Silicon and Plant Growth-Promoting Rhizobacteria <i>Pseudomonas psychrotolerans</i> CS51 Mitigates Salt Stress in <i>Zea mays</i> L.

Silicon and Plant Growth-Promoting Rhizobacteria <i>Pseudomonas psychrotolerans</i> CS51 Mitigates Salt Stress in <i>Zea mays</i> L.

Salinity is a significant abiotic stress for crop plants and a threat to global food security. Optimizing yield without adversely affecting the ecosystem is necessary for a sustainable agriculture. Silicon and plant growth-promoting bacteria were reported for mitigating several abiotic and biotic st...

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Main Authors: Happy Anita Appiah Kubi, Muhammad Aaqil Khan, Arjun Adhikari, Muhammad Imran, Sang-Mo Kang, Muhammad Hamayun, In-Jung Lee
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Agriculture
Subjects:
salinity stress
isolate CS51 + Si
phytohormones
antioxidants regulation
maize
Online Access:https://www.mdpi.com/2077-0472/11/3/272
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spelling doaj-23ccc0f3eb944122ac31c519479bad272021-03-23T00:00:39ZengMDPI AGAgriculture2077-04722021-03-011127227210.3390/agriculture11030272Silicon and Plant Growth-Promoting Rhizobacteria <i>Pseudomonas psychrotolerans</i> CS51 Mitigates Salt Stress in <i>Zea mays</i> L.Happy Anita Appiah Kubi0Muhammad Aaqil Khan1Arjun Adhikari2Muhammad Imran3Sang-Mo Kang4Muhammad Hamayun5In-Jung Lee6Department of Applied Biosciences, Kyungpook National University, Daegu 41566, KoreaDepartment of Applied Biosciences, Kyungpook National University, Daegu 41566, KoreaDepartment of Applied Biosciences, Kyungpook National University, Daegu 41566, KoreaDepartment of Applied Biosciences, Kyungpook National University, Daegu 41566, KoreaDepartment of Applied Biosciences, Kyungpook National University, Daegu 41566, KoreaDepartment of Botany, Abdul Wali Khan University, Mardan, Khyber Pakhtunkhwa 23200, PakistanDepartment of Applied Biosciences, Kyungpook National University, Daegu 41566, KoreaSalinity is a significant abiotic stress for crop plants and a threat to global food security. Optimizing yield without adversely affecting the ecosystem is necessary for a sustainable agriculture. Silicon and plant growth-promoting bacteria were reported for mitigating several abiotic and biotic stress in plants. In our study, we identified the salt-tolerant rhizobacterium <i>Pseudomonas psychrotolerans</i> CS51. This species produces several plant-growth-promoting biochemicals like indole-3-acetic acid (33 ± 1.8 ng/mL) and gibberellic acid (GA3; 38 ± 1.3 and GA4; 23 ± 1.2 ng/mL) in Luria-Bertani(LB) media, and LB media spiked with 200 mM NaCl (indole-3-acetic acid(IAA); 17.6 ± 0.4 ng/mL, GA3; 21 ± 0.9 and GA4; 19 ± 1.0 ng/mL). In the current study, we aimed to investigate the effect of isolate CS51 and exogenous silicon (3 mM) on maize under salinity stress (200 mM). Our results showed that the sole application of isolate CS51, Si, and combined CS51 + Si significantly enhanced maize biomass and chlorophyll content under normal and salinity stress. Phytohormonal results showed that salinity stress increased abscisic acid (ABA; three folds) and jasmonic acid (JA; 49.20%). However, the sole and combined isolate CS51 + Si application markedly reduced ABA (1.5 folds) and JA content (14.89%). Besides, the sole and isolate CS51 + Si co-application strengthened the antioxidant system, such as flavonoid (97%) and polyphenol (19.64%), and lowered the proline content (57.69%) under NaCl stress. Similarly, the CS51 and Si inoculation (solely or combined) significantly enhanced the Si uptake (4 folds) and reduced the Na<sup>+</sup> uptake (42.30%) in maize plants under NaCl stress. In conclusion, the current finding suggests that combining CS51 with Si can be used against salinity stress in maize plants and may be commercialized as a biofertilizer.https://www.mdpi.com/2077-0472/11/3/272salinity stressisolate CS51 + Siphytohormonesantioxidants regulationmaize
collection DOAJ
language English
format Article
sources DOAJ
author Happy Anita Appiah Kubi
Muhammad Aaqil Khan
Arjun Adhikari
Muhammad Imran
Sang-Mo Kang
Muhammad Hamayun
In-Jung Lee
spellingShingle Happy Anita Appiah Kubi
Muhammad Aaqil Khan
Arjun Adhikari
Muhammad Imran
Sang-Mo Kang
Muhammad Hamayun
In-Jung Lee
Silicon and Plant Growth-Promoting Rhizobacteria <i>Pseudomonas psychrotolerans</i> CS51 Mitigates Salt Stress in <i>Zea mays</i> L.
Agriculture
salinity stress
isolate CS51 + Si
phytohormones
antioxidants regulation
maize
author_facet Happy Anita Appiah Kubi
Muhammad Aaqil Khan
Arjun Adhikari
Muhammad Imran
Sang-Mo Kang
Muhammad Hamayun
In-Jung Lee
author_sort Happy Anita Appiah Kubi
title Silicon and Plant Growth-Promoting Rhizobacteria <i>Pseudomonas psychrotolerans</i> CS51 Mitigates Salt Stress in <i>Zea mays</i> L.
title_short Silicon and Plant Growth-Promoting Rhizobacteria <i>Pseudomonas psychrotolerans</i> CS51 Mitigates Salt Stress in <i>Zea mays</i> L.
title_full Silicon and Plant Growth-Promoting Rhizobacteria <i>Pseudomonas psychrotolerans</i> CS51 Mitigates Salt Stress in <i>Zea mays</i> L.
title_fullStr Silicon and Plant Growth-Promoting Rhizobacteria <i>Pseudomonas psychrotolerans</i> CS51 Mitigates Salt Stress in <i>Zea mays</i> L.
title_full_unstemmed Silicon and Plant Growth-Promoting Rhizobacteria <i>Pseudomonas psychrotolerans</i> CS51 Mitigates Salt Stress in <i>Zea mays</i> L.
title_sort silicon and plant growth-promoting rhizobacteria <i>pseudomonas psychrotolerans</i> cs51 mitigates salt stress in <i>zea mays</i> l.
publisher MDPI AG
series Agriculture
issn 2077-0472
publishDate 2021-03-01
description Salinity is a significant abiotic stress for crop plants and a threat to global food security. Optimizing yield without adversely affecting the ecosystem is necessary for a sustainable agriculture. Silicon and plant growth-promoting bacteria were reported for mitigating several abiotic and biotic stress in plants. In our study, we identified the salt-tolerant rhizobacterium <i>Pseudomonas psychrotolerans</i> CS51. This species produces several plant-growth-promoting biochemicals like indole-3-acetic acid (33 ± 1.8 ng/mL) and gibberellic acid (GA3; 38 ± 1.3 and GA4; 23 ± 1.2 ng/mL) in Luria-Bertani(LB) media, and LB media spiked with 200 mM NaCl (indole-3-acetic acid(IAA); 17.6 ± 0.4 ng/mL, GA3; 21 ± 0.9 and GA4; 19 ± 1.0 ng/mL). In the current study, we aimed to investigate the effect of isolate CS51 and exogenous silicon (3 mM) on maize under salinity stress (200 mM). Our results showed that the sole application of isolate CS51, Si, and combined CS51 + Si significantly enhanced maize biomass and chlorophyll content under normal and salinity stress. Phytohormonal results showed that salinity stress increased abscisic acid (ABA; three folds) and jasmonic acid (JA; 49.20%). However, the sole and combined isolate CS51 + Si application markedly reduced ABA (1.5 folds) and JA content (14.89%). Besides, the sole and isolate CS51 + Si co-application strengthened the antioxidant system, such as flavonoid (97%) and polyphenol (19.64%), and lowered the proline content (57.69%) under NaCl stress. Similarly, the CS51 and Si inoculation (solely or combined) significantly enhanced the Si uptake (4 folds) and reduced the Na<sup>+</sup> uptake (42.30%) in maize plants under NaCl stress. In conclusion, the current finding suggests that combining CS51 with Si can be used against salinity stress in maize plants and may be commercialized as a biofertilizer.
topic salinity stress
isolate CS51 + Si
phytohormones
antioxidants regulation
maize
url https://www.mdpi.com/2077-0472/11/3/272
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