Morphological and physiological responses of barley plants grown on soils characterised by metal toxicity and metal deficiency

Morphological and physiological responses of barley plants grown on soils characterised by metal toxicity and metal deficiency

Aim of this work was to investigate which are the effects on barley crops grown on two different soils: a soil lacking in Cu, an essential micronutrient (A) and a naturally polluted soil rich in lead, zinc, copper (B). In particular we investigated the relationship between some ecophysiological para...

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Bibliographic Details
Published in:Annali di chimica Vol. 97; no. 3-4; p. 153
Main Authors: Deriu, Daniela, Calace, Nicoletta, Petronio, Bianca Maria, Pietroletti, Marco
Format: Journal Article
Language:English
Published: Italy 01-03-2007
Subjects:
Biomass
Chlorophyll - analysis
Copper - deficiency
Copper - toxicity
Ecology
Hordeum - growth & development
Hordeum - metabolism
Lead - toxicity
Metals - analysis
Metals - toxicity
Peroxidase - metabolism
Plant Development
Plants - metabolism
Soil - analysis
Zinc - toxicity
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Summary:Aim of this work was to investigate which are the effects on barley crops grown on two different soils: a soil lacking in Cu, an essential micronutrient (A) and a naturally polluted soil rich in lead, zinc, copper (B). In particular we investigated the relationship between some ecophysiological parameters such as biomass, chlorophyll concentration and guaiacolo peroxidase activity and the chemical-physical properties of the soils like pH, organic matter and heavy metal content. Because metals uptake by plants is strongly correlated with the bioavailable fraction rather then their total amount in a soil, we have measured also metal exchangeable forms, using a single extraction method (MgCl2 as extractant). Plants grown on soil B showed a metal content higher than background limits, whereas plants grown on soil A were characterised by a background Fe and Zn concentrations and by a tolerant Pb concentration. Conversely, Cu content in tissues of plants grown in soil A is found to be under the background limits. Copper-deficiency plants present chlorotic leaves followed by a reduced clorophyll content, while plants grown on metals contaminated soil showed an increase of peroxidase activity.
ISSN:0003-4592
DOI:10.1002/adic.200790001