Research Article
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Year 2023, , 373 - 379, 01.07.2023
https://doi.org/10.47115/bsagriculture.1298590

Abstract

References

  • Acar F. 2015. Determination of yield and yield components of some soybean (Glycine max. L) cultivars in eastern transition region. MSc Thesis, Bingöl University, Institute of Science, Department of Field Crops, Bingöl, Türkiye, pp: 76.
  • Altınyuzuk H, Ozturk O. 2017. Soybean cultivars in Çukurova period II. review of yield and quality as a product. Selçuk J Agri Food Sci, 31(3): 101-110.
  • Anonymous, 2018. https://tr.weatherspark.com/h/y/148778/2018/2018-y% C4%B1l%C4%B1-i%C3%A7in-at-Batman-Airport-T%C3%BCrkiye-Historic-Weather-Forecast#Figures-ObservedWeather (accessed date: May 12, 2018).
  • Anonymous, 2022. https://cografyahocasi.com/haritalar/turkiye-soyya-fasulyesi-uretimi-harita-2020.html (accessed date: May 15, 2022).
  • Arioglu H, Ozyurtseven S, Gulluoglu L. 2012. Determination of oil yield and fatty acid content of some soybean [Glycine max (L.) Merr] cultivars grown under second crop conditions-II, Çukurova Univ J Agri Fac, 27(2): 1-10.
  • Arioglu HH, Kolsarıcı O, Goksu AT, Gulluoglu L, Arslan M, Caliskan M, Sogut T, Kurt C, Arslanoglu F. 2010. Opportunities to increase oil crops production. Agricultural Engineering VII. Technical Congress, January 11-15, 2010, Ankara, Türkiye, pp: 361-376.
  • Bakal H, Arioglu H, Gulluoglu L, Kurt C, Onat B. 2016. Determination of important agronomic and quality characteristics of some soybean varieties grown under second crop conditions. Jof Field Crops Central Res Instit, 25(2): 125-130.
  • Bakal H, Bagirkan O, Arioglu H. 2021. The effects of mechanical damage on seed and some properties during the peak growth process of soybean plant grown in the second crop. Mustafa Kemal Univ Jof Agri Sci, 26(1): 117-127.
  • Baydar H, Erbas S. 2014. Oil Crops Science and Technology. Süleyman Demirel University Press, Isparta, Türkiye, pp: 247.
  • Bellaloui N, Hu Y, Mengistu MA, Abel CA. 2013. Effects of foliar boron application on seed composition, cell wall boron, and seed δ15N and δ13C isotopes in water-stressed soybean plants. Front Plant Sci, 4: 1-12. DOI: 10.3389/fpls.2013.00270.
  • Bohn T, Cuhra M, Traavik T, Sanden M, Fagan J, Primicerio R. 2014. Compositional differences in soybeans on the market: Glyphosate accumulates in Roundup Ready GM soybeans. Food Chem., 153: 24-50.
  • Cetin SH, Ozturk O. 2012. The effect of different phosphorus doses on yield and yield components in soybean. J Agri Sci Res, 1: 157-161.
  • Ekinci MT. 2019. Determination of yield and quality values of some soybean varieties under main and second crop conditions in Batman conditions. MSc Thesis, Van Yüzüncü Yıl University, Graduate School of Natural and Applied Sciences, Department of Field Crops, Van, Türkiye, pp: 77.
  • Erdogmus M, Arslan D, Olgun H. 2007. Comparison of the performances of some soybean varieties in organic and traditional growing systems. 1st National Oilseed Plants and Biodiesel Symposium, May 28-31, 2007, Samsun, Türkiye, pp: 68.
  • Gecit HH, Ciftci CY, Retirer Y, Ikikkarakaya S, Adak MS, Ekiz H, Altinok S, Sancak C, Sevimay CS. Kendir H. 2009. Field Crops. Ankara University Faculty of Agriculture Publication No: 1569, Ankara, Türkiye, pp: 521.
  • Gul S. 2018. The effect of organic fertilizer applications on yield components and some quality criteria in soybean (Glycine max (L.) Merr.) grown as a crop. MSc Thesis, Ondokuz Mayıs University Graduate School of Natural and Applied Sciences, Department of Field Crops, Samsun, Türkiye, pp: 79.
  • Gumus Z, Beyyavas V. 2020. Some soybean [Glycine max L. Merill] possibilities of cultivation of varieties as second crop in Mardin province ecological conditions. ADYUTAYAM J, 8(2): 44-51.
  • Karaaslan D, Sogut T, Sakar D. 1999. Possibilities of growing some soybean varieties as second crop in Diyarbakir irrigated conditions. Türkiye 3rd Field Crops Congress, November 15-18, 1999, Adana, Türkiye, pp: 35-39.
  • Karaaslan D. 2011. Determination of yield and quality criteria of some soybean lines in Diyarbakır second crop conditions. J Harran Univ Fac Agri, 15(3): 37-44.
  • Kolsaraci O, Kaya KD, Goksoy AT, Arioglu H, Kulan EG, Day S. 2015. New searches in oilseed production. Agricultural Engineering VIII. Technical Congress, January 10-13, 2015, Ankara, Türkiye, pp: 401-425.
  • Nyirahabimana F, Shimira F, Baran N. 2022. Recent biotechnological improvement for drought stress tolerance in soybean. In: Karaman M, Baran N, Andirman M. (Eds.). Investigation of Economically Important Strategic Products in Field Crops, Iksad Publications, Ankara, Türkiye, pp: 213-226.
  • Okcu M, Tozlu E, Pehluvan M, Kaya C, Kumlay M, Dizikisa T. 2007. A study on the adaptation of different soybean (Glycine max L.) varieties in Erzurum Pasinler ecological conditions. 1st National Oilseed Crops and Biodiesel Symposium, May 28-31, 2007, Samsun, Türkiye, pp: 219-224.
  • Ozturk F, Kizilgecit F, Konuralp Elicin A. 2021. In the conditions of Sirnak province, the soybean plant in II. Investigation of the possibilities of cultivation as a product. Turkish J Nature Sci, 10(1): 190-198.
  • Ozturk F. 2019. The evaluation of the yield and yield components of seven soybean (Glycine Max. L. Merill.) genotypes grown as a second crop under Şırnak condition. Int J Agri Environ Food Sci, 3(2): 54-57.
  • Ozturk O, Akınerdem F, Gonulal E. 2000. The effect of different planting times and row spacing on yield and yield components in Safflower (Carthamus tinctorius L.). Selçuk Univ Fac Agri J, 14(21): 142-152.
  • Sabanci İ. 2013. Effects of different planting systems on yield and some agronomic characters in corn-soybean co-production. PhD Thesis, Adnan Menderes University, Institute of Science, Field Crops Department, Aydın, Türkiye, pp: 123.
  • Sengoz ME, Arslan H. 2022. The effect of different sowing frequency on yield and yield components in second crop soybean (Glycine max L. Merrill) agriculture. ISPEC J Agri Sci, 6(4): 842-851.
  • Tayyar S, Gul MK. 2007. Performance of some soybean (Glycine max (L.) Merr.) genotypes as main crop under Biga conditions. J Agri Sci, 17: 55-59.
  • TEPGE. 2015. Directorate of Agricultural Economy and Policy Development Institute. Status and Forecast Soy 2015/2016. Publication No: 259, Ankara, Türkiye.
  • TUIK. 2019. Turkish Statistical Institute. URL: http://tuik.gov.tr/ (accessed date: December 12, 2022).
  • TUIK. 2022. Turkish Statistical Institute. URL: http://tuik.gov.tr/ (accessed date: December 17, 2022).
  • Tuncturk M, Baris M, Sogut T. 2020. The effect of sowing time treatments on yield and yield characteristics of some soybean (Glycine max (l.) merrill) cultivars. ISPEC J Agri Sci, 4(4): 717-731.
  • TURKIYEM-BIR. 2022. Turkish Feed Manufacturers Association.
  • USDA. 2022. United State Department of Agriculture, Foreign Agricultural Service.
  • Yildirim A. 2017. Determination of yield and agronomic characteristics of some soybean varieties and lines under second crop conditions in the Aegean region. MSc Thesis. Ege University, Institute of Science, Department of Field Crops, İzmir, Türkiye, pp: 83.
  • Yilmaz HA, Efe L. 1998. Some Soybean [Glycine max (L.) Merill] varieties in Kahramanmaraş conditions. Turkish J Agri Forest, 22(2): 135-142.

Some Soybean [Glycine max. L. (Merill)] Varieties Determination of Cultivation Possibilities of as Main Crop

Year 2023, , 373 - 379, 01.07.2023
https://doi.org/10.47115/bsagriculture.1298590

Abstract

This research was carried out at Batman University West Raman experimental area with 3 replications in order to determine the yield and yield components of some soybean varieties as the main crop under Batman conditions in the 2018 production year. In the study, 7 different soybean varieties (Umut-2002, Nova, Bravo, Asya, Ataem, Atakişi, Blaze) were used as plant materials. In the study, plant height, number of branches, first pod height, number of pods per plant, yield per decare and oil content were investigated. As a result of the study, the plant height is 64.90-72.47 cm, the number of branches is 4.83-9.23 pieces/plant, the first pod height is 10.70-15.20 cm, the number of pods per plant is 31.27- 49.23 pieces, the seed yield was determined as 244.05-554.44 kg/da and the oil content was between 17.82-24.83%. In addition, it was determined that the results of the heat map clustering, PCA and DARwin plots and the grouping of the relationships between cultivars, traits and cultivar*traits were confirmed.

References

  • Acar F. 2015. Determination of yield and yield components of some soybean (Glycine max. L) cultivars in eastern transition region. MSc Thesis, Bingöl University, Institute of Science, Department of Field Crops, Bingöl, Türkiye, pp: 76.
  • Altınyuzuk H, Ozturk O. 2017. Soybean cultivars in Çukurova period II. review of yield and quality as a product. Selçuk J Agri Food Sci, 31(3): 101-110.
  • Anonymous, 2018. https://tr.weatherspark.com/h/y/148778/2018/2018-y% C4%B1l%C4%B1-i%C3%A7in-at-Batman-Airport-T%C3%BCrkiye-Historic-Weather-Forecast#Figures-ObservedWeather (accessed date: May 12, 2018).
  • Anonymous, 2022. https://cografyahocasi.com/haritalar/turkiye-soyya-fasulyesi-uretimi-harita-2020.html (accessed date: May 15, 2022).
  • Arioglu H, Ozyurtseven S, Gulluoglu L. 2012. Determination of oil yield and fatty acid content of some soybean [Glycine max (L.) Merr] cultivars grown under second crop conditions-II, Çukurova Univ J Agri Fac, 27(2): 1-10.
  • Arioglu HH, Kolsarıcı O, Goksu AT, Gulluoglu L, Arslan M, Caliskan M, Sogut T, Kurt C, Arslanoglu F. 2010. Opportunities to increase oil crops production. Agricultural Engineering VII. Technical Congress, January 11-15, 2010, Ankara, Türkiye, pp: 361-376.
  • Bakal H, Arioglu H, Gulluoglu L, Kurt C, Onat B. 2016. Determination of important agronomic and quality characteristics of some soybean varieties grown under second crop conditions. Jof Field Crops Central Res Instit, 25(2): 125-130.
  • Bakal H, Bagirkan O, Arioglu H. 2021. The effects of mechanical damage on seed and some properties during the peak growth process of soybean plant grown in the second crop. Mustafa Kemal Univ Jof Agri Sci, 26(1): 117-127.
  • Baydar H, Erbas S. 2014. Oil Crops Science and Technology. Süleyman Demirel University Press, Isparta, Türkiye, pp: 247.
  • Bellaloui N, Hu Y, Mengistu MA, Abel CA. 2013. Effects of foliar boron application on seed composition, cell wall boron, and seed δ15N and δ13C isotopes in water-stressed soybean plants. Front Plant Sci, 4: 1-12. DOI: 10.3389/fpls.2013.00270.
  • Bohn T, Cuhra M, Traavik T, Sanden M, Fagan J, Primicerio R. 2014. Compositional differences in soybeans on the market: Glyphosate accumulates in Roundup Ready GM soybeans. Food Chem., 153: 24-50.
  • Cetin SH, Ozturk O. 2012. The effect of different phosphorus doses on yield and yield components in soybean. J Agri Sci Res, 1: 157-161.
  • Ekinci MT. 2019. Determination of yield and quality values of some soybean varieties under main and second crop conditions in Batman conditions. MSc Thesis, Van Yüzüncü Yıl University, Graduate School of Natural and Applied Sciences, Department of Field Crops, Van, Türkiye, pp: 77.
  • Erdogmus M, Arslan D, Olgun H. 2007. Comparison of the performances of some soybean varieties in organic and traditional growing systems. 1st National Oilseed Plants and Biodiesel Symposium, May 28-31, 2007, Samsun, Türkiye, pp: 68.
  • Gecit HH, Ciftci CY, Retirer Y, Ikikkarakaya S, Adak MS, Ekiz H, Altinok S, Sancak C, Sevimay CS. Kendir H. 2009. Field Crops. Ankara University Faculty of Agriculture Publication No: 1569, Ankara, Türkiye, pp: 521.
  • Gul S. 2018. The effect of organic fertilizer applications on yield components and some quality criteria in soybean (Glycine max (L.) Merr.) grown as a crop. MSc Thesis, Ondokuz Mayıs University Graduate School of Natural and Applied Sciences, Department of Field Crops, Samsun, Türkiye, pp: 79.
  • Gumus Z, Beyyavas V. 2020. Some soybean [Glycine max L. Merill] possibilities of cultivation of varieties as second crop in Mardin province ecological conditions. ADYUTAYAM J, 8(2): 44-51.
  • Karaaslan D, Sogut T, Sakar D. 1999. Possibilities of growing some soybean varieties as second crop in Diyarbakir irrigated conditions. Türkiye 3rd Field Crops Congress, November 15-18, 1999, Adana, Türkiye, pp: 35-39.
  • Karaaslan D. 2011. Determination of yield and quality criteria of some soybean lines in Diyarbakır second crop conditions. J Harran Univ Fac Agri, 15(3): 37-44.
  • Kolsaraci O, Kaya KD, Goksoy AT, Arioglu H, Kulan EG, Day S. 2015. New searches in oilseed production. Agricultural Engineering VIII. Technical Congress, January 10-13, 2015, Ankara, Türkiye, pp: 401-425.
  • Nyirahabimana F, Shimira F, Baran N. 2022. Recent biotechnological improvement for drought stress tolerance in soybean. In: Karaman M, Baran N, Andirman M. (Eds.). Investigation of Economically Important Strategic Products in Field Crops, Iksad Publications, Ankara, Türkiye, pp: 213-226.
  • Okcu M, Tozlu E, Pehluvan M, Kaya C, Kumlay M, Dizikisa T. 2007. A study on the adaptation of different soybean (Glycine max L.) varieties in Erzurum Pasinler ecological conditions. 1st National Oilseed Crops and Biodiesel Symposium, May 28-31, 2007, Samsun, Türkiye, pp: 219-224.
  • Ozturk F, Kizilgecit F, Konuralp Elicin A. 2021. In the conditions of Sirnak province, the soybean plant in II. Investigation of the possibilities of cultivation as a product. Turkish J Nature Sci, 10(1): 190-198.
  • Ozturk F. 2019. The evaluation of the yield and yield components of seven soybean (Glycine Max. L. Merill.) genotypes grown as a second crop under Şırnak condition. Int J Agri Environ Food Sci, 3(2): 54-57.
  • Ozturk O, Akınerdem F, Gonulal E. 2000. The effect of different planting times and row spacing on yield and yield components in Safflower (Carthamus tinctorius L.). Selçuk Univ Fac Agri J, 14(21): 142-152.
  • Sabanci İ. 2013. Effects of different planting systems on yield and some agronomic characters in corn-soybean co-production. PhD Thesis, Adnan Menderes University, Institute of Science, Field Crops Department, Aydın, Türkiye, pp: 123.
  • Sengoz ME, Arslan H. 2022. The effect of different sowing frequency on yield and yield components in second crop soybean (Glycine max L. Merrill) agriculture. ISPEC J Agri Sci, 6(4): 842-851.
  • Tayyar S, Gul MK. 2007. Performance of some soybean (Glycine max (L.) Merr.) genotypes as main crop under Biga conditions. J Agri Sci, 17: 55-59.
  • TEPGE. 2015. Directorate of Agricultural Economy and Policy Development Institute. Status and Forecast Soy 2015/2016. Publication No: 259, Ankara, Türkiye.
  • TUIK. 2019. Turkish Statistical Institute. URL: http://tuik.gov.tr/ (accessed date: December 12, 2022).
  • TUIK. 2022. Turkish Statistical Institute. URL: http://tuik.gov.tr/ (accessed date: December 17, 2022).
  • Tuncturk M, Baris M, Sogut T. 2020. The effect of sowing time treatments on yield and yield characteristics of some soybean (Glycine max (l.) merrill) cultivars. ISPEC J Agri Sci, 4(4): 717-731.
  • TURKIYEM-BIR. 2022. Turkish Feed Manufacturers Association.
  • USDA. 2022. United State Department of Agriculture, Foreign Agricultural Service.
  • Yildirim A. 2017. Determination of yield and agronomic characteristics of some soybean varieties and lines under second crop conditions in the Aegean region. MSc Thesis. Ege University, Institute of Science, Department of Field Crops, İzmir, Türkiye, pp: 83.
  • Yilmaz HA, Efe L. 1998. Some Soybean [Glycine max (L.) Merill] varieties in Kahramanmaraş conditions. Turkish J Agri Forest, 22(2): 135-142.
There are 36 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering
Journal Section Research Articles
Authors

Mehtap Andırman 0000-0001-8566-3388

Nurettin Baran 0000-0003-2212-3274

Publication Date July 1, 2023
Submission Date May 17, 2023
Acceptance Date June 6, 2023
Published in Issue Year 2023

Cite

APA Andırman, M., & Baran, N. (2023). Some Soybean [Glycine max. L. (Merill)] Varieties Determination of Cultivation Possibilities of as Main Crop. Black Sea Journal of Agriculture, 6(4), 373-379. https://doi.org/10.47115/bsagriculture.1298590

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