Assessing the Effectiveness of Newly Developed Fungicides in Managing Rice Blast Disease

Journal of Agroforestry and Environment Pub Date : 2023-06-15 DOI:10.55706/jae1613

Sumaya Akter, M. Haque, J. Farthouse, N. Paul, Ismat Ara, Md. Ibrahim Khalil

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Abstract

Rice blast, which is caused by the fungus Magnaporthe oryzae, is a highly destructive disease that poses a significant threat to rice cultivation. It results in considerable crop damage, affecting both the yield and quality of rice. This makes rice blast a major concern for farmers and a significant issue in terms of food production. These studies were carried out at Bangladesh Institute of Nuclear Agriculture (BINA), Mymensingh with the aim to manage rice blast disease by means of different fungicides under in in-vitro and field conditions. In-vitro bioassay of six chemical fungicide(s) viz. Amister top 325SC, Seltima, Nativo 75 WG, Filia 525 SE, Avalon 27SC and Trooper 75 WP was done against Magnaporthe oryzae following poison food technique in the Plant Pathology Lab of BINA. The maximum mycelial growth inhibition (73.43%) of Magnaporthe oryzae was obtained by Avalon 27SC (Picoxystrobin 6.70%+ Tricyclazole 20.33%), Nativo 75WG (Tebuconazol 50% + Trifloxistrobin25%) and Seltima (Pyrachlostrobin 10%) at 0.0125% concentrations and 100% growth inhibition was obtained by all the six fungicides at 0.1% and 0.5% concentrations. In vivo evaluation of five fungicides viz. Amister top 325SC, Seltima, Nativo 75 WG, Filia 525 SE and Avalon 27SC against rice blast was carried out in research plot of the Plant Pathology of BINA. From the result, it was concluded that all the fungicides were effective in controlling leaf blast but Avalon 27SC (Picoxystrobin 6.70%+ Tricyclazole 20.33%) @ 0.2% was more effective among other fungicides, showing least leaf blast severity mean at three time interval (1.00, 1.33 and 1.46), least incidence (11.90%, 15.08%, 16.67%), and the highest grain yield (7.58 t ha-1).

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新开发的杀菌剂防治稻瘟病的效果评价

稻瘟病是由稻瘟病菌(Magnaporthe oryzae)引起的一种极具破坏性的病害，对水稻种植构成严重威胁。它造成相当大的作物损害，影响水稻的产量和品质。这使得稻瘟病成为农民关注的主要问题，也是粮食生产中的一个重大问题。这些研究是在Mymensingh的孟加拉国核农业研究所(BINA)进行的，目的是在体外和田间条件下通过不同的杀菌剂管理稻瘟病。采用毒食技术，在中国科学院植物病理学实验室对Amister top 325SC、Seltima、Nativo 75 WG、Filia 525 SE、Avalon 27SC和Trooper 75 WP等6种化学杀菌剂对稻瘟病菌进行了体外生物活性测定。Avalon 27SC (Picoxystrobin 6.70%+三环唑20.33%)、Nativo 75WG(替布康唑50% +三环唑25%)和Seltima(吡虫啉10%)在0.0125%浓度下对稻谷大孔菌的生长抑制作用最大(73.43%)，6种杀菌剂在0.1%和0.5%浓度下对稻谷大孔菌的生长抑制作用均为100%。在BINA植物病理学研究基地，对Amister top 325SC、Seltima、native 75 WG、Filia 525 SE和Avalon 27SC 5种杀菌剂对稻瘟病的体内防效进行了评价。结果表明，所有杀菌剂均有防治叶瘟的效果，但Avalon 27SC (Picoxystrobin 6.70%+ Tricyclazole 20.33%) @ 0.2%杀菌剂的防治效果最好，3个时间间隔的叶瘟平均严重程度最小(1.00、1.33和1.46)，发病率最低(11.90%、15.08%、16.67%)，籽粒产量最高(7.58 t ha-1)。

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Journal of Agroforestry and Environment

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