Research Article
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Year 2022, , 10 - 16, 20.06.2022
https://doi.org/10.17557/tjfc.987034

Abstract

References

  • Adeleke, M.A. and I.M. Haruna. 2012. Residual nitrogen contributions from grain legumes to the growth and development of succeeding maize crop. International Scholarly Research Network ISRN Agronomy. 1-5.
  • Aldasoro, J., E. Larrainzar and C. Arrese-Igor. 2019. Application of anti-transpirants temporarily alleviates the inhibition of symbiotic nitrogen fixation in drought-stressed pea plants. Agricultural Water Management, 213: 193-199.
  • Amusan, A.O., M.T.Adetunji, J.O. Azeez, and J.G. Bodunde. 2011. Effect of integrated use of legume residue, poultry manure and inorganic fertilizers on maize yield, nutrient uptake and soil properties. Nutrient cycling in Agro Ecosystems. 90(3): 321-330.
  • Anonymous 2020 Turkish State Meteorological Service (TSMS)
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  • Bertolino, A.V., N.F. Fernandes, J.P. Miranda, A.P. Souza, M.R. Lopes and F. Palmieri. 2010. Effects of plough pan development on surface hydrology and on soil physical properties in Southeastern Bra-zilian plateau. Journal of Hydrology. 393(1–2): 94–104.
  • Briones, M.J.I. and O. Schmidt. 2017. Conventional tillage decreases the abundance and biomass of earth-worms and alters their community structure in a global meta-analysis. Global Change Biology. 23(10): 4396–4419.
  • Busari, M.A., S.S. Kukal, A. Kaur, R. Bhatt and A.A. Dulazi. 2015. Conservation tillage impacts on soil, crop and the environment. International Soil and Water Conservation Research, 3(2): 119-129.
  • Carranca, C. 2013. Legumes: Properties and symbiosis. Symbiosis: Evolution, Biology and Ecological Effects (Eds Camisão, AH y Pedroso, CC). Nova Science Publishers, New York, 67-94.
  • Carter, M.R. 2017. Conservation tillage in temperate agroecosystems. CRC Press.400 p. eBook ISBN 9781315150529
  • Cuttle, S., M. Shepherd and G. Goodlass. 2003. A review of leguminous fertility-building crops, with particular reference to nitrogen fixation and utilisation. Department for Environment, Food and Rural Affairs (Defra) Project Report OF0316: The development of improved guidance on the use of fertility-building crops in organic farming Defra, London.
  • DeLaune, P.B., P. Mubvumba, S. Ale, and E. Kimura. 2020. Impact of no-till, cover crop, and irrigation on Cotton yield. Agricultural Water Management, 232: 106038.
  • Deuschle, D., J.P. Minella, T. de AN Hörbe, A.L. Londero and F.J. Schneider. 2019. Erosion and hydrological response in no-tillage subjected to crop rotation intensification in southern Brazil. Geoderma, 340: 157-163.
  • Dhanushkodi, R., C. Matthew, M.T. McManus, and P.P. Dijkwel. 2018. Drought‐induced senescence of Medicago truncatula nodules involves serpin and ferritin to control proteolytic activity and iron levels. New Phytologist, 220(1): 196-208.
  • Dwivedi, A., I. Dev, V. Kumar, R.S. Yadav, M. Yadav, D. Gupta, A. Singh and S.S. Tomar 2015. Potential role of maize-legume intercropping systems to improve soil fertility status under smallholder farming systems for sustainable agriculture in India. International Journal of Life Sciences Biotechnology and Pharma Research, 4(3): 145-157.
  • Enrico, J.M., C.F. Piccinetti, M.R. Barraco, M.B. Agosti, R.P. Eclesia and F. Salvagiotti 2020. Biological nitrogen fixation in field pea and vetch: Response to inoculation and residual effect on maize in the Pampean region. European Journal of Agronomy, 115: 126016.
  • Fikry, I., M. Gheith and A. Eltawil. 2019. A new mathematical model for the deterministic crop rotation planning problem. In 2019 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM) (pp. 314-318).
  • Fillery I.R.P. 2001. The fate of biologically fixed nitrogen in legume-based dryland farming systems: a review. Australian Journal of Experimental Agriculture 41: 361-381.
  • Guo, L., X. Wang, S. Wang, D. Tan, H. Han, T. Ning and Q. Li. 2019. Tillage and irrigation effects on carbon emissions and water use of summer maize in North China Plains. Agricultural Water Management. 223: 105729.
  • Gül, İ., M. Yıldırım, C. Akıncı, İ. Doran and H. Kılıç. 2008. Response of silage maize (Zea mays L.) to nitrogen fertilizer after different crops in a Semi Arid Environment. Turkish Journal of Agriculture and Forestry. 32: 513-520.
  • Haruna, S.I. and N.V. Nkongolo. 2019. Tillage, cover crop and crop rotation effects on selected soil chemical properties. Sustainability. 11(10): 2770.
  • Hayat, R., S. Ali, M.T. Siddique and T.H. Chatha. 2008. Biological nitrogen fixation of summer legumes and their residual effects on subsequent rainfed wheat yield. Pakistan Journal of Botany. 40(2): 711-722.
  • Kalkan, F., and S. Avcı. 2020. Effects of applying nitrogen on yield of silage maize grown after forage legumes. Kahramanmaras Sutcu Imam University Journal of Agriculture and Nature. 23(2): 336-342.
  • Kavut, Y.T. and H. Geren. 2015. The effects of different previous crop and sowing date on the yield and some quality characteristics of silage corn (Zea mays L.). Turkish Journal of Agricultural and Natural Sciences. 2(2): 163-170.
  • Kirkby C.A, A.E. Richardson, L.J. Wade, J.B. Passioura, G.D. Batten, C. Blanchard and J.A. Kirkegaard. 2014. Nutrient availability limits carbon sequestration in arable soils. Soil Biology and Biochemistry. 68: 402-409.
  • Kool, D., B. Tong, Z. Tian, J.L. Heitman, T.J. Sauer and R. Horton. 2019. Soil water retention and hydraulic conductivity dynamics following tillage. Soil and Tillage Research. 193: 95-100.
  • Kramberger, B., A. Gselman, M. Janzekovic, M. Kaligaric and B. Bracko. 2009. Effects of cover crops on soil mineral nitrogen and on the yield and nitrogen content of maize. European Journal of Agronomy. 31(2): 103-109.
  • Krauss, M., A. Berner, D. Burger, A. Wiemken, U. Niggli and P. Mäder. 2010. Reduced tillage in temperate organic farming: implications for crop management and forage production. Soil Use and Management. 26(1): 12-20.
  • Liu, Z., F.Y. Ma, T.X. Hu, K.G. Zhao, T.P. Gao, H.X. Zhao and T.Y. Ning 2020. Using stable isotopes to quantify water uptake from different soil layers and water use efficiency of wheat under long-term tillage and straw return practices. Agricultural Water Management. 229: 105933.
  • Loomis, G., B. Dari, C.W. Rogers, and D. Sihi. 2020. Evaluation of residue management practices on barley residue decomposition. PloS One, 15(5): e0232896.1-16
  • Lupwayi, N.Z., A.C. Kennedy and R.M. Chirwa. 2011. Grain legume impacts on soil biological processes in sub-Saharan Africa. African Journal of Plant Science. 5(1): 1-7.
  • Lynch, M.J., M.J. Mulvaney, S.C. Hodges, T.L. Thompson and W.E. Thomason. 2016. Decomposition, nitrogen and carbon mineralization from food and cover crop residues in the central plateau of Haiti. Springerplus, 5(1): 1-9.
  • Malasli, M.Z., A. Khatami and A. Celik. 2017. The effects of different plant densities and silage corn varieties on silage yield and some yield parameters in no-till seeding. Turkish Journal of Agriculture and Forestry. 41(6): 490-499.
  • Miheguli, R., J.J. Schoenau and P.G. Jefferson. 2018. Yield and uptake of phosphorus by wheat and canola grown after two years of forage legume and annual crops. American Journal of Plant Sciences. 9(9): 1807-1825.
  • Musa, J.J., O.E. Akpoebidimiyen, J.K. Adewumi, P.C. Eze, R. Adesiji and Y.U. Gupa. 2020. Influence of soil bulk density and porosity on soil hydraulic conductivities for selected land management practice in North-central Nigeria. International Journal of Agricultural and Environmental Sciences. 5(1): 1-7.
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  • Oliveira, M., C. Castro, J. Coutinho and H. Trindade. 2019. N supply and pre-cropping benefits to triticale from three legumes in rainfed and irrigated Mediterranean crop rotations. Field Crops Research. 237: 32-42.
  • Özyazıcı, M.A. and İ. Manga. 2000. The effects of some leguminous forage crops used as green manure and plant residues onyield and quality of maize and sunflower under irrigated conditions of Çarşamba Plain. Turkish Journal of Agriculture and Forestry 24: 95-103.
  • Palm, C.A, C.N. Gachengo, R.J. Delve, G. Cadisch and K.E. Giller. 2001. Organic inputs for soil fertility management in tropical agroecosystems: application of an organic resource database. Agriculture, Ecosystems and Environment. 83: 27-42.
  • Pan, J., Z. Bai, Y. Cao, W. Zhou and J. Wang, 2017. Influence of soil physical properties and vegetation coverage at different slope aspects in a reclaimed dump. Environmental Science and Pollution Research, 24(30): 23953-23965.
  • Pandey, A., F. Li, M. Askegaard and J.E. Olesen. 2017. Biological nitrogen fixation in three long-term organic and conventional arable crop rotation experiments in Denmark. European Journal of Agronomy. 90: 87-95.
  • Perrone, S., J. Grossman, A. Liebman, T. Sooksa-nguan and J. Gutknecht. 2020. Nitrogen fixation and productivity of winter annual legume cover crops in Upper Midwest organic cropping systems. Nutrient Cycling in Agroecosystems. 117(1): 61-76.
  • Priya, K.C., I. Mani and R.A. Parray. 2019. Long term effect of different tillage systems on soil physical properties and yield of wheat. Journal of Pharmacognosy and Phytochemistry, 8(2): 2182-2185.
  • Rajkumara, S., S.S. Gundlur, J.K. Neelakanth and P. Ashoka. 2014. Impact of irrigation and crop residue management on maize (Zea mays)–chickpea (Cicer arietinum) sequence under no tillage conditions. Indian Journal of Agricultural Sciences. 84(1): 43-48.
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THE INFLUENCE OF PRE-PLANT TREATMENTS ON SILAGE MAIZE (Zea mays L.) YIELD IN NO-TILLAGE SYSTEM

Year 2022, , 10 - 16, 20.06.2022
https://doi.org/10.17557/tjfc.987034

Abstract

No-tillage agricultural practices and pre-plant applications in agricultural systems have become quite common
in recent years. In this study, the effect was examined of pre-plant applications on agronomic characteristics
and yield in silage maize cultivation under no-tillage conditions. Plants of the forage legumes (common vetch,
narbon vetch and fodder pea) and cereals (barley, triticale and annual ryegrass) were used as pre-plants
materials and the values of plant height, green herbage yield, dry matter ratio, dry matter yield, leaf/stem
ratio, peak tasselling time and core tasselling time were determined in silage maize. The data obtained
demonstrated, that the green herbage yield and dry matter yield of maize was higher when the forage legume
plants were used as pre-plants. Among the legumes, common vetch increased maize green herbage yield and
dry matter yield more than other plants. On contrast, plants of the in cereals family caused a decrease in the
maize yield. It was concluded that legume plants should be selected as pre-plant in no-tillage silage maize
cultivation. Good results were obtained especially from common vetch, and the use of cereals as pre-plant had
a negative effect on the maize for silage grown subsequently. 

References

  • Adeleke, M.A. and I.M. Haruna. 2012. Residual nitrogen contributions from grain legumes to the growth and development of succeeding maize crop. International Scholarly Research Network ISRN Agronomy. 1-5.
  • Aldasoro, J., E. Larrainzar and C. Arrese-Igor. 2019. Application of anti-transpirants temporarily alleviates the inhibition of symbiotic nitrogen fixation in drought-stressed pea plants. Agricultural Water Management, 213: 193-199.
  • Amusan, A.O., M.T.Adetunji, J.O. Azeez, and J.G. Bodunde. 2011. Effect of integrated use of legume residue, poultry manure and inorganic fertilizers on maize yield, nutrient uptake and soil properties. Nutrient cycling in Agro Ecosystems. 90(3): 321-330.
  • Anonymous 2020 Turkish State Meteorological Service (TSMS)
  • Arif, M., M.T. Jan, M.J. Khan, M. Saeed, I. Munir, Z.U. Din, H. Akbar, Shahensha and M.Z. Khan. 2011. Effect of cropping system and residue management on maize.Pakistan Journal of Botany 43(2): 915-920.
  • Bertolino, A.V., N.F. Fernandes, J.P. Miranda, A.P. Souza, M.R. Lopes and F. Palmieri. 2010. Effects of plough pan development on surface hydrology and on soil physical properties in Southeastern Bra-zilian plateau. Journal of Hydrology. 393(1–2): 94–104.
  • Briones, M.J.I. and O. Schmidt. 2017. Conventional tillage decreases the abundance and biomass of earth-worms and alters their community structure in a global meta-analysis. Global Change Biology. 23(10): 4396–4419.
  • Busari, M.A., S.S. Kukal, A. Kaur, R. Bhatt and A.A. Dulazi. 2015. Conservation tillage impacts on soil, crop and the environment. International Soil and Water Conservation Research, 3(2): 119-129.
  • Carranca, C. 2013. Legumes: Properties and symbiosis. Symbiosis: Evolution, Biology and Ecological Effects (Eds Camisão, AH y Pedroso, CC). Nova Science Publishers, New York, 67-94.
  • Carter, M.R. 2017. Conservation tillage in temperate agroecosystems. CRC Press.400 p. eBook ISBN 9781315150529
  • Cuttle, S., M. Shepherd and G. Goodlass. 2003. A review of leguminous fertility-building crops, with particular reference to nitrogen fixation and utilisation. Department for Environment, Food and Rural Affairs (Defra) Project Report OF0316: The development of improved guidance on the use of fertility-building crops in organic farming Defra, London.
  • DeLaune, P.B., P. Mubvumba, S. Ale, and E. Kimura. 2020. Impact of no-till, cover crop, and irrigation on Cotton yield. Agricultural Water Management, 232: 106038.
  • Deuschle, D., J.P. Minella, T. de AN Hörbe, A.L. Londero and F.J. Schneider. 2019. Erosion and hydrological response in no-tillage subjected to crop rotation intensification in southern Brazil. Geoderma, 340: 157-163.
  • Dhanushkodi, R., C. Matthew, M.T. McManus, and P.P. Dijkwel. 2018. Drought‐induced senescence of Medicago truncatula nodules involves serpin and ferritin to control proteolytic activity and iron levels. New Phytologist, 220(1): 196-208.
  • Dwivedi, A., I. Dev, V. Kumar, R.S. Yadav, M. Yadav, D. Gupta, A. Singh and S.S. Tomar 2015. Potential role of maize-legume intercropping systems to improve soil fertility status under smallholder farming systems for sustainable agriculture in India. International Journal of Life Sciences Biotechnology and Pharma Research, 4(3): 145-157.
  • Enrico, J.M., C.F. Piccinetti, M.R. Barraco, M.B. Agosti, R.P. Eclesia and F. Salvagiotti 2020. Biological nitrogen fixation in field pea and vetch: Response to inoculation and residual effect on maize in the Pampean region. European Journal of Agronomy, 115: 126016.
  • Fikry, I., M. Gheith and A. Eltawil. 2019. A new mathematical model for the deterministic crop rotation planning problem. In 2019 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM) (pp. 314-318).
  • Fillery I.R.P. 2001. The fate of biologically fixed nitrogen in legume-based dryland farming systems: a review. Australian Journal of Experimental Agriculture 41: 361-381.
  • Guo, L., X. Wang, S. Wang, D. Tan, H. Han, T. Ning and Q. Li. 2019. Tillage and irrigation effects on carbon emissions and water use of summer maize in North China Plains. Agricultural Water Management. 223: 105729.
  • Gül, İ., M. Yıldırım, C. Akıncı, İ. Doran and H. Kılıç. 2008. Response of silage maize (Zea mays L.) to nitrogen fertilizer after different crops in a Semi Arid Environment. Turkish Journal of Agriculture and Forestry. 32: 513-520.
  • Haruna, S.I. and N.V. Nkongolo. 2019. Tillage, cover crop and crop rotation effects on selected soil chemical properties. Sustainability. 11(10): 2770.
  • Hayat, R., S. Ali, M.T. Siddique and T.H. Chatha. 2008. Biological nitrogen fixation of summer legumes and their residual effects on subsequent rainfed wheat yield. Pakistan Journal of Botany. 40(2): 711-722.
  • Kalkan, F., and S. Avcı. 2020. Effects of applying nitrogen on yield of silage maize grown after forage legumes. Kahramanmaras Sutcu Imam University Journal of Agriculture and Nature. 23(2): 336-342.
  • Kavut, Y.T. and H. Geren. 2015. The effects of different previous crop and sowing date on the yield and some quality characteristics of silage corn (Zea mays L.). Turkish Journal of Agricultural and Natural Sciences. 2(2): 163-170.
  • Kirkby C.A, A.E. Richardson, L.J. Wade, J.B. Passioura, G.D. Batten, C. Blanchard and J.A. Kirkegaard. 2014. Nutrient availability limits carbon sequestration in arable soils. Soil Biology and Biochemistry. 68: 402-409.
  • Kool, D., B. Tong, Z. Tian, J.L. Heitman, T.J. Sauer and R. Horton. 2019. Soil water retention and hydraulic conductivity dynamics following tillage. Soil and Tillage Research. 193: 95-100.
  • Kramberger, B., A. Gselman, M. Janzekovic, M. Kaligaric and B. Bracko. 2009. Effects of cover crops on soil mineral nitrogen and on the yield and nitrogen content of maize. European Journal of Agronomy. 31(2): 103-109.
  • Krauss, M., A. Berner, D. Burger, A. Wiemken, U. Niggli and P. Mäder. 2010. Reduced tillage in temperate organic farming: implications for crop management and forage production. Soil Use and Management. 26(1): 12-20.
  • Liu, Z., F.Y. Ma, T.X. Hu, K.G. Zhao, T.P. Gao, H.X. Zhao and T.Y. Ning 2020. Using stable isotopes to quantify water uptake from different soil layers and water use efficiency of wheat under long-term tillage and straw return practices. Agricultural Water Management. 229: 105933.
  • Loomis, G., B. Dari, C.W. Rogers, and D. Sihi. 2020. Evaluation of residue management practices on barley residue decomposition. PloS One, 15(5): e0232896.1-16
  • Lupwayi, N.Z., A.C. Kennedy and R.M. Chirwa. 2011. Grain legume impacts on soil biological processes in sub-Saharan Africa. African Journal of Plant Science. 5(1): 1-7.
  • Lynch, M.J., M.J. Mulvaney, S.C. Hodges, T.L. Thompson and W.E. Thomason. 2016. Decomposition, nitrogen and carbon mineralization from food and cover crop residues in the central plateau of Haiti. Springerplus, 5(1): 1-9.
  • Malasli, M.Z., A. Khatami and A. Celik. 2017. The effects of different plant densities and silage corn varieties on silage yield and some yield parameters in no-till seeding. Turkish Journal of Agriculture and Forestry. 41(6): 490-499.
  • Miheguli, R., J.J. Schoenau and P.G. Jefferson. 2018. Yield and uptake of phosphorus by wheat and canola grown after two years of forage legume and annual crops. American Journal of Plant Sciences. 9(9): 1807-1825.
  • Musa, J.J., O.E. Akpoebidimiyen, J.K. Adewumi, P.C. Eze, R. Adesiji and Y.U. Gupa. 2020. Influence of soil bulk density and porosity on soil hydraulic conductivities for selected land management practice in North-central Nigeria. International Journal of Agricultural and Environmental Sciences. 5(1): 1-7.
  • Nasta, P., M. Palladino, B. Sica, A. Pizzolante, M. Trifuoggi, M. Toscanesi, A. Giarra, J. D'Auria, F. Nicodemo, C. Mazzitelli, U. Lazzaro, P.D. Fiore and U. Lazzaro. 2020. Evaluating pedotransfer functions for predicting soil bulk density using hierarchical mapping information in Campania, Italy. Geoderma Regional, 21: e00267.
  • Neugschwandtner, R.W., J. Száková, V. Pachtrog, P. Tlustoš, J. Černý, M. Kulhánek, H.P. Kaul, P. Euteneuer, G. Moitzi and H. Wagentristl. 2020. Basic soil chemical properties after 15 years in a long-term tillage and crop rotation experiment. International Agrophysics. 1(34): 133-140.
  • Nottidge, D.O., S.O. Ojeniyi and C.C. Nottidge. 2010. Grain legume residues effect on soil physical conditions, growth and grain yield of maize (Zea mays L.) in an ultisol. Nigerian Journal of Soil Science. 20(1): 150-153.
  • Ntatsi, G., A. Karkanis, D. Yfantopoulos, V. Pappa, I.H. Konosonoka, I. Travlos, D. Bilalis, P. Bebeli and D. Savvas. 2019. Evaluation of the field performance, nitrogen fixation efficiency and competitive ability of pea landraces grown under organic and conventional farming systems. Archives of Agronomy and Soil Science. 65(3): 294-307.
  • Oliveira, M., C. Castro, J. Coutinho and H. Trindade. 2019. N supply and pre-cropping benefits to triticale from three legumes in rainfed and irrigated Mediterranean crop rotations. Field Crops Research. 237: 32-42.
  • Özyazıcı, M.A. and İ. Manga. 2000. The effects of some leguminous forage crops used as green manure and plant residues onyield and quality of maize and sunflower under irrigated conditions of Çarşamba Plain. Turkish Journal of Agriculture and Forestry 24: 95-103.
  • Palm, C.A, C.N. Gachengo, R.J. Delve, G. Cadisch and K.E. Giller. 2001. Organic inputs for soil fertility management in tropical agroecosystems: application of an organic resource database. Agriculture, Ecosystems and Environment. 83: 27-42.
  • Pan, J., Z. Bai, Y. Cao, W. Zhou and J. Wang, 2017. Influence of soil physical properties and vegetation coverage at different slope aspects in a reclaimed dump. Environmental Science and Pollution Research, 24(30): 23953-23965.
  • Pandey, A., F. Li, M. Askegaard and J.E. Olesen. 2017. Biological nitrogen fixation in three long-term organic and conventional arable crop rotation experiments in Denmark. European Journal of Agronomy. 90: 87-95.
  • Perrone, S., J. Grossman, A. Liebman, T. Sooksa-nguan and J. Gutknecht. 2020. Nitrogen fixation and productivity of winter annual legume cover crops in Upper Midwest organic cropping systems. Nutrient Cycling in Agroecosystems. 117(1): 61-76.
  • Priya, K.C., I. Mani and R.A. Parray. 2019. Long term effect of different tillage systems on soil physical properties and yield of wheat. Journal of Pharmacognosy and Phytochemistry, 8(2): 2182-2185.
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There are 60 citations in total.

Details

Primary Language English
Subjects Agronomy
Journal Section Articles
Authors

Yaşar Özyiğit 0000-0002-5208-4846

Publication Date June 20, 2022
Published in Issue Year 2022

Cite

APA Özyiğit, Y. (2022). THE INFLUENCE OF PRE-PLANT TREATMENTS ON SILAGE MAIZE (Zea mays L.) YIELD IN NO-TILLAGE SYSTEM. Turkish Journal Of Field Crops, 27(1), 10-16. https://doi.org/10.17557/tjfc.987034
AMA Özyiğit Y. THE INFLUENCE OF PRE-PLANT TREATMENTS ON SILAGE MAIZE (Zea mays L.) YIELD IN NO-TILLAGE SYSTEM. TJFC. June 2022;27(1):10-16. doi:10.17557/tjfc.987034
Chicago Özyiğit, Yaşar. “THE INFLUENCE OF PRE-PLANT TREATMENTS ON SILAGE MAIZE (Zea Mays L.) YIELD IN NO-TILLAGE SYSTEM”. Turkish Journal Of Field Crops 27, no. 1 (June 2022): 10-16. https://doi.org/10.17557/tjfc.987034.
EndNote Özyiğit Y (June 1, 2022) THE INFLUENCE OF PRE-PLANT TREATMENTS ON SILAGE MAIZE (Zea mays L.) YIELD IN NO-TILLAGE SYSTEM. Turkish Journal Of Field Crops 27 1 10–16.
IEEE Y. Özyiğit, “THE INFLUENCE OF PRE-PLANT TREATMENTS ON SILAGE MAIZE (Zea mays L.) YIELD IN NO-TILLAGE SYSTEM”, TJFC, vol. 27, no. 1, pp. 10–16, 2022, doi: 10.17557/tjfc.987034.
ISNAD Özyiğit, Yaşar. “THE INFLUENCE OF PRE-PLANT TREATMENTS ON SILAGE MAIZE (Zea Mays L.) YIELD IN NO-TILLAGE SYSTEM”. Turkish Journal Of Field Crops 27/1 (June 2022), 10-16. https://doi.org/10.17557/tjfc.987034.
JAMA Özyiğit Y. THE INFLUENCE OF PRE-PLANT TREATMENTS ON SILAGE MAIZE (Zea mays L.) YIELD IN NO-TILLAGE SYSTEM. TJFC. 2022;27:10–16.
MLA Özyiğit, Yaşar. “THE INFLUENCE OF PRE-PLANT TREATMENTS ON SILAGE MAIZE (Zea Mays L.) YIELD IN NO-TILLAGE SYSTEM”. Turkish Journal Of Field Crops, vol. 27, no. 1, 2022, pp. 10-16, doi:10.17557/tjfc.987034.
Vancouver Özyiğit Y. THE INFLUENCE OF PRE-PLANT TREATMENTS ON SILAGE MAIZE (Zea mays L.) YIELD IN NO-TILLAGE SYSTEM. TJFC. 2022;27(1):10-6.

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