پاسخ آگروفیزیولوژیکی ارقام مختلف ارزن مرواریدی (Pennisetum glaucum L.) به کمآبی در شرایط آب و هوایی کرمان
الموضوعات : اکوفیزیولوژی گیاهان زراعیسید نبیل الدین فاطمی 1 , علی اکبر مقصودی مود 2 , قاسم محمدی نژاد 3
1 - دانشجوی دکتری زراعت، دانشگاه شهید باهنر کرمان، کرمان، ایران.
2 - دانشیار پژوهشکده فناوری تولیدات گیاهی، دانشگاه شهید باهنر کرمان، کرمان، ایران
3 - استاد پژوهشکده فناوری تولیدات گیاهی، دانشگاه شهید باهنر کرمان، کرمان، ایران
الکلمات المفتاحية: پرولین, شاخص سطح برگ, عملکرد علوفه, محتوی نسبی آب برگ,
ملخص المقالة :
تعیین رقم مناسب یکی از عوامل مهم برای به دست آوردن حداکثر عملکرد، با توجه به شرایط اقلیمی هر منطقه می باشد. یکی از مهم ترین تنش های محیطی خشکی بوده که از طریق تاثیر منفی در طول دوره رشد گیاه، ساختار و فعالیت های گیاهی را با اختلال مواجه می سازد. به منظور بررسی واکنش آگروفیزیولوژیک ارقام مختلف گیاه ارزن مرواریدی (Hybrid 1, Hybrid 2, IP13150, IP13151, IP22269, ICMV5222 و HHVBCTA) به دو سطح آبیاری (100 و 60 درصد ظرفیت مزرعه) آزمایشی به صورت کرت های خرد شده و در قالب طرح بلوک های کامل تصادفی در شرایط آب و هوایی کرمان انجام شد. نتایج نشان داد اثر ساده تیمار آبیاری برای همه صفات و اثر ساده رقم و نیز اثر متقابل آبیاری در رقم به جز در مورد محتوای رطوبت نسبی و شاخص کلروفیل برای سایر صفات مورد بررسی معنی دار بوده است. کاهش میزان آب آبیاری از 100 به 60 درصد حد ظرفیت مزرعه موجب کاهش معنی دار میانگین صفات شاخص کلروفیل (87/20 درصد) و محتوای رطوبت نسبی (06/29 درصد) شد. تنش خشکی موجب افزایش محتوای پرولین در ارقام مورد بررسی شد و بیشترین مقدار این صفت در شرایط تنش از رقم HHVBCTA به دست آمد. همچنین، نتایج نشان داد که بیشترین میانگین ارتفاع بوته، شاخص سطح برگ و عملکرد علوفه تر و خشک در شرایط آبیاری نرمال و تنش به ترتیب مربوط به رقم Hybrid 1 و IP13151 بود. بر طبق نتایج مقایسه میانگین اثر متقابل کمترین و بیشترین درصد کاهش عملکرد علوفه تر به واسطه اعمال تنش خشکی به ترتیب مربوط به ارقام IP13151 (16/13 درصد) و ICMV5222 (58/61 درصد) بود. به طورکلی، با توجه به نتایج به دست آمده ارقام Hybrid 1 و IP13151 به ترتیب جهت کاشت در شرایط آبیاری مطلوب و تنش در شرایط آب و هوایی کرمان مناسب به نظر می رسند.
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· Babaee, K., M. Amini Dehaghi, S.A.M. Modares Sanavi, and R. Jabbari. 2010. Water deficit effect on morphology, prolin content and thymol percentage of Thyme (Thymus vulgaris L.). Iranian Journal of Medicinal and Aromatic Plants. 26(2): 239-251. (In Persian).
· Bates, L.S., R.P. Waldren, and I.D. Teare. 1973. Rapid determination of free proline for water-stress studies. Plant and Soil. 39: 205-207.
· Bradford, M.M. 1976. A rapid sensitive method for the quantitation of microgram quantites of protin utilizing the principle of protein-dye binding. Analytical Biochemistry. 72: 248-254.
· Çakir, R. 2004. Effect of water stress at different development stages on vegetative and reproductive growth of corn. Journal of Field Crops Research. 89(1): 1-16.
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· Kholova, J., C.T.M. Hasan, M. Khocova, and V. Vadie. 2011. Does a terminal drought tolerance QTL contribute to differences in ROS scavenging enzymes and photosynthetic pigments in pear millet exposed to drought? Journal of Environmental and Experimental Botany. 71(2): 99-106.
· Lawlor, D.W., and G. Cornic. 2002. Photosynthetic carbon assimilation and associated metabolism in relation to water deficits in higher plants. Plant cell and Environment. 25: 275-294.
· Lobato, A.K.S., A.C.S. Meirlles, B.G. Santoz Filho, R.C.L. Costa, C.F. Oliveria Neto, F.J.R. Cruz, J.M.N. Freitas, E.M.S. Guedes, A.G.T. Barreto, A.S. Ferreira, B.S. Monteiro, H.K.B. Neves, and M.J.S. Lopes. 2008. Consequences of the progressive water deficit and rehydration on nitrate reductase activity and nitrogen compounds in soybean (Glycine max L.) cv. Sambaiba. Research Journal of Agronomy. 2(3): 64-70.
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· Munns, R. 2002. Comparative physiology of salt and water stress. Plant, Cell and Environment. 25: 239–250.
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· Najafi Babady, K., P. Hassibi, H. Roshanfekr, and S. Broumand Nassab. 2018. Effect of drought stress on chlorophyll fluorescence and forage yield of two forage millet cultivars (Pennisettum americanum) var nutrifeed and (Punicum sp.) var. pishahang. Iranian Journal of Field Crops Research. 16(2): 333-344. (In Persian).
· Noroozi, H., H. Roshanfekr, P. Hassibi, and M. Meskarbashee. 2013. The evaluation of some photosynthetic characteristics in two forage millet cultivars under salt stress conditions. Journal of Plant Process and Function. 2(2): 75-84. (In Persian).
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· Parida A.K., and A.B. Das. 2005. Salt tolerance and salinity effects on plants: a review. Ecotoxicology and Environmental Safety. 60: 324-349.
· Parry, M.A.J., P.J. Andraloje, S. Khan, P.J. Lea, and A.J. Keys. 2002. Rubisco activity: Effects of drought stress. Annals of Botany. 89: 833-839.
· Seghatol Eslami, M.J., M. Kafi, H. Majidi, Gh. Noormohamadi, F. Darvish, and A. Ghazi Zade. 2005. Effect of drought stress on leaf soluble sugar content, leaf rolling index and relative water content of proso millet (Panicum miliaceum L.) genotypes. Iranian Journal of Field Crops Research. 3(2): 219-232. (In Persian).
· Sepaskhah, A.R., and F. Yousefi. 2007. Effect of zeolite application on nitrate and ammonium retention of a loamy soil under saturated conditions. Soil Restoration. 45: 368-373.
· Siosemardeh, A., A. Ahmadi, K. Poustini, and H. Ebrahimzedeh. 2003. Stomatal and nonstomatal limitations to photosynthesis and their relationship with drought resistance in wheat cultivars. Iranian Journal of Agricultural Science. 34: 93-106. (In Persian).
· Tohidi-Moghadam, H.R., A.H. Shirani-Rad, Gh. Nour-Mohammadi, D. Habibi Modares, S.A.M. Sanavy, M. Mashhadi Akbar Boojar, and A. Dolatabadian. 2009. Response of six oilseed rape genotypes to water stress and hydrogel application. Pesquisa Agropecuaria Tropical. 39(3): 243-250.
· Yari, P., A.H. Keshtkar, and A. Sepehri. 2014. Evaluation of water stress effect on growth and yield of spring safflower. Plant Products Technology. 14(2): 101-117. (In Persian).
Zabet, M., S. Bahamin, S. Ghoreishi, H. Sadeghi, and S.Gh. Moosavi. 2015. Effect of deficit irrigation and nitrogen fertilizer on quantitative yield of aboveground part of forage pear millet (Pennisetum glaucum) in Birjand. Environmental Stresses in Crop Sciences. 7(2): 187-194. (In Persian).
_||_· Adary, A., A. Hachum, T. Oweis, and M. Pala. 2002. Wheat productivity under supplemental irrigation in Northern Iraq. On-Farm Water Husbandry Research Report Series. International Center for Agricultural Research in the Dry Areas (ICARDA). 38 pp.
· Ahmadi Lahijani, M.J., and Y. Emam. 2013. Response of wheat genotypes to terminal drought stress using physiological indices. Journal of Crop Production and Processing. 3(9):163-176. (In Persian).
· Alvarz, S., A. Navarro, S. Banon, and S.B. MJ. 2009. Regulated deficit irrigation in potted dianthus plants: Effects of severe and moderate water stress on growth and physiological responses. Scientia Horticulture. 122: 579-585.
· Babaee, K., M. Amini Dehaghi, S.A.M. Modares Sanavi, and R. Jabbari. 2010. Water deficit effect on morphology, prolin content and thymol percentage of Thyme (Thymus vulgaris L.). Iranian Journal of Medicinal and Aromatic Plants. 26(2): 239-251. (In Persian).
· Bates, L.S., R.P. Waldren, and I.D. Teare. 1973. Rapid determination of free proline for water-stress studies. Plant and Soil. 39: 205-207.
· Bradford, M.M. 1976. A rapid sensitive method for the quantitation of microgram quantites of protin utilizing the principle of protein-dye binding. Analytical Biochemistry. 72: 248-254.
· Çakir, R. 2004. Effect of water stress at different development stages on vegetative and reproductive growth of corn. Journal of Field Crops Research. 89(1): 1-16.
· Chopra, P. 2006. Drought risk assessment using remote sensing and GIS: A case study of Gujarat thesis submitted to the International Institute for Geo-information Science and Earth observation in partial fulfillment of the requirments for degree of master. 2-17.
· Gardner, F.P., R.B. Pearce, and R.L. Mitchell. 1985. Physiology of crop plants. Iowa State University Press. 327 pp.
· Haji Hassani Asl, N.A., H. Moradi Aghdam, N. Aliabadi Farahani, N. Hosseini, and M. Rassaei Far. 2011.Three forage yield and its components under water deficit condition in delay cropping in Khoy Zone (Iran). Advances in Environmental Biology. 5(5): 847-852.
· Hayat, S., Q. Fariduddin, B. Ali, and A. Ahmad. 2005. Effect of salicylic acid on growth and enzyme activities of wheat seedlings. Acta Agronomica Hungarica. 53: 433-437.
· Kafi, M., A. Borzoee, M. Salehi, A. Kamandi, A. Masoumi, and J. Nabati. 2009. Physiology of environmental stresses in plants. Mashhad University Jahad Press. 500 pp. (In Persian).
· Keshavarz, L., H. Farahbakhsh, and P. Golkar. 2013. Effect of hydrogel and irrigation regimes on chlorophyll content, nitrogen and some growth indices and yield of forage millet (Pennisetum glaucum L.). Journal of Crop Production and Processing. 3(9): 147-161. (In Persian).
· Kholova, J., C.T.M. Hasan, M. Khocova, and V. Vadie. 2011. Does a terminal drought tolerance QTL contribute to differences in ROS scavenging enzymes and photosynthetic pigments in pear millet exposed to drought? Journal of Environmental and Experimental Botany. 71(2): 99-106.
· Lawlor, D.W., and G. Cornic. 2002. Photosynthetic carbon assimilation and associated metabolism in relation to water deficits in higher plants. Plant cell and Environment. 25: 275-294.
· Lobato, A.K.S., A.C.S. Meirlles, B.G. Santoz Filho, R.C.L. Costa, C.F. Oliveria Neto, F.J.R. Cruz, J.M.N. Freitas, E.M.S. Guedes, A.G.T. Barreto, A.S. Ferreira, B.S. Monteiro, H.K.B. Neves, and M.J.S. Lopes. 2008. Consequences of the progressive water deficit and rehydration on nitrate reductase activity and nitrogen compounds in soybean (Glycine max L.) cv. Sambaiba. Research Journal of Agronomy. 2(3): 64-70.
· Masjedi, A., A. Shokohfar, and M. Alavi Fazel. 2009. A survey of most suitable irrigation scheduling and effect of drought stress on yield for summer corn (SC.704) with class A evaporation pan in Ahvaz. Journal of Water and Soil Science. 12 (46): 543-550. (In Persian).
· Mohsenzadeh, S., M.A. Malboobi, K. Razavi, and S. Farrahi-Aschtiani. 2006. Physiological and molecular responses of Aeluropus lagopoides (Poaceae) to water deficit. Environmental and Experimental Botany. 56: 314–322.
· Moosavi, G., M. Seghatolesla, H. Javadi, and E. Ansari Nia. 2011. Effect of irrigation planting patterns on yield and qualitative traits of forage sorghum. Journal of Environmental Biology. 5(10): 3363- 3368.
· Mousavi, S.G.R., S.M.J. Mirhadi, S.A. Siadat Gh. Nourmohammadi, and F. Darvish. 2009. The effect of drought stress and nitrogen levels on yield and water use efficiency of forage millet and sorghum. Agroecology Journal. 5(15): 101-114. (In Persian).
· Munns, R. 2002. Comparative physiology of salt and water stress. Plant, Cell and Environment. 25: 239–250.
· Nabati, J., and P. Rezvani Moghadam. 2010. Effect of irrigation intervals on the yield and morphological characteristics of forage millet, sorghum and corn. Iranian Journal of Field Crop Science. 41(1): 179-186. (In Persian).
· Najafi Babady, K., P. Hassibi, H. Roshanfekr, and S. Broumand Nassab. 2018. Effect of drought stress on chlorophyll fluorescence and forage yield of two forage millet cultivars (Pennisettum americanum) var nutrifeed and (Punicum sp.) var. pishahang. Iranian Journal of Field Crops Research. 16(2): 333-344. (In Persian).
· Noroozi, H., H. Roshanfekr, P. Hassibi, and M. Meskarbashee. 2013. The evaluation of some photosynthetic characteristics in two forage millet cultivars under salt stress conditions. Journal of Plant Process and Function. 2(2): 75-84. (In Persian).
· Nouri azhar, J., and P. Ehsanzedeh. 2007. Study of relationship of some growth indices and yield of five corn hybrids at two irrigation regimes in Esfahan region. Journal of Science and Technology. 41: 261- 272. (In Persian).
· Parida A.K., and A.B. Das. 2005. Salt tolerance and salinity effects on plants: a review. Ecotoxicology and Environmental Safety. 60: 324-349.
· Parry, M.A.J., P.J. Andraloje, S. Khan, P.J. Lea, and A.J. Keys. 2002. Rubisco activity: Effects of drought stress. Annals of Botany. 89: 833-839.
· Seghatol Eslami, M.J., M. Kafi, H. Majidi, Gh. Noormohamadi, F. Darvish, and A. Ghazi Zade. 2005. Effect of drought stress on leaf soluble sugar content, leaf rolling index and relative water content of proso millet (Panicum miliaceum L.) genotypes. Iranian Journal of Field Crops Research. 3(2): 219-232. (In Persian).
· Sepaskhah, A.R., and F. Yousefi. 2007. Effect of zeolite application on nitrate and ammonium retention of a loamy soil under saturated conditions. Soil Restoration. 45: 368-373.
· Siosemardeh, A., A. Ahmadi, K. Poustini, and H. Ebrahimzedeh. 2003. Stomatal and nonstomatal limitations to photosynthesis and their relationship with drought resistance in wheat cultivars. Iranian Journal of Agricultural Science. 34: 93-106. (In Persian).
· Tohidi-Moghadam, H.R., A.H. Shirani-Rad, Gh. Nour-Mohammadi, D. Habibi Modares, S.A.M. Sanavy, M. Mashhadi Akbar Boojar, and A. Dolatabadian. 2009. Response of six oilseed rape genotypes to water stress and hydrogel application. Pesquisa Agropecuaria Tropical. 39(3): 243-250.
· Yari, P., A.H. Keshtkar, and A. Sepehri. 2014. Evaluation of water stress effect on growth and yield of spring safflower. Plant Products Technology. 14(2): 101-117. (In Persian).
Zabet, M., S. Bahamin, S. Ghoreishi, H. Sadeghi, and S.Gh. Moosavi. 2015. Effect of deficit irrigation and nitrogen fertilizer on quantitative yield of aboveground part of forage pear millet (Pennisetum glaucum) in Birjand. Environmental Stresses in Crop Sciences. 7(2): 187-194. (In Persian).
