تعداد نشریات | 161 |
تعداد شمارهها | 6,532 |
تعداد مقالات | 70,501 |
تعداد مشاهده مقاله | 124,114,884 |
تعداد دریافت فایل اصل مقاله | 97,218,765 |
تأثیر کودهای زیستی نیتروژنی بر عملکرد و اجزای عملکرد دو رقم گندم (چمران و شیرودی) | ||
تحقیقات آب و خاک ایران | ||
مقاله 7، دوره 50، شماره 8، دی 1398، صفحه 1927-1936 اصل مقاله (483.16 K) | ||
نوع مقاله: مقاله پژوهشی | ||
شناسه دیجیتال (DOI): 10.22059/ijswr.2019.270871.668066 | ||
نویسندگان | ||
سید ما شااله حسینی* 1؛ علی تسلیمی2؛ یعقوبعلی کرمی3؛ منوچهر دستفال4 | ||
1استادیار بخش تحقیقات خاک و آب، مرکـز تحقیقات و آموزش کشاورزی و منابع طبیعی استان فارس،سـازمان تحقیقـات، آمـوزش و ترویـج کشـاورزی،شیراز،ایران | ||
2دانشجوی سابق دانشگاه آزاد اسلامی واحد علوم وتحقیقات فارس، گروه زراعت وکارشناس مسئول امور زراعت سازمان جهاد کشاورزی استان فارس،شیراز،ایران | ||
3مربی پژوهش بخش تحقیقات خاک و آب، مرکـز تحقیقات و آموزش کشاورزی و منابع طبیعی استان فارس سازمان تحقیقـات، آمـوزش و ترویـج کشـاورزی، شیراز، ایـران | ||
4مربی پژوهش بخش تحقیقات اصلاح و تهیه نهال و بذر، مرکـز تحقیقات و آموزش کشاورزی و منابع طبیعی استان فارس سازمان تحقیقـات، آمـوزش و ترویـج کشـاورزی، داراب، ایـران | ||
چکیده | ||
آزمایشی مزرعهای بهمنظور بررسی تأثیر چند نوع کود زیستی نیتروژنی بر عملکرد و اجزای عملکرد دو رقم گندم چمران و شیرودی بهصورت کرتهای خرد شده در قالب طرح بلوکهای کامل تصادفی در سه تکرار در شهرستان داراب اجرا گردید. ارقام گندم (چمران و شیرودی) بهعنوان کرتهای اصلی و کودهای زیستی (نیتراژین عمومی + 60% نیتروژن خالص از منبع اوره (A1) – نیتراژین ویژه غلات + 60% نیتروژن خالص از منبع اوره (A2) – نیتروکارا + 60% نیتروژن خالص از منبع اوره (A3)– نیتروکسین + 60% نیتروژن خالص از منبع اوره (A4)– نیتروجی (ازتوباکتر) + 60% نیتروژن خالص از منبع اوره (A5) – بیوفارم نیتروژنی + 60% نیتروژن خالص از منبع اوره (A6) – مصرف 100% نیتروژن خالص از منبع اوره (A7) – توصیه کودی بر اساس آزمون خاک بدون مصرف نیتروژن (A8)) به عنوان کرتهای فرعی در نظر گرفته شد. شاخصهای اندازهگیری شده شامل ارتفاع بوته، تعداد سنبله در مترمربع، تعداد دانه در سنبله، وزن هزار دانه و عملکرد در واحد سطح بودند. نتایج نشان داد که از لحاظ عملکرد اختلاف معنیداری بین ارقام گندم (P ≤0.05) و کودها (P ≤0.01) وجود دارد. تیمار A4، بیشترین مقادیر را در شاخصهای اندازهگیری شده بهخود اختصاص داد. تیمارهای A6 ,A3 ,A1 ,A2و A5 به ترتیب در مرحله بعد قرار گرفتند. تیمار A7 که منحصراٌ کود شیمیایی اوره بود در جایگاه بعدی قرار گرفت. بطور کلی کودهای زیستی استفاده شده در این تحقیق حاوی باکتریهای تثبیتکننده نیتروژن از جنس ازتوباکتر و آزوسپیریلوم، در صورت همراهی با کود شیمیایی نیتروژنی اوره میتواند جایگزین مناسب و مطمئنی برای تأمین بخشی از کودهای شیمیایی مصرفی نیتروژنه باشند. | ||
کلیدواژهها | ||
ازتوباکتر؛ آزواسپریلیوم؛ اوره؛ تثبیت نیتروژن؛ کشاورزی پایدار | ||
عنوان مقاله [English] | ||
The Effect of Nitrogen Biofertilizers on Yield and Yield Components of Two Wheat Cultivars (Chamran and Shiroodi) | ||
نویسندگان [English] | ||
Seyed Mashaallah Hosseini1؛ Ali taslimi2؛ Yaghoobali Karami3؛ Manuchehr Dastfal4 | ||
1Assistant Professor,Soil and Water Department, Fars Agricultural and Natural Resources Research and Education Center, AREEO,Shiraz, Iran. | ||
2Former student of Islamic Azad University, Fars Science and Research Branch,ِDepartment of Agronomy, and expert in agriculture affairs of Jihad-e-Agriculture Organization of Fars Province,shiraz,Iran. | ||
3Research instructor،Soil and Water Department, Fars Agricultural and Natural Resources Research and Education Center, AREEO,Shiraz, Iran. | ||
4Research instructor, Seed and Plant Improvement Department, Fars Agricultural and Natural Resources Research and Education Center, AREEO,Darab, Iran. | ||
چکیده [English] | ||
A field experiment was carried out in order to investigate the effect of several types of nitrogen biofertilizer on yield and yield components of two wheat cultivars (Chamran and Shiroudi) as split plots based on randomized complete block design with three replications in Darab city. Wheat cultivars (spring type Chamran and Shiroudi) were considered as main plots and biological fertilizers (General Nitragin (A1) – Nitragin special Cereal (A2) –Nitrokara (A3) –Nitroxin (A4) – Nitrogy (A5) – Nitrogen biofarm (A6) – 100% pure Nitrogen (A7= 400 kg ha-1 as urea) – without Nitrogen application (A8)) as subplots. The measured indices included plant height, number of spikes per square meter, number of seeds per spike, 1000 grain weight and yield per unit area. According to the results, there was a significant difference between wheat cultivars (P ≤0.05) and fertilizers (P ≤ 0.01). The treatment A4 (nitroxin + 60% pure nitrogen from urea source) obtained the highest values for the measured indices. The A2, A1, A3, A6 and A5 treatments were arranged in the next step, respectively. A7 treatment, which was exclusively urea, was arranged in the next step. Generally, the biofertilizers applied in this study containing nitrogen fixation bacteria (NFB) from Azotobacter and Azospirilum genuse, if accompanied with nitrogen fertilizer like Urea, could be a suitable and safe alternative for supplying a part of nitrogen chemical Fertilizers. | ||
کلیدواژهها [English] | ||
Azotobacter, Azosperilium, Nitrogen fixation, Sustainable agriculture, Urea | ||
مراجع | ||
Ahemad, M. and Kibret, M. (2014). Mechanisms and applications of plant growth promoting rhizobacteria: current perspective. Journal of King Saud University-Science, 26(1), 1-20. Ahmadi, k., Gholizadeh, H. A., Ebadzadeh, H. R., Hatami, F., Hosainpoor, R., Kazemifard, R. and Abdeshah, H. (2016). Agriculture Economic aspects. Iran Statistics Horticultural products. Results of the survey of the sample of garden products. Iran. Ministry of Jahad Agriculture. Deputy of Planning and Economic. Center of Information and Communication Technology. From http://amar.maj.ir. Bahrani, A., Hosseini, M., Meamar, S. and Tahmasbi Sarvestani, Z. )2007). The effect of Azospirilum and Azotobacter bacteria along with micronutrients application as spraying and application in soil in quantitative and qualitative characteristics of 5 wheat cultivars after corn cultivation in Fars province. Iranian Journal of Agricultural Science, 367-376. (In Farsi). Bhattarai, T. and Hess, D. (1993). Yield responses of Nepalese spring wheat (Triticum aestivum L.) cultivars to inoculation with Azospirillum spp. of Nepalese origin. Plant and Soil, 151(1), 67-76. Bremner, J. M. (1965). Total Nitrogen 1. Methods of soil analysis. Part 2. Chemical and microbiological properties, (methodsofsoilanb), 1149-1178. Carter, M. R. and Gregorich, E. G. (2006). Soil Sampling and Methods of Analysis. Canadian Society of Science. Lewis Publisher. Raton. Florida. USA. Chapman, H. D. and Pratt, P. F. (1961). Methods of Analysis for Soils, Plants, and Waters. Soil Analysis. In: Methods of Analysis for Soils, Plants, and Waters, University California press. Riverside, CA, 44-45. Chauhan, D. S., Sharma, R. K. and Chhokar, R. S. (2011). News paradigm in tillage technology for wheat production. Research Bulletin, NO. 8. Das, A. C. and Saha, D. (2000). Influence of diazotrophic inoculations on nitrogen of rice. Australian Journal of Soil Research, 41(8), 1543-1554. El-Zeiny, O. A. H., El-Behairy, U. A. and Zaky, M. H. (2001). Influence of biofertilizer on growth, yield and fruit quality of tomato grown under plastic house. Mansoura University Journal of Agricultural Sciences (Egypt). Esmailpour, A., Hassanzadehdelouei, M. and Madani, A. (2013). Impact of Livestock Manure, Nitrogen and Biofertilizer (Azotobacter) on Yield and Yield Components Wheat (Triticum Aestivum L.). Cercetari agronomice in Moldova, 46(2), 5-15. Gee, G.W. and Or, D. (2002) Particle Size Analysis. In: Dane, J.H. and Topp, G.C., Eds., Methods of Soil Analysis, Part 4, Physical Methods, Soils Science Society of America, Book Series No. 5, Madison, 255-293. Hassen, A. I., Bopape, F. L. and Sanger, L. K. (2016). Microbial inoculants as agents of growth promotion and abiotic stress tolerance in plants. In: Microbial inoculants in sustainable agricultural productivity. Springer. New Delhi. 23-36. Jaga, P. K. and Singh, V. (2010). Effect of biofertilizer, nitrogen and sulphur on sorghum-mustard cropping system. In Proceedings of National Seminar on Soil Security for Sustainable Agriculture held at College of Ariculture, Nagypur (MS on February 27-28, 2010)“XXII SAVETOVANJE O BIOTEHNOLOGIJI” Zbornik radova, Knjiga. (Vol. 1, p. 2017). Katiyar, N.K., Ranawat, S., Pathak, R.K. and Kumar, A. (2011). Effect of Azotobacter and nitrogen levels on yield and quality of wheat. Annals of Plant and Soil Research, 13(2),152- 155. Kumar, A., Devi, S., Patil, S., Payal, C. and Negi, S. (2012). Isolation, screening and characterization of bacteria from Rhizospheric soils for different plant growth promotion (PGP) activities: an in vitro study. Recent research in science and technology, 4(1), 1-5. Kumar, A. (2018). Impact of biofertilizers in enhancing growth and productivity of wheat: A review. International Journal of Chemical Studies, 6(4), 360-362. Kumar, B. L. and Gopal, D. S. (2015). Effective role of indigenous microorganisms for sustainable environment. 3 Biotech, 5(6), 867-876. Lindsay, W. L. and Norvell, W. A. (1978). Development of a DTPA Soil Test for Zinc, Iron, Manganese, and Copper 1. Soil science society of America journal, 42(3), 421-428. McLean, E. O. (1982). Soil pH and lime requirement. Methods of soil analysis. Part 2. Chemical and microbiological properties. (methodsofsoilan2), 199-224. Meena, M. K., Gupta, S. and Datta, S. (2016). Antifungal potential of PGPR, their growth promoting activity on seed germination and seedling growth of winter wheat and genetic variabilities among bacterial isolates. International Journal of Current Microbiology and Applied Sciences, 5(1), 235-243. Moradi, M., Siadat,S. A., Khavazi, K., Naseri, R., Maleki, A. and Mirzai, A. (2011). The Effect of Chemical and P Biofertilizers on Quantitative and Qualitative Characteristics of Spring Wheat. Journal of Ecophysiology of Crops and Weeds, Vol. 5, No. 18. 51-66. Najari Sadeghi, M., Mirashkari, B., Baser Koocheh Baghi, S. and Alhayari, Sh. (2008). Effect of nitrogen and chemical fertilizers on nitrogen use efficiency and harvest index of two wheat cultivars. Journal of Modern Agricultural Findings, (3), 190-203. (In Farsi). Olsen, S. R. and Sommers, L. E. (1982). Phosphorus. P 403-430, In: Klute, A. (Eds), Methods of soil Analysis: Chemical and microbiological Properties, part 2. (2nd ed.). Agron. Monogr, 9, American Society of Agronomy and Soils Science Society of America, Madison WI. Rabian, Z., Rahimzadeh Khoyi, F., Kazemi Arbat, H. and Yarnia, M. (2009). Effect of nitrogen and phosphorus bio fertilizers on yield and yield components of chickpea cultivar Pirouz under different irrigation levels. Journal of Research in Crop Sciences, (6), 94-102. (In Farsi). Ram, G., Rai, S.N. and karimandan, S.K. (1999). Influence of Azoto bacterization in presence of fertilizer nitrogen in the yield of weat. Jornal of the Indian Society of Soil Science, 33, 424-426. Ridge, E. H. (1970). Inoculation and survival of Azotobacter chroococcum on stored wheat seed. Journal of Applied Bacteriology, 33(1), 262-269. Sys, C., Ranst, E. and Debareye, Y. 1991. Land evaluation. Part III, General adminstation for development agriculture, Publication no. 7, Brussels. Belgium. Shaalan, M. N. (2005). Infeluence of Biofertilizers and chicken Manure on growth, yield and seeds quality of (NIGELLA SATIVA, L.) Plants. Egyptian Journal of Agricultural Research, 83(2), 811. Shanmugam, V., Senthil, N., Raguchander, T., Ramanathan, A. and Samiyappan, R. (2002). Interaction ofPseudomonas fluorescens withRhizobium for their effect on the management of peanut root rot. Phytoparasitica, 30(2), 169-176. Sharma, I. P. and Sharma, A. K. (2017). Physiological and biochemical changes in tomato cultivar PT-3 with dual inoculation of mycorrhiza and PGPR against root-knot nematode. Symbiosis, 71(3), 175-183. Singh, R., Behl, R. K., Singh, K. P., Jain, P. and Narula, N. (2004). Performance and gene effects for wheat yield under inoculation of arbuscular mycorrhiza fungi and Azotobacter chroococcum. Plant Soil and Environment, 50(9), 409-415. Szilagyi-Zecchin, V. J., Mógor, Á. F. and Figueiredo, G. G. O. (2016). Strategies for characterization of agriculturally important bacteria. In: Microbial inoculants in sustainable agricultural productivity; Singh DP, Singh HB, Prabha R (eds.), Springer, New Delhi, 1-21. Tandon, H. L. S. (1998). Method of analysis of soil. Plant. Waters and Fertilizer. Development and Consultation Organization. New Delhi. India. 144p. Tanwar, S. P. S., Sharma, G. L. and Chahar, M. S. (2002). Effect of phosphorus and biofertilizers on growth and productivity of blackgram. Annals of Agricultural Research (India). The Statistics Portal. (2018). https://www.statista.com/statistics/263977/world-grain-production-by-type Tilak, K. V. B. R., Ranganayaki, N., Pal, K. K., De, R., Saxena, A. K., Nautiyal, C. S. & Johri, B. N. (2005). Diversity of plant growth and soil health supporting bacteria. Current science, 136-150. Tohidi Moghadam, H., Ghoshchi, F., Zakeri, A. and Hamed, e.( 2008). Effect of Azospirilum and Azotobacter with nitrogen fertilizer application on yield of corn. Poya Agricultural Journal, 349- 355. (In Farsi). Treves, D. S., Xia, B., Zhou, J., and Tiedje, J. M. 2003. A two–species test of the hypothesis that spatial isolation influences microbial diversity in soil. Microbial Ecology, 45:20–28. Yar Mahmudi, Z., Tadion, M. S. and Jafari Haghighi, B. (2009). Effect of fertilizer containing amino acids on physiological characteristics, yield and yield components of maize in Maxima variety under drought stress conditions. Journal of Plant Ecophysiology, 28-32. (In Farsi). Yasari, E. and Patwardhan, A. M. (2007). Effects of (Azotobacter and Azospirillum) inoculants and chemical fertilizers on growth and productivity of canola (Brassica napus L.). Asian Journal of Plant Science, 6(1), 77-82. | ||
آمار تعداد مشاهده مقاله: 683 تعداد دریافت فایل اصل مقاله: 448 |