تأثیر پلیمر سوپرجاذب بر صفات فتوسنتزی، محتوای کلروفیل و شاخصهای فلورسانس کلروفیل لوبیا چشمبلبلی (Vigna unguiculata L.) تحت تنش خشکی
الموضوعات :
احمد افکاری
1
(گروه فیزیولوژی گیاهی، واحد کلیبر، دانشگاه آزاد اسلامی کلیبر، ایران)
الکلمات المفتاحية: لوبیا, تنش کمآبی, فلورسانس کلروفیل, عملکرد کوآنتوم فتوشمیایی, ویژگیهای فتوسنتزی,
ملخص المقالة :
بهمنظور بررسی اثر مصرف پلیمر سوپرجاذب بر صفات فتوسنتزی، محتوای کلروفیل و شاخصهای فلورسانس کلروفیل لوبیا چشمبلبلی تحت تنش خشکی، آزمایشی بهصورت کرتهای یکبار خرد شده در قالب طرح بلوکهای کامل تصادفی با چهار تکرار در شهرستان کلیبر در سال زراعی 1397 انجام شد. تیمارهای آزمایش شامل فواصل آبیاری در کرتهای اصلی (70، 140 و 210 میلیمتر تبخیر از تشتک تبخیر کلاس A) و مقادیر مختلف سوپرجاذب (صفر، 75 و 150 کیلوگرم در هکتار) در کرتهای فرعی بودند. نتایج نشان داد که اثر اصلی تنش خشکی و سوپرجاذب بر اکثر صفات اندازهگیری شده در سطح احتمال یک درصد دارای اختلاف معنیدار بود. برهمکنش تنش خشکی و سوپرجاذب تنها بر هدایت روزنهای، پایداری غشای سلولی و محتوای کلروفیل معنیدار گردید. نتایج مقایسه میانگینها نشان داد که تنش خشکی شدید باعث کاهش معنیداری در میزان حداکثر کارآیی فتوشیمیایی فتوسیستم II، فلورسانس بیشینه (Fm)، محتوای کلروفیل، میزان تعرق، غلظت Co2 زیر اتاقک روزنهای و سرعت فتوسنتز شد که دلالت بر نقش عوامل روزنهای در کاهش فتوسنتز در شرایط تنش دارد. در حالیکه استفاده از سوپرجاذب بهطور معنیداری سرعت فتوسنتز، هدایت روزنهای، شدت تعرق، پایداری غشای سلولی، حداکثر کارآیی فتوشیمیایی فتوسیستم II، فلورسانس بیشینه، فلورسانس کمینه (F0) و شاخص کلروفیل را افزایش ولی میزان Co2 زیر اتاقک روزنهای را کاهش داد که بیانگر اثر محافظتی پلیمر سوپرجاذب در برابر تنش خشکی میباشد. بیشترین افزایش در اکثر صفات مورد ارزیابی در هنگام استفاده از سوپرجاذب با مقدار 75 کیلوگرم در هکتار بهدست آمد. بهطور کلی با توجه به نتایج بهدست آمده میتوان نتیجه گرفت که سوپرجاذب صفات فتوسنتزی، حداکثر کارآیی فتوشیمیایی فتوسیستم II و محتوای کلروفیل را در شرایط تنش خشکی بهبود میبخشد.
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Abdoli, M., Saeidi, L., Jalali-Honarmand , S., Mansourifar, S. and Ghobadi, M.A. (2013). Evaluation of some physiological and biochemical traits and their relationships with yield and its components in some improved wheat cultivars under post-anthesis water deficit. Enviromental Stresses in Crop Sciences. 6(1): 47-63. (In Persian with English abstract).
Afshar Mohamadian, M Omidipour, M. and Omidi, J. (2018). Effect of different drought stress levels on chlorophyll fluorescence indices of two bean cultivars. Journal of plant Research (Iranian Journal of Biology). 31(3): 694-709. (In Persian with English abstract).
Ahmadi, A. and Baker, D.A. (2000). Stomatal and nonstomatal limitations of photosynthesis under water stress conditions in wheat plant. Iranian Journal Agriculture Science. 31(4): 813-825.
Ahmadi Mousavi, A., Manouchehri Kalantari, Kh., Jafari, R., Hasibi, N. and Mahdavian, K. (2010). Investigation of the effects of 24-Apy Brasinolide and dehydration stress on some physiological parameters of rapeseed (Brassica napus L.). Journal of plant Research (Iranian Journal of Biology). 23(8): 275-282. (In Persian with English abstract).
Ansari, M.H., Asadi, R. Mazaheri R., and Rezazadeh B. (2017). Effect of different nitrogen resources on nitrogen absorption and transferation in guilan local beans in organic agriculture. Scientific Journal of Plant Physiology. 9(35): 21-38. (In Persian with English abstract).
Anyia, A.O. and Herzog, H. (2004). Watar-use efficiency, leaf area and leaf gas exchange of cowpeas under mid-season drought. Europ Journal Agronomy. 20: 327-339.
Arnon, D.I. (1949). Copper enzymes in isolated chloroplasts; polyphenol-oxidase in Beta vulgaris. Plant Physiology. 24: 1-15.
Baker, N.R. (2008). Chlorophyll fluorescence: a probe of photosynthesis in vivo. Annual Review of Plant Biology. 59:89-113.
Chaves, M. (2002). Water stress in the regulation of photosynthesis in the field. Annuual of Botany, 89: 907-916.
Chelgerdi, A., Saffari, M. and Abdolshahi, R. (2014). Effect of super absorbent polymer, potassium sulphate and farmyard manure on physiological characteristics of millet (Setaria italica) optimum irrigation and drought stress conditions. Journal of Crop Production. 6(2): 35-56. (In Persian with English abstract).
Dehbashi, S., Laden Moghaddam, A.R. and Ghafourian, A. (2014). The effect of superabsorbent on reducing the effect of drought stress on some physiological traits of parsley (Tagetes marigold). Journal of Iranian Plant Ecophysiological Research. 9(3): 72-81. (In Persian with English abstract).
Dere, S., Gunes, T. and Sivaci, R. (1998). Spectrophotometric determination of chlorophyll- a, b and total carotenoids contents of some algae species using different solvents. Botany. 22: 13-17.
Esmaeelpour, P., Habibi, D. and Tavassoli, A. (2009). Super absorbent polymer water effect on different cultivars of red beans and physiological traits under drought stress under greenhouse conditions. Journal Plant Ecosystem Research. 21(6): 21. 75-91.
Farhoudi, R. and Tafti, M.M. )2011(. Effect of salt stress on seedlings growth and ions homeostasis of soybean (Glysin max) cultivars. Advances in Environmental Biology. 5(8): 2522-2526.
Farhoudi, R., Modhej, A. and Payandeh, Kh. (2015). Effect of final season drought tension on photosynthesis, seed yield and seed vigor of five soybean cultivars. Crop physiology journal. 24(6): 41-55. (In Persian with English abstract).
Farid, M., Earl, H.J. and Navabi, A. (2016). Yield stability of dry bean genotypes across nitrogen-fixation-dependent and fertilizerdependent management systems. Crop Science. 56(1):173-182.
Fazeli, F., Ghorbanli, M. and Niknam, V. (2007). Effect of drought on biomass, protein content, lipid peroxidation and antioxidant enzymes in tow sesame cultivars. Journal of Biologia Plantarum. 51: 98-103.
Flexas, J., Briantais, J.M., Cerovic, Z., Medrano, H. and Moya, I. (2000). Steady-state and maximum chlorophyll flurescence response to water stress in grapevine leaves: a new remote sensing system. Remote Sensing of Environment. 73: 283-297.
Flexas, J., Ribas-Carbo, M., Diaz-Espejo, A., Galmes, J. and Medrano, H. (2008). Mesophyll conductance to CO2: current knowledge and future prospects. Plant Cell & Environment. 31: 602-621.
Fracheboud, Y. (2006). Using chlorophyll fluorescence to study photosynthesis. Institute of Plant Science ETH, Universitatstrass, CH- 8092 Zurich.
Gale, A., Csiszar, J., Tari, I. and Erdei, L. (2002). Change in water and chlorophyll fluorescence parameters under osmotic stress in wheat cultivars. Acta Biologica Szegediensis. 46(3-4). 85-86.
Gavuzzi, P., Rizza, F., Palumbo, M., Campanile, R.G., Ricciardi, G.L. and Borghi, B. (1997). Evaluation of field and laboratory predictors of drought and heat tolerance in winter cereals. Canadian Journal of plant Science, 77(4): 523-531.
Ghahremani, M., Ebadi, A., Parmoon, Gh. and Jahanbakhsh, S. (2015). Investigation the effect of water deficiency tension on photosynthetic indices and yield of genotypes forage sorghum (Sorghum bicolor). Crop physiology journal. 25(7): 59-74. (In Persian with English abstract).
Goldani, M. (2012). Effect of irrigation intervals on some growth indices ecotypes basil (Ocimum basilicum L.) Iranian Agricultural Research. 10: 412-420.
Haghighi, M., Mozafariyan, M. and Afifipour, Z. (2014). The effect of superabsorbent polymer and different withholding irrigation level on some qualitative and quantitative traits of tomato (Lycopersicum esculentum). Journal of Horticultural Science. 28(1): 125-133. (In Persian with English abstract).
Heidari, N., Pouryousef, M. and Tavakkoli, A. (2014). ffects of drought stress on photosynthesis, its parameters and relative water content of anise (Pimpinella anisum L.). Journal of plant Research (Iranian Journal of Biology). 27(5): 829-839. (In Persian with English abstract).
Hirayama, M., Wada, Y. and Nemoto, H. (2006). Estimation of drought tolerance based on leaf temperature in upland rice breeding. Breed Science. 56: 47-54.
Hosseinzadeh, S.R., Salimi, A., Ganjeali, A. and Ahmadpour, R. (2013). Effects of foliar application of methanol on photosynthetic characteristics, chlorophyll fluorescence and chlorophyll content of chickpea (Cicer arietinum L.) under drought stress. Iranian Journal of Plant Biology. 18 (5): 115-132. (In Persian with English abstract).
Inze, D. and Van Montagu, M. (1995). Oxidative stress in plants. Current Opinion in Biotechnology, 6: 153-158.
Javadipour, Z., Movahhedi Dehnavi, M. and Baluchi, H.R. (2013). Comparison of photosynthesis parameters and leaf chlorophyll content and fluorescence of safflower cultivars under slaine conditions. Journal of Crop Production. 6(2): 35-56. (In Persian with English abstract).
Klamkowski, K. and Treder, W. (2006). Morphological and physiological responses of strawberry plants to water stress. Agriculture Conspectus Science, 71(4): 159-165.
Klughammer, C. and Schreiber, U. (2008). Complementary PS II quantum yields calculated from simple fluorescence parameters measured by PAM fluorometry and the Saturation Pulse method. PAM Application Notes. 1: 27 -35.
Koc, M., Barutcular, C. and Genc, I. (2004). Photosynthesis and productivity of old and modern durum wheats in Mediterranean environment. Crop Science. 43: 2089-2098.
Kordrostami, F., Shirvany, A., Attarod, P. and Khoshnevis, M. (2014). Does drought stress induce physiological mechanisms in Celtis caucasica L. Seedlings. Advances in Bioresearch. 5(4): 30-34.
Lichtenthaler, H.K. and Burkart, S. (1999). Photosynthesis and high light stress. Bulgharestan Journal of Plant Physiology. 25: 3-16.
Mamnoei, E. and Seyed Sharifi, R. (2010). Study the effects of water deficit on chlorophyll fluorescenceindices and the amount of proline in six barley genotypes and its relation with canopy temperatureand yield. Iranian Journal Plant Biology. 5: 51-62.
Masoumi, A., Kafi, M. Khazaei, H.R. and Davari, K. (2010). Effect of drought stress on water status, electrolyte Leakage and enzymatic antioxidants of Kochia (Kochia scoparia) under saline conditions. Pakistan Journal of Botany. 42(5): 3517-3524.
Munns, R. (2002). Comparative physiology of salt and water stress. Plant Cell and Environment. 25: 239-250.
Nazarli, H., Zardashti, Darvishzadeh, M.R., R. and Najafi, S. (2010). The effect of water stress and polymer on water use efficiency, yield and several morphological traits of sunflower. Notulae Science Biologicae. 4: 53-58.
Ohashi, Y., Saneoka, H. and Fujita, K. (2012). Effect of water stress on growth, photosynthesis, and photoassimilate translocation in soybean and tropical pasture legume siratro. Soil Science and Plant Nutrition. 46(2): 417-425.
Oukarroum, A., El Madidi, S., Schansker, G. and Strasser, R.J. (2007). Probing the responses of barley cultivars (Hordeum vulgare L.) by chlorophyll a fluorescence OLKJIP under drought stress and
re-watering. Environmental and Experimental Botany. 60(3):438-446.
Pakmehr, A., Shekari, F. and Rastgoo, M. (2014). Effect of seed priming by salicylic acid on some photosynthetic traits of cowpea under water deficit in flowering stage. Iranian Journal of Pulses Research. 31(3): 694-709. (In Persian with English abstract).
Paknejad, F., Nasri, M., Tohidi Moghadam, H.R., Zahedi, H., and Jami Alahmad, M. (2007). Effects of drought stress on chlorophyll fluorescence parameters chlorophyll content and grain yield of wheat cultivars. Journal of Biological Sciences. 7(6): 841-847.
Pearce, D.W., Millard, S., Bray, D.F. and Rood, S.B. (2006). Stomatal characteristics of riparian poplar species in a semi-arid environment. Tree Physiology. 26: 211-218.
Peralta, H., Aguilar, A., Díaz, R., Mora, Y., Martínez-Batallar, G., Salazar, E., Vargas-Lagunas, C., Martínez, E., Encarnación, S. and Girard, L. (2016). Genomic studies of nitrogenfixing rhizobial strains from Phaseolus vulgaris seeds and nodules. BMC Genomics. 17(1):711.
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