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تاثیر نوع و روش مصرف کودهای حاوی روی برعملکرد، اجزای عملکرد برنج رقم هاشمی و مقدار روی قابلجذب خاک | ||
تحقیقات آب و خاک ایران | ||
دوره 52، شماره 9، آذر 1400، صفحه 2303-2316 اصل مقاله (992.5 K) | ||
نوع مقاله: مقاله پژوهشی | ||
شناسه دیجیتال (DOI): 10.22059/ijswr.2021.318115.668879 | ||
نویسنده | ||
شهرام محمود سلطانی* | ||
استادیار موسسه تحقیقات برنج کشور، سازمان تحقیقات، آموزش و ترویج کشاورزی، رشت، ایران | ||
چکیده | ||
کمبود روی پس از کمبود عناصر پرمصرف گستردهترین ناهنجاری تغذیهای در اراضی شالیزاری است. بهمنظور بررسی تاثیر نوع و روش مصرف کودهای روی بر عملکرد و اجزای عملکرد برنج رقم هاشمی و روی قابلجذب در خاکهای مختلف شالیزاری دچار کمبود روی، آزمایشی دو ساله و گلدانی در هوای آزاد بهصورت فاکتوریل در قالب طرح بلوکهای کامل تصادفی با سه تکرار در دو سال زراعی 1397 و 1398 در مؤسسه تحقیقات برنج کشور–رشت اجرا شد. عاملهای آزمایش شامل نوع کود روی در چهار سطح (سولفات روی، اکسید روی، Zn-EDTA و بدون مصرف کود روی)، روش مصرف کود در سه سطح (مصرف خاکی، محلولپاشی سه مرحلهای در حداکثر پنجهزنی، پیش از گلدهی و آغاز رسیدن دانه و غوطهوری ریشه در محلول 5/0 درصد حاوی روی) بودند. نتایج نشان داد که تمامی منابع کودی و روش مصرف در خاکهای مورد مطالعه بر بسیاری از صفات اندازهگیری شده مانند میزان روی قابلجذب خاک، ارتفاع بوته، طول خوشه، وزن هزاردانه، عملکرد دانه و عملکرد کاه و کلش تأثیر معنیدار داشتند. بیشترین مقدار افزایش روی قابلجذب خاک، ارتفاع بوته، تعدادکل پنجه، طول خوشه و عملکرد دانه و کاه رقم هاشمی بهترتیب 3 برابری، 50،10، 3/15، 80 و 68 درصدی ناشی از مصرف خاکی 20 کیلوگرم روی در هکتار از منبع سولفاتروی به ثبت رسید. بنابراین میتوان نتیجه گرفت در خاکهای شالیزاری با کمبود روی مصرف خاکی 20 کیلوگرم روی در هکتار از منبع سولفاتروی و سپس محلولپاشی سه مرحلهای میتواند سبب بهبود چشمگیر عمکرد دانه و کاه برنج رقم هاشمی شود. | ||
کلیدواژهها | ||
عناصر کممصرف؛ عملکرد؛ مصرفخاکی؛ محلولپاشی | ||
عنوان مقاله [English] | ||
Effect of Zinc Sources and Application Methods on Yield and Yield Component of Local Rice Variety (Hashemi), and Soil Available Zinc | ||
نویسندگان [English] | ||
Shahram MahmoudSoltani | ||
Assistant Professor of Rice Research Institute of Iran, Agricultural Research, Education and Extension Organization, Rasht, Iran | ||
چکیده [English] | ||
Zinc deficiency is the most widespread soil nutritional disorder of the paddy fields that its management is more complex due to its influence on soil properties, and therefore, requires knowledge of the proper application rates, fertilizer types, and application methods in various soil conditions. The current two-year outdoor pot experiment study was conducted to explain the effect of Zn fertilizers types and application methods on the morphological characters, yield, and yield component of the Hashemi rice variety. The three factors factorial experiment was conducted in a completely randomized block design with three replications at the rice research institute of Iran in 2018-2019. The experimental factors were: Zn fertilizer types (four levels), application methods (three levels), and Zn deficit paddy soils (four levels). The results indicated that all fertilizer types and application methods significantly influenced the measured plant and soil characters. The most effective treatments on soil available Zn, plant height, total tiller numbers, panicle length, grain yield was the soil application of 20 kg Zn ha-1 in the source of Zn Sulphate by around 8.6 times, 10, 50, 29.3 and 50%, respectively, and also for straw yield was the three stages Zn foliar application in the rate of 0.5% in the source of Zn Sulphate by about 50%. Thus, it can be concluded that despite the various soil characters of the studied paddy fields, the soil application of 20 kg Zn ha-1 followed by the three stages Zn foliar application at the rate of 0.5% both in the source of Zn Sulphate can enhance the rice grain and straw yield considerably. | ||
کلیدواژهها [English] | ||
Micronutrients, yield, soil broadcasting, foliar application | ||
مراجع | ||
Abilay Jr, W.P. and De Datta, S.K., 1978. Management practices for correcting zinc deficiency in transplanted and direct-seeded wetland rice. Philippine Journal of Crop Science, 3(3), pp.190-194. Ahmad, H.R., Aziz, T., Hussain, S., Akraam, M., Sabir, M. and Hanafi, M.M., 2012. Zinc-enriched farm yard manure improves grain yield and grain zinc concentration in rice grown on a saline-sodic soil. International journal of agriculture and biology, 14(5). Allagholipoor, M. (2016). Analysis of grain yield stability of new rice (Oryza sativa L.) genotypes originated from Iranian local cultivars. Iranain journal of crop science, 18(301), 289-294. Alloway, B. J. (2009). Soil factors associated with zinc deficiency in crops and humans. Environmental Geochemistry and Health, 31(5), 537-548. Aziz, T., Ullah, S., Sattar, A., Nasim, M., Farooq, M. and Khan, M.M., 2010. Nutrient availability and maize (Zea mays) growth in soil amended with organic manures. Int. J. Agric. Biol, 12(4), pp.621-624. Beebout, S.J., Tuyogon, D., Rubianes, F., Castillo, O., Larazo, W., Bunquin, M. and Laureles, E., 2010. Improved zinc management strategies for rice scientists and farmers. In Proceedings of 2010 International Annual Meetings of ASA-CSSA-SSSA, October (Vol. 31). Broadley, M. R., White, P. J., Hammond, J. P., Zelko, I., and Lux, A. 2007. Zinc in plants. New Phytol. 173, 677–702. Cakmak, I. (2008). Enrichment of cereal grains with zinc: agronomic or genetic bio-fortification? Plant and Soil, 302(1-2),1-17. Chakeralhosseini, M. R., Mohtashami, R., and Owliaie, H. R. (2009). Effects of rate, source, and method of zinc fertilizer application on quantitative and qualitative characteristics of rice (Choram 1). Journal of Research in Agricultural Science, 5 (1), 33-43. (In Farsi). Dobermann, A., Cassman, K. G., Mamaril, C. P., Sheehy, J. E. (1998). Management of phosphorus, potassium, and sulfur in intensive, irrigated lowland rice. Field Crop Research, 56, 113–138. Fageria, N. K., Moreira, A. and Coelho, A. M. (2011). Yield and yield components of upland rice as influenced by nitrogen sources. Journal of Plant nutrition, 34(3), 361-370. FAO. (2018). Rice market monitor. Vol. XVI, Trade and Markets Division. Rome. Gao, X., Hoffland, E., Stomph, T., Grant, C.A., Zou, C. and Zhang, F., 2012. Improving zinc bioavailability in transition from flooded to aerobic rice. A review. Agronomy for sustainable development, 32(2), pp.465-478. Graham, R., Senadhira, D., Beebe, S., Iglesias, C. and Monasterio, I., 1999. Breeding for micronutrient density in edible portions of staple food crops: conventional approaches. Field crops research, 60(1-2), pp.57-80. Gupta, N., Ram, H. and Kumar, B., 2016. Mechanism of Zinc absorption in plants: uptake, transport, translocation and accumulation. Reviews in Environmental Science and Bio/Technology, 15(1), pp.89-109. Hafeezullah, B., 2010. Evaluation of Malaysian rice genotypes for adaptability in zinc deficient soil (Doctoral dissertation, Universiti Putra Malaysia). Hoseinzadeh, H., Mahdavi Damghani, A., and Delkhosh, B. (2012). The effects of zinc sulphate foliar application on yield and yield components of rice (Shiroodi Cultivar). The Journal of New Findings of Agriculture, 7(1), 47-55.(In Farsi). Hussain, S., Maqsood, M. A., Rengel, Z. and Aziz, T. (2012). Biofortification and estimated human bioavailability of zinc in wheat grains as influenced by methods of zinc application. Plant and Soil, 361(1-2), 279-290. Javaherdashti, M., and Esfehani, M. 2002. Upland rice. Agricultural Science Publication. 128 page. Jiang, W., Struik, P. C., Lingna, J., Van Keulen, H., Ming, Z. and Stomph, T. J. (2007). Uptake and distribution of root-applied or foliar-applied 65Zn after flowering in aerobic rice. Annals of Applied Biology, 150(3), 383-391. Johnson, S.E., Lauren, J.G., Welch, R.M. and Duxbury, J.M., 2005. A comparison of the effects of micronutrient seed priming and soil fertilization on the mineral nutrition of chickpea (Cicer arietinum), lentil (Lens culinaris), rice (Oryza sativa) and wheat (Triticum aestivum) in Nepal. Joshi, G. and Pandy, S. (2005). Effects of farmers’ perception on the adoption of modern rice varieties in NEPAL. International Conference on Agricultural Research for Development. Karak, T. and Das, D., 2006, July. Effect of foliar application of different sources of Zn application on the changes in Zn content, uptake and yield of rice (Oryza sativa L.). In 18th world congress of soil science. Khampuang, K., Lordkaew, S., Dell, B. and Prom-u-thai, C. (2020). Foliar zinc application improved grain zinc accumulation and bioavailable zinc in unpolished and polished rice. Plant Production Science, 1-9. Khan, M. U., Qasim, M. and Jamil, M. (2003). Effect of different levels of zinc on the extractable zinc content of soil and chemical composition of rice. Asian Journal of Plant Sciences. Khoshgoftarmanesh, A.H., Sadrarhami, A., Sharifi, H. R., Afiuni, D. and Schulin, R. (2009). Selecting zinc-efficient wheat genotypes with high grain yield using a stress tolerance index. Agronomy Journal, 101(6), 1409-1416. Kulhare, P.S., Tagore, G. S. and Sharma, G. D. (2017). Effect of foliar spray and sources of zinc on yield, zinc content and uptake by rice grown in a Vertisols of central India. International Journal of Chemical Studies, 5(2), 35-38. Kumar, D., Kumar, R., Singh, P. and Kumar, P. (2017). Effect of different zinc management practices on growth, yield, protein content, nutrient uptake and economics on rice under partially reclaimed saltaffected soil. Journal of Pharmacognosy and Phytochemistry 6(5), 638-640 Kumar, R., Kumar, M., Yadav, S. and Kumar, R. (2020). Effect of Sources and Methods of Zinc Application on Productivity, Nutrient Uptake and Zinc Use Efficiency of Basmati rice (Oryza sativa L.). International Journal of Current Microbiology and Applied Sciences, 9(1), 2231-2242. Kumari, P., Singh, A.K., Dewangan, P. K., Pankaj, S. C. and Lakra, A. K. (2017). Effect of foliar application of nutrients on soybean. Journal of Plant Development Sciences, 9(3), 261-264. Lindsay, W.L., 1972. Inorganic phase equilibria of micronutrients in soils. Micronutrients in agriculture, pp.41-57. Lombi, E., Smith, E., Hansen, T.H., Paterson, D., De Jonge, M.D., Howard, D.L., Persson, D.P., Husted, S., Ryan, C. and Schjoerring, J.K., 2011. Megapixel imaging of (micro) nutrients in mature barley grains. Journal of experimental botany, 62(1), pp.273-282. Mahmoudi, M., Malakooti, M. J., and Ramezanpour, M. (2004). A study on the effects of zinc sulphate on two varieties of rice in the east of Mazandaran province. Journal Of Science And Technology Of Agriculture And Natural Resources,11(2), 55-63. Mahmoudoltani, S. (2019). Quantitative and qualitative improvement of rice grain in paddy field through macro and micronutrient management strategies (focus on phosphorus and zinc). Final project report. Rice research institute of Iran. Rasht. Iran. Mahmoudsoltani S, Mohamed, M.H., Samsuri, A., Syed, M. and Sharifah, K. (2017). Lime and Zn application effects on soil and plant Zn status at different growth stages of rice in tropical acid sulphate paddy soil. Azarian Journal of Agriculture, 4(4), 127-138. Mahmoudsoltani, S. (2020b). Zn biofortification, grain protein content, and zinc and phosphorus content of rice tissues at different growth stages affected by zinc and phosphorus foliar application. Iran J Soil Water Res. (Accepted). Mahmoudsoltani, S. 2018. Zinc deficiency, causes, symptoms and solutions. Technical Bulletin. Rice research institute of Iran.31p. Mahmoudsoltani, S., Allahgholipoor,M., Shakoori, M. and Poursafar tabalvandani, A. (2020a). Effect of basal and foliar application of zinc sulphate fertilizer on zinc uptake, yield and yield components of rice (Hashemi cultivar). Iranian Journal of Soil and Water Researches. (in press)(in Persian with English abstract). Mahmoudsoltani, S., Hanafi, M. M., Samsuri, A. W., Muhammed, S. K. S. and Hakim, M. A. (2016). Rice growth improvement and grains bio-fortification through lime and zinc application in zinc deficit tropical acid sulphate soils. Chemical Speciation & Bioavailability, 28(1-4), 152-162. Mahmoudsoltani, S., Mohamed, M. H., Abdul, W. S. and Sharifah, K. (2017). Lime and Zn interactions effects on yield, yield component, and quality of rice in Zn deficit tropical paddy soil. Azarian Journal of Agriculture, 4(5), 185-192. Malakooti, M. J. and Tehrani, M. M. (1993). The Role of Micro Nutrients in Crop Yield and Quality Improvement (Micro-elements with Grand Effect). Tarbiat Modares University, Tehran (In Persian). Malakooti, M. J., and Kavoosi, M. (2004). Balance nutrition of rice. SANA publication press. Tehran, Iran.p 610. Mandal, B., Hazra, G.C. and Mandal, L.N., 2000. Soil management influences on zinc desorption for rice and maize nutrition. Soil Science Society of America Journal, 64(5), pp.1699-1705. Matsuzaki, T., (2001). Control method of the pecky rice bugs in Toyama Prefecture. Plant Prot, (55), 451-454. Naik, S.K. and Das, D.K., 2007. Effect of lime, humic acid and moisture regime on the availability of zinc in alfisol. TheScientificWorldJOURNAL, 7, pp.1198-1206. Phattarakul, N., Mongon, J. and Rerkasem, B., 2011, October. Variation in rice grain zinc and their response to zinc fertilizer. In 3rd international zinc symposium (pp. 10-14). Quijano-Guerta, C., Kirk, G.J.D., Portugal, A.M., Bartolome, V.I. and McLaren, G.C., 2002. Tolerance of rice germplasm to zinc deficiency. Field Crops Research, 76(2-3), pp.123-130. Rahman, K. M., Chowdhury, M. A. K., Sharmeen, F., Sarkar, A., Hye, M.A., Biswas, G.C. and Sarkar, A. (2011). Effect of zinc and phosphorus on yield of Oryza sativa (cv. br-11). Bangladesh Res. Pub. J, 5(4), 315-358. Rashid, A., Ashraf, M. and Yasin, M., 2002. Zinc enrichment of the mat-type rice nursery. International Rice Research Notes. Rehman, H. U., Aziz, T., Farooq, M., Wakeel, A. and Rengel, Z. (2012). Zinc nutrition in rice production systems: a review. Plant and Soil, 361(1-2), 203-226. Shivay, Y. S., Prasad, R. and Rahal, A. (2010). Genotypic variation for productivity, zinc utilization efficiencies, and kernel quality in aromatic rice under low available zinc conditions. Journal of Plant Nutrition, 33, 1835-1848 Shivay, Y.S., Kumar, D. and Prasad, R., 2008. Effect of zinc-enriched urea on productivity, zinc uptake and efficiency of an aromatic rice–wheat cropping system. Nutrient Cycling in Agroecosystems, 81(3), pp.229-243. Shivay, Y.S., Prasad, R. and Rahal, A., 2010. Genotypic variation for productivity, zinc utilization efficiencies, and kernel quality in aromatic rices under low available zinc conditions. Journal of Plant nutrition, 33(12), pp.1835-1848. Shivay, Y.S., Prasad, R., Singh, R.K. and Pal, M., 2015. Relative efficiency of zinc-coated urea and soil and foliar application of zinc sulphate on yield, nitrogen, phosphorus, potassium, zinc and iron biofortification in grains and uptake by basmati rice (Oryza sativa L.). Journal of Agricultural Science, 7(2), p.161. Singh, A. K. Singh, N. P., Nongkyarih, P. (2014). Response of rice to Zn in the soils of Meghalaya. Fertilizer News, 47(8), 53-54 Slaton, N.A., Norman, R.J. and Wilson Jr, C.E., 2005. Effect of Zinc Source and Application Time on Zinc Uptake and Grain Yield of Flood‐Irrigated Rice. Agronomy Journal, 97(1), pp.272-278. Slaton, N.A., Wilson, C.E., Ntamatungiro, S., Norman, R.J. and Boothe, D.L., 2001. Evaluation of zinc seed treatments for rice. Agronomy Journal, 93(1), pp.152-157. Stomph, T.J., Hoebe, N., Spaans, E. and Van der Putten, P.E.L., 2011, October. The relative contribution of post-flowering uptake of zinc to rice grain zinc density. In 3rd International Zinc Symposium (pp. 10-14). Tonini, A. and Cabrera, E. (2011). Opportunities for global rice research in a changing world (No. 2215-2019-1630). Uphoff, N. (2005). The development of the System of Rice Intensification. Participatory research and development for sustainable agriculture and rural development, 3, 119-125. Wijebandara, D. M. D. I., Dasog, G. S., Patil, P. L., and Hebbar, M. (2009). Effect of nutrient levels and biofertilizer on growth and yield of paddy under System of Rice Intensification (SRI) and conventional methods of cultivation. Tropical Agricultural Research, 20, 343-353. Yousefi, M. and Zandi, P. (2012). Effect of foliar application of zinc and manganese on yield of pumpkin (Cucurbita pepo L.) under two irrigation patterns. Electronic Journal of Polish Agricultural Universities. Series Agronomy, 15(4), 1-9. Zhu, C., Gao, X., Shi, R., Fan, X. and Zhang, F. (2008). Micronutrient deficiencies in crop production in China. In Micronutrient deficiencies in global crop production (pp. 127-148). Springer, Dordrecht. Zulfigar, U., Hussain, S., Maqsood, M., Ishfaq, M., & Ali, N.(2020). Zinc nutrition in puddled transplanted and direct seeded production systems to enhance productivity, zinc use efficiency and grain biofortification of fine aromatic rice. Crop Science.
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