ResearchBib Share Your Research, Maximize Your Social Impacts
Sign for Notice Everyday Sign up >> Login

Effect of Chemical and Non-chemical Management Approaches in Controlling Wheat Blast

Journal: Fundamental and Applied Agriculture (Vol.7, No. 1)

Publication Date:

Authors : ; ; ; ; ; ;

Page : 47-59

Keywords : Wheat blast; MoT; Trichoderma asperellum; Chemical and non-chemical approach; Yield;

Source : Downloadexternal Find it from : Google Scholarexternal

Abstract

Wheat blast caused by Magnaporthe oryzae Pathotype triticum (MoT) becomes one of the common nuisances to the expansion of wheat production in Bangladesh That's why to find out a suitable control measure, fourteen chemicals and five Trichoderma isolates were evaluated against MoT in in-vitro condition during the cropping seasons of 2019-2020. In in-vitro conditions the efficacies of fungicides and biological agents i.e. Trichoderma isolates were evaluated by the measurement of percent inhibition of radial mycelial growth of MoT. The highest percentage of radial mycelial growth inhibition (100%) of MoT was obtained by Mancozeb 63% + Carbendazim 12% (Companion), Carbendazim (Autostin 50 WDG), Pyrochlostrobin 5% + Metiram 55% (Cabrio Top), Tebuconazol (Folicur EW 250) and Hexaconazol (Contaf 5EC) fungicides at low concentration (0.0125%) compared to other fungicides at 10 days after inoculation (DAI). Out of five Trichoderma asperellum isolates used in this study, the maximum percent of radial mycelial growth inhibition (58.24%) of MoT was achieved by Trichoderma isolate PMILTE-N51 (58.24%) followed by isolate PMILTE- N41 (53.85%) in the in-vitro dual culture assay at 7 DAI. In case of pot experiment, seven fungicides (Nativo 75WG, Companion, Autostin, Indofil M45, Supreme 250EW, Contaf, Amiscore 32.5 SC) at 0.1% & 0.3% and bioagents (Trichoderma asperellum, PMILTE-N51-suspension, PMILTE-N51- formulation & Trichoderma herzianum based IPM LAB- Formulation) were used to evaluate their efficacy in controlling wheat blast disease and their effects on different yield contributing parameters of wheat. Minimum percentage of blast incidence and severity were recorded for Supreme 250 EW @ 0.3% (14.88% and 2.21%) treated plants followed by PMILTE-N51 suspension compared to control (85.06% and 90.2%). In case of different yield contributing parameters viz. maximum number of ear/pot (13.67), number of total and healthy spikelets/ear (55.33 and 52.33), number of total and healthy grains/ear (50.33 and 45.67 ) were achieved by Amiscore 32.5 SC @ 0.3% followed by Supreme 250EW @ 0.3% and a maximum weight of 1000 grains/pot (55 gm) was recorded for PMILTE-N51-suspension, whereas controlled plants showed the lowest value for all the yield contributing parameters among the treatments used in this experiment. These results indicate that Amiscore 32.5 SC and Supreme 250 EW (@ 0.3%) showed the best results as chemical control approaches, where Trichoderma (PMILTE-N51-suspension) can be a better non-chemical management approach against wheat blast in Bangladesh.

Last modified: 2022-06-18 04:25:53