اثر کاربرد سالیسیلیک اسید و عصاره جلبک دریایی (Ascophyllum nodosum) بر برخی صفات فیزیولوژیکی لوبیا سفید (.Phaseolus lanatus L) در شرایط تنش خشکی
الموضوعات : اکوفیزیولوژی گیاهان زراعیسارا بیگ زاده 1 , عباس ملکی 2 , محمد میرزایی حیدری 3 , علیرضا رنگین 4 , علی خورگامی 5
1 - دانشجوی دکتری زراعت، گروه زراعت، واحد ایلام، دانشگاه آزاد اسلامی، ایلام، ایران
2 - استادیار گروه زراعت، گروه زراعت، واحد ایلام، دانشگاه آزاد اسلامی، ایلام، ایران.
3 - استادیار گروه زراعت، گروه زراعت، واحد ایلام، دانشگاه آزاد اسلامی، ایلام، ایران
4 - استادیار گروه زیست شناسی، واحد ایلام، دانشگاه آزاد اسلامی، ایلام، ایران
5 - دانشیار گروه فیزیولوژی، واحد خرم آباد، دانشگاه آزاد اسلامی، خرم آباد، ایران
الکلمات المفتاحية: آنزیمهای آنتیاکسیدان, جلبک دریایی, سالیسیلیک اسید, سرعت فتوسنتز,
ملخص المقالة :
خشکی از جمله مهم ترین عوامل محدودکنندهی رشد و عملکرد گیاهان زراعی در بسیاری از مناطق دنیا است. به منظور بررسی اثرات تنش خشکی و محلولپاشی عصاره جلبک دریایی و سالیسیلیک اسید بر برخی صفات فتوسنتزی و فتوشیمیایی گیاه لوبیا سفید، آزمایشی به صورت اسپلیت فاکتوریل در قالب طرح بلوک های کامل تصادفی با سه تکرار در سال زراعی 96-1395 در دو منطقهی اسلام آباد غرب و خرمآباد اجرا گردید. کرت اصلی شامل اعمال سه سطح تنش خشکی به میزان 60، 90 و 120 میلیمتر تبخیر از سطح تشتک تبخیر کلاس A بود و فاکتور فرعی اول شامل دو سطح محلولپاشی و عدم محلولپاشی اسید سالیسیلیک و فاکتور فرعی دوم چهار سطح محلول پاشی کود جلبک دریایی با غلظتهای صفر ،50، 100 و 150 گرم در هکتار بودند. نتایج حاصل از آزمایش نشان داد که تنش خشکی سبب کاهش سرعت فتوسنتز و کاهش محتوای کلروفیل شد، محلولپاشی جلبک دریایی و سالیسیلیک اسید موجب افزایش سرعت فتوسنتز و محتوای کلروفیل گردید. تنش خشکی محتوای پرولین و نشت یونی را افزایش داد و سبب افزایش فعالیت آنزیمهای آنتیاکسیدان از جمله کاتالاز، آسکوربات پراکسیداز و سوپراکسید دیسموتاز شد. کاربرد سالیسیلیک اسید میزان فعالیت آنزیمهای آنتی اکسیدان را افزایش داد. تنش خشکی عملکرد دانه را کاهش داد و کمترین عملکرد دانه (1720کیلوگرم در هکتار) از تیمار 120 میلیمتر تنش خشکی و عدم مصرف کود جلبک دریایی و بیشترین عملکرد دانه از تیمار 60 میلیمتر (عدم تنش) و 150 گرم جلبک دریایی به دست آمد. محلولپاشی سالیسیلیک اسید توانست عملکرد دانه را تا 5/4 درصد افزایش دهد. با توجه به نتایج، مصرف سالیسیلیک اسید و جلبک دریایی می تواند تا حدودی اثرات منفی ناشی از تنش خشکی را کاهش دهد.
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· Bates, L. 1973. Rapid determination of free poline for water stress studies. Plant and Soil. 39: 205-207.
· Beers, R.F., and I.W. Sizer. 1952. A spectrophotometric method for measuring the breakdown of hydrogen peroxide by catalase. Journal of Biological Chemistry. 195(1): 133-140.
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· Bradford, M.M. 1976. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Analytical Biochemistry. 72(1-2): 248-254.
· Cornic, G. 2000. Drought stress inhibitsphotosynthesis by decreased stomatal aperture -not by affecting ATP synthesis. Trends Plant Science. 5: 187-188.
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· Eskandari Zanjani, K., A.H. Shirani Rad, A. Moradi Agdam, and T. Taherkhani. 2013. Effect of salicylic acid application under salinity conditions on physiologic and morphologic characteristics of artemisia (Artemisia annua L.). Journal of Crop Ecophysiology. 6(4): 415-428. (In Persian).
· Farooq, M., A. Wahid, N. Kobayashi, D. Fujita, and S.M.A. Basra. 2009. Plant drought stress: effects, mechanisms and management. Agronmy for Sustainable Development. 29: 185-212.
· Flinet, H.I., B.R. Boyce, and D.J. Beattie. 1966. Index of injury drought a useful expression of freezing injury to plant tissues as determined by the electrolytic method. Canadian Journal of Plant Science. 47: 229-230.
· Gardner, F.P. 2010. Physiology of crop plants. Scientific Publishers (India), Crops. 327 pp.
· Giannopolitis, C.N., and S.K. Ries. 1977. Superoxide dismutases: I. Occurrence in higher plants. Plant Physiology. 59(2): 309-314.
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· Jain, V., S. Vart, E. Verma, and S.P. Malhotra. 2015. Spermine reduces salinity-induced oxidative damage by enhancing antioxidative system and decreasing lipid peroxidation in rice seedlings. Journal of Plant Biochemistry and Biotechnology. 24(3): 316-323.
· Karkanis, A., D. Bilalis, and A. Efthimiadou. 2011. Architectural plasticity, photosynthesis and growth response velvetleaf (Abutilon theophrasti Medicus) plants to water stress in a semi-arid environment. Austuralian Journal of Crop Science. 5(4): 369-374
· Karthick, N., S. Selvakumars, and S. Umamaheswari. 2013. Effect of three different seaweed liquid fertilizers and a chemical liquid fertilizer on the growth and histopathological parameters of Eudrilus eugeniae (Haplotaxida: Eudrilidae Global). Journal of Bio-Science and Biotechnology. 2(2): 253-259.
· Khan, A., and M. Ashraf. 2008. Exogenously applied ascorbic acid alleviates salt-induced oxidative stress in wheat. Environmental and Experimental Botany. 63(1): 224-231.
· Khan, M.I., M. Fatma, T.S. Per, N.A. Anjum, and N.A. Khan. 2015. Salicylic acid-induced abiotic stress tolerance and underlying mechanisms in plants. Plant Science Journal. 6: Article 462.
· Kheirkhah, M., M. Farazi, A. Dadkhah, and A. Khoshnood. 2016. Application of glycine, tufool and salicylic acid in sugar beet (Beta vulgaris L.) under drought conditions. Journal of Crop Ecophysiology. 10(1): 167-182. (In Persian).
· Kiarostami, K., N. Abdolmaleki, and M. Heidari. 2012. The effect of salicylic acid on salt stress reduction in Canola (Brassica napus L.). Journal of Plant Biology. 4(12): 69-82.
· Koyro, H.W. 2006. Effect of salinity on growth, photosynthesis, water relations and solute composition of potential cash crop halophyte (Plantago coronopus L.). Environmental and Experimental Botany. 56: 136-149.
· Kumar, G., and D. Sahoo. 2011. Effect of seaweed liquid extract on growth and yield ofTriticum aestivum var. pusa gold. Journal of Applied Phycology. 23(2): 251-255.
· Lascano, H.R., G.E. Antonicelli, C.M. Luna, M.N. Melchiorre, L.D. Gómez, R.W. Racca, V.S. Trippi, and L.M. Casano. 2001. Antioxidant system response of different wheat cultivars under drought: field and in vitro studies. Functional Plant Biology. 28(11): 1095-1102.
· Mercier, L., C. Laffite, G. Borderies, X. Briand, M.T. Esquerré-Tugayé, and J. Fournier. 2001. The algal polysaccharide carrageenans can act as an elicitor of plant defence. New Phytology. 149: 43–51.
· Mittler, R., S. Vanderauwera, M. Gollery, and F.V. Breusegem. 2004. Reactive oxygen gene network of plants. Trends in Plant Science. 9: 490-498.
· Miura, K., and Y. Tada. 2014. Regulation of water, salinity, and cold stress responses by salicylic acid. Plant Science Journal. 5: Article 4.
· Moharramnejad, S., O. Sofalian, M. Valizadeh, A. Asgari, and M.R. Shiri. 2015. Proline, glycine betaine, total phenolics and pigment contents in response to osmotic stress in maize seedlings. Journal of Bioscience and Biotechnology. 4: 313-319.
· Nakano, Y., and K. Asada. 1981. Hydrogen peroxide is scavenged by ascorbate-specific peroxidase in spinach chloroplasts. Plant and Cell Physiology. 22(5): 867-880.
· Neocleous, D., and M. Vasilakakis. 2007. Effects of NaCl stress on red raspberry (Rubus idaeus L. ‘Autumn Bliss’). Scientia Horticulturae. 112(3): 282-289.
· Peeva, V., and G. Cornic. 2009. Leaf photosynthesis of Haberlea rhodopensis before and during drought. Environmental and Experimental Botany. 65: 310-318.
· Pessarakli, M., and D.M. Kopec. 2009. Screening various ryegrass cultivars for salt stress tolerance. Journal of Food, Agriculture and Environment. 7(3&4): 739-743.
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