Dual Microbial Inoculation, a Game Changer? - Bacterial Biostimulants With Multifunctional Growth Promoting Traits to Mitigate Salinity Stress in Spring Mungbean

Soil microbes play a vital role in improving plant growth, soil health, ameliorate biotic/abiotic stress and enhance crop productivity. The present study was aimed to investigate a coordinated effect of compatible consortium [salt tolerating and rhizobacterium with 1-aminocyclopropane-1-carboxylate...

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Bibliographic Details
Published in:Frontiers in microbiology 2021-01, Vol.11, p.600576-600576
Main Authors: Kumawat, Kailash Chand, Sharma, Poonam, Nagpal, Sharon, Gupta, R K, Sirari, Asmita, Nair, Ramakrishnan Madhavan, Bindumadhava, H, Singh, Sudeep
Format: Article
Language:English
Subjects:
ACC deaminase
anti-oxidative enzymes
Enterococcus mundtii
Microbiology
nutrient acquisition
Rhizobium sp
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Summary:Soil microbes play a vital role in improving plant growth, soil health, ameliorate biotic/abiotic stress and enhance crop productivity. The present study was aimed to investigate a coordinated effect of compatible consortium [salt tolerating and rhizobacterium with 1-aminocyclopropane-1-carboxylate (ACC) deaminase] in enhancing plant growth promoting (PGP) traits, symbiotic efficiency, nutrient acquisition, anti-oxidative enzymes, grain yield and associated profitability in spring mungbean. We identified a non-pathogenic compatible sp. LSMR-32 (MH644039.1) and LSMRS-3 (MH644178.1) from salt affected areas of Punjab, India and the same were assessed to develop consortium biofertilizer based on salt tolerance, multifarious PGP traits, antagonistic defense activities and presence of H, , , and genes. Indole Acetic acid (IAA), -solubilization, biofilm formation, exo-polysaccharides, siderophore, salt tolerance, ACC deaminase activities were all found highly significant in dual inoculant (LSMR-32 + LSMRS-3) treatment compared to LSMR-32 alone. Under saline soil conditions, dual inoculant showed a higher seed germination, plant height, biomass, chlorophyll content and macro and micro-nutrient uptake, than un-inoculated control. However, symbiotic (nodulation, nodule biomass and leghaemoglobin content) and soil quality parameters (phosphatase and soil dehydrogenase enzymes) increased numerically with LSMR-32 + LSMRS-3 over sp. LSMR-32 alone. Dual bacterial inoculation (LSMR-32 + LSMRS-3) increased the proline content (2.05 fold), anti-oxidative enzymes ., superoxide dismutase (1.50 fold), catalase (1.43 fold) and peroxidase (3.88 folds) in contrast to control treatment. Decreased Na accumulation and increased K uptake resulted in favorable K /Na ratio through ion homeostasis. Co-inoculation of sp. LSMR-32 and LSMRS-3 significantly improved the grain yield by 8.92% and led to superior B: C ratio over sp. alone under salt stress. To best of our knowledge this is perhaps the first field report from Indian soils that largely describes dual inoculation of sp. LSMR-32 and LSMRS-3 and the same can be considered as a game-changer approach to simultaneously induce salt tolerance and improve productivity in spring mungbean under saline stress conditions.
ISSN:1664-302X
1664-302X
DOI:10.3389/fmicb.2020.600576