Effect of Two Kinds of Biofertilizers on Irrigated Wheat Yield in the North of Khuzestan

Document Type : Research Paper

Authors

1 Scientific Staff, Safiabad Agricultural Research center, Dezfu

2 Associate Professor, Soil and Water Research Institute

3 Scientific Staff, Soil and Water Research Institute

Abstract

In order to study the effect of Nitroxin and Nitragin biofertilizers on increasing yield of irrigated wheat (Triticum aestivum L.) Cv Chamran, two separate experiments were conducted in the same field in Safiabad Agricultural Research Center of Dezful, during 2009- 2010. The experimental design was randomized complete block with three treatments and four replications. Treatments in the first experiment were: T1- immersing of grain in Nitroxin biofertilizer, T2- immersing of grain in sterile Nitroxin biofertilizer, and T3- without Nitroxin biofertilizer (as control). In the second experiment, tratments included T1- immersing of grain in Nitragin biofertilizer, T2- immersing of grain in sterile Nitragin biofertilizer, and T3- without Nitragin biofertilizer (as control). The results showed that application of Nitroxin and Nitrogin biofertilizers had significant effects on grain and straw yield. The highest yields of grain (5615 and 5667 kg ha-1) and straw (6556and 6565 kg ha-1) were obtained with immersing of grain in Nitroxin and Nitragin biofertilizers (T1). The effect of treatments on the number of grains per spike, the number of spikes per plant, the number of spikes per square meter, and the amount of nitrogen, phosphorus, and potassium uptake by grain were significant. The immersing of grain in Nitroxin and Nitragin biofertilizers (T1) increased these indexes as compared with T2 and T3.

Keywords

References

  1. احیایی، م. و ع. ا. بهبهانی زاده. 1372 . شرح روش­های تجزیه شیمیایی خاک. نشریه فنی شماره 893 . موسسه تحقیقات خاک و آب، نشر آموزش کشاورزی، کرج، ایران. 150 ص.
  2. اردکانی، م. ر.، د. مظاهری، ف. مجد و ق. نور محمدی.1380. نقش همیاری باکتری آزوسپیریلوم در تثبیت بیولوژیکی ازت، عملکرد دانه و اجزاء عملکرد گندم. ضرورت تولید صنعتی کودهای بیولوژیک در کشور (مجموعه مقالات). چاپ اول. نشر آموزش کشاورزی، کرج، ایران. ص 247-243.
  3. حمیدی، آ.، ا. اصغر زاده، ر. چوگان، م. دهقان شعار، ا. قلاوند و م. ج. ملکوتی. 1389. تأثیر کاربرد باکتری­های افزاینده رشد گیاه (PGPR) بر تسهیم ماده خشک و برخی ویژگی­های رشد ذرت در شرایط گلخانه. مجله پژوهش­های خاک (علوم خاک و آب). جلد 24، شماره 1 . ص 67-55 .
  4. خاصه سیرجانی، ع.، ح. فرح بخش، س. ذ. داوری، ن. پسندی پور و ع. کرمی.1390 . بررسی اثر مصرف کود بیولوژیک، سولفات روی، وکود نیتروژن بر عملکردکمی وکیفی گندم. مجله پژوهش­های خاک (علوم خاک و آب). جلد دوم، شماره 2. ص 135-125.
  5. خسروی، ه. 1380 . کاربرد کودهای بیولوژیک در زراعت غلات. ضرورت تولید صنعتی کودهای بیولوژیک در کشور( مجموعه مقالات). چاپ اول. نشر آموزش کشاورزی، کرج، ایران. ص 194-179 .
  6. ریحانی تبار، ع. 1379. بررسی اثرات محرک رشد سویه­های بومی سودموناس فلورسنت بر شاخص­های رشد گندم. پایان نامه کارشناس ارشد. دانشگاه تهران.
  7. غیاثی، آ.، آ. حمیدی، ک. خاوازی و س. پارسا. 1390. اثر باکتری­های محرک رشد (PGPR) بر جوانه­زنی و شاخص­های بنیه گیاهچه گندم رقم چمران. دوازدهمین کنگره علوم خاک ایران . 12 الی 14 شهریور. تبریز، ایران.
  8. فاجریا، ان. کا. 1374 . افزایش عملکرد گیاهان زراعی. هاشمی دزفولی، ا. ح.، ع. کوچکی و م. بنایان اول (مترجمان). انتشارات جهاد دانشگاهی مشهد. مشهد، ایران. 287 ص.
  9. نظرلی، ح.، ر. سید شریفی، ع. ر. نعمتی و ا. وفایی. 1390. تأثیر باکترهای محرک رشد(PGPR) بر عملکرد و اجزای عملکرد ارقام مختلف جو در زراعت دیم. دوازدهمین کنگره علوم خاک ایران. 12 الی 14 شهریور. تبریز، ایران.
  10. Ajam Norouzi, H., F. Vazin and E. Salmani Biary. 2011. Evaluated the effect of physiological properties wheat cultivar to nitrogen sources. World Academy of Science, Engineering and Technology. 58: 170- 173.
  11. Bahrani, A., J. Pourreza and M. Hagh Joo. 2010. Response of winter wheat to co-inoculation with Azotobacter and Arbescular mycorrihzal fungi (AMF) under different sources of nitrogen fertilizer. Journal of Agricultural and Enviromental Science. 8(1): 95-103.
  12. Barbieri, P. and E. Galli. 1993. Effect on wheat root development of inoculation with an Azospirillum brasilence mutant with altered indole-3-acetic acid production. Research Microbiology. 144: 69-75.
  13. Bashan, Y., G. Holguim and L. E. De-Bashan. 2004. Azospirillum- plant relation: Physiological, molecular, agricultural and environmental advances. Canadian Journal of Microbiology. 50: 521-572.
  14. Biswas, J. C., J. K. Ladha and F. B. Dazzo. 2000a. Rhizobia inoculation improves nutrient uptake and growth of lowland rice. Soil Science Society of American Journal. 64: 1664-1650.
  15. Defreitas, R. J. and J. J. Germida. 1990. Plant growth promoting rhizobacteria for winter wheat. Canadian Journal of  36: 265-272.
  16. Defreitas, R. J. and J. J. Germadia. 1992. Growth promotion of winter wheat by fluorescent pseudomonads under growth chamber conditions. Soil Biology and Biochemistry.24: 1127-1135.
  17. Diaz- Zorita, M., M. V. Fernandez- Canigia. 2008. Field performance of a liquid formulation of Azospirillum brasilens on dryland wheat productivity. European Jounal of Soil Biology. 3:1-9.
  18. Dobbelaere, S., A. Croonenborghs. A. Thys, A. Ande Broek and J. Vanderleylen. 1999. Phytostimulatory effect of Azospirillum brasilens wild type and mutant strains altered in IAA production on wheat. Plant and Soil. 212: 155-164.
  19. Glick, B. R., C. B. Jacobson., M. M. K. Schwarze and J. J. Pasternak. 1994. 1-aminocycloprpane-1-carboxylic acid deaminase mutants of the plant growth promoting rhizobacterium Pseudomonas putida GR12-2 do not stimulate canola root elongation. Canadian Journal of Microbiology. 40: 911-915.
  20. Hofte, M., K. Y. Seong, E. Jurkevich and W. Verstrawte. 1991. Pyoverdin production by the plant growth beneficial Pseudomonas putida strain 7NSK2: Ecological significance in soil. Plant and Soil. 130: 249-257.
  21. Iswandi, A., P. Bossier, J. Vandenbeele and W. Vestaete. 1987. Effect of seed inoculation with the rhizopseudomonad strain 7NSK2 on root microbiota of maize (Zea mays) and barely. (Hordeum vulagere). Biology and Fertility of Soils. 3:153- 158.
  22. K., H. Asadi Rahmani and M. J. Malakouti (eds). 2005. Necessity for the production of biofertilizers in Iran. Ministry of Jihad-e-Agriculture, Agriculture Research and Education Organization (AREO) and Soil and Water Research Institute (SWRI), Tehran, Iran. pp: 419.
  23. Khalid, A., M. Arshad and A. Z. Zahir. 2004. Screening plant growth-promoting rhizobacteria for improving growth and yield of wheat. Journal of Applied Microbiology. 96: 473-480.
  24. Kloepper, J. W. and C. J. Beauchamp. 1992. A review of tissues related to measuring of plant roots by bacteria. Canadian Journal of Microbiology. 38: 1219- 1232.
  25. Kokalis- Burelle, N., J. W. Kloepper and M. S. Reddy. 2006. Plant growth promoting rhizobacteria as transplant amendment and their effects on indigeneous rhizosphere microorganisms. Applied Soil Ecology. 31: 91- 100.
  26. Kropp, B. R., E. Thomas, J. I. Pounder and A. J. Anderson. 1996. Increased emergence of spring wheat after inoculation with Pseudomonas chlororaphis isolate 2E3 under field and laboratory condition. Biology and Fertility of Soils. 23: 200-206.
  27. Midmore, D. J., P. M. Cartwright and R. A. Fischer. 1984. Wheat in tropical environments. II. Crop growth and grain yield. Field Crops Resaerch. 8: 207- 227.
  28. Omidi, H., H. Naghdi Badi,   Lakzad, H. Torabi and M. H. Fotokia. 2009. The effect of nitroxin biological and chemical fertilizer on quality and Quantity performance of saffron. Journal of  Medical Herbs. 1: 92-98.   
  29. Pereira, J. A., V. A. Cavalcarte, J. I. Baldani and J. Dobereiner. 1988. Field inoculation of sorghum and rice with Azospirillum spp. and Herbirillum seropedica. Plant and Soil. 110: 269- 274.
  30. Saubidet, M. I., N. Fatta, A. J. Barneix. 2002. The effect of inoculation with Azospirillum brasilens on growthj and nitrogen utilization by wheat plants. Plant and Soil. 254: 215- 222.
  31. A. V. and B. R. Christie. 2003. Beneficial microbial allelopathies in the root zone: the management of soil quality and plant disease with rhizobacteria. Soil and Tillage Resaerch. 72: 107- 123.
  32. Weller, D. M. and R. J. Cook. 1986. Increased growth of wheat by seed treatment with fluorescent pseudomonas and implication of Pythium Canadian Journal of Microbiology. 8: 328-334.
  33. Xia, l., X. Diang, G. Li. and R. Mei. 1990. Mechanism of PGPR. I. Influence on physiology, resistance, quality and yield of rapeseed. Agriculture, Science, Human 24-26.
  34. Zahir, Z. A., M. Arshad and W. T. Frankenberger. 2004. Plant growth promoting rhizobacteria: Application and Perspectives in Agriculture. Advances in 81: 97-168.
Iranian Journal of Soil Research
Volume 27, Issue 2
September 2013
Pages 159-168

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