Synergistic association of endophytic fungi enhances tolerance, growth, and heavy metal uptake of Alocasia calidora in landfill contaminated soil
The present research is designed to determine the influence of inoculation of a consortium
of indigenous filamentous fungi on the modulation of Alocasia calidora growth attributes and
biochemical responses and to investigate the tolerance, uptake, and translocation of
multiple metals under multi-metal contamination. The results revealed increased activity of
soil enzymes: urease (EC 3.5. 1.5), acid phosphatase (EC 3.1. 3.2), invertase (EC 3.2. 1.26),
and dehydrogenase in the fungi supplemented soil. The inoculation of A. calidora with a …
of indigenous filamentous fungi on the modulation of Alocasia calidora growth attributes and
biochemical responses and to investigate the tolerance, uptake, and translocation of
multiple metals under multi-metal contamination. The results revealed increased activity of
soil enzymes: urease (EC 3.5. 1.5), acid phosphatase (EC 3.1. 3.2), invertase (EC 3.2. 1.26),
and dehydrogenase in the fungi supplemented soil. The inoculation of A. calidora with a …
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