تأثیر قارچهای میکوریز آربوسکولار Glomus mosseae و G. intraradices روی بیماریزایی نماتد ریشهگرهی Meloidogyne javanica و تغییرات هیستوپاتولوژیکی در گیاه گوجهفرنگی آلوده به نماتد
محورهای موضوعی : گیاه پزشکیفاطمه سهرابی 1 , علی اکبر فدایی تهرانی 2
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کلید واژه: Glomus mosseae, Tomato, root-knot nematode, Meloidogyne javanica, Glomus intraradices, گوجه فرنگی, سلول غول آسا, G. intraradices, micorrhzal fungi,
چکیده مقاله :
نماتد ریشه گرهی Meloidogyne javanica (Treub, 1885) یکی از بیمارگرهای مهم در بسیاری از محصولات کشاورزی به ویژه گوجه فرنگی می باشد. تشکیل سلول های غول آسا توسط نماتد یکی از تغییرات مهم سلولی در فرآیند ایجاد بیماری در گیاه می باشد. به منظور بررسی تأثیر قارچ های میکوریز روی بیماریزایی و تغییرات سلولی و بافتی ریشه گوجه فرنگی، از دو گونه قارچ میکوریز Glomus mosseae و G. intraradices استفاده شد. پس از تکثیر قارچهای مذکور روی شبدر سفید و شناسایی گونه نماتد و تکثیر آن روی رقم حساس گوجه فرنگی، آزمایشی به صورت طرح کاملاً تصادفی در شرایط گلخانه انجام شد. پس از طی 90 روز، شاخصهای رشد و نموی نماتد و تغییرات سلولی ریشه گیاهان مورد بررسی قرار گرفت. تجزیه و تحلیل آماری نتایج حاصل، نشاندهنده اثر مثبت قارچهای میکوریز در کاهش بیماریزایی و خسارت نماتد بود. مقایسه میانگین تعداد و اندازه سلول های غول آسای ریشه نشاندهنده اختلاف معنیدار آماری بین گیاهان آلوده به نماتد میکوریزی و گیاهان آلوده به نماتد غیرمیکوریزی بود. به عبارت دیگر قارچهای مذکور تعداد و اندازه سلولهای غولآسا را کاهش دادند. این کاهش به نوبه خود باعث کاهش رشد لاروها و تکامل آن ها گردیده بود. بنابراین قارچهای مورد بررسی میتوانند به عنوان کاندیداهای مناسبی جهت استفاده درکنترل بیولوژیکی نماتد ریشه گرهی مورد توجه قرارگیرند.
The root-knot nematode, Meloidogyne javanica (Treub, 1885) is one of the most important pathogens in many crops, especially in tomato. Formation of giant cells by nematode is the most important histological changes in disease process. Two arbuscular mycorrhizal fungal species, Glomus mosseae and G. intraradices were used to study the effects of arbuscular mycorrhizal fungi on pathogenicity and histopathological changes of root-knot nematode, in a completely randomized design, performed in glasshouse. Fungi and nematode were propagated on white clover and tomato, respectively. Nematode-related factors and pathogenicity indices were evaluated, after the nematode completed three generations. Analysis of variance showed the positive effect of mycorrhizal fungi on nematode damages. Mean comparison of the number and size of giant cells were showing significant difference between mycorrhizal and non-mycorrhizal plants. Thus mycorrhizal fungi caused reduction in number and size of giant
Abbot, L.K. & Robson, A.D. 1991. Factors influence the occurrence of vesicular – arbuscular mycorrhiza.Agriculture, Ecosystems and Environment, 35:121 – 150.
Atillanto, R.A., Menge J.A., & Vanggundy, S.D. 1981. Interaction of Meloidogynearenaria and Glomus fasciculatum in grape, Nematology, 13: 52-57.
Auge, R. 2001. Water relations, drought and VA mycorrhizal symbiosis. Mycorrhiza, 11: 3-42
Azcon-Aguilar C., & Barea J.M. 1996. Arbuscular mycorrhizal and biological control of soil born plant pathogens on overview of the mechanisms involved. Mycorrhiza, 6: 457-464.
Barea, J.M. Azcon, R., & Azcon-Anguilar, C. 2002. Mycorrhizospher interactions to improve plant fitness and soil quality.Plant Soil, 81: 342-351.
Chen, P., & Robert P.A. 2003. Virulence in M.hapla differetiat by resistance in common bean. Nematology, 5:39-47.
Forge, T., Muehlchen A., Hachenberg C., Neilsen G., & Vrain, T. 2001. Effects of preplant inoculation of apple with arbuscular mycorrhizal fungi on population growth of the root lesion nematode, Pratylenchus penetrans. Plant Soil, 236:185-196.
Hillocks, R.J., Stockes, S., Joves, M. 1995. Reproduction of M. javanica on legume crops andsome weed species associated with their cultivation in Malavi. Nematologica, 41: 505-515.
Hol, W.H.G., & Cook, R. 2005. An overview of arbuscular mycorrhizal fungi- nematode interactions. Basic Applied Ecology, 6:489-503.
Hussey, R.S., & Barker, K.R. 1973. A comparison of methods of collecting inocula of Meloidogyne spp. including a new technique, Plant Disease Reporter 57:1025-1028.
Hussey, R.S., & Janssen, G.S.W. 2002. Root- knot nematodes: Meloidogyne species. In: Starr J.L.Cook R. and Brige J. Plant Resistance to Pareasitic Nematods. CAB International, PP: 69-77.
Jenkins, W.R. 1964. A rapid centrifugal technique for separating nematodes from soil. Plant Disease Reporter, 48: 672-693.
Linderman, R.G. 2000. Effects of mycorrhizas on plant tolerance to disease. Arbuscular Mycorrhizas: Physiology and Function,pp 345-367.
Liu, R., Dai, M., Wu, X., Li M., & Liu, X. 2011. Suppression of the root-knot nematode [Meloidogyne incognita (Kofoid& White) Chitwood] on tomato by dual inoculation with arbuscular mycorrhizal fungi and plant growth-promoting rhizobacteria. Mycorrhiza, 10:379-39.
Mahaveer, P., Sharma, S., Bhargava, M.K., Verma., & Alokadholeya. 1994. Interaction between the endomycorrhizal fungus, Glomus fasciculatum. Mycorrhiza, 5: 270-279
Menge, J.A. 1984. Inoculum production. In: C.L. Powell and D.P. Bagyaraj (Eds.). Mycorrhiza. CRC Press Inc., Boca Raton, Florida, USA, pp187-199.
Oyekanmi, E.O., Coyneb, D.L., Fagadea, O.E., & Osonubia, O. 2007. Improving root-knot nematode management on two soybeangenotypes through the application of Bradyrhizobium japonicum, Trichoderma pseudokoningii and Glomus mosseae in full factorial combinations. Crop Protection, 26: 1006–1012.
Phillips, J.M., & Hayman, D.S. 1974. Improved procedures clearing root and staining parasitic and vesicular arbuscular mycorrhizal fungi for rapid assessment of infections. Transaction of British Mycological Society, 55: 158-161.
Proite, K., Carneiro, R., Falcao, R., Gomes, A., Leal-Bertioli, S.,Guimaraes, P.,&Bertioli, D. 2008. Post-infection development and histopathology of Meloidogyne arenaria 1 on Arachis spp. Plant Pathology, 57: 974-980.
Rai, M.K. 2001. Current advances in mycorrhization in micropropagation. In vitro cell. Plant Developmental Biology, 37:158-167.
Rezaee Danesh, Y., Mohammadi Goltapeh, A., Alizadeh, A., & Varma, A. 2007. Studies on taxonomy and in vitro culturing possibility soybean and alfalfa-associated arbuscularmycorrhizas in Iran. Ph.D thesis. Plant protection Department, Faculty of agriculture. Tarbiat Modarres University, Pp 346.
Roserwarne, G.M., Barker, S.J., & Smith, S. E. 1997. Production of near-synchronous fungal colonization in tomato for developmental and molecular analyses of mycorrhiza. Printed in Great Britain, 101(8): 966-970.
Saleh, H.M., & Sikora, R.A. 1988. Effect of quintozen, benomyl and carbendazim on the interaction between the endomycorrhizal fungus Glomus Fasciculatum and the root-knot nematode Meloidogyne incognita on cotton. Nematologica, 432-442.
Schwob, A.,Ducher, C., & Coudret, S.A. 1988. Effects of climatic factors on native arbuscular mycorrhizae and Meloidogyne exigua in a Brazilian rubber tree (Heveabrasiliensis) plantation. Plant Pathology, pp19-25.
Schubler, A. 2002. Molecular phylogeny, taxonomy and evolution of Geosiphon pyriformis and arbuscular mycorrhizal fungi. Plant Soil, 244: 75-83.
Sharon, E., Bar-Eyal M., Chet, I., Herrera-Esterella, A., Keleifeld, O., & Spiegel, Y. 2001. Biological control of the root-knot nematode Meloidogyne javanica by Trichoderma harzianum. Plant parasitic in subtropical and tropical agricaltur. CAB International, 91(7): 687-693.
Siddiqui, Z.A., & Mahmood, I. 1998. Effect of a plant growth promoting bacterium, an AM fungus and soil types on the morphometrics and reproduction of Meloidogyne javanica on tomato. Applied Soil Ecology, 8:77-84.
Sikora, R.A., & Schonbech, F. 1975. Effect of vesicular arbuscular mycorrhizal (Endogonemosseae) on the population dynamics of the (Meloidogyne incognita and Meloidogyne hapla). Plant Prot. Congr. Reports and Information,pp 158-166.
Smith, S.E., & Read. D.J. 1997. Mycorrhizal Symbiosis. 2nd ed. Academic Press, London.
Strobel, N.E.1981. Interactions of Vesicular Arbuscular Mycorrhizal Fungi, Meloidogyne incognita, and Soil Fertility on Peach. Ecology and Epidemiology, 72:690-694.
Suresh, D.K.,Bagyaraj, D.J., & Reddy, D.D. 1985. Effect of Vesicular arbuscular mycorrhiza on survival, penetration and development of root- knot nematode in tomato. Plant and Soil, 87: 305-308.
Taylor, D. P., & Netscher, C. 1974. An improved technique for preparing perineal patterns of Meloidogyne spp. 16. Nematologica, 20: 268-269.
Trudgill, D.L., & Block, V.C. 2001. Apomictic, polyphagous root-knot nematodes: dxceptionally successful and damaging biotrophic root pathogens. Annual Review of Phytopathology, 39:53-77.
Varma, A. 2008. Mycorrhiza. Springer.
Williamson, V.M., & Hussey, R.S., 1996. Nematode pathogenesis and resistance in plants. The Plant Cell, 8:1735-1745.
Zaki, A.M., Siddiqui, M., & SaeedAkhtar, M. 2007. Effects of AM fungi and organic fertilizers on the reproduction of the nematode Meloidogyne incognita and on the growth and water loss of tomato. Biology and Fertility of Soils, 43:603–609.
Zhang, L., Zhang, J., & Christie, P. 2008. Pre-in oculation with arbuscular mycorrhizal fungi suppresses root-knot nematode (Meloidogyne incognita) on cucumber (Cucumissativus). Biology and Fertility of Soils, 45:205–211.