Determination of lithium bioretention by maize under hydroponic conditions

Irrigation of cultivated plants can be a source of toxic lithium to plants. The data on the effect of lithium uptake on plants are scant, that is why a research was undertaken with the aim to determine maize ability to bioaccumulate lithium. The research was carried out under hydroponic conditions....

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Bibliographic Details
Published inArchives of environmental protection Vol. 43; no. 4; pp. 94 - 104
Main Authors Antonkiewicz, Jacek, Jasiewicz, Czesława, Koncewicz-Baran, Małgorzata, Bączek-Kwinta, Renata
Format Journal Article
LanguageEnglish
Published Warsaw De Gruyter Open 01.12.2017
Polish Academy of Sciences
Subjects
Bioaccumulation
bioaccumulation factor
Bioremediation
content
Corn
Crop yield
Cultivated plants
Experimental design
Flowers & plants
hydroponics
Leaves
Lithium
Mental depression
Metal concentrations
Organs
Phytoremediation
Plants (botany)
Roots
Stems
tolerance index
Toxicity
Translocation
translocation factor
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Summary:Irrigation of cultivated plants can be a source of toxic lithium to plants. The data on the effect of lithium uptake on plants are scant, that is why a research was undertaken with the aim to determine maize ability to bioaccumulate lithium. The research was carried out under hydroponic conditions. The experimental design comprised 10 concentrations in solution differing with lithium concentrations in the aqueous solution (ranging from 0.0 to 256.0 mg Li ∙ dm of the nutrient solution). The parameters based on which lithium bioretention by maize was determined were: the yield, lithium concentration in various plant parts, uptake and utilization of this element, tolerance index (TI) and translocation factor (TF), metal concentrations in the above-ground parts index (CI) and bioaccumulation factor (BAF). Depression in yielding of maize occurred only at the highest concentrations of lithium. Lithium concentration was the highest in the roots, lower in the stems and leaves, and the lowest in the inflorescences. The values of tolerance index and EC indicated that roots were the most resistant organs to lithium toxicity. The values of translocation factor were indicative of intensive export of lithium from the roots mostly to the stems. The higher uptake of lithium by the above-ground parts than by the roots, which primarily results from the higher yield of these parts of the plants, supports the idea of using maize for lithium phytoremediation.
ISSN:2083-4810
2083-4772
2083-4810
DOI:10.1515/aep-2017-0036