گنجاندن حبوبات در سیستمهای زراعی برای مدیریت پایدار سیستمهای کشاورزی و کاهش نیاز به مصرف کود نیتروژن در تولید ذرت ضروری است. از اینرو آزمایشی با هدف بررسی تأثیر تراکمهای مختلف باقلا (20، 35، 40 و 80 بوته) در تناوب با ذرت علوفهای و کاربرد سطوح مختلف نیتروژن بر پایه اوره (صفر، 100، 200 و 300 کیلوگرم در هکتار) بر خصوصیات علوفه ذرت مورد ارزیابی قرار گرفت. همچنین یک سطح نکاشت از باقلا به منظور بررسی اثر تراکمهای بوته باقلا بر خصوصیات ذرت علوفهای در نظر گرفته شد. نتایج تجزیه مرکب نشان داد که تراکم باقلا بر عملکرد دانه، تعداد و وزن خشک گره در ریشه، وزن خشک ریشه، ارتفاع بوته، شاخص کلروفیل و شاخص باروری در باقلا معنیدار بود. بر اساس نتایج مقایسات میانگین تراکم 80 بوته باقلا با میانگین 5/376 گرم در مترمربع دارای بیشترین عملکرد دانه بود. بیشترین شاخص کلروفیل نیز در تراکم 80 بوته باقلا با میانگین 8/35 مشاهده شد و تراکم 80 و 40 بوته باقلا به ترتیب با میانگین 8/1676 و 1/1565 دارای بیشترین شاخص باروری بودند. اثر متقابل تراکم باقلا و کود نیتروژن بر تعداد برگ در بوته، ارتفاع بوته، شاخص کلروفیل، کارآیی جذب نیتروژن و عملکرد خشک علوفه در ذرت علوفهای معنیدار شد. بر اساس مقایسات میانگین، تراکم 40 بوته باقلا+200 کیلوگرم نیتروژن در هکتار دارای بیشترین عملکرد خشک علوفه ذرت (3/2 کیلوگرم در مترمربع)، بیشترین ارتفاع بوته (8/175 سانتیمتر) و بیشترین شاخص کلروفیل (2/46) بود. تراکم 35بوته باقلا+300 کیلوگرم نیتروژن در هکتار با میانگین 3/16 درصد نیز دارای بیشترین شاخص برداشت پروتئین در ذرت علوفهای بود. همچنین نتایج نشان داد که بیشترین میزان کارآیی جذب نیتروژن ذرت از تراکمهای 25، 35 و 40بوته باقلا در شرایط عدم مصرف کود بهدست آمد. بهطور کلی نتایج نشان داد که قرارگیری باقلا در تناوب به همراه استفاده از کود نیتروژن باعث بهبود عملکرد و صفات کمی در ذرت علوفهای شد.
Abbasi, M.K., Khaliq, A., Shafiq, M., Kazmi, M., and Imran, A. 2010. Comparatative effectiveness of urea N, poultry manure and their combination in changing soil properties and maize productivity under rainfed conditions in northeast Pakistan. Experimental Agriculture 46: 211-230.
Afzal, M., Ahmad, A., and Ahmad, A.U. H. 2012. Effect of nitrogen on growth and yield of sorghum forage under three cutting system. Cercetari Agronomice in Moldova 4(152): 57-64.
Afzalinia, S., and Zabihi, J. 2014. Soil compaction variation during corn growing season under conservation tillage. Soil and Tillage Research 137: 1-6.
Al-Suhaibani, N., El-Hendawy, S., and Schmidhalter, U. 2013. Influence of varied plant density on growth, yield and economic return of drip irrigated Faba bean (Vicia faba). Turkish Journal of Field Crops 18(2): 185-197.
Ansarinia, E. 2010. Effect of irrigation and nitrogen levels on yield and agronomical traits of sunflower. MSc. Thesis in Agriculture. Department of Agriculture, Azad University of Birjand, Iran. (in Persian).
Aulakh, M.S., Manchanda, J.S., Garg, A.K., Kumar, S., Dercon, G., and Nguyen, M. 2012. Crop production and nutrient use efficiency of conservation agriculture for soybean-wheat rotation in the Indo-Gangetic Plains of Northwestern India. Soil & Tillage Research 120: 50-
Berkenkamp, B., and Meeres, J. 1986. Faba bean as forage in the parklands of Alberta. Canadian Journal of Plant Science 66: 167-169.
Beslemes, D.F., Tigka, E.L., Efthimiadis, P., and Danalatos, N.G. 2013. Maize biomass production, N-use efficiency and potential bioethanol yield, under different cover cropping managements, nitrogen Influxes and soil types, in Mediterranean climate. Journal of Agriculture Science 5(7): 189-205.
Chen, Y., and Barak, Ph. 1982. Iron nutrition of plants in Calcareous s Advances in Agronomy 35: 217-240.
Chen, Z.M., Wang, Q., Wang, H.Y., Bao, L., and Zhou, J.M. 2018. Crop yields and soil organic carbon fractions as influenced by straw incorporation in a rice-wheat cropping system in southeastern China. Nutrient Cycling in Agroecosystems 112: 61-
Demari, G.H., Ca, I.R., Monteiro, C.J.B., and T Pedó, T. 2016. Importance of NITR. Journal of Current Research 8(08): 36629-36634.
Dolatmand Shahri, N., and Tahmasebi, I. 2017. Effect of nitrogen and plant density on photosynthetic capacity, yield components and seed yield of Corn cultivar ‘Mv500’ in summer p Journal of Crop Production and Processing 7(1): 87-99.
El-Gizawy, N.Kh.B. 2009. Effects of nitrogen rates and plant density on agronomic nitrogen use efficiency and maize yield following wheat and Faba bean. American-Eurasian Journal of Agriculture and Environ Science 5(3): 378-386.
Entz, M.H., Baron, V.S., Carr, P.M., Meyer, D.W., Smith, S.R., and McCaughey, W.P. 2002. Potential of forages to diversify cropping systems in the Northern Great Plains. Agronomy Journal 94: 240-
Etemadi, F., Hashemi, M., Zandvakili, O., and Sadeghpour, A. 2018. Nitrogen contribution from winter-killed faba bean cover crop to spring-sown sweet corn in conventional and no-till s Agronomy Journal 110(2): 455-462.
Gan, Y.T., Miller, P.R., Mc Conkey, B.G., Zentner, R.P., Liu, P.H., and McDonald, C.L. 2003. Optimum plant population density for chickpea and dry pea in a semiarid environment. Canadian Journal of Plant Science 83: 1-
Gezahegn, M.A. 2019. Review on effect of plant density and planting arrangement on faba bean production. World Journal of Agricultural Sciences 15(4): 261-268.
Ghazvineh, S., and Yousefi, M. 2012. Study the Effect of micronutrient application on yield and yield components of Maize. American-Eurasian Journal of Agricultural & Environmental Sciences 12(2): 144-
Guler, S., Hayriye Ibrikci, H., and Buyuk, G. 2006. Effects of different nitrogen rates on yield and leaf nutrient contents of drip-fertigated and greenhouse-grown cucumber. Asian Journal of Plant Science 5(4): 657-662.
Hamzei, J., Seyedi, M., and Babaei, M. 2015. Effect of density and nitrogen on seed quantity and quality of winter rapeseed in Hamedan conditions. Crop Production 8(1): 143-159. (in Persian).
Harries, E., Carmona, L., Muñoz, A., Ibeas, J.I., Read, N.D., Gandía, M., and Marcos, J.F. 2013. Genes involved in protein glycosylation determine the activity and cell internalization of the antifungal peptide PAF26 in Saccharomyces cerevisiae. Fungal Genetics and Biology 58: 105-115.
Hasanalideh, A.H., and Hojati, M. 2012. Enhancing yield and nitrogen use efficiency of Brassica Napus using an integrated fertilizer management. Advances in Environmental Biology 6(2): 641-647.
Hatfield, J.L., and Prueger, J.H. 2004. Nitrogen over-use, under-use, and efficiency. Crop Science 26: 156-168.
Huggins, D.R., and Pan, W.L. 1993. Nitrogen efficiency component analysis: an evaluation of cropping system differences in productivity. Agronomy Journal 85: 898-905.
Iqbal, M.S., Hafeez, M.N., Wattoo, J.I., Ali, A., Sharif, M.N., and Rashid, B. 2016. Prediction of host-derived miRNAs with the potential to target PVY in potato plants. Front Genetics 7:
Issaka, F., Zhang, Z., Zhao, Z.Q., Asenso, E., Li, J.H., and Li, Y.T. 2019. Sustainable conservation tillage improves soil nutrients and reduces nitrogen and phosphorous losses in maize farmland in Southern China. Sustainability 11: 2397.
Jensen, E.S., Peoples, M.B., and Hauggaard-Nielsen, H. 2010. Faba bean in cropping systems. Field Crop Research 115: 203-
Kebede, M., Sharma, J.J., Tana, T., and Nigatu, L. 2015. Effect of plant spacing and weeding frequency on weed infestation, yield components, and yield of common bean (Phaseolus vulgaris) in Eastern Ethiopia. East African Journal of Sciences 9: 1-14.
Khalghani, J., and Koocheki, A. 1996. Understanding the Basics of Crop Production (Ecophysiological Approach). Ferdowsi University of Mashhad Press. 369 p.
Khalil, S.K., Wahab, A., Rehman, A., Muhammad, F., Wahab, S., Khan, A.Z., Zubair, M., Shah, M.K., Khalil, I.H., and Amin, R. 2010. Density and planting date influence phenological development assimilate partitioning and dry matter production of faba bean. Pakistan Journal of Botany 42(6): 3831-3838.
Lamptey, S., Li, L., and Yeboah, S. 2018. Reduced tillage practices without crop retention improved soil aggregate stability and maize (Zea mays) yield. Ghana Journal of Horticulture 13(1): 50-69.
Lamptey, S., Yeboah, S., and Li, L. 2018. Response of maize forage yield and quality to nitrogen fertilization and harvest time in semi-arid Northwest China. Asian Journal of Research in Agriculture and Forestry 1: 1-10.
Liu, G.Z., Hou, P., Xie, R.Z., Ming, B., Wang, K.R., Xu, W.J., Liu, W.M., Yang, Y.S., and Li, S.K. 2017. Canopy characteristics of high-yield maize with yield potential of 22.5 Mg ha −1. Field Crops Research 213: 221-
Liu, S., Xing, , Westervelt, D.M., Liu, S., Ding, D., Fiore, A.M., Kinney, P.L., Zhang, Y., He, M.Z., Zhang, H., Sahu, S.K., Zhang, F., Zhao, B., and Wang, S. 2021. Role of emission controls in reducing the 2050 climate change penalty for PM2.5in China.Science Total Environment 765: 144338.
Lopez-Bellido, L., Lopez-Bellido, R.J., Castillo, J.E., and Lopez-Bellido, F.J. 2001. Effects of long-term tillage, crop rotation and nitrogen fertilization on bread-making quality of hard red spring wheat. Field Crops Research 72: 197-
Maadi, B., Fathi, G., Siadat, S.A., Alami Saeid, K., and Jafari. S. 2012. Effects of preceding crops and nitrogen rates on grain yield and yield components of wheat (Triticum aestivum). World Applied Sciences Journal 17(10): 1331-1336.
Mohamed, S.S.E., and Babiker, H.M. 2012. Effects of Rhizobium inoculation andurea fertilization on faba bean (Vicia faba) production in a semi-desert zone. Advances in Environmental Biology 6: 824-830.
Naderi, F., Siadat, S.A., and Rafiee, M. 2010. Effect of planting date and plant density on grain yield and yield components of two maize hybrids as second crop in Khorram Abad. Iranian Journal of Crop Sciences 12: 31-41. (in Persian with English abstract).
Ojiem, J.O., Franke, A.C., Vanlauwe, B., de Ridder, N., and Giller, K.E. 2014. Benefits of legume-maize rotations: assessing the impact of diversity on the productivity of smallholders in Western Kenya. Field Crop Research 168: 75-
Olojugba, M.R., and Ibiloye, J.O. 2019. Inter and active effect of tillage and nitrogen fertilizer on Maize (Zea mays) performance on a humid Alfisol Southwestern, Nigeria. Asian Journal Soil Science and Plant Nutrition 1-11.
Perry, L.J., and Compton, W.A. 1977. Serial measures of dry matter accumulation and forage quality of leaves, stalks and ear of three maize hybrids. Agronomy Journal 69: 751-
Prusiński, J. 2022. Effect of row spacing and plant density on the yield of Faba bean under very differentiated humidity c Journal of Agricultural Science 14(1): 1-10.
Sangoi, L., Ernani, P.R., and Da Silva, P.R.F. 2007. Maize response to nitrogen fertilization timing in two tillage systems in a soil with high organic matter content. Revista Brasileira de Ciência do Solo 31: 507-
Seyedi, M., Hamzei, J., Ahmadvand, G., and Abutalebian, M.A. 2012. The evaluation of weed suppression and crop production in barley-chickpea intercrops. Sustainable Agricultural and Production Science 22(3): 101-114. (in Persian with English abstract).
Shoaei, Sh., Rafiei, F., and Kashani, A. 2009. Effect of crop rotation and nitrogen fertilizer on N, P, K concentration and wheat yield. New Agricultural Science 5(17): 27-36. (in Persian with English abstract).
Siczek, A., and Lipiec, J. 2016. Impact of Faba bean-seed Rhizobial inoculation on microbial activity in the rhizosphere soil during growing s International Journal of Molecular Sciences 17: 784.
Singh, A.K., Bhatt, B.P., Sundaram, P.K., Gupta, A.K., and Singh, D. 2013. Planting geometry to optimize growth and productivity in faba bean (Vicia faba) and soil fertility. Journal of Environmental Biology 34(1): 117.
Tadayyon, M.R., and Ghorbaninejad, A.J. 2012. Effect of supplementary irrigation and compost application on morphological triats and yield of two chickpea (Cicer arietinum) cultivars. Iranian Journal of Pulses Research 3(2): 31-44. (in Persian with Enlish abstract).
Tariq Jan, M., Jamal Khan, M., Khani, A., Arifi, M., Shafi, M., and Farmanullah, H. 2010. Wheat nitrogen indices response to nitrogen source and application time. Pakistan Journal of Botany 42 (6): 4267-4279.
Tolera, A., Daba, F., and Friesen, D.K. 2009. Effects of crop rotation and N-P fertilizer rate on grain yield and related characteristics of Maize and soil fertility at Bako Western Oromia, Ethiopia. East African Journal of Science 3:70-79.
Uzoh, I.M., Arizechukwu Igwe, Ch., Okebalama, C.B., and Babalola, O.O. 2019. Legume-maize rotation effect on maize productivity and soil fertility parameters under selected agronomic practices in a sandy loam soil. Scientific Reports 9: 8539.
Vesterager, J.M., Nielsen, N.E., and Hogh-Jensen, H. 2007. Nitrogen budgets in a crop sequences with or without phosphorus fertilized cowpea in the maize based cropping 104 system of semi-arid eastern Africa. African Journal of Agricultural Research 2(6): 261-268.
Wasaya, A., Tahir, M., Yasir, T.A., Akram, M., Farooq, O., and Sarwar, N. 2018. Soil physical properties, nitrogen uptake and grain quality of maize (Zea mays) as affected by tillage systems and nitrogen application. Italian Journal of Agronomy 13(4): 324-331.
Xiao, K., Xu, J., Tang, C., Zhang, J., and Brookes, P.C. 2013. Differences in carbon and nitrogen mineralization in soils of differing initial pH induced by electro kinesis and receiving crop residue amendments. Soil Biology & Biochemistry 67: 70-84.
Yoseftabar, S., Fallah, A., and Daneshian, J. 2012. Effect of split application of nitrogen fertilizer on spad valuse in hybrid rice. International Journal of Agriculture and Crop Sciences 4: 647-651.
قربی, سمانه , عبادی, علی , خماری, سعید , & هاشمی, مسعود . (1401). استفاده از کود نیتروژن و تراکم بوته باقلا در تناوب به عنوان منابع تأمین نیتروژن در تولید پایدار ذرت علوفهای. پژوهشهای حبوبات ایران, 13(2), 121-138. doi: 10.22067/ijpr.v13i2.2202-1025
MLA
سمانه قربی; علی عبادی; سعید خماری; مسعود هاشمی. "استفاده از کود نیتروژن و تراکم بوته باقلا در تناوب به عنوان منابع تأمین نیتروژن در تولید پایدار ذرت علوفهای", پژوهشهای حبوبات ایران, 13, 2, 1401, 121-138. doi: 10.22067/ijpr.v13i2.2202-1025
HARVARD
قربی, سمانه, عبادی, علی, خماری, سعید, هاشمی, مسعود. (1401). 'استفاده از کود نیتروژن و تراکم بوته باقلا در تناوب به عنوان منابع تأمین نیتروژن در تولید پایدار ذرت علوفهای', پژوهشهای حبوبات ایران, 13(2), pp. 121-138. doi: 10.22067/ijpr.v13i2.2202-1025
CHICAGO
سمانه قربی , علی عبادی , سعید خماری و مسعود هاشمی, "استفاده از کود نیتروژن و تراکم بوته باقلا در تناوب به عنوان منابع تأمین نیتروژن در تولید پایدار ذرت علوفهای," پژوهشهای حبوبات ایران, 13 2 (1401): 121-138, doi: 10.22067/ijpr.v13i2.2202-1025
VANCOUVER
قربی, سمانه, عبادی, علی, خماری, سعید, هاشمی, مسعود. استفاده از کود نیتروژن و تراکم بوته باقلا در تناوب به عنوان منابع تأمین نیتروژن در تولید پایدار ذرت علوفهای. پژوهشهای حبوبات ایران, 1401; 13(2): 121-138. doi: 10.22067/ijpr.v13i2.2202-1025
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