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Plant growth-promoting bacteria as potential bio-inoculants and biocontrol agents to promote black pepper plant cultivation.

Authors :
Lau, Ee Tiing
Tani, Akio
Khew, Choy Yuen
Chua, Yee Qin
Hwang, Siaw San
Source :
Microbiological Research. Nov2020, Vol. 240, pN.PAG-N.PAG. 1p.
Publication Year :
2020

Abstract

• Slow decline is a serious debilitating disease in black pepper, an important commodity crop in the world. • Control of slow decline disease was relied on the utilization of hazardous agrochemical products. • The persistence of pesticide residues in peppercorns could affect the quality of exports and consumptions. • The continuous use of synthetic fertilizers could affect soil ecosystem and restrict plant nutrient uptake. • Biological approach is an alternative to agrochemical products in sustaining pepper growth and high yield. Black pepper production in Malaysia was restricted by various diseases. Hazardous chemical products appear to be the best solution to control diseases in black pepper cultivation. However, persistence of chemical residues in peppercorns could affect the quality of exports and consumptions. Application of fertilizers is crucial to sustain pepper growth and high yield. But, continuous use of chemical fertilizers could affect the soil ecosystem and eventually restrict nutrient uptake by pepper roots. Therefore, we propose biological approaches as an alternative solution instead of chemical products to sustain pepper cultivation in Malaysia. In this study, we have isolated a total of seven indigenous rhizobacteria antagonistic to soil-borne Fusarium solani , the causal fungus of slow decline, the most serious debilitating disease of black pepper in Malaysia. The isolated bacteria were identified as Bacillus subtilis , Bacillus siamensis , Brevibacillus gelatini , Pseudomonas geniculata , Pseudomonas beteli , Burkholderia ubonensis and Burkholderia territorii. These bacteria were effective in production of antifungal siderophore with the amount of 53.4 %–73.5 % per 0.5 mL of cell-free supernatants. The bacteria also produced appreciable amount of chitinase with chitinolytic index was ranged from 1.19 to 1.76. The bacteria have shown phosphate solubilizing index within 1.61 to 2.01. They were also efficient in ACC deaminase (0.52 mM–0.62 mM) and ammonia (60.3 mM–75.3 mM) production. The isolated antagonists were efficacious in stimulation of black pepper plant growth and root development through IAA (10.5 μg/mL–42.6 μg/mL) secretion. In conclusion, the isolated rhizobacteria are potent to be developed not only as biocontrol agents to minimize the utilization of hazardous chemicals in black pepper disease management, but also developed as bio-fertilizers to improve black pepper plant growth due to their capabilities in plant growth-promotion. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09445013
Volume :
240
Database :
Academic Search Index
Journal :
Microbiological Research
Publication Type :
Academic Journal
Accession number :
146398018
Full Text :
https://doi.org/10.1016/j.micres.2020.126549