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Year 2025, Volume: 9 Issue: 3, 716 - 724, 27.09.2025
https://doi.org/10.31015/2025.3.9

Abstract

References

  • Alas, E., & Öztekin, G.B. (2022). Bazı yabani patlıcan türlerinin Diyarbakır koşullarına adaptasyonunun belirlenmesi. Bahçe, 51, 8-18.
  • Atasoy, S., Sahin, G.T., & Balkaya, A. (2023). Lahanagil sebze türlerinin kök sistemi mimarileri yönünden karşılaştırılması. International Journal of Life Sciences and Biotechnology, 6(2), 193-207.
  • Azhar, F.M., Ali, Z., Akhtar, M.M., Khan, A.A., & Trethowan, R. (2009). Genetic variability of heat tolerance, and its effect on yield and fibre quality traits in upland cotton (Gossypium hirsutum L.), Plant Breeding, 128(4), 356–362.
  • Balkaya, A., & Karaağaç, O. (2005). Vegetable genetic resources of Turkey. Journal of Vegetable Science, 11(4), 81-102.
  • Balkaya, A. (2014). Aşılı sebze üretiminde kullanılan anaçlar. TÜRKTOB Türkiye Tohumcular Birliği Der, 3(106), 4-7.
  • Balkaya, A., Kandemir, D., & Sarıbaş, Ş. (2015). Türkiye sebze fidesi üretimindeki son gelişmeler. TÜRKTOB Türkiye Tohumcular Birliği Dergisi, 4(13), 4–8. Balkaya, A., Seçim, A., Erper, İ., Kandemir, D., & Sarıbaş, H.Ş. (2016). Aşılı patlıcan üretiminde genetik kaynakların anaç ıslah programında değerlendirilmesi ve yerli hibrit anaçların geliştirilmesi (Proje No. 0832.STZ.2014). T.C. Bilim, Sanayi ve Teknoloji Bakanlığı, SAN-TEZ Programı.
  • Behera, T.K., Sharma, P., Singh, B.K., Kumar, G., Kumar, R., Mohapatra, T., & Singh, N.K. (2006). Assessment of genetic diversity and species relationships in eggplant (Solanum melongena L.) using STMS markers, Scientia Horticulturae, 107, 352-357.
  • Bhandari, H.R., Bhanu, A.N., Srivastava, K., Singh, M.N., & Shreya, H.A. (2017). Assessment of genetic diversity in crop plants - an overview Advances in Plants & Agriculture Research. 7(3), 279-286.
  • Bishopp, A., Lynch, J. (2015). The hidden half of crop yields. Nature Plants, 1, 15117.
  • Calleja-Cabrera, J., Boter, M., Oñate-Sánchez, L., & Pernas, M. (2020). Root growth adaptation to climate change in crops. Frontiers Plant Science, 11:544, Doi:10.3389/fpls.2020.00544.
  • Chen, B.J., During, H.J., Vermeulen, P.J., de Kroon, H., Poorter, H., & Anten, N.P. (2015). Corrections for rooting volume and plant size reveal negative effects of neighbour presence on root allocation in pea. Functional Ecology, 29(11), 1383-1391.
  • Comas, L., Becker, S., Cruz, V.M., Byrne, P., & Dierig, D. (2013). Root traits contributing to plant productivity under drought. Frontiers in Plant Science, 4, 442.
  • Craine, J.M. (2006). Competition for nutrients and optimal root allocation. Plant and Soil, 285, 171-185.
  • Cakir Z., Balkaya A., Saribas S., & Kandemir D. (2017). The morphological diversity and fruit characterization of Turkish eggplant (Solanum melongena L.) populations. Ekin Journal of Crop Breeding and Genetics,3(2),34-44.
  • Daunay, M.C., & Hazra, P. (2012). Eggplant, In K.V. Peter & P. Hazra (Eds.). Handbook of vegetables. Studium Press, Houston, TX. (pp. 257–322).
  • de Dorlodot, S., Forster, B., Pagès, L., Price, A., Tuberosa, R., & Draye, X. (2007). Root system architecture: opportunities and constraints for genetic improvement of crops. Trends in plant science, 12(10), 474-481.
  • Delory, B.M., Hernandez-Soriano, M.C., Wacker, T.S., Dimitrova, A., Ding, Y., GreeleyLA, Ng J.L.P., Mesa-Marin, J., Xie, L., & Zheng, C. et al. (2022). A snapshot of the rootphenotyping landscape in 2021. BioRxiv, 2022-01.
  • Dinneny, J.R. (2019). Developmental responses to water and salinity in root systems. Annual Review of Cell and Developmental Biology, 35, 239–257.
  • FAO. (2022).“Food and Agriculture Organization of the United Nations”, https://www.fao.org (Access date: 10 March 2025).
  • Freschet, T., & Roumet, C. (2017). Sampling roots to capture plant and soil functions. Functional Ecology, 31(8), 1506–1518.
  • Gagnon, E., Baldaszti, L., Moonlight, P., Knapp, S., Lehmann, C.E.R., & Särkinen, T. (2023). Functional and ecological diversification of underground organs in Solanum. Frontiers in Genetics, 14, 1231413.
  • Hammer, K., & Teklu, Y. 2010. Bitki genetik kaynakları: Genetik erozyondan genetik mühendisliğine seçilmiş konular. Journal of Agriculture and Rural Development in the Tropics and Subtropics, 109, 15–50.
  • Jayasekera, R., & Lieth, H. (1993). Soil aeration as an ecological factor governing mangrove zonation. In H. Lieth & A. Al Masoom (Eds.), Towards the rational use of high salinity tolerant plants: Vol. 1. Deliberations about high salinity tolerant plants and ecosystems (pp. 231–236). Springer.
  • Ju, C., Buresh, R. J., Wang, Z., Zhang, H., Liu, L., Yang, J., & Zhang, J. (2015). Root and shoot traits for rice varieties with higher grain yield and higher nitrogen use efficiency at lower nitrogen rates application. Field Crops Research, 175, 47–55. https://doi.org/10.1016/j.fcr.2015.02.007
  • Kandemir, D., Sarıbaş, H.Ş., & Balkaya, A. (2016). Aşılı patlıcan üretiminde kullanılan anaçların verim ve kalite üzerine etkileri. Tarım Gündem Dergisi, 6(33), 24-28.
  • Karaagac, O., & Balkaya, A. (2013). Interspecific hybridization and hybrid seed yield of winter squash (Cucurbita maxima Duch.) and pumpkin (Cucurbita moschata Duch.) lines for rootstock breeding. Scientia Horticulturae, 149, 9–12. https://doi.org/10.1016/j.scienta.2012.09.037
  • Karaağaç, O., Taş, K., Özgen, R., Kanal, A., & Balkaya, A. (2020). Capsicum türlerinin kök yapılarının incelenmesi ve kök özellikleri yönünden karşılaştırılması. Yüzüncü Yıl University Journal of Agricultural Sciences, 30(2), 266–279.
  • Katuuramu, D.N., Wechter, W.P., Washington, M.L., Horry, M., Cutulle, M.A., Jarret, R.L., & Levi, A. (2020). Phenotypic diversity for root traits and identification of superior germplasm for root breeding in watermelon. HortScience, 55(8), 1272–1279.
  • Koevoets, I.T., Venema, J.H., Elzenga, J.T., & Testerink, C. (2016). Roots withstanding their environment: Exploiting root system architecture responses to abiotic stress to improve crop tolerance. Frontiers in Plant Science, 7, 1335.
  • Koral, A.Ö., & Türktaş, M. (2018). Patlıcanda Fusarium solgunluğuna dayanıklılık ve mücadele çalışmaları. Çukurova Tarım ve Gıda Bilimleri Dergisi, 33(1), 111–124.
  • Kulkarni, M., & Phalke, S. (2009). Evaluating variability of root size system and its constitutive traits in hot pepper (Capsicum annum L.) under water stress. Scientia Horticulturae, 120(2), 159–166.
  • Lambers, H., Shane, M.W., Cramer, M.D., Pearse, S.J., & Veneklaas, E.J. (2006). Root structure and functioning for efficient acquisition of phosphorus: Matching morphological and physiological traits. Annals of Botany, 98(4), 693–713.
  • Lima, T.T.S., Miranda, I.S., & Vasconcelos, S.S. (2010). Effects of water and nutrient availability on fine root growth in eastern Amazonian forest regrowth, Brazil. New Phytologist, 187(3), 622–630.
  • Malamy, J.E. (2005). Intrinsic and environmental response pathways that regulate root system architecture. Plant, Cell & Environment, 28(1), 67–77.
  • Meister, R., Rajani, M.S., Ruzicka, D., & Schachtman, D.P. (2014). Challenges of modifying root traits in crops for agriculture. Trends in Plant Science, 19(12), 779–788.
  • Mutegi, E., Snow, A.A., Rajkumar, M., Pasquet, R., Ponniah, H., Daunay, M.C., & Davidar, P. (2015). Genetic diversity and population structure of wild/weedy eggplant (Solanum insanum, Solanaceae) in southern India: Implications for conservation. American Journal of Botany, 102(1), 140–148.
  • Naujeer, H.B. (2009). Morphological diversity in eggplant (Solanum melongena L.), their related species and wild types conserved at the national gene bank in Mauritius, International master programme at the Swedish Biodiversity Centre, Master's Thesis No.57, Uppsala.
  • Ottaviani, G., Molina-Venegas, R., Charles-Dominique, T., Chelli, S., Campetella, G., Canullo, R., & Klimešová, J. (2020). The neglected belowground dimension of plant dominance. Trends in Ecology & Evolution, 35(9), 763–766.
  • Özgen, T., Balkaya, A., Erper, İ., & Şenay, M.D. (2020). A comparison of phenotypic root characteristics in local eggplant genotypes (Solanum melongena L.) infected and non-infected with Fusarium oxysporum f. sp. melongenae. Ekin Journal of Crop Breeding and Genetics, 6(2), 102–117.
  • Paez-Garcia, A., Motes, C.M., Scheible, W.R., Chen, R., Blancaflor, E.B., & Monteros, M.J. (2015). Root traits and phenotyping strategies for plant improvement. Plants, 4(2), 334–355.
  • Peláez Andérica, E., Rodríguez Burruezo, A., Prohens Tomás, J., & Fita, A. (2011). Root seedling morphology diversity in Capsicum spp. Bulletin of University of Agricultural Sciences and Veterinary Medicine Cluj-Napoca: Horticulture, 68(1), 535–536.
  • Ramachandran, P., Ramirez, A., & Dinneny, J.R. (2024). Rooting for survival: How plants tackle a challenging environment through a diversity of root forms and functions. Plant Physiology, 197(1), 586.
  • Rogers, E.D., & Benfey, P.N. (2015). Regulation of plant root system architecture: Implications for crop advancement. Current Opinion in Biotechnology, 32, 93–98.
  • Salgotra, R.K., & Chauhan, B.S. (2023). Genetic diversity, conservation, and utilization of plant genetic resources. Genes, 14(1), 174.
  • Salinier, J., Daunay, M.C., Talmot, V., Lecarpentier, C., Pagès, L., Bardel, A., Fournier, C., Torres, M., & Stevens, R. (2019). Root architectural trait diversity in aubergine (Solanum melongena L.) and related species and correlations with plant biomass. Crop Breeding, Genetics and Genomics, 1(2), e190011, https://doi.org/10.20900/cbgg20190011.
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Comparison of Eggplant Genotypes and Their Wild Solanum Relatives in Terms of Root System Architecture

Year 2025, Volume: 9 Issue: 3, 716 - 724, 27.09.2025
https://doi.org/10.31015/2025.3.9

Abstract

Genetic diversity facilitates the adaptation of plants to diverse environments and enables researchers to select superior genotypes adapted to specific growing conditions. In order to ascertain the root architecture and rooting potential of eggplants, wild relatives of eggplant sent by AVRDC landrace and commercially used eggplant cultivar were utilised.The root anatomy of the rootstocks was examined using the WinRhizo root analysis imaging device and root structures and rooting levels were determined. The following parameters were measured after 10, 20 and 30 days: root length, root diameter, root volume, root surface area, number of branches and tips. The data obtained revealed that the root length ranged from 1470.5 to 2762 cm, the root diameter from 1.89 to 2.99 mm, the root volume from 36.6 to 90.6 cm3, and the root surface area from 836.3 to 1393.1 cm2, number of branches from 10103.7 to 25717.0, number of tips from 5785.0 to 13623.0. As a consequence of the evaluations, it was revealed that S. scabrum, S. nigrum and S. aethiopicum genotypes were distinguished in numerous root parameters and demonstrated optimal rooting potential, thus rendering them suitable for incorporation into rootstock breeding programs.

References

  • Alas, E., & Öztekin, G.B. (2022). Bazı yabani patlıcan türlerinin Diyarbakır koşullarına adaptasyonunun belirlenmesi. Bahçe, 51, 8-18.
  • Atasoy, S., Sahin, G.T., & Balkaya, A. (2023). Lahanagil sebze türlerinin kök sistemi mimarileri yönünden karşılaştırılması. International Journal of Life Sciences and Biotechnology, 6(2), 193-207.
  • Azhar, F.M., Ali, Z., Akhtar, M.M., Khan, A.A., & Trethowan, R. (2009). Genetic variability of heat tolerance, and its effect on yield and fibre quality traits in upland cotton (Gossypium hirsutum L.), Plant Breeding, 128(4), 356–362.
  • Balkaya, A., & Karaağaç, O. (2005). Vegetable genetic resources of Turkey. Journal of Vegetable Science, 11(4), 81-102.
  • Balkaya, A. (2014). Aşılı sebze üretiminde kullanılan anaçlar. TÜRKTOB Türkiye Tohumcular Birliği Der, 3(106), 4-7.
  • Balkaya, A., Kandemir, D., & Sarıbaş, Ş. (2015). Türkiye sebze fidesi üretimindeki son gelişmeler. TÜRKTOB Türkiye Tohumcular Birliği Dergisi, 4(13), 4–8. Balkaya, A., Seçim, A., Erper, İ., Kandemir, D., & Sarıbaş, H.Ş. (2016). Aşılı patlıcan üretiminde genetik kaynakların anaç ıslah programında değerlendirilmesi ve yerli hibrit anaçların geliştirilmesi (Proje No. 0832.STZ.2014). T.C. Bilim, Sanayi ve Teknoloji Bakanlığı, SAN-TEZ Programı.
  • Behera, T.K., Sharma, P., Singh, B.K., Kumar, G., Kumar, R., Mohapatra, T., & Singh, N.K. (2006). Assessment of genetic diversity and species relationships in eggplant (Solanum melongena L.) using STMS markers, Scientia Horticulturae, 107, 352-357.
  • Bhandari, H.R., Bhanu, A.N., Srivastava, K., Singh, M.N., & Shreya, H.A. (2017). Assessment of genetic diversity in crop plants - an overview Advances in Plants & Agriculture Research. 7(3), 279-286.
  • Bishopp, A., Lynch, J. (2015). The hidden half of crop yields. Nature Plants, 1, 15117.
  • Calleja-Cabrera, J., Boter, M., Oñate-Sánchez, L., & Pernas, M. (2020). Root growth adaptation to climate change in crops. Frontiers Plant Science, 11:544, Doi:10.3389/fpls.2020.00544.
  • Chen, B.J., During, H.J., Vermeulen, P.J., de Kroon, H., Poorter, H., & Anten, N.P. (2015). Corrections for rooting volume and plant size reveal negative effects of neighbour presence on root allocation in pea. Functional Ecology, 29(11), 1383-1391.
  • Comas, L., Becker, S., Cruz, V.M., Byrne, P., & Dierig, D. (2013). Root traits contributing to plant productivity under drought. Frontiers in Plant Science, 4, 442.
  • Craine, J.M. (2006). Competition for nutrients and optimal root allocation. Plant and Soil, 285, 171-185.
  • Cakir Z., Balkaya A., Saribas S., & Kandemir D. (2017). The morphological diversity and fruit characterization of Turkish eggplant (Solanum melongena L.) populations. Ekin Journal of Crop Breeding and Genetics,3(2),34-44.
  • Daunay, M.C., & Hazra, P. (2012). Eggplant, In K.V. Peter & P. Hazra (Eds.). Handbook of vegetables. Studium Press, Houston, TX. (pp. 257–322).
  • de Dorlodot, S., Forster, B., Pagès, L., Price, A., Tuberosa, R., & Draye, X. (2007). Root system architecture: opportunities and constraints for genetic improvement of crops. Trends in plant science, 12(10), 474-481.
  • Delory, B.M., Hernandez-Soriano, M.C., Wacker, T.S., Dimitrova, A., Ding, Y., GreeleyLA, Ng J.L.P., Mesa-Marin, J., Xie, L., & Zheng, C. et al. (2022). A snapshot of the rootphenotyping landscape in 2021. BioRxiv, 2022-01.
  • Dinneny, J.R. (2019). Developmental responses to water and salinity in root systems. Annual Review of Cell and Developmental Biology, 35, 239–257.
  • FAO. (2022).“Food and Agriculture Organization of the United Nations”, https://www.fao.org (Access date: 10 March 2025).
  • Freschet, T., & Roumet, C. (2017). Sampling roots to capture plant and soil functions. Functional Ecology, 31(8), 1506–1518.
  • Gagnon, E., Baldaszti, L., Moonlight, P., Knapp, S., Lehmann, C.E.R., & Särkinen, T. (2023). Functional and ecological diversification of underground organs in Solanum. Frontiers in Genetics, 14, 1231413.
  • Hammer, K., & Teklu, Y. 2010. Bitki genetik kaynakları: Genetik erozyondan genetik mühendisliğine seçilmiş konular. Journal of Agriculture and Rural Development in the Tropics and Subtropics, 109, 15–50.
  • Jayasekera, R., & Lieth, H. (1993). Soil aeration as an ecological factor governing mangrove zonation. In H. Lieth & A. Al Masoom (Eds.), Towards the rational use of high salinity tolerant plants: Vol. 1. Deliberations about high salinity tolerant plants and ecosystems (pp. 231–236). Springer.
  • Ju, C., Buresh, R. J., Wang, Z., Zhang, H., Liu, L., Yang, J., & Zhang, J. (2015). Root and shoot traits for rice varieties with higher grain yield and higher nitrogen use efficiency at lower nitrogen rates application. Field Crops Research, 175, 47–55. https://doi.org/10.1016/j.fcr.2015.02.007
  • Kandemir, D., Sarıbaş, H.Ş., & Balkaya, A. (2016). Aşılı patlıcan üretiminde kullanılan anaçların verim ve kalite üzerine etkileri. Tarım Gündem Dergisi, 6(33), 24-28.
  • Karaagac, O., & Balkaya, A. (2013). Interspecific hybridization and hybrid seed yield of winter squash (Cucurbita maxima Duch.) and pumpkin (Cucurbita moschata Duch.) lines for rootstock breeding. Scientia Horticulturae, 149, 9–12. https://doi.org/10.1016/j.scienta.2012.09.037
  • Karaağaç, O., Taş, K., Özgen, R., Kanal, A., & Balkaya, A. (2020). Capsicum türlerinin kök yapılarının incelenmesi ve kök özellikleri yönünden karşılaştırılması. Yüzüncü Yıl University Journal of Agricultural Sciences, 30(2), 266–279.
  • Katuuramu, D.N., Wechter, W.P., Washington, M.L., Horry, M., Cutulle, M.A., Jarret, R.L., & Levi, A. (2020). Phenotypic diversity for root traits and identification of superior germplasm for root breeding in watermelon. HortScience, 55(8), 1272–1279.
  • Koevoets, I.T., Venema, J.H., Elzenga, J.T., & Testerink, C. (2016). Roots withstanding their environment: Exploiting root system architecture responses to abiotic stress to improve crop tolerance. Frontiers in Plant Science, 7, 1335.
  • Koral, A.Ö., & Türktaş, M. (2018). Patlıcanda Fusarium solgunluğuna dayanıklılık ve mücadele çalışmaları. Çukurova Tarım ve Gıda Bilimleri Dergisi, 33(1), 111–124.
  • Kulkarni, M., & Phalke, S. (2009). Evaluating variability of root size system and its constitutive traits in hot pepper (Capsicum annum L.) under water stress. Scientia Horticulturae, 120(2), 159–166.
  • Lambers, H., Shane, M.W., Cramer, M.D., Pearse, S.J., & Veneklaas, E.J. (2006). Root structure and functioning for efficient acquisition of phosphorus: Matching morphological and physiological traits. Annals of Botany, 98(4), 693–713.
  • Lima, T.T.S., Miranda, I.S., & Vasconcelos, S.S. (2010). Effects of water and nutrient availability on fine root growth in eastern Amazonian forest regrowth, Brazil. New Phytologist, 187(3), 622–630.
  • Malamy, J.E. (2005). Intrinsic and environmental response pathways that regulate root system architecture. Plant, Cell & Environment, 28(1), 67–77.
  • Meister, R., Rajani, M.S., Ruzicka, D., & Schachtman, D.P. (2014). Challenges of modifying root traits in crops for agriculture. Trends in Plant Science, 19(12), 779–788.
  • Mutegi, E., Snow, A.A., Rajkumar, M., Pasquet, R., Ponniah, H., Daunay, M.C., & Davidar, P. (2015). Genetic diversity and population structure of wild/weedy eggplant (Solanum insanum, Solanaceae) in southern India: Implications for conservation. American Journal of Botany, 102(1), 140–148.
  • Naujeer, H.B. (2009). Morphological diversity in eggplant (Solanum melongena L.), their related species and wild types conserved at the national gene bank in Mauritius, International master programme at the Swedish Biodiversity Centre, Master's Thesis No.57, Uppsala.
  • Ottaviani, G., Molina-Venegas, R., Charles-Dominique, T., Chelli, S., Campetella, G., Canullo, R., & Klimešová, J. (2020). The neglected belowground dimension of plant dominance. Trends in Ecology & Evolution, 35(9), 763–766.
  • Özgen, T., Balkaya, A., Erper, İ., & Şenay, M.D. (2020). A comparison of phenotypic root characteristics in local eggplant genotypes (Solanum melongena L.) infected and non-infected with Fusarium oxysporum f. sp. melongenae. Ekin Journal of Crop Breeding and Genetics, 6(2), 102–117.
  • Paez-Garcia, A., Motes, C.M., Scheible, W.R., Chen, R., Blancaflor, E.B., & Monteros, M.J. (2015). Root traits and phenotyping strategies for plant improvement. Plants, 4(2), 334–355.
  • Peláez Andérica, E., Rodríguez Burruezo, A., Prohens Tomás, J., & Fita, A. (2011). Root seedling morphology diversity in Capsicum spp. Bulletin of University of Agricultural Sciences and Veterinary Medicine Cluj-Napoca: Horticulture, 68(1), 535–536.
  • Ramachandran, P., Ramirez, A., & Dinneny, J.R. (2024). Rooting for survival: How plants tackle a challenging environment through a diversity of root forms and functions. Plant Physiology, 197(1), 586.
  • Rogers, E.D., & Benfey, P.N. (2015). Regulation of plant root system architecture: Implications for crop advancement. Current Opinion in Biotechnology, 32, 93–98.
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There are 59 citations in total.

Details

Primary Language English
Subjects Vegetable Growing and Treatment
Journal Section Research Articles
Authors

Melike Balci Gevez 0009-0006-2659-5630

Edip Alas 0000-0001-5242-7952

Sümeyye Güney 0009-0008-9928-9508

Ahmet Balkaya 0000-0001-9114-615X

Publication Date September 27, 2025
Submission Date April 14, 2025
Acceptance Date August 30, 2025
Published in Issue Year 2025 Volume: 9 Issue: 3

Cite

APA Balci Gevez, M., Alas, E., Güney, S., Balkaya, A. (2025). Comparison of Eggplant Genotypes and Their Wild Solanum Relatives in Terms of Root System Architecture. International Journal of Agriculture Environment and Food Sciences, 9(3), 716-724. https://doi.org/10.31015/2025.3.9

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