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The effects of double-stemmed grafted tomato plants on yield and quality of tomato cultivation

Year 2023, Volume: 36 Issue: 2, 53 - 57, 01.08.2023
https://doi.org/10.29136/mediterranean.1146193

Abstract

In this study, the effect of the production of double-stemmed grafted and non-grafted tomato plants on yield and quality was investigated. Android F1 and Torry F1 tomato (S. lycopersicum L.) cultivars were grafted on “Classmate” tomato rootstock, and grafting was doneaccording to one or two stems for treatments. There were 12 plants in each treatment over 4 grafting and 2 varieties and the plants were provided seedling nursery. The number of stems left in tomato seedlings as grafted and non-grafted was taken as the basis. The plants which are consisting of two stems are formed from the cotyledon axillary buds. The grafting in the experiment were created as follows;.1- grafted-double stem: Shoots were formed with the development of cotyledon axillary buds, 2- Non-grafted-double stem: Shoots were formed with the development of cotyledon axillary buds on cultivars, 3- Grafted-single stem and 4- non-grafted-single stem (control) were formed. In the experiment conducted, the highest plant height (167.25 cm) was obtained from the control treatment and the highest stem diameter (16.58 mm) was obtained from the grafted double stem treatment. L and Hue angel values measured in fruit color of treatments were not statistically significant. The highest total soluble solids (4.46%) was obtained from the non-grafted double stem treatment. In terms of total yield, the highest value (12.27 kg m-2) was obtained in the control plants. The effect of double stem in cotyledon axillary buds on grafted tomato cultivation was found statistically significant on yield, and grafting with double stem decreased the yield, as compare to the control treatment.

Supporting Institution

Akdeniz University

Project Number

FYL – 2019 – 4140

Thanks

This research was financially supported by The Scientific Research Projects Coordination Unit of Akdeniz University with the project number of FYL – 2019 – 4140

References

  • Abdulaziz A, Abdulrasoul A, Thabet A, Hesham A, Khadejah A, Saad M, Abdullah O (2017) Tomato buds impacts on yield and fruit quality under water stress conditions. Journal of Experimental Biology and Agricultural Sciences 5(1): 137-147.
  • Anonymous (2023) Grafting and budding nursery crop plants. https://content.ces.ncsu.edu/grafting-and-budding-nursery-crop-plants. Accessed 21 March, 2023.
  • Arpacı S (2016) Farklı anaç ve kalem kombinasyonlarının aşılı domates yetiştiriciliğinde bitki gelişimi, verim ve meyve kalitesine etkileri. Yüksek Lisans Tezi, Ege Üniversitesi, İzmir.
  • Colla G, Rouphael Y, Cardarelli M, Massa D, Salerno A, Rea E (2015) Yield, fruit quality and mineral composition of grafted melon plants grown under saline conditions. The Journal of Horticultural Science and Biotechnology 81(1): 146-152.
  • Gianquinto G, Muñoz P, Pardossi A, Ramazzotti S, Savvas D (2013) Soil fertility and plant nutrition. Good Agricultural Practices for greenhouse vegetable crops. FAO, Rome, pp. 616.
  • Hanna YH (2012) Producing a grafted and a non-grafted tomato plant from the same seedling. HortTechnology 22(1): 72-76.
  • Kacjan-Marsic N, Osvald J (2004) The influence of buds on yield of two tomato cultivars (Lycopersicon esculentum Mill.) grown in a plastic house. Acta Agriculturae Slovenica 83(2): 243-249.
  • Khah E, Kakava E, Mavromatis A, Chachalis D, Goulas C (2006) Effect of buds on growth and yield of tomato (Lycopersicon esculentum Mill.) in greenhouse and open-field. Journal of Applied Horticulture 8(1): 3-7.
  • Kumar P, Rana S, Sharma P, Negi V (2015) Vegetable buds: a boon to vegetable growers to combat biotic and abiotic stresses. Himachal Journal of Agricultural Research 41(1): 1-5.
  • Kurata K (1994) Cultivation of Grafted Vegetables II. Development of buds robots in Japan. HortScience 29(4): 240-244.
  • Lee JM, M Oda (2003) Grafting of herbaceous vegetable and ornamental crops. Horticultural Reviews 28: 61-124.
  • Neocleous D (2010) Nutrients, and antioxidants of tomato in response to buds and substrate. International Journal of Vegetable Science 16(3): 212-221.
  • Oda M, Nagata M, Tsuji K, Sasaki H (1996) Effects of scarlet eggplant rootstock on growth, yield, and sugar content of grafted tomato fruits. Journal of Japaese Society of the Horticulutral Science 65(3): 531-536.
  • Qaryouti MM, Qawasmi W, Hamdan H, Edwan M (2007) Tomato fruit yield and quality as affected by buds and growing system. Proc. Ist IS on Fresh Food Quality Eds. A.N. Fardous et al. Acta Horticulturae 741: 199-206.
  • Rahmatian A, Delshad M, Salehi R (2014) Effect of buds on growth, yield and fruit quality of single and double stemmed tomato plants grown hydroponically. Horticulture, Environment, and Biotechnology 55(2): 115-119.
  • Singh H, Kumar P, Chaudhari S, Edelstein1 M (2017) Tomato buds: A Global perspective. HortScience 52(10): 1328-1336.
  • Soare R, Dinu M, Babeanu C (2018) The effect of using grafted seedlings on the yield and quality of tomatoes grown in greenhouses. Horticultural Science 45(2): 76-82.
  • Traka-Mavrona E, Koutsika-Sotiriou M, Pritsa T (2000) Response of squash (Cucurbita Spp.) as rootstock for melon (Cucumis melo L.). Scientia Horticulturae 83: 353-362.
  • Turkmen O, Seymen M, Dursun A (2010) Effects of different rootstocks and cultivars on yield and some yield components of grafted tomato. Bulletin UASVM Horticulture 67(1): 284-291.
  • Tüzel Y, Gül A, Daşgan HY, Öztekin GB, Engindeniz S, Boyacı HF (2015) Örtüaltı yetiştiriciliğininde değişimler ve yeni arayışlar. Türkiye Ziraat Mühendisliği VIII. Teknik Kongresi. Ankara, s. 685-709.
  • Yarsi G (2011) Effects of grafted seedling use on yield, growth and quality parameters of tomato growing in greenhouse. Acta Horticulturae 923: 311-314.

The effects of double-stemmed grafted tomato plants on yield and quality of tomato cultivation

Year 2023, Volume: 36 Issue: 2, 53 - 57, 01.08.2023
https://doi.org/10.29136/mediterranean.1146193

Abstract

Project Number

FYL – 2019 – 4140

References

  • Abdulaziz A, Abdulrasoul A, Thabet A, Hesham A, Khadejah A, Saad M, Abdullah O (2017) Tomato buds impacts on yield and fruit quality under water stress conditions. Journal of Experimental Biology and Agricultural Sciences 5(1): 137-147.
  • Anonymous (2023) Grafting and budding nursery crop plants. https://content.ces.ncsu.edu/grafting-and-budding-nursery-crop-plants. Accessed 21 March, 2023.
  • Arpacı S (2016) Farklı anaç ve kalem kombinasyonlarının aşılı domates yetiştiriciliğinde bitki gelişimi, verim ve meyve kalitesine etkileri. Yüksek Lisans Tezi, Ege Üniversitesi, İzmir.
  • Colla G, Rouphael Y, Cardarelli M, Massa D, Salerno A, Rea E (2015) Yield, fruit quality and mineral composition of grafted melon plants grown under saline conditions. The Journal of Horticultural Science and Biotechnology 81(1): 146-152.
  • Gianquinto G, Muñoz P, Pardossi A, Ramazzotti S, Savvas D (2013) Soil fertility and plant nutrition. Good Agricultural Practices for greenhouse vegetable crops. FAO, Rome, pp. 616.
  • Hanna YH (2012) Producing a grafted and a non-grafted tomato plant from the same seedling. HortTechnology 22(1): 72-76.
  • Kacjan-Marsic N, Osvald J (2004) The influence of buds on yield of two tomato cultivars (Lycopersicon esculentum Mill.) grown in a plastic house. Acta Agriculturae Slovenica 83(2): 243-249.
  • Khah E, Kakava E, Mavromatis A, Chachalis D, Goulas C (2006) Effect of buds on growth and yield of tomato (Lycopersicon esculentum Mill.) in greenhouse and open-field. Journal of Applied Horticulture 8(1): 3-7.
  • Kumar P, Rana S, Sharma P, Negi V (2015) Vegetable buds: a boon to vegetable growers to combat biotic and abiotic stresses. Himachal Journal of Agricultural Research 41(1): 1-5.
  • Kurata K (1994) Cultivation of Grafted Vegetables II. Development of buds robots in Japan. HortScience 29(4): 240-244.
  • Lee JM, M Oda (2003) Grafting of herbaceous vegetable and ornamental crops. Horticultural Reviews 28: 61-124.
  • Neocleous D (2010) Nutrients, and antioxidants of tomato in response to buds and substrate. International Journal of Vegetable Science 16(3): 212-221.
  • Oda M, Nagata M, Tsuji K, Sasaki H (1996) Effects of scarlet eggplant rootstock on growth, yield, and sugar content of grafted tomato fruits. Journal of Japaese Society of the Horticulutral Science 65(3): 531-536.
  • Qaryouti MM, Qawasmi W, Hamdan H, Edwan M (2007) Tomato fruit yield and quality as affected by buds and growing system. Proc. Ist IS on Fresh Food Quality Eds. A.N. Fardous et al. Acta Horticulturae 741: 199-206.
  • Rahmatian A, Delshad M, Salehi R (2014) Effect of buds on growth, yield and fruit quality of single and double stemmed tomato plants grown hydroponically. Horticulture, Environment, and Biotechnology 55(2): 115-119.
  • Singh H, Kumar P, Chaudhari S, Edelstein1 M (2017) Tomato buds: A Global perspective. HortScience 52(10): 1328-1336.
  • Soare R, Dinu M, Babeanu C (2018) The effect of using grafted seedlings on the yield and quality of tomatoes grown in greenhouses. Horticultural Science 45(2): 76-82.
  • Traka-Mavrona E, Koutsika-Sotiriou M, Pritsa T (2000) Response of squash (Cucurbita Spp.) as rootstock for melon (Cucumis melo L.). Scientia Horticulturae 83: 353-362.
  • Turkmen O, Seymen M, Dursun A (2010) Effects of different rootstocks and cultivars on yield and some yield components of grafted tomato. Bulletin UASVM Horticulture 67(1): 284-291.
  • Tüzel Y, Gül A, Daşgan HY, Öztekin GB, Engindeniz S, Boyacı HF (2015) Örtüaltı yetiştiriciliğininde değişimler ve yeni arayışlar. Türkiye Ziraat Mühendisliği VIII. Teknik Kongresi. Ankara, s. 685-709.
  • Yarsi G (2011) Effects of grafted seedling use on yield, growth and quality parameters of tomato growing in greenhouse. Acta Horticulturae 923: 311-314.
There are 21 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering
Journal Section Makaleler
Authors

Askar Kalykov 0000-0003-1137-6671

Ersin Polat 0000-0003-2414-5071

Project Number FYL – 2019 – 4140
Publication Date August 1, 2023
Submission Date July 20, 2022
Published in Issue Year 2023 Volume: 36 Issue: 2

Cite

APA Kalykov, A., & Polat, E. (2023). The effects of double-stemmed grafted tomato plants on yield and quality of tomato cultivation. Mediterranean Agricultural Sciences, 36(2), 53-57. https://doi.org/10.29136/mediterranean.1146193
AMA Kalykov A, Polat E. The effects of double-stemmed grafted tomato plants on yield and quality of tomato cultivation. Mediterranean Agricultural Sciences. August 2023;36(2):53-57. doi:10.29136/mediterranean.1146193
Chicago Kalykov, Askar, and Ersin Polat. “The Effects of Double-Stemmed Grafted Tomato Plants on Yield and Quality of Tomato Cultivation”. Mediterranean Agricultural Sciences 36, no. 2 (August 2023): 53-57. https://doi.org/10.29136/mediterranean.1146193.
EndNote Kalykov A, Polat E (August 1, 2023) The effects of double-stemmed grafted tomato plants on yield and quality of tomato cultivation. Mediterranean Agricultural Sciences 36 2 53–57.
IEEE A. Kalykov and E. Polat, “The effects of double-stemmed grafted tomato plants on yield and quality of tomato cultivation”, Mediterranean Agricultural Sciences, vol. 36, no. 2, pp. 53–57, 2023, doi: 10.29136/mediterranean.1146193.
ISNAD Kalykov, Askar - Polat, Ersin. “The Effects of Double-Stemmed Grafted Tomato Plants on Yield and Quality of Tomato Cultivation”. Mediterranean Agricultural Sciences 36/2 (August 2023), 53-57. https://doi.org/10.29136/mediterranean.1146193.
JAMA Kalykov A, Polat E. The effects of double-stemmed grafted tomato plants on yield and quality of tomato cultivation. Mediterranean Agricultural Sciences. 2023;36:53–57.
MLA Kalykov, Askar and Ersin Polat. “The Effects of Double-Stemmed Grafted Tomato Plants on Yield and Quality of Tomato Cultivation”. Mediterranean Agricultural Sciences, vol. 36, no. 2, 2023, pp. 53-57, doi:10.29136/mediterranean.1146193.
Vancouver Kalykov A, Polat E. The effects of double-stemmed grafted tomato plants on yield and quality of tomato cultivation. Mediterranean Agricultural Sciences. 2023;36(2):53-7.

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