Comparative Assessment of Chromate Bioremediation Potential of Pantoea Conspicua and Aspergillus Niger

Overview

Journal J Hazard Mater

Publisher Elsevier

Specialty Environmental Health

Date 2021 Oct 2

PMID 34600376

Citations 18

Authors

Muhammad Qadir

Anwar Hussain

Mohib Shah

In Jung Lee

Amjad Iqbal

Muhammad Irshad

Ismail

Aqib Sayyed

Husna

Ayaz Ahmad

Muhammad Hamayun

Affiliations

Soon will be listed here.

Abstract

The recent work aims at the use of Pantoea conspicua (MT5) and Aspergillus niger (CRS3) to assess their bioremediation potential and growth restoration of Helianthus annuus L. under chromate (Cr) stress. The growth of the P. conspicua and A. niger was tested in Cr supplemented media. The strains can withstand up to 1200 and 900 ppm respectively in the media and effectively bio-transform it to nontoxic form. Supplemented metal's levels significantly decreased the growth attribute of H. annuus (p< 0.05). On the other hand, P. conspicua and A. niger rescued the host plant by establishing higher colonization frequency with the host roots. Moreover, MT5 bio-transformed the toxic Cr to non-toxic Cr form in the rhizosphere. It also enhanced the host plant growth by producing phytohormones and ceasing Cr uptake and accumulation. Contrarily, CRS3 tends to accumulate and bio-transform metal in their hyphae. Nonetheless, both of the microbes tend to modulate phytohormones production and strengthening antioxidant system of the host. Improvement in the antioxidant system enabled the host plant to produce higher phenolics and flavonoids, and lower peroxidase. The associated plant species also exhibited higher ROS scavenging and lower ROS accumulation. Besides, the strains were able to produce higher amounts of phytohormones, including IAA, GA, and SA. Such activities rendered them as excellent phytostimulants, that can be used as biofertilizers in chromium polluted soils.

Citing Articles

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Unraveling the Role of Contaminants Reshaping the Microflora in Zea mays Seeds from Heavy Metal-Contaminated and Pristine Environment.

Awais M, Xiang Y, Shah N, Bilal H, Yang D, Hu H Microb Ecol. 2024; 87(1):133.

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Enhancing Growth in through the Inhibition of Charcoal Rot Disease: A Strategic Approach Using Plant Growth-Promoting Rhizobacteria.

Khan I, Mohyuddin S, Sohail , Zaman S, Qadir M, Guo J Microorganisms. 2024; 12(9).

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IAA is more effective than EDTA in enhancing phytoremediation potential for cadmium and copper contaminated soils.

Shah N, Irshad M, Murad W, Hamayun M, Qadir M, Hussain A BMC Plant Biol. 2024; 24(1):815.

PMID: 39210254 PMC: 11360555. DOI: 10.1186/s12870-024-05329-5.

The Mechanisms of Cadmium Stress Mitigation by Fungal Endophytes from Maize Grains.

Awais M, Xiang Y, Yang D, Lai Y, Cai F, Shah N J Fungi (Basel). 2024; 10(8).

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