Metal accumulation and competitive ability in metallicolous and non-metallicolous Thlaspi caerulescens fed with different Zn salts P. MeertsPh. Duch neC. Lefèbvre OriginalPaper Pages: 1 - 8
Genetic basis of Cd tolerance and hyperaccumulation in Arabidopsis halleri V. BertP. MeertsN. Verbruggen OriginalPaper Pages: 9 - 18
Distribution of cadmium and zinc in the hyperaccumulator Thlaspi caerulescens grown on multicontaminated soil Karen PerronnetChristophe SchwartzJean Louis Morel OriginalPaper Pages: 19 - 25
Phytoextraction of cadmium with Thlaspi caerulescens Christophe SchwartzGuillaume EchevarriaJean Louis Morel OriginalPaper Pages: 27 - 35
Assessing the potential for zinc and cadmium phytoremediation with the hyperaccumulator Thlaspi caerulescens F.J. ZhaoE. LombiS.P. McGrath OriginalPaper Pages: 37 - 43
Applying a solute transfer model to phytoextraction: Zinc acquisition by Thlaspi caerulescens Steven N. WhitingMartin R. BroadleyPhilip J. White OriginalPaper Pages: 45 - 56
Tropical hyperaccumulators of metals and their potential for phytoextraction Roger D. Reeves OriginalPaper Pages: 57 - 65
Root development and heavy metal phytoextraction efficiency: comparison of different plant species in the field Catherine KellerDaniel HammerManfred Sennhauser OriginalPaper Pages: 67 - 81
Chelate-assisted phytoextraction using canola (Brassica napus L.) in outdoors pot and lysimeter experiments Walter W. WenzelReinhard UnterbrunnerPasqualina Sacco OriginalPaper Pages: 83 - 96
Plant availability of thallium in the rhizosphere of hyperaccumulator plants: a key factor for assessment of phytoextraction Husam Al-NajarRudolf SchulzVolker Römheld OriginalPaper Pages: 97 - 105
Development of a technology for commercial phytoextraction of nickel: economic and technical considerations Yin-M. LiRufus ChaneyJay Nelkin OriginalPaper Pages: 107 - 115
Phytoextraction: an assessment of biogeochemical and economic viability Brett RobinsonJosé-Enrique FernándezBrent Clothier OriginalPaper Pages: 117 - 125
Potential of Salix as phytoextractor for Cd on moderately contaminated soils Erika Klang-WestinJan Eriksson OriginalPaper Pages: 127 - 137
Chromium in the environment: factors affecting biological remediation Adel M. ZayedNorman Terry OriginalPaper Pages: 139 - 156
Selenium phytoremediation potential of Stanleya pinnata David R. ParkerLaura J. FeistYiqiang Zhang OriginalPaper Pages: 157 - 165
Selecting plants to minimise radiocaesium in the food chain Philip J. WhiteKamal SwarupMartin R. Broadley OriginalPaper Pages: 177 - 186
Progress in remediation and revegetation of the barren Jales gold mine spoil after in situ treatments Michel MenchSylvie BussièreAlain Manceau OriginalPaper Pages: 187 - 202
Using municipal biosolids in combination with other residuals to restore metal-contaminated mining areas Sally L. BrownCharles L. HenryPam S. DeVolder OriginalPaper Pages: 203 - 215
Selected bioavailability assays to test the efficacy of amendment-induced immobilization of lead in soils W. GeebelenD.C. AdrianoJ. Vangronsveld OriginalPaper Pages: 217 - 228
Vegetative approach for improving the quality of water produced from soils in the westside of central California G. S. BañuelosS. SharmarsakarG. Stuhr OriginalPaper Pages: 229 - 236