Investigating of boron and zinc compound application on corn seed set in Mazandaran environment, Iran
Subject Areas : New Finding in AgricultureM. Ghadamgahi 1 , H. Madani 2 , Sh. Khaghani 3
1 - M. Sc. in Agronomy, Islamic Azad University, Arak Branch, Arak, Iran
2 - Department of Agronomy and Plant Breeding, Arak Branch, Islamic Azad University, Arak, Iran
3 - Department of Agronomy and Plant Breeding, Arak Branch, Islamic Azad University, Arak, Iran
Keywords: Zinc, Sunflower, phosphorus, Bacteria release phosphorus,
Abstract :
The experiments to evaluate the possibility of enriching sunflower seeds nuts on the farm by bacteria release phosphorus sulfat, In a randomized complete block design with three replications in a split plot, Arak Islamic Azad University Research Farm in 1390 was carried out. Factors include four levels of P (P1, P2, P3 and P4, respectively, 350 kg ammonium phosphate ha175 kg ammonium phosphate, ammonium phosphate and 175 kg P -2 reproductive biology, biological phosphorus fertilization -2) and four levels of zinc(Z1, Z2, Z3 and Z4, respectively, of zinc sulfate, zinc sulfate 25 kg ha sprayed on with a concentration of 10%, 25 kg ha sprayed zinc and zinc) were considered. Foliar application of zinc and phosphorus-releasing bacteria in the field, In the pre-flowering and 10 days after return again. The grain yield per hectare, biological yield, head diameter, harvest index, The grain yield per hectare, biological yield, head diameter, harvest index, The results showed that the highest yield of 50% ammonium phosphate ha treated with biological phosphorus fertilization -2 And application of zinc dust consumption of 78/5632kg ha treatments applied at 50% -2 Biological phosphorus fertilized with ammonium phosphate with zinc sulfate soil and foliar application of zinc Rate of 52/5493kg per hectare, respectively.
- رحیمی زاده، م.، کاشانی، ع.، زارع فیض آبادی، ا.، مدنی، ح. و سلطانی، ا. 1389.
2- عرشی، ی. 1373. علوم و تکنولوژی آفتابگردان ( تألیف جک. اف. کارتر). انتشارات اداره کل پنبه و دانه های روغنی ایران.
3- کاظمی،ش. ومردان، ر.1389. تأثیر کاربرد کود فسفر بر آفتابگردان روغنی رقم پروگرس در منطقه میانه. پنجمین همایش ملی ایده های نو در کشاورزی . تولید محصول زراعی ، باغی و دامی.
4- مدنی، ح.، ملبوبی، م. ع. و امیدی، م. 1384. کاربردباکتریهای آزاد کننده فسفر در زراعت لوبیا. اولین همایش ملی حبوبات.
5- مرادی، م.، مدنی، ح.، ملبوبی، م. ع. و پیله ور خمامی، ر. 1387. مقایسه کارایی فسفر بیولوژیک و شیمیایی در زراعت آفتابگردان روغنی در شرایط آب و هوایی اراک . یافته های نوین کشاورزی . سال سوم. شماره2. 178-168.
6- ملکوتی، م. ج. 1378: کشاورزی پایداروافزایش عملکرد با بهینه سازی مصرف کود در ایران . چاپ دوم. نشر آموزش کشاورزی.
7- معز اردلان، م. و ثواقبی فیروزآبادی، غ. ر. 1381 . مدیریت حاصلخیزی خاک برای کشاورزی پایدار. انتشارات دانشگاه تهران.
8- رحیمی، م. م.، مظاهری، د. و طهماسبی سروستانی، ز. 1383. تاثیر عناصر ریزمغذی های آهن و روی بر روی عملکرد و اجزا عملکرد کشت دوم دو رقم آفتابگردان در منطقه ارسنجان. پژوهش و سازندگی پاییز، 17،3 ،20-16.
9- Cakmak, I. 2006. Enrichment of fertilizers with zinc: An excellent investment for humanity and crop production in India. Journal of trace elements in medicine and biology 23, 281-289.
10- Cakmak, I., Yilmaz, A., Kalsyci, M., Ekin, H., Torun, B., Ereoglv, B., and Brown, H.J. 1996. Zinc deficiency as a critical problem in wheat production in central Anatolia. Plant and Soil. 180:165-172.
11- Ekin. Z. 2010. Performance of phosphate solubilizing bacteria for improving growth and yield of sunflower (Helianthus annuus L.) in the presence of phosphorus fertilizer. African Journal of Biotechnology Vol. 9(25), pp. 3794-3800.
12- Henriques, F.S. 2001. Loss of blade photosynthetic area and of chloroplasts photochemical capacity account for reduced co2 assimilation rates in zinc-deficient sugarbeet leaves. J. Plant Physiol. 158:915-919.
13- Jodie, N. H., Peter, B. and M. Martin. 2006. Laboratory tests can predict beneficial effects of phosphate solubilising bacteria on plants. Soil Biology and Biochemistry. 38: 1521-1526.
14- Khan, A.A., Jilani, G., Akhtar, M.S., Saqlan Naqvi, S.M., and Rasheed, M. 2009. Phosphorus Solubilizing Bacteria: Occurrence, Mechanisms and their Role in Crop Production. J. Agric. Biol. Sci.1(1):48-58.
15- Koliai1 A M, Akbari Gh, Akbari Gh, Armandpisheh O and Tarighaleslami M. 2012. Effect of Biological and Chemical phosphorus Fertilizers on yield components of maize (Zea mays L.) in different water stress conditions. Annals of Biological Research, 2012, 3 (8):4204-4208.
16- Madani, H., Bakhsh Kelarestaghi, K., Yarnia, M. and Bazoobandi, M. 2007. The Agronomical Aspects of Zinc Sulfate Application on Soybean in Iranian Condition “Gonbad region”. Congress Crop zinc 2007. Istambol. Turky.
17- Madani, H., Bakhsh Kelarestaghi, K., Yarnia, M. and Bazoobandi, M. 2007. The Agronomical Aspects of Zinc Sulfate Application on Soybean in Iranian Condition “Gonbad region”. Congress Crop zinc 2007. Istambol. Turky.
18- Marschner, H. 1993. Mineral Nutrition of Higher Plants, Academic Press, Boston, 889.
19- Rodriguez, H., and Fraga, R. 1999. Phosphate solubilizing bacteria and their role in plant growth promotion. Biotech. Adv. 17:319-339.
20- Sharma, P.N., Chatterjee, C., Sharma, C.P., and Nautiyal, N. 1990. Effect of zinc deficiency on the development and physiology of wheat pollen. J. Indian Bot. Soc. 58:330-334.
