Effective Biological Control of Carnation Fusarium Wilt Using a New Combination of Trichoderma Mutant Isolates

IF 1.2 4区农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY Journal of Agricultural Science and Technology Pub Date : 2022-11-01 DOI:10.52547/jast.24.6.1501

F. Zaker Tavallaie, S. Shahbazi, Z. Daroodi

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Abstract

Fusarium infection in carnation is the most important limiting factor for carnation production. We isolated 38 fungal isolates from infected carnation plants collected from Mahallat, Iran, and 15 Fusarium species were identified morphologically. Isolates of J14, k5, and k72 were the most pathogenic isolates in pathogenicity test on White Liberty cultivar. Molecular identification of J14, k5, and k72 isolates was done based on Elongation Factor 1-alpha (EF1-α) gene. To investigate the effect of Trichoderma and some of its mutants on reducing the Fusarium infection, six wild type isolates were examined. The species of T. harzianum, T. virense, and T. ghanens showed more inhabitation potential and were chosen for induced mutation via gamma irradiation at 250 Gy. The number of 270 mutants were screened morphologically and 60 mutants were screened using dual culture against J14, k5, and k72. Morphological and molecular identification of J14, k5, and k72 isolates recognized them as F. oxysporum. Three mutants, i.e. ThM7(67.17%), TgM1 (59.45%), and TvM17(57.55%) showed the highest efficacy and were selected. Evaluation test of efficacy in greenhouse by mixture of T. harzianum, T. virense and T. ghanens (TW) and mixture of mutant isolates ThM7 , TgM1, and TvM17 (TM) showed that biological method had higher ability to control Fusarium infection on carnation plants in greenhouse condition, and mutation had no adverse effects on plants. The results of this experiment proved that the use of mutation in the Trichoderma genome with the use of gamma radiation could be an effective way to achieve isolates with better performance in this bio-control

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利用木霉突变株新组合有效防治香石竹枯萎病

香石竹镰刀菌感染是制约香石竹生产的重要因素。从伊朗Mahallat地区采集的康乃馨感染株中分离到38株真菌，鉴定出15种镰刀菌。J14、k5和k72是白自由品种致病性最强的分离株。利用伸长因子1-α (EF1-α)基因对分离菌株J14、k5和k72进行了分子鉴定。为研究木霉及其一些突变体对减少镰刀菌感染的作用，对6株野生型菌株进行了检测。采用250 Gy γ射线诱变法对哈氏T. harzianum、T. virense和T. ghanens三种病原菌进行诱变。形态学上筛选了270个突变体，其中J14、k5和k72的双重培养筛选了60个突变体。J14、k5和k72的形态和分子鉴定鉴定为尖孢镰刀菌。3个突变体ThM7(67.17%)、TgM1(59.45%)和TvM17(57.55%)的效力最高，被选择。在温室条件下，通过哈兹兰镰刀菌(T. harzianum, T. virense, T. ghanens)和ThM7、TgM1和TvM17突变株(TM)的混合药效评价试验表明，生物学方法对温室条件下康乃馨植株镰刀菌侵染有较高的控制能力，突变株对植株无不良影响。本实验结果证明，利用突变的木霉基因组与伽马射线的使用可能是一种有效的方法，以获得较好的分离性能，在这种生物防治

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来源期刊

Journal of Agricultural Science and Technology AGRICULTURE, MULTIDISCIPLINARY-

CiteScore

1.90

自引率

8.30%

发文量

审稿时长

4.5 months

期刊介绍： Journal of Agricultural Science and Technology is one of the TMU Press journals that is published by the responsibility of its Editor-in-Chief and Editorial Board in the determined scopes. Journal of Agricultural Science and Technology (JAST) is an international research journal published bimonthly for the purpose of advancing the scientific studies. The subjects covered by JAST include all aspects of agriculture and natural resources (see Areas Covered). The journal will consider submissions from all over the world, on research works not being published or submitted for publication towards publication as full paper, review article and research note. The Papers are published in English with an extra abstract in Persian.