Accumulation of cadmium in maize roots inoculated with root organ culture of Rhizophagus irregularis improving cadmium tolerance through activation of antioxidative defense enzymes
Rajamony VinuRadha, K. Kumutha, Asish Kanagaraj Binodh
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引用次数: 1
Abstract
Monoxenic culture of arbuscular mycorrhiza, Rhizophagus irregularis in root organ cultures, was formulated in a dextrin-based carrier. R. irregularis was coated in maize seeds (African tall composite) at the rate of 50 g kg -1 . R. irregularis was evaluated for heavy metal tolerance at 25, 50, and 75 ppm cadmium (Cd) in a pot culture experiment. The mean root colonization potential at 25 ppm Cd inoculated with R. irregularis was 48%, which had the highest probability to reach its maximum during 30 DAS. In the present study, Cd was accumulated to a tune of 22.2–38.3% in mycorrhizal roots, which was more than non-mycorrhizal roots. Cd addition at 25 and 50 ppm levels decreases its translocation to shoots to 28% in R. irregularis inoculated plants when compared to uninoculated treatments. The highest tolerance indices were observed in T 6 and T 7 with 100.59 and 98.34, respectively, showing its increased ability of cadmium to bear heavy metal up to a level of 50 ppm. R. irregularis inoculated maize adapted well at 25 ppm Cd and confirmed its significant role in reducing Cd accumulation toward the shoot system.
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