اثر همزیستی با گونه‌های میکوریزا و پرایمینگ بذر بر عملکرد و اجزای عملکرد دانه کنجد (Sesamum indicum L.) در سطوح تنش خشکی

عسکری, عبدالحسین; اردکانی, محمد رضا; وزان, سعید; پاک نژاد, فرزاد; حسینی, یعقوب

doi:10.22067/jag.v10i4.63405

اثر همزیستی با گونه‌های میکوریزا و پرایمینگ بذر بر عملکرد و اجزای عملکرد دانه کنجد (Sesamum indicum L.) در سطوح تنش خشکی

نوع مقاله : علمی - پژوهشی

نویسندگان

¹ گروه زراعت و اصلاح نباتات، دانشکده کشاورزی، واحد کرج، دانشگاه آزاد اسلامی، کرج، ایران

² بخش تحقیقات خاک و آب، مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی استان هرمزگان، سازمان تحقیقات و آموزش کشاورزی،بندرعباس، ایران

10.22067/jag.v10i4.63405

چکیده

این تحقیق بهمنظور بررسی تأثیر تنش خشکی، پرایمینگ بذر و همزیستی با گونههای قارچ میکوریزا آربوسکولار بر عملکرد و اجزای عملکرد کنجد (Sesamum indicum L.) بهصورت اسپلیت فاکتوریل بر پایه طرح بلوکهای کامل تصادفی با 3 تکرار در سالهای 1393 و 1394 در مزرعه ایستگاه تحقیقات کشاورزی حاجیآباد هرمزگان اجرا گردید. فاکتور اصلی تنش خشکی شامل: آبیاری بر اساس تأمین 100درصد نیاز آبی گیاه (آبیاری نرمال)، تأمین70 درصد نیاز آبی گیاه (تنش ملایم) و تأمین50 درصد نیاز آبی گیاه (تنش شدید)، فاکتور فرعی پرایمینگ در سه سطح: بدون پرایمینگ (شاهد)، هیدروپرایمینگ و اسموپرایمینگ و فاکتور فرعی دیگر شامل سطوح قارچ میکوریزا: بدون استفاده از قارچ میکوریزا (شاهد)، استفاده از گونه‌هایGlomus mosseae و Glomus intraradices بودند. نتایج حاصل از تجزیه واریانس مرکب دادهها نشان داد که اثر ساده تنش خشکی تأثیری معنیدار (P≤0.01) بر کلیه صفات مورد بررسی داشت. اثر تلقیح میکوریزا بر تمامی پاسخهای گیاهی اندازهگیری شده (P≤0.01) و تیمار پرایمینگ بر صفت تعداد دانه در هر کپسول (P≤0.01) و همچنین بر صفات وزن هزاردانه، عملکرد دانه و عملکرد بیولوژیک دارای تأثیری معنیدار (P≤0.05) بود. اثرات برهمکنش آبیاری × میکوریزا فقط بر صفت عملکرد دانه (P≤0.05)، اثرات برهمکنش میکوریزا × پرایمینگ بر صفت تعداد دانه در هر کپسول (P≤0.01) و بر صفت وزن هزاردانه (P≤0.05) معنیدار بود. نتایج همچنین نشان داد که بیشترین عملکرد دانه و تمامی صفات اندازه گیری شده، مربوط به آبیاری با تأمین 100 درصد نیاز آبی گیاه (آبیاری نرمال) بهدست آمد. افزایش مقدار آبیاری از 50 درصد نیاز آبی گیاه به 100 درصد نیاز آبی، عملکرد دانه و عملکرد بیولوژیک را به میزانهای 4/39 و 7/26 درصد بهبود بخشید. تلقیح با قارچ میکوریزا گونههای G. mosseaeو G. Intraradices نسبت به عدم مصرف قارچ میکوریزا، عملکرد دانه را به میزانهای 4/10 و 7/4 درصد بهبود داد. پرایمینگ بذر نسبت به عدم پرایم بذر عملکرد دانه را به میزان 2 درصد افزایش داد. هر چند تنش خشکی باعث کاهش عملکرد کنجد شد، ولی استفاده از قارچ میکوریزا شدت اثر آن را کاهش داد. همچنین، تأثیر دو گونه میکوریزا بر عملکرد کنجد و اثر آنها بر کاهش خسارت تنش متفاوت بود، بهطوریکه قارچ میکوریزا G. mosseae دارای قدرت همزیستی بیشتری در مقایسه با G. intraradices بود و از افت شدید عملکرد کنجد در شرایط تنش خشکی جلوگیری نمود.

کلیدواژه‌ها

20.1001.1.20087713.1397.10.4.19.3

عنوان مقاله [English]

Effect on Mycorrhizal Fungi Symbiosis and Priming on Yield and Yield Components of Sesame Seeds at Levels of Drought Stress

نویسندگان [English]

Abdolhossein Askari ¹
Mohammad Reza Ardakani ¹
Saeed Vazan ¹
Farzad Paknejad ¹
Yaaghoob Hosseini ²

¹ Agronomy Department, Faculty of Agriculture, Karaj Branch, Islamic Azad University, Karaj, Iran

² Soil and Water Research Department, Hormozgan Agricultural and Natural Resources Research and Education Center, Agricultural Research, Education and Extension Organization (AREEO), Bandar Abbas, Iran

چکیده [English]

Introduction
Drought stress is one of the most important factors limiting growth and crop production in the arid and semi-arid world. Plant response to drought stress depends on the type, severity, and duration of stress, plant species, and stress occurrence stage and farm management.
The sesame, among crop plants, is resistant to drought and heat stress and has great importance in the agriculture development of arid and semi-arid region for summer planting. But this plant is sensitive to drought stress at seedling stage and during flowering to grain filling. To overcome the drought stress, the biological solution is one of the basic strategies that should be considered and can be noted the mycorrhizal fungi. One of the most important types of mycorrhizal is arbuscular rmycorrhizal Fungi, which is important in terms of agriculture; because most crops and horticultural ability to coexist with this type of mycorrhiza.
Materials and Methods
In order to evaluate the effect of irrigation levels and arbuscular mycorrhizal fungi symbiosis on yield and yield components of sesame, an experiment was carried out as split-factorial based on a randomized complete block design with three replications at Agricultural Research Station of Haji Abad, Hormozgan province, Iran during growing season 2014-2015. Experimental factors included: drought stress as main factor in 3 levels: 100% water requirement (normal irrigation), 70% water requirement (moderate stress)and 50% water requirement (Severe stress), the priming as sub factor in 3 levels: without priming (control treatment), hydropriming and osmopriming and the mycorrihizal fungi application as other sub-factor in 3 levels: [without mycorrihizal fungi application(control), mycorrihizal fungi application (Glomus mosseae) and mycorrihizal fungi application (G. intraradices).
Results and Discussion
Analysis of variance data showed that the effect of drought stress had significant effect (P≤0.01) on all traits were studied. The effect of mycorrhizal inoculation was significant on measured plant responses (P≤0.01). Priming treatments were significant on seed number per capsule (P≤0.01) and thousand grain weight and grain yield, biological (P≤0.05). Interaction effects of mycorrhiza × irrigation was only significant on grain yield (P≤0.05), the effects of the interaction of mycorrhiza × priming on seed number per capsule (P≤0.01) and the thousand grain weight (P≤0.05) were significant. The results also showed that the highest grain yield and all measured traits obtained when using irrigation water requirement by 100 percent (normal irrigation). Inoculation with mycorrhizal fungi species G. mosseae and G. intraradices compared to lack of mycorrhizal fungi (control treatment) improved yield by 10.4 and 4.7 percent. Priming treatments compared to non-primed (control treatment) increased seed yield by as much as 2 percent. Drought stress decreased sesame yield, however, the using mycorrhizal fungus can be reduced that effect. The effect of two species of mycorrhizal on sesame yield and their effect on reducing stress damage was different; So that mycorrhizal symbiosis G. mosseae has more than the G. intraradices and avoided the sharp drop in sesame yield in drought stress treatments.
Conclusion
The results of this study showed that drought stress and water shortage decreased significantly yield and yield components of sesame. Mycorrhizal fungi improved the absorption of moisture and nutrients under water stress and increased plant resistance to water stress, therefore increased yield and yield components of sesame. The species of G. intraradices fungi compared to G. mosseae was more efficient in terms of resistance to water stress. Thus, it seems that mycorrhizal, in addition to improving the yield due to increased root system development and consequently increasing the availability of moisture and access to nutrients, can have a positive effect on reducing the effects of irrigation deficiency on sesame plants. Seed priming, due to better germination, rapid seedling growth, proper establishment and, finally, the optimal use of nutrients and environmental factors, ultimately increased yield.

کلیدواژه‌ها [English]

Key words: Biological yield
Hydropriming
Mycorrhizal Symbiosis
Water requirements

مراجع

Afzal, I., Aslam, N., Mabood, F., Hussain, A., and Irfan, S. 2004. Enhancement of canola seed by different priming techniques. Caderno de Pesquisa Ser. Bio., Santa Cruz do Sul 16: 19-34.

Al-Palsan, M., Boydak, E., Hayta, M., Gercek, S., and Simsek, M. 2001. Effect of row space and irrigation on seed composition of Turkish Sesame. Journal of Crop Science 78: 933-935.

Amerian M.R., Stewart W.S., and Griffiths H. 2001. Effect of two species of arbuscular mycorrhiza fungi on growth, assimilation and leaf water relations in maize (Zea mays). Aspects of Applied Biology 63: 71-76.

Ashkani, J., Pakniyat, H., Emam, Y., Assad, M.T., and Bahrani, M.J. 2007. The evaluation and relationships of some physiological traits in spring safflower under stress and non-stress water regimes. Journal of Agricultural Science and Technology 9: 267-277.

Azcon, R., and El-Atrash, F. 1997. Influence of arbuscular mycorrhizae and phosphorus fertilization on growth, nodulation and N2 fixation in Medicago sativa at four salinity levels. Biology and Fertility of Soils 24: 81-86.

Bagheri, V., Shamshiri, M.H., Shirani, H., and Roosta, H.R. 2012. Nutrient Uptake and Distribution in Mycorrhizal Pistachio Seedlings under Drought Stress. Journal of Agricultural Science and Technology 14: 1591-1604.

Banzigar, M., Edmeades, G.O., Beck, D., and Bellon, M. 2000. Breeding for drought and nitrogen stress tolerance in maize from theory to practice. Plant Genetics and Breeding 633-1553.

Bathlenfalvay G.J., Brown M.S., Ames R.N., and Thomas R.S. 1998. Effect of drought on host and endophyte development in mycorrhizal soybean in relation to water use and phosphate uptake. Physiologia Plantarum 72: 565-571.

Bradford, K.J., Steiner, J.J., and Trawatha, S.E. 1990. Seed priming influence on germination and emergence of pepper seed lots. Crop Science 30: 718-721.

Demir, K.M., Gamze, O., Atak, M., Cikili, Y., and Kolsarici, O. 2006. Seed treatment to overcome salt and drought stress during germination in sunflower (Helianthus annuus L.). European Journal of Agronomy 24: 291-295.

Elwan, L.M. 2001. Effect of soil water regimes and inoculation with mycorrhizae on growth and nutrients content of maize plants. Zagazig Journal Agriculture Research 28: 163-172.

Eskandari, H., ZehtabSalmasi, S., and Ghasemi-Golozani, K. 2010. Evaluation of water use efficiency and grain yield of sesame cultivars as a second crop under different irrigation regimes. Journal of Sustainable Agriculture Science 20(1): 39-51. (In Persian)

Farshi A., Shariati, M., Jarollahi, R., Ghaemi, M., Shahabifar, M., and Tallaei, M.M. 1998. An estimate of water requirement of main field crops and orchards in Iran (Vol. 1: field crops)‬. Soil and Water Research Institute, Agricultural Education Publication 918p.

Fereres, E., and Soriano, M.A. 2007. Deficit irrigation for reducing agricultural water use. Journal of Experimental Botany 58: 147-159.

Fischer, K.S., Johnson, E.C., and Edmeades, G.O. 1981. Breeding and selection for drought resistance in tropical maize. Mexico, D.F. CIMMYT.

Gholinezhad, E., Aynband, A., Hassanzadeh Ghrthapeh, E., Bernousi, A., and Rezaee, H. 2010. Evaluation of effective drought stress on yield, yield components and harvest index of Sunflower Hybrid Iroflor at different levels of nitrogen and Plant Population in Urmia Climate Conditions. Journal of Plant Production Research 16(3): 1-28. (In Persian with English Summary)

Good, A., and Zaplachiniski, S. 1994. The effects of drought on free aminoacid accumulation and protein synthesis in Brassica napus. Physiologia Plantarum 90: 9-14.

Haidari, M., and Karami, A. 2014. Effects of water stress and different mycorrhiza species on yield and yield components, Chlorophyll and biochemical components of sunflower. Journal of Environmental Stresses in Crop Sciences 6(1): 17-26. (In Persian)

Hassanzadeh, M., Asghari, A., Jamaati-e-Somarin, S.H., Saeidi, M., Zabihi- Mahmoodabad, R., and Hokmalipour, S. 2009. Effects of water deficit on drought tolerance indices of sesame genotypes in Moghan Region. Research Journal of Environmental Sciences 3: 116-121.

Hetrick, B.A.D., Wilson, G.W.T., and Todd, T.C. 1996. Mycorrhiza response in wheat cultivars: Relationship to phosphorus. Canadian Journal of Botany 74: 19-25.

Hozayn, M., Zeidan S.M., Abd El-Lateef E.M., and Abd El-Salam M.S. 2007. Performance of Some Mungbean (Vignna radiate L. Wilczek) Genotypes under Late Sowing Condition in Egypt. Research Journal Agriculture Biotechnology Science 3: 972-978.

Jahangiri Nia, E., Syyadat, A., Koochakzadeh, A., Sayyahfar, M., and Moradi Telavat, M.R. 2017. The Effect of Vermicompost and mycorrhizal inoculation on grain yield and some physiological characteristics of soybean (Glycine max L.) under water stress condition. Journal of Agroecology 8(4): 583-597. (In Persian with English Summary)

Jain, S., Yue-Lioang, R., Mei-wang, L.E., Ting-Xian, Y., Xiao-Wen, Y., and Hong-Ving, Z. 2010. Effect of drought stress on sesame growth and yield characteristics and comprehensive evaluation of drought tolerance. Chinese Journal of Oil Crops Sciences 4: 42-48.

Jamshidi, E., Ghalavnd, A., Salahi, A., Zare, M.G., and Jamshidi, A.R. 2009. Effect of arbuscular mycorrhizal on yield, yield components and plant characteristics of sunflower (Helianthus annuus L.) under drought stress. Iranian Journal of Crop Sciences 11(1):136- 150. (In Persian)

Kargar, F. 2014. Effects of drought stress and methanol spray on quantitative and qualitative characteristics of safflower. MSc Thesis, Faculty of Agriculture, Zabol University, Iran. (In Persian with English Summary)

Koocheki, A., Bakhshaie, S., Khorramdel, S., Mokhtari, V., and Taher Abadi, Sh. 2015. Effect of mycorrhiza symbiosis on yield, yield components and water use efficiency of Sesame (Sesamum indicum L.) affected by different irrigation regimes in Mashhad condition. Iranian Journal of Field Crops Research 13(3): 448-460. (In Persian with English Summary)

Koocheki, A.R., Shabahang, J., Khoramdel, S., and Najafi, F. 2015. Effect of inoculation with mycorrhiza and irrigation water volumes on yield, yield components and essential oils of two species Fennel (Trachyspermum ammi L.) and Carum copticum (Foeniculum vulgare Mill.). Journal of Agroecology 7(1): 20-37. (In Persian with English Summary)

Ladjal M., Huc R., and Ducrey M. 2005. Drought effects on hydraulic conductivity and xylem vulnerability to embolism in diverse species and provenances of Mediterranean cedars. Tree Physiology 25: 1109-1117.

Manafi, H. 2010. Influence of mycorrhizosphere on soil hydraulic properties and tomato tolerance to water deficit stress. MS Thesis, University of Tabriz, Iran. (In Persian with English Summary)

Mehrabi, Z., and Ehsanzadeh, P. 2011. A study on physiological attributes and grain yield of sesame (Sesamum indicum L.) cultivars under different soil moisture regimes. Journal of Crops Improvement1 3(2): 75-88.

Mensah, J.K., Obadoni, B.O., Eruotor, P., and Onome-Trieguna, F. 2006. Simulated flooding and drought effects on germination, growth and yield parameters of sesame. African Journal Biotechnology 5: 1249-1253.

Mojdam, M. 2006. Effects of water deficit stress and nitrogen use management on agrophysiological characteristic and grain yield SC704 in Khuzestan. Ph.D Thesis Islamic Azad University. Research and Science Unit. Ahvaz. Iran. (In Persian with English abstract)

Moradi-Dalini, A. 2012. Determination of reference crop evapotranspiration using lysimeter measurements and comparison with calculating by climate methods in Haji Abad Climate. Final Report of Research Project, No. 1807, Hormozgan Agricultural and Natural Resources Research and Education Center, Agricultural Research, Education and Extension Organization (AREEO), Bandar Abbas, Iran.

Murty, G.S.A., and Bhatia, C.R. 1990. Effect of recurring water stress on growth, yield and other agronomic characters in sesame. Sesame and Safflower Newsletter 5: 4-10.

Nesmith, D.S., and Ritchie, J.T. 1992. Short and long term responses of corn to apre-anthesis soil water deficit. Agronomy Journal 84: 106-113.

Raei, Y., Shariati, J., and Weisany, W. 2016. Effect of biological fertilizers on seed oil, yield and yield components of safflower (Carthamus tinctorius L.) at different irrigation levels. Journal of Agricultural Science and Sustainable Production 25(1): 65-84. (In Persian with English Summary)

Reddy, A., Chaitanya, K., and Vivekanandan, M. 2004. Drought induced responses of photosynthesis and antioxidant metabolism in higher plants. Journal of Plant Physiology 161: 1189-1202.

Rezvani Moghaddam, P., Amiri, M.B., and Ehyaee, H.R. 2016. Effect of simultaneous application of mycorrhiza with compost, vermicompost and sulfural geranole on some quantitative and qualitative characteristics of sesame (Sesamum indicum L.) in a low inputcropping system. Journal of Agroecology 8(4): 583-597. (In Persian with English Summary)

Rezvani-Moghaddam, P., Norozpoor, Gh., Nabati, J., and Mohammad-Abadi, A.A. 2005. Effects of different irrigation intervals and plant density on morphological characteristics, grain and oil yields of sesame (Sesamum indicum). Iranian Journal of Field Crops Research 3(1): 57-68. (In Persian)

Rostami, M., Mirzaee, R., and Kafi, M. 2004.Evaluation of drought tolerance in four cultivars saffron at germination stage.7thInternational Conference on the development of arid regions. Tehran, Iran, Pp 125-128. (In Persian)

Sainz, M.J., Taboada-Castro, M.T., and Vilarino, A. 1998. Growth, mineral and mycorrhizal colonization of red clover and cucumber plants grown in a soil amended with composted urban wastes. Plant and Soil 205: 85-92.

Salamati, N., and Delbari, M. 2014. Effects of the amount of water in tape drip irrigation on quality and quantity of yield of two canola varieties in Behbahan region. Journal of Water Research in Agriculture 28(3): 329-340. (In Persian)

Shirani-Rad, A.H., Naeemi, M., and Nasr-Esfahani, S.H. 2010. Evalution of terminal drought stress tolerance in spring and winter rapeseed genotypes. Iranian Journal of Crop Sciences 12(2): 112-126. (In Persian)

Sinaki, J.M., Heravan, E.M., Rad, A.H.S., Noormohammadi, Gh., and Ghasem Zarei, Gh. 2007. The effects of water deficit during growth stages of canola (Brassica napus L.). American-Eurasian. Journal of Agricultural and Environmental Science, Biotechnology 17(2): 113-122.

Subramanian, K.S., Santhanakrishnan, P., and Balasubramanian, P. 2006. Response of field grown tomato plants to arbuscular mycorrhizal fungal colonization under varying intensities of drought stress. Scientia Horticulturae 107: 245-253.

Tohidi-Moghaddam, H., Sani, B., and Ghooshchi, F. 2004. The effect of nitrogen fixing and phosphate solubilizing microorganism on some quantitative parameters on soybean from sustainable agricultural point of views. Proceeding of 8th Agronomy and Plant Breeding Congress of Iran, Guilan University, Iran.

Troehza Loynachan T.E. 2003. Endomycorrhizal fungi survival in continuous corn, soybean and fallow. Agronomy Journal 95(1): 224-230.

Veysi, H., Heidari, G.R., and Sohrabi, Y. 2017. The effect of mycorrhizal fungi and humic acid on yield and yield components of sunflower. Journal of Agroecology 8(4): 567-582. (In Persian with English Summary)

Weissn, E.A. 2000. Oilseed crops. 2ndedition. Oxford, Blackwell Science. Oxford, U.K. 42: 1-13. 5: 4-10. 594.

Zubarer, M.A., Chowdhury, A.K. M.M.B., Islam, M.Z., Ahmed, T., and Hasan, M.A. 2007. Effects of water stress on growth and yield attributes of Aman rice genotypes. International Journal of Sustainable Crop Production 2(6): 25-30.