Search results for "metal uptake"

showing 3 items of 3 documents

Phytoextractors of metal(loid)s of the Italian flora: An Outline

Intensive farming, wastewater irrigation, mining, heavy industry, smelting procedures and improper waste disposal are some of the human activities that contribute to heavy metal soil contamination (Sharma et al. 2007; Khan et al. 2008; Yu et al. 2008). As heavy metals cannot be degraded by microorganisms and tend to remain in polluted sites for long periods of time, soil contamination by heavy metals represents a particular environmental concern and a serious threat to human health. Conventional soil remediation techniques, such as soil washing, excavation, in situ vitrification, solidification and stabilization, can be effectively employed in order to achieve remediation of heavy metal con…

accumulating plantmetal uptakephytoextractorsheavy metal
researchProduct

Geographical and ecological outline of metal(loid) accumulating plants in Italian vascular flora

2018

The decontamination of heavy metal polluted soils is one of the major challenges that our industrialized world has to face. Remediation technologies are being developed and employed in order to reduce the potential hazards of metal and metalloid contamination. Plants capable of uptaking metals and metalloids in their tissues can be an effective tool to remove such pollutants from contaminated soils. The use of this plant-driven process (Phytoremediation) requires the knowledge of the right phytoextractors to use when facing different types of contamination. The aim of this paper is to provide an inventory of phytoextractors that can be used in Phytoremediation procedures in Italy. The check…

PollutantFloraEnvironmental remediationEcologyphytoextractorsIntroduced speciesSoil contaminationEllenberg indicator valuesAccumulating plantsPhytoremediationlcsh:QH540-549.5Settore BIO/03 - Botanica Ambientale E ApplicataEnvironmental scienceHyperaccumulatorIndicator valuelcsh:Ecologylcsh:Human ecology. Anthropogeographylcsh:GF1-900heavy metalsAccumulating plants Ellenberg indicator values heavy metals metal uptake phytoextractors.General Environmental ScienceEcocycles
researchProduct

Cadmium availability at different soil pH to transgenic tobacco overexpressing ferritin

2003

International audience; Knowledge on physiological mechanisms and plant metabolism can be used to enhance metal uptake. The capacity to uptake metals of transgenic tobaccos overexpressing ferritin in plastids (P6) or in cytoplasm (C5) and a control tobacco (A) is assessed in three polluted soils from the same soil series, with a similar Cd content, but displaying pH from 5.8 to 7 (8b2, 8b3, S11). Differences in dry leave weight were not significant between the three tobaccos growing on each soil. Iron concentration in ferritin overexpression either in P6 or in C5 tobaccos increased only on the S11 soil, which had a soil pH 7, in comparison to A tobacco. In both 8b2 and 8b3 soils at pH lower…

[SDE] Environmental SciencesSOL POLLUE[SDV]Life Sciences [q-bio]Soil SciencePlant Science010501 environmental sciencesPOLLUTED SOIL01 natural sciencescomplex mixturesCADMIUMSoil seriesSoil pHBotany[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyFood scienceIron deficiency (plant disorder)METAL UPTAKEComputingMilieux_MISCELLANEOUS0105 earth and related environmental sciences2. Zero hungerRhizospherebiologyChemistry04 agricultural and veterinary sciencesSoil qualitySoil contaminationTRANSGENIC TOBACCOFerritin[SDV] Life Sciences [q-bio]Soil water[SDE]Environmental Sciences040103 agronomy & agriculturebiology.protein0401 agriculture forestry and fisheriesFERRITIN
researchProduct