Evaluation of Drought Tolerance in Some Sesame (Sesamum indicum L.) Genotypes Based on Stress Tolerance Indices

Document Type : Research Article

Authors

1 Department of Agronomy and Plant Breeding, Birjand Branch, Isalmic Azad University, Birjand

2 Department, Birjand Branch, Islamic Azad University, Birjand

Abstract

Introduction
Sesame is one of the oldest crops. Ethiopia is commonly accepted as the origin of domestic sesame. Sesame is a diploid (2n = 26) plant that grows as a bush. Sesame has a special place among oil plants due to its high oil content and quality as well as its high oil durability. Drought stress is a condition that cells and tissues are in a state where their inflammation is incomplete. In other words, dehydration occurs when the amount of transpiration exceeds the amount of water absorbed. Drought is one of the most important causes of declining agricultural productivity worldwide. Drought has destructive and detrimental effects on different stages of plant growth and reduces yield and yield components in sesame genotypes. Due to the serious problem of limited water resources and drought and its effect on yield reduction, this study to evaluate drought tolerance of sesame genotypes based on tolerance indices to identify and group sensitive, tolerant and resistant genotypes and select resistant genotypes and identify correlations of related traits. Drought tolerance was performed through field studies.
Materials and Methods
In order to evaluate the genetic diversity of different sesame genotypes under non-stress and drought stress conditions, an Augmented design was conducted in three blocks on 32 genotypes in the southeastern fields of Bojnourd in 2018. Genotypes used were obtained from Karaj Seed and Plant Breeding Research Institute in the amount of 1.5 grams per sample. In this experiment, one plot of land was allocated to the drought stress environment and the other to the stress-free environment. The distance between these two environments was considered to be five meters so that the humidity of the two adjacent environments did not affect each other. With the onset of stress flowering on the target medium, application and irrigation of the dry stress plot based on 200 mm and the non-stress plot based on 100 mm evaporation from the pan was performed. Cumulative evaporation from the pan determined the arrival time of irrigation in each of the environments. SAS PLUS software for calculating variance analysis, principal component analysis and mean comparison, S-PLUS software for drawing 3D and bipod diagrams, SPSS software for calculating the correlation of traits and correlation of tolerance indices and cluster tolerance analysis, respectively, from EXCEL Action was taken.
Results and Discussion
The studied genotypes showed a significant difference at the level of 1% probability in terms of traits measured under non-stress and drought stress conditions, which indicated genetic diversity and the possibility of selecting drought tolerant genotypes. Darab 14 genotype with 2344 kg.ha-1 had the highest grain yield and the Markazi genotype with 1148 kg.ha-1 had the lowest grain yield in non-stress conditions. Under drought stress conditions, Darab 14 genotype with 1360 kg.ha-1 had the highest grain yield which showed a 58% decrease compared to non-stress conditions. Also, the lowest grain yield was observed in Pakistani genotype with 624 kg.ha-1, which was 53% less than non-stress conditions. Based on the results, Darab 14 genotype showed the highest values of MP, GMP, TOL and STI tolerance indices and the correlation analysis between yield under stress and non stress conditions with drought tolerance indices also showed that STI, GMP, MP and TOL indices the most suitable indices are for screening sesame genotype. Using three-dimensional diagrams of YS, YP and STI, the genotypes were divided into two groups A and C under drought stress conditions. In order to investigate the correlation between different agronomic traits in comparing the grain yield of genotypes and determine their relationships, a simple correlation was calculated in both non-stress and drought stress environments, which showed a positive and significant correlation between yield and yield components in both conditions.
Conclusions
This study showed that comparison genotypes significant differences in terms of measurable traits in non-stress and drought stress conditions. Using MP, GMP, TOL, SSI and STI indices, genotypes can be separated to a large extent based on stress tolerance. Based on these indices and considering the performance in two environmental conditions Darab 14, Shaban and Yekehsaud is were identified as the most tolerant.

Keywords


  1. Askari, A., Zabet, M., Ghaderi M. G., and Shorvazdi, A. 2016. Choose the most important traits affecting on yield of some sesame genotypes (Sesamum indicum L.) in normal and stress conditions. Journal of Crop Breeding 8: 78 -87. (in Persian with English abstract).
  2. Awasthi, R., Kaushal, N., Vadez, V., Turner, N. C., Berger, J., Siddique, K. H., and Nayyar, H. 2014. Individual and combined effects of transient drought and heat stress on carbon assimilation and seed filling in chickpea. Functional Plant Biology 41 (11): 1148-1167.
  3. Ayeen, A. 2013. Effect of eliminating of irrigation at different growth stages on seed yield and some agronomic traits of two sesame genotypes. Seed and Plant 29 (1): 67-79. (in Persian with English abstract).
  4. Bharathi, K. K., and Vivekanandan, P. 2009. Correlation and path analysis for seed yield in sesame (Sesamum indicum L.). Electronic Journal of Plant Breeding 1 (1): 70-73.
  5. Boureima, S., Diouf, M., Amoukou, A. I., and Van Damme, P. 2016. Screening for sources of tolerance to drought in sesame induced mutants: Assessment of indirect selection criteria for seed yield. International Journal of Pure and Applied Biosience 4 (1): 45-60.
  6. Bray, E. A. 1997. Plant response to water deficit. Trends in Plant Science 2 (2): 48-54.
  7. Choukan, R., Taherkhani, T., Ghannadha, M. R., and Khodarahmi, M. 2006. Evaluation of drought tolerance maize lines by drought stress tolerance indices. Iranian Journal of Crop Sciences 8 (1): 2000-2010. (in Persian with English abstract).
  8. Dargahi, Y., Asghari, A., Shokrpour, M., and Rasoulzadeh A. 2012. Effect of water deficit stress on root morphological characters in sesame cultivars. Journal of Production of Crops 5 (4): 151-172. (in Persian with English abstract).
  9. Dilip, K., Ajumer, M., and Roy, S. 1991. Response of summer sesame (Sesamum indicum L.) to irrigation, rowspacing and plant population. Indian Journal of Agronomy 37: 758-762.
  10. Duta, P., Jana, K., Bandypadhyay, P., and D. Maity. 2000. Response of summer (Sesamum indicum L.) to irrigation. Indian Journal of Agronomy 54: 613-616.
  11. Eshghi, A. Gh., Muzaffari, J., and Azizov, A. 2011. Evaluation of different sesame genotypes in terms of tolerance to limited irrigation conditions using multivariate analysis methods. First National Congress of Advanced Agricultural Sciences and Technologies, Zanjan University, 10-21 September. p. 58. (in Persian).
  12. Eskandari, H., Zehtab Salmasi, S., and Ghasemi-Golezani, K. 2010. Evaluation of water use efficiency and seed yield of sesame cultivars as a second crop under different irrigation regimes. Journal of Agricultural Science and Suitable Production 20 (1): 39-51. (in Persian with English abstract).
  13. Eskandari. H., ZehtabSalmasi, S., Ghassemi-Golezani, K., and Gharineh, M. H. 2009. Effects of water limitation on grain and oil yields of sesame cultivars. Journal of Food, Agriculture and Environment 7 (2): 339-342.
  14. Fanaee, H., Naroee Rad, M., and Mohammad Ghasemi, M. 2014. Evaluation of seed yield, yield components and tolerance to drought stress of spring canola genotypes. Seed and Plant 30 (2): 269-287. (in Persian with English abstract).
  15. Farahbakhsh, S., and Farahbakhsh, H. 2014. Effect of Drought Stress on Yield and Yield Components of Sesame cultivars under Kerman conditions (Sesamum indicum L.). Iranian Journal of Field Crops Research 12 (4): 776-783. (in Persian).
  16. Faraji, F. 2016. Evaluation of some soybean genotypes (Glycine max) under salt stress. Journal of Crop Breeding 8: 30-36. (in Persian with English abstract).
  17. Farshadfar, A. 2000. Selection for Drought tolerance in bread wheat lines, Journal of Agricultural Sciences and Industries 14 (2): 161-171.
  18. Farshadfar, A., Zamani, M. R., Matlabi, M., and Imam Jomeh A. A. 2001. Selection for drought tolerance in chickpea lines. Iranian Journal of Agricultural Sciences 32 (1): 65-77. (in Persian).
  19. Fernandez, GCJ. 1992. Effective selection criteria for assessing plant stress tolerance. Pp. 257-270.Proceedings of the International Symposium on Adaptation of Vegetables and other Food Crops to Temperature and Water Stress. AVRDC, Shanhua, Taiwan.
  20. Fischer, R. A., and Maurer, R. 1978. Drought resistance in spring wheat cultivars. I. Grain yield responses. Australian Journal of Agriculture Research 29: 897-912.
  21. Golestani, M., and Pakniat, H. 2007. Evaluation of drought tolerance indices in sesame (Sesamum indicum L.) lines. Journal of Science Technology of Agriculture and Natural Resources 11 (41): 141-149. (in Persian).
  22. Hamrouni, I., Salah, H. B., and Marzouk, B. 2001. Effects of water-deficit on lipids of safflower aerial parts. Phytochemistry 58 (2): 277-280.
  23. Hassanzadeh, A., Ebadi, A., Panahyan-e-Kivi, M., Jamaati-e-Somarin, Sh., Saeidi, M., and Gholipouri, A. 2009. Investigation of water stress on yield and yield components of sesame (Sesamum indicum L.) in Moghan region. Research Journal of Environmental Sciences 3 (2): 239- 244.
  24. Heidari, M., Galnvi, M., and Hassani, M. 2011. Effects of sulfur and iron fertilizers on yield, yield components and nutrient uptake in Sesame (Sesamum indicum L.) under water stress. African Journal of Biotechnology 10 (44): 8816- 8822.
  25. Heydari Sharif Abad, H. 2001. The plants and salinity. Research Institute of Forests and Rangelands. pp: 199.
  26. Jian, S., Yue-Liang, R., Mei-Wang, L., Ting-Xian, Y., Xiao-Wen, Y., and Hong-Ying, Z. 2010. Effect of drought stress on Sesame growth and yield characteristics and comprehensive evaluation of drought tolerance. Chinese Journal of Oil Crop Sciences 4: 525- 533.
  27. Kandasamy, G., Manchoram, V., and Thangovelu, S. 1990. Variability of metric traits and character association in sesame in two. Sesame and Safflower Newsletter 5: 10-15.
  28. Kargar, S. M. A., Ghanadha, M. R., Bozorgipour, R., Khajeh Ahmad Atari, A. A., and Babaei, H. R. 2004. Evaluation of drought tolerance indices in some soybean genotypes in limited irrigation conditions. Iranian Journal of Agricultural Sciences 35 (1): 129-142. (in Persian with English abstract).
  29. Kassab, O. M., Mehanna, H. M., and Aboelill, A. 2012. Drought impact on growth and yield of some sesame varieties. Applied Sciences Research 8 (8): 4544-4551.
  30. Kathiresan, G., and Gnanamurthy, P. 2000. Studies on seed yield-contributing characters in sesame. Sesame and Sofflower Newsletter 15: 29-32.
  31. Khajehpour, M. R. 2004. Industrial plants. Jahad University Publications of Isfahan Industrial Branch. 564 pages.
  32. Khammar, M. 2007. Evaluation of drought stress on different cultivars of sesame (Sesamum indicum L.). Master's Thesis. University of Zabol. 144 pages.
  33. Kolaeiyan, A., and GholamiSefidKuhi, M. 2012. Introducing the best method for determining the effective rainfall of rice cultivation in Ghaemshahr. Third National Conference on Water Resources Management. Sari University of Agricultural Sciences and Natural Resources. (in Persian with English abstract).
  34. Lalpantluangi, P. C., and Pankaj, SH. 2018. Character association and path coefficient analysis in sesame (Sesamum indicum L.) genotypes under foothill condition of Nagaland. The Pharma Innovation Journal 7 (5): 82-87.
  35. Laribi, B., Bettaieb, I., Kouki, K., Sahli, A., Mougou, A., and Marzouk, B., 2009. Water deficit effects on caraway (Carum carvi L.) growth, essential oil and fatty acid composition. Industrial Crops and Products 30 (3): 372-379.
  36. Mahmood, S., Iram, S., and Athar, H. R. 2012. Intra-specific variability in sesame (Sesamum indicum L.) for various quantitive and qualitive attributes under differential salt regimes. Journal of Research (Science), Bahauddin Zakariya university , Multan, Pakistan 14 (2): 177-186.
  37. Mehrabi, Z., and Ehsanzadeh, P. 2010. Investigation of the effect of drought stress on yield components and grain yield of four sesame cultivars. Fifth National Conference on New Ideas. Azad University of Khorasgan Branch (Isfahan). (in Persian with English abstract).
  38. Mehrabi, Z., and Ehsanzadeh, P. 2011. A study on physiological attributes and grain yield of sesame (Sesamum indicum L.) cultivars under different soil moisture regimes. Journal of Crops Improvement 13 (2): 75-88. (in Persian with English abstract).
  39. Moghnibashi, M., and Razmjoo, J. 2012. Effect of Seed Treatment with PEG and Irrigation Regimes on Yield, Yield Component and Yield Oil of Sesame (Sesame indicum L.). Iranian Journal of Field Crops Research 10 (1): 91-99. (in Persian).
  40. Mollasadeghi, V., Gharib Eshghi, A., Shahryari, R., and Serajamani, R. 2013. Study on morphological traits of bread wheat genotypes and their relation with grain yield, under the condition of drought stress after anthesis and normal irrigation. International Journal of Farming and Allied Sciences 2 September. 1284-1291.
  41. Mousavi, S. F., and Akhavan, S. 2007. Irrigation Principles, Press Kankash, 415. (in Persian).
  42. Naderi, A., Majidi-Hevan, E., Hashemi-Dezfoli, A., and Nourmohammadi, G. 2000. Efficiency analysis of indices for tolerance to environmental stresses in field crops and introduction of a new index. Plant and Seed Journal 15 (4): 390-402. (in Persian with English abstract).
  43. Naeimi, M., Akbari, Gh. A., Shirani Rad, A. H., Sanavi, S. A. M. M., Sadat Noori, S. A., and Jabari, H. 2008. Evaluation drought Tolerance in different varieties by evaluation indices of stress in end of growth season. Journal of Crop Production 1 (3): 83-89. (in Persian with English abstract).
  44. Najafi, H., and Safari, M. 2012. Evaluation of effect of drought stress on yield and yield components and oil percentage in sesame cultivars. Proceedings of the 11th national Seminar of irrigation and evaporation reduction. Bahonar Kerman University. Kerman. Iran.
  45. Nourouzpour, Gh., Rezvani Moghaddam, P. 2006. Effect of different irrigation intervals and plant density on yield and yield components of Black Cumin (Nigella sativa). Iranian Journal of Field Crops Research 3 (2): 305-315. (in Persian with English abstract).
  46. Padmavathi, N., and Thangavelu, S. 1996. Association of various yield components in sesame. Sesame and Sofflower Newsletter 11: 40-45.
  47. Paknejad, F., Majidi, E., Noormohammadi, G., Seadat, A., and Vazan, F. 2007. Evaluation of Drought Stress on Effective Traits at Accumulative Assimilate of Grain in Different Cultivars of Wheat. Journal of Agricultural Sciences Islamic Azad University 13 (1): 137-149. (in Persian with English abstract).
  48. Pandy, R. K., Herrera, W. A. T., Villegas, A. N., and Pendleton, J. W. 1984. Drought response of grain legumes under irrigation gradient. Agronomy Journal 76: 557-560.
  49. Poor-Esmaeili, H. A., Fanaeib, H. R., and Saberic, M. H. 2014. Evaluation of drought tolerant cultivars and lines of sesame using stress tolerance indices. Scientific Journal of Crop Science 3 (6): 66-70.
  50. Pouresmaiel, H. A., Saberi, M. H., and Fanaei, H. R. 2013. Evaluation of terminal drought stress tolerance of Sesamum Indicum L. genotypes under the Sistan region conditions, International Journal of Science and Engineering Investtigations 2: 58-61.
  51. Ramirez-Vallejo, P., and Kelly, J. D. 1998. Traits related to drought resistance in common bean. Euphytica 99: 127-136.
  52. Rezaeizad, A. 2007. Responses of Sunflower genotypes to drought stress using different stress tolerance indices. Journal of Seedlings and Seeds 23 (1): 43-58. (in Persian).
  53. Rezvani Moghaddam, P., Norozpoor, Gh., Nabati, J., and Mohammad Abadi, A. A. 2005. Effects of different irrigation intervals and plant density on morphological characteristics, grain and oil yields of sesame (Sesamum indicum). Iranian Journal of Field Crops Research 3 (1): 57-68. (in Persian with English abstract).
  54. Roebbelen, G. R., Downwy, K., and Ashri, A. 1989. Oil crops of world. McGrow-Hill Publisher, New York.
  55. Rosielle, A. A., and Hambling, J. 1981. Theoretical aspects of selection for yield in stress and non-stress environments. Crop Science 21: 943-946.
  56. Ruziev, B. R. 1973. The responses of wheat varieties to irrigation in Kaska-Darya Province. Byulleten V.Sesoyuzongc Ordena Lenina Institute Rasteniev Dstva Imeni. N.I. Vavilovia 33: 16-23.
  57. Saeidi, A., Tohidi-Nejad, E., Ebrahimi, F., Mahmoodi-Nejad, G., and Shirzadi, M. H. 2012. Investigation of water stress on yield and some yield components of sesam genotypes (Seamum indicum L.) in jiroft region. Journal of Applied Sciences Research 8 (1): 243-246.
  58. Salehpour, M., Ebadi, A., Izadi, M., and Jamaati-e-Somarin, S. 2009. Evaluation of water stress and nitrogen fertilizer effects on relative water content, membrane stability index, chlorophyll and some other traits of lentils (Lensculinaris L.) under hydroponics conditions. Journal of Environmental Sciences 3 (1): 103-109.
  59. Sarmadnia, Gh. H. 1993. The Importance of Environmental Tensions in Agriculture. First Congress of Agriculture and Plant Breeding of Iran, Faculty of Agriculture and Natural Resources, Karaj, University of Tehran. 30 pages.
  60. Shahrabi, B., Farahmandfar, E., Hassanlo, T., Shirani Rad, A. H., and Tabatabaee, S. A. 2013. Evaluation of drought tolerance in rapeseed varieties based on physiological and agronomical characteristics at Yazd region. Journal of Crop Production 6 (4): 97-77. (in Persian with English abstract).
  61. Shiri, M., Valizadeh, M., Majidi, E., Sanjari, A., and Gharib Eshghi, A. 2010. Evaluation of wheat tolerant indices to moisture stress condition Electronic. Journal on Crop Production 3 (3): 143-161. (in Persian with English abstract).
  62. Shokooh-Far, A. R., and Yaghoubi-Nejad, S. 2012. Effect of drought stress on yield components of different sesame cultivars. Journal of Agronomy and Plant Breeding 8 (4): 19-29.
  63. Singh, A. J., and Byerlee, D. 1990. Relative variability in wheat yields across countries and over time. Journal of Agricultural Economics 1: 30-32.
  64. Singh, J., and Patel, A. L. 1996. Water status, gaseous exchange proline accumulation and yield of wheat in response to water stress. Annals of Biology 12: 77-81.
  65. Sio-Se Mardeh, A., Ahmadi, A., Poustini, K., and Mohammadi, V. 2006. Evaluation of drought resistance indices under various environmental conditioning. Field Crop Research 98: 222-229. (in Persian with English abstract).
  66.  Soleimani, A., Bihamta, M. R., Peyghambari, S. A., and Maali-Amiri, R. 2017. Evaluation of late season drought in barley genotypes using some drought tolerance indices. Journal of Crop Breeding 9 (23): 166-176. (in Persian with English abstract).
  67. Taiz, L., and Zeiger, E. 1991. Plant Physiology, Benjamin/Cummings, California.
  68. Ward, J. H. 1963. Hierarchical Grouping to Optimize an Objective Function. Journal of the American Statistical Association 58: 236-244.
  69. Weise, E. A. 2000. Oilseed crops. Blackwell Sci., Ltd Oxford, UK. 364p.
  70. Wright, P. R., Morgan, J. M., Jossop, R. S., and Cass, A. 1995. Comparative adaptation of canola and Indian mustard to soil water deficit. Field Crops Research 42: 1-13.
  71. Zabet, M., and Samadzadeh. A. R. 2014. Evaluation of water stress tolerance in some sesame genotypes. Journal of Applied Crop Breeding 2 (2): 185-197. (in Persian).
  72. Zali, H., Hasanloo, T., Sofalian, O., Asghari, A., and Zeinalabedini, M. 2016. Appropriate strategies for selection of drought tolerant genotypes in Canola. Journal of Crop Breeding 8 (20): 77-90. (in Persian with English abstract).
  73. Zare, M., Zinali Khaneghah, H., and Danshianov, J. 2004. Evaluation of drought tolerance of some soybean genotypes. Iranian Journal of Agricultural Sciences 35 (4): 859-867. (in Persian with English abstract).
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Volume 18, Issue 4 - Serial Number 60
January 2021
Pages 413-433
  • Receive Date: 16 August 2020
  • Revise Date: 29 December 2020
  • Accept Date: 03 January 2021
  • First Publish Date: 03 January 2021