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Phytoremediation of chromium polluted soil [electronic resource].

By:

Abou-Shanab, R. A

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Language: English Summary language: Arabic Description: P. 67-79Other title:

المعالجة النباتية للتربة الملوثة بالكروم [Added title page title]

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Egyptian journal of microbiology, 2004 v.39 (1-2) [electronic resource].

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In: Egyptian Journal of Microbiology 2004.V.39(1-2)Summary: Heavy metal-contaminated land is an important environmental, health, economic, and planning issue in Egypt. Phytoextraction involves use of plants to remove metals from soil, in a greenhouse experiment, Zea mays, Helianthus annuus and Sorghum bicolor plants were grown in tannery effluent polluted soils and non-polluted reference soils. After 8 weeks of growth, the plants were harvested and the dry weight and the content of Cr were determined. The relationship between mycorrhizae and plants indicates that the percentage of mycorrhizal colomization in all plant species grown in un-polluted soils were higher than plants grown in polluted soil. Roots of all three plant species growing on both soils possessed Arbuscular mycorrhizal (AM) colomization in their roots and AM propagules in the associated rhizospheres. High Cr contents adversely affected the number and diversity of AM species. The order of Cr foliar accumulation was Z. mays>S. bicolor >H. annuus. The effect of AM fungi on heavy metal uptake is dependent upon the initial soil metal concentration. The uptake of heavy metals by Z. mays, H. annuus and S. bicolor was affected by the colonization of roots with (AM) fungi.

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Heavy metal-contaminated land is an important environmental, health, economic, and planning issue in Egypt. Phytoextraction involves use of plants to remove metals from soil, in a greenhouse experiment, Zea mays, Helianthus annuus and Sorghum bicolor plants were grown in tannery effluent polluted soils and non-polluted reference soils. After 8 weeks of growth, the plants were harvested and the dry weight and the content of Cr were determined. The relationship between mycorrhizae and plants indicates that the percentage of mycorrhizal colomization in all plant species grown in un-polluted soils were higher than plants grown in polluted soil. Roots of all three plant species growing on both soils possessed Arbuscular mycorrhizal (AM) colomization in their roots and AM propagules in the associated rhizospheres. High Cr contents adversely affected the number and diversity of AM species. The order of Cr foliar accumulation was Z. mays>S. bicolor >H. annuus. The effect of AM fungi on heavy metal uptake is dependent upon the initial soil metal concentration. The uptake of heavy metals by Z. mays, H. annuus and S. bicolor was affected by the colonization of roots with (AM) fungi.

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