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Journals
Polish Journal of Microbiology
Volume 68 (2019): Issue 2 (June 2019)
Open Access
In situ
Impact of the Antagonistic Fungal Strain,
Trichoderma gamsii
T30 on the Plant Pathogenic Fungus,
Rhizoctonia solani
in Soil
MUHAMMAD ANEES
MUHAMMAD ANEES
,
MUHAMMAD ABID
MUHAMMAD ABID
,
SOBIA CHOHAN
SOBIA CHOHAN
,
MUHAMMAD JAMIL
MUHAMMAD JAMIL
,
NADEEM AHMED
NADEEM AHMED
,
LIXIN ZHANG
LIXIN ZHANG
and
EUI SHIK RHA
EUI SHIK RHA
| Jun 28, 2019
Polish Journal of Microbiology
Volume 68 (2019): Issue 2 (June 2019)
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Article Category:
original-paper
Published Online:
Jun 28, 2019
Page range:
211 - 216
Received:
Oct 14, 2018
Accepted:
Feb 12, 2019
DOI:
https://doi.org/10.33073/pjm-2019-021
Keywords
study
,
population density
,
antagonism
,
real-time PCR
© 2019 Muhammad Anees et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Fig. 1.
The influence of different doses of T. gamsii T30 on the R. solani G6 growth in the autoclaved soil (R1/T0 represents the R. solani G6/T. gamsii T30 in the ratios 1/0 and similarly R1/T0.01 = 1/0.01 ratio, R1/T0.1 = 1/0.1 ratio, and R1/T1 = 1/1 ratio; with 1 = 105 copies of the targeted DNA per g of soil). The significant differences in the number of DNA copies are shown using different letters (p ≤ 0.05). Different small letters show the significant differences among different treatments for a given sampling time. Different capital letters indicate significant differences among different sampling times for a given treatment. If the letters happen to be identical at a given data point (either small or capital), they are written only once for the sake of clarity.
Fig. 2.
The influence of different doses of T. gamsii T30 on the R. solani G6 growth in the non-autoclaved soil (R1/T0 represents R. solani G6/T. gamsii T30 in the ratio 1/0 and similarly R1/T0.01 = 1/0.01 ratio, R1/T0.1 = 1/0.1 ratio, R1/T1 = 1/1 ratio; with 1 = 105 copies of the target DNA per g of soil). The significant differences in the number of DNA copies are shown using different letters (p ≤ 0.05). Different small letters show significant differences among different treatments for a given sampling time. Different capital letters indicate the significant differences among different sampling times for a given treatment. If the letters happen to be identical at a given data point (either small or capital), they are written only once for the sake of clarity.