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Plant growth promotion and enhanced uptake of Cd by combinatorial application of Bacillus pumilus and EDTA on Zea mays L.

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journal contribution
posted on 2020-07-02, 11:51 authored by Kashif Hayat, Saiqa Menhas, Jochen Bundschuh, Pei Zhou, Nabeel Khan Niazi, Amna, Amjad Hussain, Sikandar Hayat, Hazrat Ali, Juncai Wang, Amir Abdullah Khan, Amjad Ali, Farooq Hussain Munis, Hassan Javed Chaudhary

In developing countries, Cd contamination is ubiquitous which limits agriculture productivity. The current study was designed to investigate the efficacy of plant—Bacillus pumilus—ethylene diamine tetraacetic acid (EDTA) and plant-microbe-chelator (PMC) synergy for enhanced plant growth and Cd-uptake potential of Zea mays in industrially contaminated and cadmium (Cd) spiked soil. A pot experiment was conducted by growing Z. mays seedlings either inoculated with B. pumilus or un-inoculated along with the application of 5mM EDTA. Plants were exposed to two levels of Cd contamination for 45days. An increase in Cd uptake was observed in Z. mays inoculated with B. pumilus followed by EDTA treatment as compared to non-inoculated and un-treated ones. Zea mays showed improved values with PMC approach for different growth parameters including root length (41%), shoot length (40%), fresh weight (59%), dry weight (49%), chlorophyll contents (49%), and relative water contents (30%). Higher tolerance index (117%) was observed for plants grown in soil spiked with 300mg kg−1 Cd (S2). PMC application markedly enhanced Cd uptake potential of Z. mays up to 12% and 68.8%, respectively, in S1 and S2 soil. While the PMC application increased Cd accumulation capacity of Z. mays by 71.2% and 52.5% in S1 and S2 soil. The calculated bioaccumulation and translocation factor revealed that Z. mays possess Cd uptake potential, and this ability can be significantly enhanced with PMC application.

Highlights

First synergetic plant-microbe chelator (PMC) green technology for Cd-decontamination.

Endophytic strain Bacillus pumilus 18a exhibited PGP traits.

B. pumilus-EDTA complex improved plant biomass, tolerance index and phytoextraction efficiency.

Zea mays L. act as Cd-accumulator under aged and spiked Cd contaminated soil.

More Cd2+ retention in root than shoot was observed.

First synergetic plant-microbe chelator (PMC) green technology for Cd-decontamination.

Endophytic strain Bacillus pumilus 18a exhibited PGP traits.

B. pumilus-EDTA complex improved plant biomass, tolerance index and phytoextraction efficiency.

Zea mays L. act as Cd-accumulator under aged and spiked Cd contaminated soil.

More Cd2+ retention in root than shoot was observed.

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