Authors :
Dagmawi Belete Asfaw; Bereket Assefa Dori; Tsegaye Bogale Galicha; Asmamaw Sisay Aschenaki
Volume/Issue :
Volume 9 - 2024, Issue 1 - January
Google Scholar :
http://tinyurl.com/43bbhuhp
Scribd :
http://tinyurl.com/ujzmakf4
DOI :
https://doi.org/10.5281/zenodo.10605019
Abstract :
Garlic (Allium sativum L.) is a vital vegetable
crop used for both nutritional and medicinal purposes
worldwide. However, it is highly susceptible to various
diseases, including the destructive white rot caused by
Sclerotium cepivorumBerk. This study aimed to isolate
and evaluate the efficacy of Trichoderma and
Rhizosphere bacteria against Sclerotium cepivorumBerk
in garlic. Samples were collected from three districts
known to be affected by the pathogen. In vitro tests
demonstrated that nine Trichoderma isolates effectively
inhibited the growth of Sclerotium cepivorumBerk
mycelia. Among these isolates, five exhibited significant
inhibition (>50%) with a p-value of 0.000 in dual culture
assays. The most potent isolate, GUT-6, showed a
remarkable 90% inhibition, followed by GUT-3 and
GUT-5 with 88.57% and 85.71% inhibition, respectively.
In contrast, isolate GUT-7 exhibited the lowest inhibition
efficiency (40%) compared to the control. Evaluation of
bacterial isolates revealed lower inhibition efficiency
against the radial growth of Sclerotium cepivorumBerk
compared to Trichoderma isolates. Out of the six
bacterial isolates tested, only two (GUR-1 and 12)
showed inhibition (>50%), while the other four exhibited
poor efficiency (<50%). The highest and lowest
inhibitions were recorded by isolates GUBI-12 (58.13%)
and GUBI-3 (13.95%), respectively. Overall, this study
highlights the potential of Trichoderma species as an
effective biocontrol agent against Sclerotium
cepivorumBerk and recommends further evaluation in
greenhouse conditions.
Keywords :
Antagonist, Garlic, Mycelia, Rhizosphere Bacteria, Sclerotium Cepivorum, Trichoderma, Biocontrol.
Garlic (Allium sativum L.) is a vital vegetable
crop used for both nutritional and medicinal purposes
worldwide. However, it is highly susceptible to various
diseases, including the destructive white rot caused by
Sclerotium cepivorumBerk. This study aimed to isolate
and evaluate the efficacy of Trichoderma and
Rhizosphere bacteria against Sclerotium cepivorumBerk
in garlic. Samples were collected from three districts
known to be affected by the pathogen. In vitro tests
demonstrated that nine Trichoderma isolates effectively
inhibited the growth of Sclerotium cepivorumBerk
mycelia. Among these isolates, five exhibited significant
inhibition (>50%) with a p-value of 0.000 in dual culture
assays. The most potent isolate, GUT-6, showed a
remarkable 90% inhibition, followed by GUT-3 and
GUT-5 with 88.57% and 85.71% inhibition, respectively.
In contrast, isolate GUT-7 exhibited the lowest inhibition
efficiency (40%) compared to the control. Evaluation of
bacterial isolates revealed lower inhibition efficiency
against the radial growth of Sclerotium cepivorumBerk
compared to Trichoderma isolates. Out of the six
bacterial isolates tested, only two (GUR-1 and 12)
showed inhibition (>50%), while the other four exhibited
poor efficiency (<50%). The highest and lowest
inhibitions were recorded by isolates GUBI-12 (58.13%)
and GUBI-3 (13.95%), respectively. Overall, this study
highlights the potential of Trichoderma species as an
effective biocontrol agent against Sclerotium
cepivorumBerk and recommends further evaluation in
greenhouse conditions.
Keywords :
Antagonist, Garlic, Mycelia, Rhizosphere Bacteria, Sclerotium Cepivorum, Trichoderma, Biocontrol.
