تاثیر کاربرد اوره و نیتراپایرین بر خصوصیات کمی و کیفی ارقام مختلف گندم (.Triticum aestivume L) در شرایط مختلف خاک ورزی
الموضوعات :
اکوفیزیولوژی گیاهان زراعی
رضا نوذری
1
,
اسماعیل حدیدی ماسوله
2
,
اعظم برزویی
3
,
سعید سیف زاده
4
,
علی اسکندری
5
1 - دانش آموخته دکتری، گروه زراعت، دانشکده کشاورزی، واحد تاکستان، دانشگاه آزاد اسلامی، تاکستان، ایران
2 - استادیار گروه زراعت، دانشکده کشاورزی، واحد تاکستان، دانشگاه آزاد اسلامی، تاکستان، ایران
3 - استادیار پژوهشکده کشاورزی هستهای، پژوهشگاه علوم و فنون هستهای، کرج، ایران
4 - دانشیار گروه زراعت، دانشکده کشاورزی، واحد تاکستان، دانشگاه آزاد اسلامی، تاکستان، ایران
5 - استادیار پژوهشکده کشاورزی هستهای، پژوهشگاه علوم و فنون هستهای، کرج، ایران
تاريخ الإرسال : 06 الإثنين , جمادى الأولى, 1442
تاريخ التأكيد : 14 الأربعاء , شوال, 1442
تاريخ الإصدار : 24 السبت , ذو الحجة, 1443
الکلمات المفتاحية:
پروتئین,
شاخص سطح برگ,
کلروفیل,
خاک ورزی مرسوم,
هدر روی نیتروژن,
ملخص المقالة :
به منظور بررسی روشهای مختلف خاک ورزی و کود اوره همراه با نیتراپایرین بر میزان کلروفیل، پروتئین دانه، عملکرد و اجزاء دو رقم گندم، آزمایشی به صورت اسپلیت فاکتوریل در قالب بلوک های کامل تصادفی با سه تکرار در سال زراعی 96-1395 در مزرعه تحقیقاتی پژوهشگاه علوم و فنون هستهای انجام شد. تیمارهای آزمایش شامل خاک ورزی (رایج و حداقل)، کود اوره در سه سطح (صفر، 150 کیلو اوره در هکتار و 150 کیلو اوره در هکتار + نیتراپایرین) و ارقام گندم (ارگ و امیدبخش) بودند. نتایج نشان داد که سیستم های خاک ورزی بر صفات مورد بررسی تأثیرگذار بودند به طوری که بیشترین میزان کلروفیل (5/18 میلی گرم در گرم وزن تر) و شاخص سطح برگ (3/78) به ترتیب در خاک ورزی حداقل و رایج به دست آمد. بیشترین میزان پروتئین دانه (14/8 درصد)، عملکرد دانه (668/3 کیلوگرم در هکتار) و شاخص برداشت (42/5 درصد) در خاک ورزی حداقل و تیمار کودی 150 کیلوگرم اوره در هکتار+ نیتراپایرین به دست آمد. کاربرد همزمان اوره و نیتراپایرین باعث افزایش پروتئین دانه، وزن هزار دانه و شاخص برداشت شد. هر دو رقم ارگ و امیدبخش بیشترین ارتفاع (به ترتیب 102/16 و 104/66 سانتی متر) و شاخص سطح برگ (به ترتیب 3/8 و 3/9) را در تیمار کودی 150 کیلوگرم اوره در هکتار تولید کردند. اثر متقابل سه گانه خاک ورزی، کود و رقم نیز تأثیر معنیداری بر وزن خشک برگ، عملکرد دانه و عملکرد زیستی داشت. در خاک ورزی حداقل، رقم امیدبخش در تیمار کودی 150 کیلوگرم اوره همراه با نیتراپایرین عملکرد دانه و عملکرد زیستی بهتری نسبت به سایر تیمارها نشان داد. با توجه به نتایج به دست آمده، در شرایط شخم حداقل، رقم امیدبخش و کاربرد اوره همراه با نیتروپایرین توصیه می گردد.
المصادر:
Alvarez, R., and H.S. Steinbach. 2009. A review of the effects of tillage systems on some soil physical properties, water content, nitrate availability and crops yield in the Argentine Pampas. Soil and Tillage Research. 104: 1-15.
Behera, S.N., M. Sharma, V.P. Aneja, and R. Balasubramanian. 2013. Ammonia in the atmosphere: a review on emission sources, atmospheric chemistry and deposition on terrestrial bodies. Environmental Science and Pollution Research. 20(11): 8092-8131.
Botta, G.F.A., X. Tolon-becerra, and M. Tourn. 2010. Tillage and traffic effects (planters and tractors) on soil compaction and soybean (Glycine max) yields in Argentinean pampas. Soil and Tillage Research. 110:167-174.
Chen D.L., J.R. Freney, A.R. Mosier, and P.M. Chalk. 1994. Reducing denitrification loss with nitrification inhibitors following presowing applications of urea to a cottonfield. Australian Journal of Experimental Agriculture 34: 75-83.
Dorota, G., C. Rafal, B. Karol, and W. Marian. 2014. Soybean yield under different tillage systems. Acta Scientiarum Polonorum, Hortorum Cultus. 13(1):43-54.
Drury, C.F., X. Yang, W.D. Reynolds, W. Calder, T.O. Oloya, and A.L. Woodley. 2017. Combining urease and nitrification inhibitors with incorporation reduces ammonia and nitrous oxide emissions and increases corn yields. Journal of Environmental Quality. 46: 939-949.
Keshavarz Afshar, R., R. Lin, Y. Assen Mohammed, and Ch. Chen. 2018. Agronomic effects of urease and nitrification inhibitors on ammonia volatilization and nitrogen utilization in a dryland farming system: Field and laboratory investigation. Journal of Cleaner Production. 172: 4130-4139.
Li, Q., A. Yang, Z. Wang, M. Roelcke, X. Chen, F. Zhang, G. Pasda, W. Zerulla, A.H. Wissemeier, and X. Liu. 2015. Effect of a new urease inhibitor on ammonia volatilization and nitrogen utilization in wheat in north and northwest China. Field Crops Research. 175: 96-105.
Marschner, H. 1995. Mineral nutrition of higher plants. 2. ed. London: Academic Press, 1995. 889 p.
Meena, S.N., and K.K. Jain. 2013. Effect of varieties and nitrogen fertilization on fodder pearlmillet (Pennisetum glaucum) in North Western Rajasthan. Indian Journal of Agronomy. 58(2):262-263.
Midha L.K., S. Arya, P. Kumari, and U.N. Joshi. 2015. Performance of forage pearl millet genotypes under different nitrogen levels. Forage Research. 41(2):137-138.
Mohammed, Y.A., Ch. Chen, and T. Jensen. 2016. Urease and nitrification inhibitors impact on winter wheat fertilizer timing, yield, and protein content. Agronomy Journal. 108(2): 905-912.
Moro, E., C.A.C. Crusciol, A.S. Nascente, and H. Cantarella. 2014. Nitrification inhibition in tropical soil under no‑tillage system. Revista De Cienciasa Agrarias, Amazonian Journal of Agricultural and Environmental Sciences. 57(2): 199-206.
Nascente, A.S., C.A.C. Crusciol, and T. Cobucci. 2012. Ammonium and nitrate in soil and upland rice yield as affected by cover crops and their desiccation time. Pesquisa Agropecuária Brasileira. 47(12): 1699-1706.
Niu, Y., J. Luo, D. Liu, Ch. Müller, M. Zaman, S. Lindsey, and W. Ding. 2018. Effect of biochar and nitrapyrin on nitrous oxide and nitric oxide emissions from a sandy loam soil cropped to maize. Biology and Fertility of Soils: 54:645-658.
Pouri, K., A. Sio-Se Mardeh, Y. Sohrabi, and A. Soltani. 2019. Crop phenotyping for wheat yield and yield components against drought stress. Cereal Research Communications. 47(2): 383-393
Sadeghpour, A., M. Hashemi, S.A. Weis, J.T. Spargo, S. Mehrvarz, and S.J. Herbert. 2015. Assessing tillage systems for reducing ammonia volatilization from springapplied slurry manure. Communications in Soil Science and Plant Analysis. 46(6): 724-735.
Safari, K., Y. Sohrabi, A. Siosemmardeh, and S. Sasani. 2021. Effect of seed priming on some morphophysiological characteristics, yield and seed protein content in three dryland wheat (Triticum aestivum) cultivars. Journal of Crop Ecophysiology. 15 (3): 341-361.
Salo-väänänen, P.P., and P.E. Koivistoinen. 1996. Determination of protein in foods: comparison of net protein and crude protein (N × 6.25) values. Food Chemistry. 57(1): 27-31.
Soares, J.R., H. Cantarella, and M.L. de Campos Menegale. 2014. Ammonia volatilization losses from surface-applied urea with urease and nitrification inhibitors. Soil Biology and Biochemistry. 52: 82-89.
Sommer, S.G., J.K. Schjoerring, and O.T. Denmead. 2004. Ammonia emission from mineral fertilizers and fertilized crops. Advance in Agronomy. 82: 557-622.
Subbarao, G.V., O. Ito, K.L. Sahrawat, W.L. Bery, K. Nakahara, T. Ishikawa, T. Watanabe, K. Suenaga, M. Rondon, and I.M. Rao. 2006. Scope and strategies for regulation of nitrification in agricultural systems-challenges and opportunities. Critical Reviews in Plant Sciences: 254: 303-335.
Keshavarz, H., S.A.M. Modarres-Sanavy, and M. Mahdipour Afra. 2018. Organic and chemical fertilizer affected yield and essential oil of two mint species. Journal of Essential Oil-Bearing Plants 21(6): 1674-1681.
Valizadeh, G.R., Z. Rengel, and A.W. Rate. 2002. Role of phosphorus banding and nitrate to ammonium ratio in phosphorus uptake and wheat growth. Australian Journal of Experimental Agriculture. 42: 1095-1102.
Wang, H., Z. Guo, Y. Shi, Y. Zhang, and Zh. Yu. 2015. Impact of tillage practices on nitrogen accumulation and translocation in wheat and soil nitrate-nitrogen leaching in drylands. Soil and Tillage Research. 153: 20-27.
Zheng, J., Y. Qu, M.M. Kilasara, W.N. Mari, and Sh. Funakawa. 2019. Nitrate leaching from the critical root zone of maize in two tropical highlands of Tanzania: Effects of fertilizer-nitrogen rate and straw incorporation. Soil and Tillage Research. 194: 104295
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Alvarez, R., and H.S. Steinbach. 2009. A review of the effects of tillage systems on some soil physical properties, water content, nitrate availability and crops yield in the Argentine Pampas. Soil and Tillage Research. 104: 1-15.
Behera, S.N., M. Sharma, V.P. Aneja, and R. Balasubramanian. 2013. Ammonia in the atmosphere: a review on emission sources, atmospheric chemistry and deposition on terrestrial bodies. Environmental Science and Pollution Research. 20(11): 8092-8131.
Botta, G.F.A., X. Tolon-becerra, and M. Tourn. 2010. Tillage and traffic effects (planters and tractors) on soil compaction and soybean (Glycine max) yields in Argentinean pampas. Soil and Tillage Research. 110:167-174.
Chen D.L., J.R. Freney, A.R. Mosier, and P.M. Chalk. 1994. Reducing denitrification loss with nitrification inhibitors following presowing applications of urea to a cottonfield. Australian Journal of Experimental Agriculture 34: 75-83.
Dorota, G., C. Rafal, B. Karol, and W. Marian. 2014. Soybean yield under different tillage systems. Acta Scientiarum Polonorum, Hortorum Cultus. 13(1):43-54.
Drury, C.F., X. Yang, W.D. Reynolds, W. Calder, T.O. Oloya, and A.L. Woodley. 2017. Combining urease and nitrification inhibitors with incorporation reduces ammonia and nitrous oxide emissions and increases corn yields. Journal of Environmental Quality. 46: 939-949.
Keshavarz Afshar, R., R. Lin, Y. Assen Mohammed, and Ch. Chen. 2018. Agronomic effects of urease and nitrification inhibitors on ammonia volatilization and nitrogen utilization in a dryland farming system: Field and laboratory investigation. Journal of Cleaner Production. 172: 4130-4139.
Li, Q., A. Yang, Z. Wang, M. Roelcke, X. Chen, F. Zhang, G. Pasda, W. Zerulla, A.H. Wissemeier, and X. Liu. 2015. Effect of a new urease inhibitor on ammonia volatilization and nitrogen utilization in wheat in north and northwest China. Field Crops Research. 175: 96-105.
Marschner, H. 1995. Mineral nutrition of higher plants. 2. ed. London: Academic Press, 1995. 889 p.
Meena, S.N., and K.K. Jain. 2013. Effect of varieties and nitrogen fertilization on fodder pearlmillet (Pennisetum glaucum) in North Western Rajasthan. Indian Journal of Agronomy. 58(2):262-263.
Midha L.K., S. Arya, P. Kumari, and U.N. Joshi. 2015. Performance of forage pearl millet genotypes under different nitrogen levels. Forage Research. 41(2):137-138.
Mohammed, Y.A., Ch. Chen, and T. Jensen. 2016. Urease and nitrification inhibitors impact on winter wheat fertilizer timing, yield, and protein content. Agronomy Journal. 108(2): 905-912.
Moro, E., C.A.C. Crusciol, A.S. Nascente, and H. Cantarella. 2014. Nitrification inhibition in tropical soil under no‑tillage system. Revista De Cienciasa Agrarias, Amazonian Journal of Agricultural and Environmental Sciences. 57(2): 199-206.
Nascente, A.S., C.A.C. Crusciol, and T. Cobucci. 2012. Ammonium and nitrate in soil and upland rice yield as affected by cover crops and their desiccation time. Pesquisa Agropecuária Brasileira. 47(12): 1699-1706.
Niu, Y., J. Luo, D. Liu, Ch. Müller, M. Zaman, S. Lindsey, and W. Ding. 2018. Effect of biochar and nitrapyrin on nitrous oxide and nitric oxide emissions from a sandy loam soil cropped to maize. Biology and Fertility of Soils: 54:645-658.
Pouri, K., A. Sio-Se Mardeh, Y. Sohrabi, and A. Soltani. 2019. Crop phenotyping for wheat yield and yield components against drought stress. Cereal Research Communications. 47(2): 383-393
Sadeghpour, A., M. Hashemi, S.A. Weis, J.T. Spargo, S. Mehrvarz, and S.J. Herbert. 2015. Assessing tillage systems for reducing ammonia volatilization from springapplied slurry manure. Communications in Soil Science and Plant Analysis. 46(6): 724-735.
Safari, K., Y. Sohrabi, A. Siosemmardeh, and S. Sasani. 2021. Effect of seed priming on some morphophysiological characteristics, yield and seed protein content in three dryland wheat (Triticum aestivum) cultivars. Journal of Crop Ecophysiology. 15 (3): 341-361.
Salo-väänänen, P.P., and P.E. Koivistoinen. 1996. Determination of protein in foods: comparison of net protein and crude protein (N × 6.25) values. Food Chemistry. 57(1): 27-31.
Soares, J.R., H. Cantarella, and M.L. de Campos Menegale. 2014. Ammonia volatilization losses from surface-applied urea with urease and nitrification inhibitors. Soil Biology and Biochemistry. 52: 82-89.
Sommer, S.G., J.K. Schjoerring, and O.T. Denmead. 2004. Ammonia emission from mineral fertilizers and fertilized crops. Advance in Agronomy. 82: 557-622.
Subbarao, G.V., O. Ito, K.L. Sahrawat, W.L. Bery, K. Nakahara, T. Ishikawa, T. Watanabe, K. Suenaga, M. Rondon, and I.M. Rao. 2006. Scope and strategies for regulation of nitrification in agricultural systems-challenges and opportunities. Critical Reviews in Plant Sciences: 254: 303-335.
Keshavarz, H., S.A.M. Modarres-Sanavy, and M. Mahdipour Afra. 2018. Organic and chemical fertilizer affected yield and essential oil of two mint species. Journal of Essential Oil-Bearing Plants 21(6): 1674-1681.
Valizadeh, G.R., Z. Rengel, and A.W. Rate. 2002. Role of phosphorus banding and nitrate to ammonium ratio in phosphorus uptake and wheat growth. Australian Journal of Experimental Agriculture. 42: 1095-1102.
Wang, H., Z. Guo, Y. Shi, Y. Zhang, and Zh. Yu. 2015. Impact of tillage practices on nitrogen accumulation and translocation in wheat and soil nitrate-nitrogen leaching in drylands. Soil and Tillage Research. 153: 20-27.
Zheng, J., Y. Qu, M.M. Kilasara, W.N. Mari, and Sh. Funakawa. 2019. Nitrate leaching from the critical root zone of maize in two tropical highlands of Tanzania: Effects of fertilizer-nitrogen rate and straw incorporation. Soil and Tillage Research. 194: 104295