دانشگاه اصفهان زیست شناسی میکروبی 3060-7647 12 47 2023 09 23 Morphological and Molecular Investigation of Fusarium Wilt of Lemon Verbena and its Biological Control by Trichoderma Harzianum in Khorramabad County جداسازی و شناسایی عوامل پژمردگی فوزاریومی به‌لیمو و کنترل بیولوژیکی آن توسط قارچ Trichoderma harzianum در شهرستان خرم‌آباد 97 116 27948 10.22108/bjm.2023.138766.1557 FA ارمغان پولادوند گروه گیاه‌پزشکی، دانشکده کشاورزی، دانشگاه لرستان، خرم‌آباد، ایران مصطفی درویش نیا گروه گیاه‌پزشکی، دانشکده کشاورزی، دانشگاه لرستان، خرم‌آباد، ایران 0000-0002-5860-1330 سمیرا پاکباز گروه گیاه‌پزشکی، دانشکده کشاورزی، دانشگاه لرستان، خرم‌آباد، ایران عیدی بازگیر گروه گیاه‌پزشکی، دانشکده کشاورزی، دانشگاه لرستان، خرم‌آباد، ایران Journal Article 2023 08 14 <strong>Introduction: </strong>Biological control is an efficient method in the management of plant diseases, which has a lower risk for human health and the environment. In this research, the biocontrol fungus <em>Trichoderma harangue</em> was used to control Fusarium wilt disease to lemon verbena with the scientific name <em>Lippiacitridora </em>Kunth (a medicinal plant from the Verbenaceae family). Fusarium wilt disease of lemon verbena is considered one of the most important plant diseases in the world and it reduces the quantity, quality, and nutritional value of the product. Symptoms of the disease first appear on the lower leaves and usually after the appearance of flowers and fruit formation. As a result of the activity of the fungus <em>F. oxysporum</em>, brown and blocked wood vessels and symptoms of yellowing and wilting similar to water deficiency are observed in the plant. <em>Fusariumredolens</em> species is mostly observed with root rot of different plant species in warm and temperate regions. Like <em>F. oxysporum</em>, this species has a special form that host specificity. <em>Trichoderma</em> spp. species are mainly soil-borne and exert biological control against plant pathogens indirectly through competition for food and space, changing environmental conditions, or promoting plant growth and plant defense mechanisms and antibiotics or they do it directly through mechanisms such as mycoparasitism.<br /><strong>Materials and Methods: </strong>Samples of pathogenic fungi were collected from the fields, isolated, purified and identified, and the sample of antagonistic fungus was prepared in pure from the fungi collection of the Mycology Laboratory of Faculty Agriculture, Lorestan University under the access code OQ702632 and cultivated on PDA culture medium.<br /><strong>Molecular identification of fungal isolates: </strong>Genomic DNA extraction of the fungi was done using the Zhang and Stephenson method with some modifications. For this purpose, the mycelium mass was used of five to seven-day-old fungi. The PCR test was performed in a final volume of 25 microliters with the help of a pair of specific reverse primers related to the TEF-1α gene region and using the PCR Master Mix kit of the British PCR Bio System company and according to the company's instructions. In the negative control sample, sterile distilled water was added instead of DNA.<br /><strong>Pathogenic interactions and biocontrol by Dual-culture method: </strong>The biocontrol effect of <em>Trichoderma</em> on the <em>Fusarium</em> pathogen was carried out using the dual-culture method in 9 cm Petri plates containing PDA in the form of a completely randomized design and in three replications. In order to investigate the cause of <em>Lemon verbena</em> wilting and its biological control, samples were taken from Khorramabad county and 45 samples were transferred to the laboratory for isolation and identification. The antagonist isolate of <em>T. harzianum</em> against pathogenic fungi was used in laboratory conditions as dual-culture and the effect of volatile substances and in greenhouse conditions in the form of a completely randomized design and in three replications.<br /><strong>Inhibitory effect of <em>Trichoderma</em> isolate on Fusarium wilt disease of lemon verbena under greenhouse conditions: </strong>The Mohammadi method was used in order to observe the effect of the antagonist fungus <em>T. harzianum</em> on the plant growth indicators of lemon verbena (height, fresh, and dry weight) in infected and non-infected conditions with the pathogenic fungus and in comparison with the infected and non-infected control, and to prepare the inoculum for <em>Trichoderma</em> isolates. After planting the lemon verbena and applying the treatments, the greenhouse was visited daily and the health and disease status of the plants were examined including yellowing, drying, and wilting of the plants. At the end of the experiment, 30 to 40 days after inoculation, plant parameters were recorded such as wet and dry weight and plant height.<br /><strong>Research Findings: </strong>Based on the morphological and molecular characteristics, <em>Fusarium</em> isolates were separated and classified into two species: <em>F. oxysporum</em> and <em>F. redolens</em>. In the laboratory, the isolation of <em>T. harzianum</em> inhibited the mycelium growth of <em>F. oxysporum</em> and <em><br />F. redolens</em> pathogens, but it had the most inhibitory effect on the pathogenic species of <em><br />F. oxysporum</em>, and in cross-culture methods and the effect of volatile compounds, respectively. <br />It controlled this pathogen by 71.5 and 61.5%. While the control of <em>F. redolens</em> was 56.5% and 50.5% in the two methods. The results of greenhouse experiments showed that <em>T. harzianum </em>biocontrol, in addition to increasing the growth factors of the plant, reduced the disease indicators and controlled the disease. The effect of biological agent <em>T. harzianum</em> on the severity of <br /><em>F. oxysporum</em> after 30 days was equal to 73.86% and in <em>F. redolens</em> was 74.16%. In terms of growth factors, <em>T. harzianum</em> treatment had the highest and <em>F. redolens</em> treatment had the lowest growth indicators.<br /><strong>Discussion of Results and Conclusions: </strong>Both species of <em>Fusariumoxysporum</em> and <em>F. redolens</em> were used in the test to prove pathogenicity in the greenhouse by impregnating the roots of the seedlings in the spore suspension of the fungi causing the disease, and both caused damage and were pathogenic. In the macroscopic examination of <em>Trichoderma</em> isolates and <em>Fusarium</em> species using dual culture, it was observed that <em>T. harzianum</em> isolates limited the growth of both pathogenic fungi <em>F. oxysporum</em> and <em>F. redolens</em>. The highest percentage of growth inhibition was 71.5% in the simultaneous confrontation of <em>T. harzianum</em> isolates with pathogenic agent <em>F.oxysporum</em> and the lowest growth inhibition percentage of 56.5 was observed in the simultaneous confrontation of <em>T. harzianum</em> isolate with the pathogenic agent <em>F. redolens</em>. It was found that the biocontrol fungus <em>T. harzianum</em> controlled the pathogenic fungus <em>F. oxysporum</em> better than <em>F. redolens </em>and further hindered its growth. In the present study, it was found that adding <em>T. harzianum</em> isolates to the soil around seedlings in greenhouse conditions increases the growth indicators (height, fresh weight, and dry weight of shoots and roots) and also reduces the severity of the disease and symptoms of yellowing and wilting in lemon verbena seedlings. It is infected with <em>F. oxysporum</em> and <em>F. redolens</em>. <strong>مقدمه:</strong> مهار زیستی از روش‌های مؤثر وکارامد در مدیریت بیماری‌های گیاهی است که خطر کمتری برای سلامت انسان و محیط زیست دارد.<strong> </strong>در این پژوهش به‌منظور مهار زیستی بیماری پژمردگی فوزاریومی از قارچ بیوکنترل <em>Trichoderma harzianum</em> استفاده شد.<br /><strong>مواد و روش‌ها:</strong> به‌منظور بررسی عامل پژمردگی به‌لیمو و کنترل بیولوژیکی آن از شهرستان خرم‌آباد نمونه‌برداری شد و تعداد <br />45 نمونه برای جداسازی و شناسایی به آزمایشگاه منتقل شدند. از جدایة بیوکنترل <em>T. harzianum</em> علیه قارچ‌های بیمارگر در شرایط آزمایشگاه به‌صورت کشت متقابل و تأثیر مواد فرار و در شرایط گلخانه در قالب طرح کاملاً تصادفی و در سه تکرار استفاده شد.<br /><strong>نتایج:</strong> براساس ویژگی‌های مورفولوژیکی و مولکولی جدایه‌های <em>Fusarium</em> از هم تفکیک شدند و در دو گونة <em>F. oxysporum</em> و <em>F. redolens</em> قرار گرفتند. در آزمایشگاه جدایة <em>T. harzianum</em> از رشد میسلیوم بیمارگرهای <em>F. oxysporum</em> و <em>F. redolens</em> ممانعت کرد؛ اما بیشترین اثر بازدارندگی را بر گونة بیمارگر <em>F. oxysporum</em> داشت و در روش‌های کشت متقابل و اثر ترکیبات فرار به‌ترتیب این بیمارگر را به میزان 5/71 و 5/61 درصد کنترل کرد؛ درحالی‌که کنترل <em>F. redolens</em> در دو روش به‌میزان 5/56 و <br />5/50 درصد بود. نتایج آزمایش‌های گلخانه‌ای نشان دادند بیوکنترل <em>T. harzianum</em> علاوه بر افزایش فاکتورهای رشدی گیاه، شاخص‌های بیماری را کاهش داد و بیماری را کنترل کرد. تأثیر عامل زیستی <em>T. harzianum</em> بر شدت بیماری <em>F. oxysporum</em> پس از 30 روز برابر با 86/73 درصد و در <em>F. redolens</em> برابر با 16/74 درصد بود. ازنظر فاکتورهای رشدی تیمار <em>T. harzianum</em>، بیشترین و تیمار <em>F. redolens</em><em> </em>کمترین شاخص‌های رشدی را داشتند.<br /><strong>بحث و نتیجه‌‌گیری:</strong> استفاده از عامل بیوکنترل <em>T. harzianum</em> تأثیر معنی‌داری در جلوگیری از رشد عوامل بیمارگر<br /><em>F. oxysporum</em> و <em>F. redolens</em> دارد؛ بنابراین، به‌عنوان یک عامل کاربردی در کنترل زیستی بیماری پژمردگی فوزاریومی برای افزایش بهره‌وری و تولید محصول ایمن می‌تواند استفاده شود. https://bjm.ui.ac.ir/article_27948_5d5558a6273c6835afbe80df8010a75c.pdf