Effect of rhizobacteria strains on the induction of resistance in barley genotypes against Cochliobolus sativus-Reference-Cited by-同舟云学术

Effect of rhizobacteria strains on the induction of resistance in barley genotypes against Cochliobolus sativus

Published:2020-04-18 Issue:2 Volume:13 Page:83-92
ISSN:1791-3691
Container-title:Hellenic Plant Protection Journal
language:en
Short-container-title:

Author:

Adam A.¹

Affiliation:

1. Department of Molecular Biology and Biotechnology , Atomic Energy Commission of Syria. P.O. Box 6091, Damascus , Syria

Abstract

Summary Enhancement of the resistance level in plants by rhizobacteria has been proven in several pathosystems. This study investigated the ability of four rhizobacteria strains (Pseudomonas putida BTP1 and Bacillus subtilis Bs2500, Bs2504 and Bs2508) to promote the growth in three barley genotypes and protect them against Cochliobolus sativus. Our results demonstrated that all tested rhizobacteria strains had a protective effect on barley genotypes Arabi Abiad, Banteng and WI2291. However, P. putida BTP1 and B. subtilis Bs2508 strains were the most effective as they reduced disease incidence by 53 and 38% (mean effect), respectively. On the other hand, there were significant differences among the rhizobacteria-treated genotypes on plant growth parameters, such as wet weight, dry weight, plant height and number of leaves. Pseudomonas putida BTP1 strain was the most effective as it significantly increased plant growth by 15-32%. In addition, the susceptible genotypes Arabi Abiad and WI2291 were the most responsive to rhizobacteria. This means that these genotypes have a high potential for increase of their resistance against the pathogen and enhancement of plant growth after the application of rhizobacteria. Consequently, barley seed treatment with the tested rhizobacteria could be considered as an effective biocontrol method against C. sativus.

Publisher

Walter de Gruyter GmbH

Subject

Plant Science,Agronomy and Crop Science

Link

https://www.sciendo.com/pdf/10.2478/hppj-2020-0009

Reference53 articles.

1. Adam, A., Arabi, M.I.E., Idris, I. and Al-Shehadah, E. 2017. Effect of several rhizobacteria strains on barley resistance against Pyrenophora graminea under field conditions. Hellenic Plant Protection Journal, 10: 35-45.

2. Adam, A., Idris, I. and Ayyoubi, Z. 2013. In vitro Pseudomonas putida BTP1-induced systemic resistance in grapevine rootstocks against phylloxera (Daktulosphaira vitifoliae) Advances in Horticultural Science, 27(4): 137-142.

3. Adam, A., Idris, I., Khalil, N. and Houssian, K. 2016. Induced resistance in potato plants by a non-pathogenic Pseudomonas putida BTP1 against potato tuber moth (Phthorimaea operculella Zeller). Advances in Horticultural Science, 30(1): 47-52.

4. Adam, A., Makee, H. and Idris, I. 2012. The influence of a non-pathogenic Pseudomonas putida strain BTP1 on reproduction and development of grape phylloxera. Advances in Horticultural Science, 26(2): 75-80.

5. Adam, A., Ongena, M., Duby, F., Dommes, J. and Thonart, P. 2008. Systemic resistance and lipoxygenase-related defence response induced in tomato by Pseudomonas putida strain BTP1. BMC Plant Biology, 8: 113.

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