PGPR improve physiological and yield attributes in mustard under different regimes of water supply

Study was aimed to evaluate the effect of rhizobacteria on physiological attributes, agro-morphological-traits and yield of mustard under rainfed, one irrigation and two irrigation, at two different agro-climatic locations. At both locations, plant height, yield and physiological attributes - relati...

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Published in:Archiv für Acker- und Pflanzenbau und Bodenkunde 2023-07, Vol.69 (9), p.1482-1493
Main Authors: Paul, Sangeeta, Premi, Om Prakash, Meena, Samrath Lal, Asha, Arambam Devi, Nivetha, Nagarajan, Vikram, Konaghatta Vijayakumar, Lavanya, Armale Krishna, Rathi, Maheshwar Singh, Bandeppa, Sonth, Manjunatha, Booragamakalapalli Subbarayappa
Format: Article
Language:English
Subjects:
Agricultural production
Bacillus
Bacillus sp
Chlorophyll
Correlation analysis
Crop growth
Crop production
Crop yield
Drought
Inoculation
Irrigation
Moisture content
Mustard
physiological attributes
Physiological effects
Physiology
rhizobacteria
Water content
Water supply
yield attributes
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Summary:Study was aimed to evaluate the effect of rhizobacteria on physiological attributes, agro-morphological-traits and yield of mustard under rainfed, one irrigation and two irrigation, at two different agro-climatic locations. At both locations, plant height, yield and physiological attributes - relative water content, membrane stability index and chlorophyll content - were adversely affected under rainfed condition; single irrigation had beneficial effect on these parameters. Two irrigations did not have similar impact at both locations. Inoculation with all the rhizobacteria improved yield, yield components and most of the assayed physiological attributes. The highest seed yield at Location I (2410 kg ha −1 ) and Location II (2130 kg ha −1 ) was obtained due to the inoculation with rhizobacteria Bacillus casamancensis MKS 6 and Bacillus sp. MRD 17, respectively; there was an increase in mustard seed yield by 650 kg ha −1 and 430 kg ha −1 compared with uninoculated treatment at Locations I and II, respectively. Correlation analysis indicated strong positive correlation between most of the plant biometric traits and plant physiological attributes. Hence, due to the application of rhizobacteria, plantphysiological attributes were improved, as a result, crop growth and yield were enhanced. Thus, these rhizobacterial strains can be used as bioinoculants to alleviate the adverse effects of drought and improve crop productivity.
ISSN:0365-0340
1476-3567
DOI:10.1080/03650340.2022.2099540