl-contaminated
soils. Thallium is also a precious metal nearly as economically valuable as gold. Thallium is efficiently hyperaccumulated
in Iberis intermedia as aqueous Tl(I) with highest concentrations within the vascular network of leaves. In this study we examine the utility
of synchrotron X-ray differential absorption-edge computed microtomography (CMT) in determining the distribution and compartmentalization
of thallium (Tl) in Iberis intermedia. We found Tl to be distributed in solution throughout the vascular system of I. intermedia. Current laboratory experiments are examining the characteristics and potential recovery of Tl by I. intermedia with the objectives to remediate its toxic risks and to facilitate its reclamation for reuse. However, the recovery and reuse
of Tl from I. intermedia by way of phytomining requires knowledge on the speciation, distribution and compartmentalization of thallium. CMT shows
great promise for application in a wide variety of metal-related structural issues due to its high 3D resolution and being
a non-destructive analysis tool.
Electronic Supplementary Material Supplementary material is available in the online version of this article at and is accessible for authorized users.
An erratum to this article can be found at 相似文献