Selection of Suitable Sugar Beet Genotypes for Winter Sowing (Pending) in Torbat-e-Jam Region

Document Type : Research Article

Authors

1 Sugar Beet Research Department, Khorasan Razavi Agricultural and Natural Resources Research and Education Center, AREEO, Mashhad, Iran

2 Sugar Beet Seed Institute (SBSI), Iran

Abstract

Introduction
Most areas under spring sugar beet cultivation face severe water restrictions and increasing the area under cultivation of this crop in most of these areas is contrary to the principle of conservation of water and soil resources. The use of new areas for winter sugar beet cultivation should be the area under cultivation of this crop in hot and dry areas. Therefore, winter sowing (pending) of sugar beet with emphasis on the limitations of the country's water resources has been proposed as a solution.
Materials and Methods
In this study, the quantitative and qualitative yield of 16 sugar beet genotypes in winter planting were studied as a randomized complete block design with four replications in the Torbat-e-Jam region in the two cropping years (2020-2021 and 2021-2022). The studied genotypes included F-20739, F-20837, F-21083, SBSI-5, SBSI-15, SVZA 2019-JD389, SVZA 2019-JD0402, SVZA 2019-JD0400, SVZA 2019-JD0401, FDIR 19 B 3021, FDIR 19 B 4028, F-20591, SBSI-6, SBSI-16, SBSI-7 and SBSI-17 are the breeding populations obtained from the gene bank of the Sugar Beet Seed Breeding Research Institute. In this research, traits such as root yield, sugar content, sugar yield, white sugar yield, Na, K, N, alkalinity, molasses sugar, white sugar content, and extraction coefficient of sugar were measured. Data were analyzed using SAS 9.1 software. The analysis of variance on test data and comparison to the middle of the Duncan test was performed at the 5% level. Factor analysis was calculated to identify the main factors using MINITAB software. Cluster analysis of the studied genotypes was obtained after standardizing the data by the Ward method and using Euclidean distance criterion with the help of SPSS software.
Results and Discussion
The results of the combined analysis of variance showed that there was a significant difference between different genotypes of sugar beet at the level of 1% probability for all studied traits except for nitrogen content. The mean comparison showed that the SBSI-15 genotype had the highest root yield (60.66 ton.ha). It should be noted that this genotype in terms of yield index traits did not show significantly different from genotypes F-20739, SBSI-15, SVZA 2019-JD389, SVZA 2019-JD0402, SVZA 2019-JD0400, SVZA 2019-JD0401, and FDIR 19 B 4028. Also, the F-20739 genotype had the highest amounts of sugar content (19.5%), white sugar content (16.3%) and extraction coefficient of sugar (83.2%) and the lowest amount of potassium (4.24 meq .100 g-1 of root weight) and Molasses sugar (2.7%). In addition, the highest sugar yield (10.69 t/ha) and white sugar yield (8.68 t/ha) were in FDIR 19 B 3021 genotype. Investigating the correlation of traits showed the highest positive and significant correlation was between sugar yield and white sugar yield (0.99**) and the highest negative and significant correlation was between extraction coefficient of sugar and molasses sugar (-0.95**). Principal factor analysis based on the mean of the traits identified three factors that accounted for a total of 91% of the variability between the data. SBSI-15, SVZA 2019-JD0398, SVZA 2019-JD0402, SVZA 2019-JD0400, SVZA 2019-JD0401, FDIR 19 B 3021, and FDIR 19 B 4028 genotypes are distinguished different from other genotypes and they were as superior genotypes in terms of yield index traits. The dendrogram generated from the cluster analysis for white sugar yield classified genotypes into three main groups.
Conclusion
In general, SVZA 2019-JD0401, FDIR 19 B 3021, and FDIR 19 B 4028 genotypes were introduced as superior genotypes with the highest white sugar yield and suitable for winter sowing in Torbat-e Jam region.

Keywords

Main Subjects

References

  1. Abdolahian Noghabi, M., Radaei Alamoli, Z., Akbari, G., and Sadat Nouri, S. A. 2011. Effect of sever water stress on the morphologic, quantitative and qualitative characteristics of 20 sugar beet genotype. Iranian Journal of Field Crop Science 42 (3): 453-646. (in Persian).
  2. Abdollahian Noghabi, M., Sheikholeslami, R., and Babaei, B. 2005. Terms and definitions of technological quantity and quality of sugar Sugar Beet Journal 21: 101-104. (in Persian)
  3. Ahmadi, M., Rezaei, J., Hamidi, H., Teleghani, D., Yosefabadi, V., and Soltani J. 2021. Autumn sugar beet transplanting in February and winter cultivation in Khorasan Razavi province. Sugar Beet Seed Institute. (60181). (in Persian).
  4. Ahmadi, M., Taleghani, D., and Shahbazi, H. A. 2017. Investigating the feasibility of growing autumn-sown sugar beet in southern part of khorasan razavi province. Sugar Beet Journal 33 (1):46-33. (in Persian). https://doi.org/10.22092/jsb.2017.103535.1109
  5. Ahmadi, M. 2012. Assessing the possibility of autumn sugar beet cropping in the south of Khorasan-e-Razavi province. Final Report Project of Sugar Beet Seed Institute. No. 91.41200. Iran. (in Persian).
  6. Ahmadian, M., Mohammadinejad, A., and Rahimi, R. 2012. Determining welfare effects of technological improvement policy for sugar beet. Sugar Beet Journal 27 (2): 51-7. (in Persian). https://doi.org/10.22092/jsb.2012.1656
  7. Bagheri Shirvan, M., Asadi, G. A., and Koochecki, A. 2020. Evaluation of quantity and quality characteristics of sugar beet varieties in different sowing date of direct sowing and transplanting in Shirvan and Mashhad. Iranian Journal Field Crops Research 17 (4): 551-565. (in Persian). https://doi.org/10.22067/gsc.v17i4.76512
  8. Bayat, A., Dastmalchi, A., Shahbazi, H. A., and Fazli, H. 2000. Investigation the possibility of winter cultivation (Entezari) of sugar beet without irrigation to get water from cereals. Final report of project. Khorsan Razavi Agricultural Research Center, No: 80.409. 26 p. (in Persian).
  9. Curcic, Z., Ciric, M., Nagl, N., and Taski-Ajdukovic, K. 2018. Effect of sugar beet genotype, planting and harvesting dates and their interaction on sugar yield. Frontiers in Plant Science 9: 1041. https://doi.org/10.3389/fpls.2018.01041
  10. Durr, C., and Boiffin, J. 1995. Sugar beet seedling growth from germination to first leaf stage. Journal of Agricultural Science. Cambridge. 124: 427-435. https://doi.org/10.1017/S002185960007338X
  11. Ghafari, E., Rajabi, A., Izadi, D. A., Rouzbeh, F., and Amiri, R. 2016. Evaluation of new sugar beet monogerm hybrids for drought tolerance. Crop Breeding Journal 8 (17): 8-16. (in Persian). https://doi.org/10.18869/acadpub.jcb.8.17.16
  12. Harman, H. H. 1976. Modern factor analysis. 3nd ed. University of Chicago Press, Chicago. 376 pp.
  13. Hamidi, H., Ahmadi, M., Ramezanpour, S. S., and Masomi, A. 2018. Evaluation of genetic diversity in sugar beet half-sib inbred lines under farm water stress condition. Crop Breeding Journal 10 (28):145-54. (in Persian). http://doi.org/10.29252/jcb.10.28.145
  14. Hosseini, S., Sadeghian, S., and Hasanpour, E. 2007. Assessing the effects of sugar beet research on the shift of sugar supply in Iran. Sugar Beet Journal 23 (1): 79-92. (in Persian). https://doi.org/10.22092/jsb.2007.1254
  15. Hosseinpour, M. 2006. Effect of nitrogen management of irrigation water and period growth during on water and light use efficiency in winter sugar beet. Ph.D dissertation. Tarbiat Modares University. (in Persian).
  16. Ilkaee, M. N., Forozesh, P., Habibi, D., Taleghani, D., and Rajabi, A. 2016. Response of different sugar beet genotypes to water deficit stress. Sugar Beet Journal 32 (2): 135-146. (in Persian). https://doi.org/10.22092/jsb.2016.107054
  17. Jackson, J. E. 1991. A users guide to principal components. John Wiley and Sons Pub., New York.
  18. Jahadakbar, M., Ebrahimian, H. R., and Taleghani, D. 2013. Sugar beet autumn planting in warm areas of Esfahan province and Izeh Khozestan. Scientific Journal of Promoting Research Findings in Crops and Horticulture 1 (2): 189-201. (in Persian). https://doi.org/10.22092/rafhc.2012.100128
  19. Kandil, A., Badawi, M., El-Mursy, S., and Abdou, U. 2004. Effect of planting dates, nitrogen levels and bio-fertilization treatments on 1: Growth attributes of sugar beet (Beta vulgaris). Scientific Journal of King Faisal University (Basic Appl. Sci.). 5 (2): 227-36.
  20. Loel, J., and Hoffmann, C. M. 2014. Importance of growth stage and weather conditions for the winter hardiness of autumn sown sugar beet. Field Crops Research 162: 70-6. https://doi.org/10.1016/j.fcr.2014.03.007
  21. Oroojnia, S., Habibi, D., Taleghani, D., Safari Dolatabadi, S., Pazok, A., Moaveni, P., Rahmani, M., and Farshidi, M. 2012. Evaluation of yield and yield components of different sugar beet genotypes under drought stress. Iranian Journal Agronomy Plant Breeding 8 (1): 127-144. (in Persian).
  22. Pfeiffer, N., Tränkner, C., Lemnian, I., Grosse, I., Müller, A. E., and Jung, C. 2014. Genetic analysis of bolting after winter in sugar beet (Beta vulgaris). Theoretical and Applied Genetics 127(11): 2479-89. https://doi.org/10.1007/s00122-014-2392-x
  23. Rajabi, A., Moghaddam, M., Rahimzadeh, F., Mesbah, M., and Ranji, Z. 2002. Evaluation of genetic diversity in sugar beet (Beta vulgaris L.) populations for agronomic traits and crop quality. Iranian Journal Agricultural Science 33 (3): 553-67. (in Persian).
  24. Reinsdorf, E., Koch, H. J., and Märländer, B. 2013. Phenotype related differences in frost tolerance of winter sugar beet (Beta vulgaris). Field Crops Research 151: 27-34. https://doi.org/10.1016/j.fcr.2013.07.007
  25. Sadeghi-Shoae, M., Taleghani, D. F., and Habibi, D. 2017. Feasibility study of winter sowing of sugar beet genotypes in moghan region. Research on Crops 18 (3): 534-40. http://doi.org/10.5958/2348-7542.2017.00092.4
  26. Sadeghzadeh, S., Shirzadi, M. H., Aghayeezadeh, M., Taleghani, D. F., Javaheri, M. A., and Aliasgari, A. Evaluation of sowing and harvesting date effects on yield and quality of five sugar beet cultivars in Jiroft region (autumn planting). Jounal of Sugar Beet Reseacrch 28 (1): 25-42. (in Persian). https://doi.org/10.22092/jsb.2012.659
  27. Stephan, H., Böttcher, U., Sieling, K., and Kage, H. 2020. Yield potential of non-bolting winter sugar beet in Germany. European Journal Agronomy 115: 126035. https://doi.org/10.1016/j.eja.2020.126035
  28. Taleghani, D., Moharamzadeh, M., Hemayati, S., Mohammadian, R., and Farahmand, R. 2011. Effect of sowing and harvest time on yield of autumn-sown sugar beet in Moghan region in Iran. Seed and Plant Production Journal 27-2 (3): 355-371. (in Persian).
  29. Tazikeh, N., Biabani, A., Saberi, A., Rahemi Karizaki, A., and Naeimi, M. 2021. Effect of leaf removal on quantitative and qualitative characteristics of autumn sugar beet cultivars in Golestan privince. Iranian Journal Field Crops Research 19 (2): 141-151. (in Persian). https://doi.org/10.22067/jcesc.2021.37178.0
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Iranian Journal of Field Crops Research
Volume 20, Issue 3 - Serial Number 67
October 2022
Pages 335-348

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History

  • Receive Date: 17 January 2022
  • Revise Date: 29 March 2022
  • Accept Date: 17 April 2022
  • First Publish Date: 17 April 2022

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