بررسی قارچ‌های عامل و همراه بیماری لکه‌برگی گیاه گل نرگس در استان خراسان جنوبی

نوع مقاله : مقاله کوتاه پژوهشی

نویسندگان

1 گروه گیاهپزشکی، دانشکده کشاورزی ، دانشگاه بیرجند، ایران

2 گروه گیاهپزشکی، دانشکده کشاورزی، دانشگاه بیرجند، ایران

3 بخش تحقبقات گیاه پزشکی مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی خراسان جنوبی-بیرجند-ایران

4 بخش تحقیقات گیاه پژشکی مرکز نحقیقات و آموزش کشاورزی و منابع طبیعی خراسان جنوبی

چکیده

گل نرگس گیاهی چند­ساله و زینتی از تیره آماریلیداسه است که استفاده آن به صورت گل بریده، گیاه باغچه‌ای و گلدانی در کشور رایج می‌باشد. بیماری‌های قارچی یکی از عوامل خسارت­زای این گیاه زینتی در نقاط مختلف جهان محسوب می‌شوند. این مطالعه به منظور شناسایی قارچ‌های عامل و همراه بیماری لکه برگی گل نرگس در استان خراسان جنوبی طی سال‌های زراعی 1398-1397 انجام گرفت. نمونه‌های دارای علایم بیماری از دو منطقه در استان (شهرستان‌های خوسف و طبس) جمع‌آوری، عوامل قارچی جداسازی و بر اساس خصوصیات ریخت‌شناسی شناسایی انجام شد. جهت تایید مولکولی گونه، تکثیر بخشی از ژن rDNA با آغازگر  ITS4و ITS5 انجام شد. بر اساس خصوصیات ریخت‌شناسی عامل اصلی بیماری لکه برگی در استان خراسان جنوبی گونه ‌ Phoma narcissi شناسایی و بیماری‌زایی آن اثبات شد. بلاست توالی ناحیه تکثیر شده نشان ‌داد ‌که ‌توالی ‌مربوط ‌به‌ جدایه ‌ Phoma narcissi در این ‌مطالعه ‌با جدایه‌های (heterotypic synonym: Phoma narcissi) Didymella curtisii ، Phoma narcissi و Phoma sp. در بانک ژن به‌ترتیب 100، 100 و 99 درصد شباهت دارد. در این بررسی آرایه‌های قارچی از جنس­های Fusarium، Cladosporium نیز به عنوان عوامل همراه این بیمارگر شناسایی و گزارش می‌شود. از آنجایی که شناسایی عامل بیماری در انتخاب روش‌های موثر و کارآمد در مدیریت بیماری موثر است، نتایج این بررسی می‌تواند به اتخاذ روش‌های موثر در مدیریت بیماری کمک نماید. 

کلیدواژه‌ها

موضوعات

عنوان مقاله [English]

Investigation of Fungi Causing and Associated with Narcissus Leaf Spot Disease in Southern Khorasan Province

نویسندگان [English]

  • S. Motavalli Habibi 1
  • M. Jahani 2
  • H. Mahmoudi 3
  • M.R. Mirzaee 4
1 Department of Plant Protection, College of Agriculture, University of Birjand, Birjand, Iran
2 - Department of Plant Protection, College of Agriculture, University of Birjand, Birjand, Iran
3 Plant Protection Research Department, South Khorasan Agricultural and Natural Resources Research and Education Center, AREEO, Birjand, Iran
4 Plant Protection Research Department, South Khorasan Agricultural and Natural Resources Research and Education Center, AREEO, Birjand, Iran
چکیده [English]

Introduction
Narcissus (Narcissus tazetta) is one of the perennial herbaceous and ornamental bulbous crops that is used as a cut flower garden plant and potted plant. Fungal diseases are one of the harmful factors of this ornamental plant in different parts of the world. In 2018, symptoms of Narcissus leaf spot (NLS) were observed in some planting areas of this plant in South Khorasan province. This study was carried out to identify the casual and associated fungi with NLS in Southern Khorasan province.
 
Materials and Methods
Samples with leaf spot symptoms were collected from two regions, Khoosf and Tabas, from 2018 to 2019. Plant tissues were transferred to the laboratory of the Department of Plant Protection in separate paper bags. The tissues were cultured on a Potato Dextrose Agar (PDA) medium and purification was performed on a 2% water-agar medium using the Hyphal tip method. Fungal agents were isolated and identified based on morphological and molecular characteristics.  The DNA of representative fungal isolates was extracted according to the CTAB method. To molecularly confirm the species, part of the rDNA gene was amplified using ITS5 (5'-GGAAGTAAAAGTCGTAACAAGG-3') and ITS4 (5'- TCCTCCGCTTATTGATATGC-3') primers. Sequencing of PCR products was done by Pishgam Biotechnology Company and deposited in the GenBank with Accession number: MN829259. Sequences were edited with Chromas software and the edited sequences were saved in FASTA format. The ITS-based phylogenetic tree was constructed using the Maximum Likelihood Method with MEGA ver6.0 software. For the pathogenicity test, the Narcissus plant was inoculated with mycelia plugs. In order to maintain moisture and establish the fungus, the inoculation area was covered with parafilm.  The plants were covered with polythene bags for 24 hours. The bags were removed after 24 hours. In the control plants, the potato-dextrose-agar culture medium without fungal mycelium was used. All plants were examined after 3 to 14 days and the pathogen was re-isolated from the inoculated plant that showed leaf spot.
 
Results and Discussion
Symptoms of narcissus leaf spot (NLS) disease in the sampled areas included elongated, elliptical, and red to brown circles on the leaf. A total of 50 samples of different leaf spot symptoms were collected. In this study, 20 fungal strains were isolated and identified based on morphological and molecular characteristics. The growth rate of this isolate on the PDA medium was relatively fast and the average growth rate after 7 days was 6.6 cm. Pycnidia were formed abundantly on the PDA medium after 7 days. The pycnidiospores were transparent, mostly single-celled (3-4×5-7), sometimes two-celled (11.5-15 ×5.8), round to oval and curved. Chlamydospores (8-15) were dark brown, unicellular and multicellular, intercellular and rarely terminal. Based on morphological characteristics, the strains were finally identified as Phoma narcissi.
The NCBI blast search revealed that the ITS region Phoma narcissi in our study had similarities to Didymella curtisii, Phoma narcissi, and Phoma sp. 100%, 100%, and 99% respectively. Phylogenetic analysis confirms that the examined strain belongs in a clade with strains of Ph. narcissi. In Pathogenicity tests, symptoms of the disease were observed on all plants 7 days after inoculation. No symptoms developed on non- inoculated plants. The original pathogen was re-isolated from the leaf spots of inoculated plants. Phoma s.l. is one of the most ubiquitous fungal genera, characterized by its great ecological diversity and difficult identification. According to our knowledge, the main cause of NLS disease in the east of the country is the Ph. Narcissi, Fusarium sp. and Cladosporium sp. were associated agents with this disease. Since the identification of the disease agent is effective in choosing effective and efficient strategies for disease control, the results can help to adopt effective methods in disease management.
 

کلیدواژه‌ها [English]

  • Narcissus
  • Pathogenic fungus
  • Phoma narcissi

مراجع

  1. Agricultural jihad of southern Khorasan. (2019). Agricultural information of crops in southern Khorasan province. Information website: https://www. https://kj-agrijahad.ir
  2. Alhussaini, M., Moslem, M., Alghonaim, M., Al-Ghanayem, A., & Hefny, H. (2015). Biodiversity and distribution of airborne Cladosporium species in Riyadh city. Journal of American Science, 11(7), 145-154.
  3. Aveskamp, M.M., Gerard, J.M., Verkley, J., Mónica, A., & Murace, A. (2009). DNA phylogeny reveals polyphyly of Phoma section Peyronellaea and multiple taxonomic novelties, Mycologia, 101(3), 363-382. https://doi.org/10.3852/08-199
  4. Borema, G.H. (1993). Contribution towards a monograph of phoma coelomycetes. Persoonia, 15, 197-221.
  5. Hanks, G.R., & Chastagner, G.A. (2018). Diseases of Daffodil (Narcissus). In: McGovern R, Elmer W. (eds) Handbook of Florists' Crops Diseases. Handbook of Plant Disease Management. Springer, Cham.
  6. Hrynkiewicz, K., Deka, P., Ruszkiewicz-Michalska, M., Thiem, D., & Szmidt-Jaworska, A. (2016). Interactive physiological potential of Peyronellaea curtisii (=Phoma narcissi) strains for enzymatic attack and defense capabilities against phytoalexins. Eurpean Journal of Plant Pathology, 145, 89–102 https://doi.org/10.1007/s10658-015-0817-2
  7. Mohammadi, H., Minasian, V., & Moosavi-jorf, S.A. (2004). Occurrence of Narcissus leaf spot in Iran. Proceeding of the 16th Iranian Plant Protection Congress, Iran, pp: 460.
  8. Taylor, A., Armitage, A.D., Handy, C., Jackson, A.C., Hulin, M.T., Harrison, R.J., & Clarkson, J.P. (2019). Basal rot of Narcissus: understanding pathogenicity in Fusarium oxysporum sp. narcissiFrontiers in Microbiology,10, 2905. https://doi.org/10.3389/fmicb.2019.02905

 

 

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