Arsenic‐resistant and plant growth‐promoting Firmicutes and γ‐Proteobacteria species from industrially polluted irrigation water and corresponding cropland

Aims The aim of the study was to explore irrigation water polluted with industrial waste and corresponding cropland to screen bacteria for As detoxification and plant growth promotion. Methods and Results Plant growth‐promoting (PGP) As‐resistant cropland bacteria were isolated from contaminated irr...

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Bibliographic Details
Published in:Journal of applied microbiology 2017-09, Vol.123 (3), p.748-758
Main Authors: Qamar, N., Rehman, Y., Hasnain, S.
Format: Article
Language:English
Subjects:
Agricultural Irrigation
Arsenic - metabolism
arsenic‐resistant bacteria
auxin production
Crops, Agricultural - growth & development
Crops, Agricultural - metabolism
Crops, Agricultural - microbiology
Firmicutes
Firmicutes - classification
Firmicutes - genetics
Firmicutes - isolation & purification
Firmicutes - metabolism
Fresh Water - microbiology
Gammaproteobacteria - classification
Gammaproteobacteria - genetics
Gammaproteobacteria - isolation & purification
Gammaproteobacteria - metabolism
Indoleacetic Acids - metabolism
phosphate solubilization
Phylogeny
plant growth promotion
Proteobacteria
Soil Pollutants - metabolism
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Summary:Aims The aim of the study was to explore irrigation water polluted with industrial waste and corresponding cropland to screen bacteria for As detoxification and plant growth promotion. Methods and Results Plant growth‐promoting (PGP) As‐resistant cropland bacteria were isolated from contaminated irrigation water and corresponding agricultural soil. Phylogenetic analysis revealed that the isolates belonged to two distinct bacterial lineages; Firmicutes and γ‐Proteobacteria. Maximum As(V) resistance was exhibited by Klebsiella pneumoniae T22 and Klebsiella oxytoca N53 (550 mmol l−1), whereas maximum resistance against As(III) was exhibited by K. oxytoca N53 (200 mmol l−1). Maximum As(V) reduction was shown by K. pneumoniae T22 (6·7 mmol l−1), whereas maximum As(III) oxidation was exhibited by Bacillus subtilis T23 (4·8 mmol l−1). As resistance genes arsB and ACR3 were detected in many of the isolates through polymerase chain reaction. Many of these isolates exhibited PGP traits such as hydrogen cyanide and auxin production as well as phosphate solubilization. The bacterial strains were able to enhance Triticum aestivum growth both in the absence and presence of As, and statistically significant increase in shoot and root lengths was observed especially in case of Acinetobacter lwoffii T24 and Citrobacter freundii N52‐treated plants. Conclusions Cropland bacteria have the ability to support plant growth. Bacteria of croplands irrigated with industrially polluted water develop resistance against toxicants. These bacteria are helpful for the plant growth in such contaminated lands. Significance and Impact of the Study The bacteria capable of both As detoxification and plant growth promotion, such as A. lwoffii T24 and C. freundii N52, are ideal for remediation and reclamation of polluted lands for agriculture purposes.
ISSN:1364-5072
1365-2672
DOI:10.1111/jam.13535