Association of Seed Yield, Oil and Related Traits in Safflower Genotypes under Normal and Drought Stress

Document Type : Research Article

Authors

Isfahan University of Technology

Abstract

This research was investigated to study relationship among seed yield, seed yield components and morphological traits and their direct and indirect effects on seed yield of 100 safflower genotypes in two water environments (normal and drought stress) at Research Farm of Isfahan University of Technology during 2012. Seed yield had positive correlation with number of head per plant, seed per head, number of branch, 100-seed weight, oil percent, harvest index and biological yield and negative correlation with branching height in both moisture conditions. Stepwise regression analysis defined the most important components of seed yield and indicated that under normal condition number of head per plant and number of seed per head should be improved respectively but inverse trend was observed for drought stress. Path analysis indicated that number of seed per head had the greatest direct effect on seed yield in both moisture conditions. Factor analysis in non-stress condition showed that five factors (phenological, source, biological and economical factors) contributed around 74% of variation and under drought stress condition three factors (phenological, yield and economical factors) contributed around 63 of total variation. Result can be used for indirect selection in safflower breeding programs.

Keywords

References

1. ارقامی، ن و ا. بزرگ‌نیا. 1370. آمار چند متغیره کاربردی(ترجمه)، انتشارات آستان قدس رضوی.
2. امینی، ف.، ق. ا. سعیدی و ا. ف. میرلوحی. 1387. روابط بین عملکرد دانه و اجزای آن در ژنوتیپ‌های گلرنگ (Carthamus tinctorius). مجله علوم و فنون کشاورزی و منابع طبیعی. 45: 535-525.
3. باقری، ا.، ب. یزدی صمدی، م. تائب و م. ر. احمدی.1380. بررسی همبستگی و روابط بین عملکرد و سایر صفات کمی و کیفی گلرنگ، مجله علوم کشاورزی ایران. 2: 307-295.
4. پورداد، س. 1380. ارزیابی مقدماتی ژرم‌پلاسم گلرنگ بهاره در شرایط دیم، موسسه تحقیقات کشاورزی ایران.
5. توکلی، و.، م. م. مجیدی، ا. میرلوحی و م. ر. سبزعلیان. 1391. بررسی روابط صفات و تجزیه علیت در توده های گلرنگ وحشی (Carthamus oxyacanthus)و لاین های گلرنگ اهلی (C. tinctorius L.) در شرایط تنش و بدون تنش خشکی. مجله الکترونیک تولید گیاهان زراعی. 5: 62-45.
6. حاتم زاده، ح. 1386. بررسی صفات مرتبط با عملکرد دانه در گلرنگ با استفاده از تجزیه به عامل‌ها. مجله نهال و بذر. 3: 563-575.
7. رفیعی، ف. 1381. بررسی تنوع ژنتیکی صفات زراعی مختلف لاین های گلرنگ در شرایط اصفهان، پایان‌نامه کارشناسی ارشد، دانشکده کشاورزی، دانشگاه صنعتی اصفهان. تعداد صفحات
8. شیراوند، ر. و م. م. مجیدی. 1392. تحلیل ارتباط ویژگی‌های مختلف در ژنوتیپ‌های پنج گونه جنس Carthamus تحت شرایط عادی و کم آبیاری. مجله تولید و فرآوری محصولات زراعی و باغی. 8: 162-149.
9. Acharya, S., L. K. Dhaduk and G. L. Maliwal. 1994. Path analysis in safflower under conserved moisture conditions. Gujarat Agriculture University Research Journal, 20:154-157.
10. Arslan, B. 2007. The path Analysis of yield and its components in safflower (Carthamus tinctorius). Journal of Biologicial Sicenic, 7: 668-672.
11. Asadi, A. A. and K. Mozaffari. 2006. Relationship among yield components and selection criteria for yield improvement in safflower (Carthamus tinctorius L.). Journal of Applied Science, 6: 2853-2855.
12. Ashri, A., D. E. Zimmer, A. Cabaner and A. Marini. 1976. Evolution of the world collection of safflower. Crop Science, 14: 799-802.
13. Calhoun, D. S., G. Gebeyehu., A. Miranda., S. Rajaram and M. Van Ginkel. 1994. Choosing evaluation environments to increase wheat grain yield under drought conditions. Crop Science, 34: 673-678.
14. Dencic, S., R. Kastori., B. Kobiljski and B. Duggan. 2000. Evaluation of grain yield and its components in wheat cultivars and landraces under near optimal and drought conditions. Euphytica, 113: 43-52.
15. Dofing, S. M. and C. W. Knight. 1992. Alternative model for path analysis of grain yield. Crop Science, 32: 487-489.
16. Golkar, P., A. Arzani and A. M. Rezaei. 2011. Genetic variation in safflower (Carthamus tinctorius L.) for seed quality-related traits and Inter-Simple Sequence Repeat (ISSR) Markers. International Journal of Molecular Science, 12: 2664-2677.
17. Golparvar, A. R. 2011. Assessment of relationship between seed and oil yield with agronomic traits in spring safflower cultivars under drought stress condition. Journal of Research in Agriculture Science, 7: 109-113.
18. Hajghani, M., M. Saffari and A. A. M. Moud. 2009. Path Coefficient analysis for the yield components of spring safflower cultivars (Carthamus tinctorius L.) in Iran under different nitrogen levels. American- Eurasian Journal of Agriculture and Environmental Science, 6: 737-740.
19. Heaton, T. C. and J. M. Klisiewicz. 1981. A disease-resistant safflower alloploid from Carthamus tinctorius L. × C. lanatus L. Canadian Journal of Plant Science, 61: 219-224.
20. Johnson, R. A. and D. W. Wichern. 2007. Applied Multivariate Statistical Analysis. New Jersey, U.S.A.
21. Kotcha, A. 1979. Inheritance and association of six traits in safflower. Crop Science, 19: 523-527.
22. Lakha, N. M., V. D. Patil and Y. S. Nerkar. 1992. Genetic variability and correlation studies in safflower. Maharthwada Agriculture University, 17: 318-320.
23. Mahajan, S. and N. Tuteja. 2005. Cold, salinity and drought stresses: An overview. Archives of Biochemistry and Biophysics, 444: 139-158.
24. Mokhtassi Bidgoli, A., G. Akbari, Mirhadi, E. Zand and S. Soufizadeh. 2006. Path analysis of the relationships between seed yield and some morphological and phonological trait in safflower (Carthamus tinctorius L.) Euphytica, 148: 261-268.
25. Mozaffari, K. and A. A. Asadi. 2006. Relationships among traits using correlation, principal components and path analysis international safflower mutants sown in irrigated and drought stress condition. Asian Journal of Plant Science, 5: 977-983.
26. Mundel, H. H. and J. W. Bergman. 2009. Safflower. Pp. 423-448. In: Vollmann, J. and I. Rajcan (ed.), Handbook of Plant Breeding 4 Oil Crops, Springer, and New York.
27. Nie, Z., F. T. Chen and X. C. Sh. 1993. Path analysis of characters related to seed yield in safflower. Oil Crops China, 3: 26-29.
28. Pascula-Villalobos, M. J. and N. Alburquerque. 1996. Genetic variation of safflower germplasm collection grown as a winter crop in southern Spain. Euphytica, 92: 327-332.
29. Ranga Rao, V., M. Ramanchadram and V. Arunachalam, 1977. An analysis of association of component of yield and oil in safflower (Carthamus tinctorius L.) Theoretical and Applied Genetics, 50: 185-191.
30. Reddy, A. R., K. V. Chaitanya and M. V. Vivekandan. 2004. Drought induced responses of photosynthesis and antioxidant metabolism in higher plant. Journal of Plant Physiology, 161:1189-1202.
31. Singh, V. and N. Nimbkar. 2007. Genetic resources, chromosome engineering, and crop improvement series Safflower (Carthamus tinctorius L.). CRC Press, London. pp. 167-194,
32. Subbalakshmi, B. and V. Sivasubramanian. 1986. Effect of environment in the variability of characters in safflower. Madras Agriculture Journal, 8: 450-456.
33. Tuncturk, M. and C. Vahdettin. 2004. Relationship among traits using correlation and path coefficient analysis in safflower. Asian Journal of Plant Science, 3: 683-686.
Send comment about this article
CAPTCHA Image

Files

Share

How to cite

Statistics