نخستین گزارش از Alternaria alternata به عنوان عامل لکه برگی Sambucus ebulus در ایران

نوع مقاله : گزارش کوتاه

نویسندگان

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چکیده

گیاهان دارویی از دیرباز ارتباط نزدیکی با زندگی انسانی داشته و برای درمان برخی بیماری‌های انسانی استفاده شده اند. گیاه آقطی با نام علمی Sambucus ebulus (Caprifoliaceae) از گونه های ارزشمند و دارویی از زمان قدیم است و بومی مناطق جنوبی و مرکزی اروپا، شمال غربی آفریقا و جنوب غربی آسیا (به ویژه شمال ایران) می‌باشد (Westwood 1985; Jabbari et al. 2017). این گونه نقش مهمی در طب سنتی بسیاری از کشورها در مناطق مختلف دنیا دارد (Jabbari et al. 2017). در تابستان سال 1393 بیماری لکه‌برگی روی گیاهان آقطی در استان‌های گیلان و مازندران مشاهده شد. علائم بیماری بر روی برگ‌های آلوده به صورت لکه‌های نکروزه، قهوه ای رنگ با هاله‌ قهوه‌ای تیره و به شکل دایره‌ای تا نامنظم مشاهده گردید. در تابستان سال  1393 و 1394 از گیاهان دارای علائم بیماری در استان‌های گیلان و مازندران نمونه برداری صورت پذیرفت و جداسازی قارچ‌ها در محیط کشت‌های آب آگار 2% (WA 2%) و سیب زمینی دکستروز آگار (PDA) انجام گرفت. خالص سازی جدایه‌های قارچی به روش برداشتن نوک ریسه در محیط کشت PDA انجام شد. به منظور بررسی ریخت شناختی، جدایه‌ها روی محیط سیب زمینی-هویج-آگار (PCA) کشت و در شرایط نور سفید فلورسنت با دوره روشنایی/ تاریکی 8/16 ساعته و دمای 25 درجه سلسیوس به مدت 7 روز قرار گرفتند (Simmons 2007). پرگنه روی محیط PCA به رنگ سبز زیتونی تیره تا قهوه‌ای و قطر رشد آن پس از 7 روز برابر با 70-65 میلی‌متر اندازه گیری شد. کنیدیوفورهای اولیه اغلب به صورت منفرد و به طول 70 میکرومتر می‌باشند و زنجیره‌های کنیدیومی بلند و فاقد انشعاب از کنیدیوم‌های را تولید می‌کنند. کنیدیوم‌ها اغلب به صورت تخم مرغی یا گرزی شکل حاوی  5-3 دیواری عرضی و 1-2 دیواره طولی بوده و به ابعاد 54-20×12-8 میکرومتر می‌باشند (شکل 1، A-D). بر اساس خصوصیات ریخت شناسی قارچ‌های جدا شده به عنوان گونه A. tenuissima شناسایی شدند (Simmons 2007). در مطالعات انجام شده توسط ودنبرگ و همکاران (2015) این گونه در حال حاضر تحت نام A. alternata نامگذاری شده است 

کلیدواژه‌ها


عنوان مقاله [English]

First report of Alternaria alternata causing leaf spot on Sambucus ebulus in Iran

نویسندگان [English]

  • A. Alidadi
  • E. Shams
  • S. Karimzadeh
  • M. Javan-Nikkhah
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چکیده [English]

Medicinal plants have undoubtedly been considered by human beings since ancient times. Sambucus ebulus (Caprifoliaceae) is one of the best known medicinal herbs since ancient times and is native to Southern and Central Europe, Northwest Africa, and Southwest Asia (especially Northern Iran) (Westwood 1985; Jabbari et al. 2017). It plays an important role in traditional medicine in many countries from different regions of the world (Jabbari et al. 2017). During the summer of 2014, leaf spots have been observed on S. ebulus plants in Gilan and Mazandaran provinces, Iran. Symptoms on infected leaves appeared as brown necrotic spots that surrounded by distinct dark brown haloes and were circular to irregularly in shape. During the summer of 2014 and 2015, sampling was done in Gilan and Mazandaran provinces from symptomatic leaves of S. ebulus and the fungus was isolated on 2% water agar (WA 2%) and potato dextrose agar (PDA). Pure fungal cultures were obtained by picking up a single spore on PDA. For morphological identification, the isolates were cultured on Potato Carrot Agar medium (PCA) and incubated at 25 °C under cool-white fluorescent with 16 h dark, 8 h light photoperiod for 14 days (Simmons 2007). The seven-days-old colonies on PCA were dark olive to brown in color and 70 mm in diameter. Primary conidiophores were often simple, reached to 70 µm in length and produced numerous conidia in a simple long chain. The conidia were 8–12 × 20–45 µm in size, egg or club shaped and contained 3-5 transverse and 1-2 longitudinal septa (Fig. 1a-c).According to macro- and micro morphological characters, all recovered isolated were identified as Alternaria tenuissima which was later synonymized under the name of A. alternata by Woudenberg et al. (2015). PCR amplification of the nuclear ITS-rDNA and RNA polymerase II second largest subunit regions was performed using primers ITS1/ITS4 and RPB2–5F2/fRPB2–7cR respectively (White et al. 1990, Sung et al. 2007; Liu et al. 1999). The sequence of NG1 isolate was deposited into the GenBank with the accession numbers MK212914 for ITS-rDNA and MK262741 for rpb2 region and living cultures of this strain were deposited in the Agriculture Biotechnology Research Institute of Iran culture collection (ABRII 10119). Phylogenetic estimates were evaluated using the Maximum Parsimony Analyses in MEGA 6.0 (Tamura et al. 2013). The results of phylogenetic study showed, NG1 isolate was clustered in a well-supported clade (100%) including sec. Alternaria and related to Alternaria alternate isolates (Fig. 2).  Pathogenicity test was performed in greenhouse condition on the detached leaves taken from healthy S. ebulus. Ten healthy leaves per isolates were cleaned with sterile water and were inoculated with conidial suspension containing 1 × 106 conidia/mL using the spray method. The control leaves were inoculated with distilled water. Leaf spots similar to the original symptoms were observed on all inoculated leaves after 5 days since inoculation and the fungus re-isolated from leaf lesions (Fig. 1e-g). Also, no symptoms were seen in controls.

کلیدواژه‌ها [English]

  • Medicinal plants
Abbasi P. A., Ali, S., Renderos W., Naeem H. A. and Papadopoulos Y. 2018. First report of Alternaria alternata causing leaf spot and blight symptoms on alfalfa in Canada. Canadian Journal of Plant Pathology 40: 451-455.
Abkhoo J., and Sabbagh S. K. 2014. Evidence of Alternaria alternata causing leaf spot of Aloe vera in Iran. Journal of Phytopathology 162: 516-518.
Agamy R., Alamri S., Moustafa M. F. and Hashem M. 2013. Management of Tomato Leaf Spot Caused by Alternaria tenuissima Wiltshire using Salicylic Acid and Agrileen. International Journal of Agriculture and Biology 15: 266-272
Ardestani S. T., Sharifnabi B., Zare R. and Abbasi Moghadam A. 2010. New Alternaria species associated with potato leaf spot in various potato growing region of Iran. Iranian Journal of Plant Pathology 45: 83-86.
Domsch, K. H., Gams W. and Anderson, T. H. 2007. Compendium of soil fungi. 2nd ed. IHW –Verlag, Eching 672 Pp.
Jabbari M., Daneshfard B., Emtiazy M., Khiveh A. & Hashempur M. H. 2017. Biological effects and clinical applications of dwarf elder (Sambucus ebulus L): A review. Journal of evidence-based complementary & alternative medicine 22: 996-1001.
Li Y., Zhang D., Xu W., Wu Z., Guo M. and Cao A. 2011. Alternaria tenuissima causing leaf spot and fruit rot on pepper (Capsicum annuum): first report in China. New Dis Rep 24: 3.
Liu Y. J., Whelen S. and Hall B. D. 1999. Phylogenetic relationships among ascomycetes: evidence from an RNA polymerse II subunit. Molecular Biology and Evolution 16: 1799-1808.    
Nasehi A., Kadir J. B., Abidin M. Z., Wong M. Y. and Mahmodi F. 2012. First report of Alternaria tenuissima causing leaf spot on eggplant in Malaysia. Plant Disease 96: 1226-1226.
Osdaghi E., Kakavandi N. R. and Nejati M. 2014. First report of Alternaria alternata causing leaf spot on Populus euphratica in Iran. Iranian Journal of Plant Pathology 50: 309-310.
Shahid A. A., Iftikhar S., Nawaz K., Anwar W. and Ali M. 2017. First report of Alternaria alternata causing brown leaf spot of potato in Pakistan. Journal of Plant Pathology 99: 287-304.
Simmons E.G. 2007. Alternaria: An Identification Manual. CBS Biodiversity Centre, Utrecht, The Netherlands. 757 Pp.
Sung G. H., Sung J. M., Hywel-Jones N. L. and Spatafora J. W. 2007. A multi-gene phylogeny of Clavicipitaceae (Ascomycota, Fungi): Identification of localized incongruence using a combinational bootstrap approach. Molecular phylogenetics and evolution 44: 1204-1223.
Tamura K., Stecher G., Peterson D., Filipski A. and Kumar S. 2013. MEGA6: molecular evolutionary genetics analysis version 6.0 Molecular biology and evolution 30: 2725-2729.
Westwood J. 1985. Albion: a guide to legendary Britain. London, England, Grafton books, 103 Pp.
White T. J., Bruns T., Lee S. J. W. T. and Taylor J. W. 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetic. PCR protocols: a guide to methods and applications 18: 315-322.
Woudenberg J. H. C., Seidl M. F., Groenewald J. Z., de Vries M., Stielow J. B., Thomma B. P. H. J. and Crous P.W. 2015. Alternaria section Alternaria: species, formae speciales or pathotypes? Studies in Mycology 82: 1-21.