Research Article
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Year 2017, , 197 - 203, 15.12.2017
https://doi.org/10.17557/tjfc.356216

Abstract

References

  • Allard, R. W. 1960. Principles of Plant Breeding. John Willey and Sons, New York, London.
  • Al Lawati, A. H., C. A. Pierce, L. W. Murray and I. M. Ray. 2010. Combining ability and heterosis for forage yield among elite alfalfa core collection accessions with different fall dormancy responses. Crop Sci. 50: 150-158.
  • Aslam, R., M. Munawar and A. Salam. 2014. Genetic architecture of yield components accessed through Line x Tester analysis in wheat (Triticum aestivum L.) Universal J. of Plant Sci. 2: 93-96.
  • Behnam, T., A. Said, S. Mohamadreza, B. B. Alireza and G. Gafari. 2011. Path analysis of seed and oil yield in safflower (Carthamus tinctorius L.). Int. J. Agri. & Crop Sci. 3: 114-122.
  • Bicer, B. T. and D. Sakar. 2008. Heritability and gene effects for yield and yield components in chickpea. Hereditas 145: 220-224.
  • Chigeza, G., K. Mashingaidze and P. Shanahan. 2014. Advanced cycle pedigree breeding in sunflower. II: combining ability for oil yield and its components. Euphytica 195: 183-195.
  • Dehghanpour, Z. and B. Ehdaie. 2013. Stability of general and specific combining ability effects for grain yield in elite Iranian maize inbred lines. J. of Crop Improv. 27: 137-152.
  • Deshmukh, M. P., B. R. Patil and P. B. Ghorpade. 1991. General evaluation of some selected lines of safflower (Carthamus tinctorius L.). Indian J. Agril. Res. 25: 181-188.
  • El-Lattief, E. A. 2012. Evaluation of 25 safflower genotypes for seed and oil yields under arid environment in upper Egypt. Asian J. of Crop Sci. 4: 72-79.
  • Fonseca, S. and F. L. Patterson. 1968. Hybrid vigor in a seven parent diallel crosses in common wheat (Triticum aestivum L.). Crop Sci. 8: 85-88.
  • Gadekar, D. A. and N. D. Jambhale. 2003 Inheritance of yield and yield components in safflower (Carthamus tinctorius L.). J. of Oilseeds Res. 20: 63–65.
  • Ghorpade, P. B. and M. R. Wandhare. 2001 Application of simplified triple test cross and combining ability analysis to determine the gene action in safflower. In: Proceedings of the 5th International Safflower Conference, Williston, Sidney, U. S. A. P 79–82.
  • Golkar, P., A. Arzani and A. M. Rezaei. 2011. Genetic analysis of oil content and fatty acid composition in safflower (Carthamus tinctorius L.). J. of the American Oil Chemists’ Society 88: 975-982.
  • Golkar, P., A. Arzani and A. Rezaei. 2012. Genetic analysis of agronomic traits in safflower (Carthamus tinctorious L.). Notulae Botanicae Horti Agrobotanici 40: 276-281.
  • Goncharenko, A. A., S. V. Krakhmalev, S. A. Ermakov, A. V. Makarov and T. V. Semenova. 2013. Diallel analysis of grain quality traits in inbred winter rye lines. Russian Agric. Sci. 39: 13-19.
  • Griffing, B. 1956. Concept of general and specific combining ability in relation to diallel crossing system. Aust. J. Biol. Sci. 9: 463-493.
  • Harish Babu, B. N., V. Rudra Naik, L. Hanumantharaya, S. G. Raju and S. D. Yaragoppa. 2005. Evaluation of promising breeding lines of safflower for alternaria tolerance, seed yield and its components. Karnataka J. of Agric. Sci. 18: 803-806.
  • Huang J., H. Qi, X. Feng, Y. Huang and L. Zhu. 2013. General combining ability of most yield-related traits had a genetic basis different from their corresponding traits per se in a set of maize introgression lines. Genetica 141: 453-461.
  • Istipliler, D., E. Ilker, F. Aykut Tonk, G. Civi and M. Tosun. 2015. Line x tester analysis and estimating combining abilities for yield and some yield components in bread wheat. Turkish J. Field Crops 20: 72-77.
  • Kempthorne, O. 1957. An Introduction to Genetic Statistics. John Wiley & Sons, New York, USA.
  • Knowles, P. F. 1958. Safflower. Advances in Agronomy 10: 289-323.
  • Malik, S. I., H. N. Malik, N. M. Minhas and M. Munir. 2004. General and specific combining ability studies in maize. Int. J. of Agric. and Biology 6: 856-859.
  • Nai G., J. Singh, S. P. Sharma and C. Lal. 2014. Combining ability analysis in safflower (Carthamus tinctorious L.). Electronic J. of Plant Breed. 5: 208-212.
  • Narkhede, B. N. and A. M. Patil. 1987. Heterosis and inbreeding depression in safflower. J. Maharashtra Agric. Uni. 12: 337-340.
  • Naserirad, H., A. Soleymanifard, R. Naseri and S. Nasiri. 2013. Study of correlation between important agronomic traits and path analysis for grain and oil yield in safflower. Inter. J. Agronomy and Plant Production 4: 670-673.
  • Omidi A. H., A. Hassan, H. Khazaei, P. Monneveux and F. Stoddard. 2012. Effect of cultivar and water regime on yield and yield components in safflower (Carthamus tinctorius L.). Turkish J. of Field Crops 17: 10-15.
  • Ortis L. G., G. Nestares, E. Frutos and N. Machado. 2005. Combining ability analysis of agronomic traits in sunflower (Helianthus annuus L.). Helia. 28: 125-134.
  • Ozcan, K. and N. Acikgoz. 1999. A statistical analysis program for population genetics. 3. The Symposium of Computer Applications for Agriculture. Cukurova Univ., Adana, Turkey.
  • Pandya, H. M. and V. D. Patil. 1994. Heterosis in relation to general and specific combining ability in safflower. Gujarat Agril. Uni. Res. J. 20: 75-78.
  • Pankaj K. N. 2015. Heterosis for Yield and Yield Contributing Characters in Safflower (Carthamus tinctorius L.). M.Sc. thesis. Department of Genetics and Plant Breeding College of Agriculture. India, Raipur.
  • Patil, P. S., A. M. Patil and A. B. Deokar. 1992. Line x tester analysis for combining ability in safflower. J. of Maharashtra Agric. Univ. 17: 62-64
  • Patil, S. C. and B. N. Narkhede. 1996. Heterosis for yield and yield components in irrigated safflower. J. Maharashtra Agric. Univ. 21: 261-264.
  • Patil, A. J., B. C. Kanade and D. R. Murumkar. 2004. Line x tester analysis for seed yield of safflower. J. Maharashtra Agric. Univ. 29: 336-337.
  • Patel, B. N. and R. Shrivastava. 2016. Heterosis and ınbreeding depression for yield and ıts components in safflower (Carthamus tinctorius L.). Plant Archives 16: 474-476.
  • Parameshwarappa, K. G., B. T. Ninganur, V. Rudranaik, G. G. Gulaganji, U. K. Hulihalli and N. K. B. Patil. 1995. Combining ability analysis of seed yield, percent oil and other yield attributes in safflower. J. of Oilseeds Res. 12: 258–261.
  • Rashid, M., A. A. Cheema and M. Ashraf. 2007. “Line x tester analysis in basmati rice,” Pakistan J. of Botany 39: 2035–2042.
  • Salgotra, R. K., B. B. Gupta and S. Praveen. 2009. Combining ability studies for yield and yield components in Basmati rice. An Int. J. on Rice 46: 12-16.
  • Sameer Kumar, C. V., D. Shivani, C. Sreelakshmi and V. Swarnalatha. 2012. Heterosis, inbreeding depression and inheritance of seed yield and its component traits in safflower (Carthamus tinctorius L.). Int. J. of Bio-resource and Stress Management 3: 228-231.
  • Sarode S. B., P. B. Ghorpade, P. M. Wayazade, S. B. Deshmukh and S. S. Gomashe. 2008. Heterosis and combining analysis in safflower (Carthamus tinctorius Linn.) Asian J. of Bio. Sci. 3: 56-60.
  • Shivani, D., C. Sreelakshmi and C. V. Sameer Kumar. 2011. Combining ability studies and heterosis for yield and its component traits in safflower (Carthamus tinctorius L.). Electronic J. of Plant Breed. 2: 377- 383.
  • Shukla S. K. and M. P. Pandey. 2008. Combining ability and heterosis over environments for yield and yield components in two-line hybrids involving thermosensitive genic male sterile lines in rice (Oryza sativa L.). Plant Breed. 127: 28-32.
  • Singh, K. N. and R. Chatrath. 1992. Genetic variability in grain yield and its component characters and their associations under salt stress conditions in tissue culture lines of bread wheat (Triticum aestivum L. em Thell.) Wheat Information Service. 75: 46-53.
  • Singh,V., M. B. Deshpande and N. Nimbkar. 2001. Potential for commercial exploitation of hybrid vigour for flower yield in safflower and popularisation of safflower flower as herbal health tea. J. Medicinal and Aromatic Plant Sci. 23: 303-307.
  • Singh, V., N. M. Kolekar and N. Nimbkar. 2008. Breeding strategy for improvement of flower and seed yields in safflower. In: Proceedings of the 7th International Safflower Conference, Wagga Wagga, Australia. http://www.australianoilseeds.com.
  • Sprague, G. F. and L. A. Tatum. 1942. General vs specific combining ability in single crosses of corn. J. Am. Soc. Agron. 34: 923-952.
  • Yildirim, M.B. and S. Cakir.1986. Line x tester analysis. Ege Univ. Computer Res. and Appl. Center J. 9: 11-19.

GENE ACTION and COMBINING ABITIY in LINE X TESTER POPULATION of SAFFLOWER (Carthamus tinctorius L.)

Year 2017, , 197 - 203, 15.12.2017
https://doi.org/10.17557/tjfc.356216

Abstract

This research, having F1 hybrids from 6 female lines and 4 male testers, was conducted in order to design to assess the combining ability, to determine the nature and magnitude of gene action, hybrid vigor for yield and related traits and to detect the appropriate crosses for breeding program in safflower. Parents used in the study were developed at the Transitional Zone Agricultural Research Institute (TZARI). In the first year of this research, lines and testers were crossed in all the possible combinations using line x tester mating design. The hybrid population was evaluated in a replicated field trial in Eskisehir, Turkey. According to the results, the specific combining ability (SCA) effects were determined higher than general combining ability effects (GCA) in terms of traits studied. As a result, low ratios of 𝜎 2GCA/ 𝜎 2SCA, (𝜎 2D/ 𝜎 2A)1/2 implied that non-additive effects controlled the traits studied. Existing non-additive gene action in the population, the selection in the advanced generations like F4 or F5 might be effective for improving the high seed and oil yield safflower genotypes

References

  • Allard, R. W. 1960. Principles of Plant Breeding. John Willey and Sons, New York, London.
  • Al Lawati, A. H., C. A. Pierce, L. W. Murray and I. M. Ray. 2010. Combining ability and heterosis for forage yield among elite alfalfa core collection accessions with different fall dormancy responses. Crop Sci. 50: 150-158.
  • Aslam, R., M. Munawar and A. Salam. 2014. Genetic architecture of yield components accessed through Line x Tester analysis in wheat (Triticum aestivum L.) Universal J. of Plant Sci. 2: 93-96.
  • Behnam, T., A. Said, S. Mohamadreza, B. B. Alireza and G. Gafari. 2011. Path analysis of seed and oil yield in safflower (Carthamus tinctorius L.). Int. J. Agri. & Crop Sci. 3: 114-122.
  • Bicer, B. T. and D. Sakar. 2008. Heritability and gene effects for yield and yield components in chickpea. Hereditas 145: 220-224.
  • Chigeza, G., K. Mashingaidze and P. Shanahan. 2014. Advanced cycle pedigree breeding in sunflower. II: combining ability for oil yield and its components. Euphytica 195: 183-195.
  • Dehghanpour, Z. and B. Ehdaie. 2013. Stability of general and specific combining ability effects for grain yield in elite Iranian maize inbred lines. J. of Crop Improv. 27: 137-152.
  • Deshmukh, M. P., B. R. Patil and P. B. Ghorpade. 1991. General evaluation of some selected lines of safflower (Carthamus tinctorius L.). Indian J. Agril. Res. 25: 181-188.
  • El-Lattief, E. A. 2012. Evaluation of 25 safflower genotypes for seed and oil yields under arid environment in upper Egypt. Asian J. of Crop Sci. 4: 72-79.
  • Fonseca, S. and F. L. Patterson. 1968. Hybrid vigor in a seven parent diallel crosses in common wheat (Triticum aestivum L.). Crop Sci. 8: 85-88.
  • Gadekar, D. A. and N. D. Jambhale. 2003 Inheritance of yield and yield components in safflower (Carthamus tinctorius L.). J. of Oilseeds Res. 20: 63–65.
  • Ghorpade, P. B. and M. R. Wandhare. 2001 Application of simplified triple test cross and combining ability analysis to determine the gene action in safflower. In: Proceedings of the 5th International Safflower Conference, Williston, Sidney, U. S. A. P 79–82.
  • Golkar, P., A. Arzani and A. M. Rezaei. 2011. Genetic analysis of oil content and fatty acid composition in safflower (Carthamus tinctorius L.). J. of the American Oil Chemists’ Society 88: 975-982.
  • Golkar, P., A. Arzani and A. Rezaei. 2012. Genetic analysis of agronomic traits in safflower (Carthamus tinctorious L.). Notulae Botanicae Horti Agrobotanici 40: 276-281.
  • Goncharenko, A. A., S. V. Krakhmalev, S. A. Ermakov, A. V. Makarov and T. V. Semenova. 2013. Diallel analysis of grain quality traits in inbred winter rye lines. Russian Agric. Sci. 39: 13-19.
  • Griffing, B. 1956. Concept of general and specific combining ability in relation to diallel crossing system. Aust. J. Biol. Sci. 9: 463-493.
  • Harish Babu, B. N., V. Rudra Naik, L. Hanumantharaya, S. G. Raju and S. D. Yaragoppa. 2005. Evaluation of promising breeding lines of safflower for alternaria tolerance, seed yield and its components. Karnataka J. of Agric. Sci. 18: 803-806.
  • Huang J., H. Qi, X. Feng, Y. Huang and L. Zhu. 2013. General combining ability of most yield-related traits had a genetic basis different from their corresponding traits per se in a set of maize introgression lines. Genetica 141: 453-461.
  • Istipliler, D., E. Ilker, F. Aykut Tonk, G. Civi and M. Tosun. 2015. Line x tester analysis and estimating combining abilities for yield and some yield components in bread wheat. Turkish J. Field Crops 20: 72-77.
  • Kempthorne, O. 1957. An Introduction to Genetic Statistics. John Wiley & Sons, New York, USA.
  • Knowles, P. F. 1958. Safflower. Advances in Agronomy 10: 289-323.
  • Malik, S. I., H. N. Malik, N. M. Minhas and M. Munir. 2004. General and specific combining ability studies in maize. Int. J. of Agric. and Biology 6: 856-859.
  • Nai G., J. Singh, S. P. Sharma and C. Lal. 2014. Combining ability analysis in safflower (Carthamus tinctorious L.). Electronic J. of Plant Breed. 5: 208-212.
  • Narkhede, B. N. and A. M. Patil. 1987. Heterosis and inbreeding depression in safflower. J. Maharashtra Agric. Uni. 12: 337-340.
  • Naserirad, H., A. Soleymanifard, R. Naseri and S. Nasiri. 2013. Study of correlation between important agronomic traits and path analysis for grain and oil yield in safflower. Inter. J. Agronomy and Plant Production 4: 670-673.
  • Omidi A. H., A. Hassan, H. Khazaei, P. Monneveux and F. Stoddard. 2012. Effect of cultivar and water regime on yield and yield components in safflower (Carthamus tinctorius L.). Turkish J. of Field Crops 17: 10-15.
  • Ortis L. G., G. Nestares, E. Frutos and N. Machado. 2005. Combining ability analysis of agronomic traits in sunflower (Helianthus annuus L.). Helia. 28: 125-134.
  • Ozcan, K. and N. Acikgoz. 1999. A statistical analysis program for population genetics. 3. The Symposium of Computer Applications for Agriculture. Cukurova Univ., Adana, Turkey.
  • Pandya, H. M. and V. D. Patil. 1994. Heterosis in relation to general and specific combining ability in safflower. Gujarat Agril. Uni. Res. J. 20: 75-78.
  • Pankaj K. N. 2015. Heterosis for Yield and Yield Contributing Characters in Safflower (Carthamus tinctorius L.). M.Sc. thesis. Department of Genetics and Plant Breeding College of Agriculture. India, Raipur.
  • Patil, P. S., A. M. Patil and A. B. Deokar. 1992. Line x tester analysis for combining ability in safflower. J. of Maharashtra Agric. Univ. 17: 62-64
  • Patil, S. C. and B. N. Narkhede. 1996. Heterosis for yield and yield components in irrigated safflower. J. Maharashtra Agric. Univ. 21: 261-264.
  • Patil, A. J., B. C. Kanade and D. R. Murumkar. 2004. Line x tester analysis for seed yield of safflower. J. Maharashtra Agric. Univ. 29: 336-337.
  • Patel, B. N. and R. Shrivastava. 2016. Heterosis and ınbreeding depression for yield and ıts components in safflower (Carthamus tinctorius L.). Plant Archives 16: 474-476.
  • Parameshwarappa, K. G., B. T. Ninganur, V. Rudranaik, G. G. Gulaganji, U. K. Hulihalli and N. K. B. Patil. 1995. Combining ability analysis of seed yield, percent oil and other yield attributes in safflower. J. of Oilseeds Res. 12: 258–261.
  • Rashid, M., A. A. Cheema and M. Ashraf. 2007. “Line x tester analysis in basmati rice,” Pakistan J. of Botany 39: 2035–2042.
  • Salgotra, R. K., B. B. Gupta and S. Praveen. 2009. Combining ability studies for yield and yield components in Basmati rice. An Int. J. on Rice 46: 12-16.
  • Sameer Kumar, C. V., D. Shivani, C. Sreelakshmi and V. Swarnalatha. 2012. Heterosis, inbreeding depression and inheritance of seed yield and its component traits in safflower (Carthamus tinctorius L.). Int. J. of Bio-resource and Stress Management 3: 228-231.
  • Sarode S. B., P. B. Ghorpade, P. M. Wayazade, S. B. Deshmukh and S. S. Gomashe. 2008. Heterosis and combining analysis in safflower (Carthamus tinctorius Linn.) Asian J. of Bio. Sci. 3: 56-60.
  • Shivani, D., C. Sreelakshmi and C. V. Sameer Kumar. 2011. Combining ability studies and heterosis for yield and its component traits in safflower (Carthamus tinctorius L.). Electronic J. of Plant Breed. 2: 377- 383.
  • Shukla S. K. and M. P. Pandey. 2008. Combining ability and heterosis over environments for yield and yield components in two-line hybrids involving thermosensitive genic male sterile lines in rice (Oryza sativa L.). Plant Breed. 127: 28-32.
  • Singh, K. N. and R. Chatrath. 1992. Genetic variability in grain yield and its component characters and their associations under salt stress conditions in tissue culture lines of bread wheat (Triticum aestivum L. em Thell.) Wheat Information Service. 75: 46-53.
  • Singh,V., M. B. Deshpande and N. Nimbkar. 2001. Potential for commercial exploitation of hybrid vigour for flower yield in safflower and popularisation of safflower flower as herbal health tea. J. Medicinal and Aromatic Plant Sci. 23: 303-307.
  • Singh, V., N. M. Kolekar and N. Nimbkar. 2008. Breeding strategy for improvement of flower and seed yields in safflower. In: Proceedings of the 7th International Safflower Conference, Wagga Wagga, Australia. http://www.australianoilseeds.com.
  • Sprague, G. F. and L. A. Tatum. 1942. General vs specific combining ability in single crosses of corn. J. Am. Soc. Agron. 34: 923-952.
  • Yildirim, M.B. and S. Cakir.1986. Line x tester analysis. Ege Univ. Computer Res. and Appl. Center J. 9: 11-19.
There are 46 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Arzu Kose

Publication Date December 15, 2017
Published in Issue Year 2017

Cite

APA Kose, A. (2017). GENE ACTION and COMBINING ABITIY in LINE X TESTER POPULATION of SAFFLOWER (Carthamus tinctorius L.). Turkish Journal Of Field Crops, 22(2), 197-203. https://doi.org/10.17557/tjfc.356216
AMA Kose A. GENE ACTION and COMBINING ABITIY in LINE X TESTER POPULATION of SAFFLOWER (Carthamus tinctorius L.). TJFC. December 2017;22(2):197-203. doi:10.17557/tjfc.356216
Chicago Kose, Arzu. “GENE ACTION and COMBINING ABITIY in LINE X TESTER POPULATION of SAFFLOWER (Carthamus Tinctorius L.)”. Turkish Journal Of Field Crops 22, no. 2 (December 2017): 197-203. https://doi.org/10.17557/tjfc.356216.
EndNote Kose A (December 1, 2017) GENE ACTION and COMBINING ABITIY in LINE X TESTER POPULATION of SAFFLOWER (Carthamus tinctorius L.). Turkish Journal Of Field Crops 22 2 197–203.
IEEE A. Kose, “GENE ACTION and COMBINING ABITIY in LINE X TESTER POPULATION of SAFFLOWER (Carthamus tinctorius L.)”, TJFC, vol. 22, no. 2, pp. 197–203, 2017, doi: 10.17557/tjfc.356216.
ISNAD Kose, Arzu. “GENE ACTION and COMBINING ABITIY in LINE X TESTER POPULATION of SAFFLOWER (Carthamus Tinctorius L.)”. Turkish Journal Of Field Crops 22/2 (December 2017), 197-203. https://doi.org/10.17557/tjfc.356216.
JAMA Kose A. GENE ACTION and COMBINING ABITIY in LINE X TESTER POPULATION of SAFFLOWER (Carthamus tinctorius L.). TJFC. 2017;22:197–203.
MLA Kose, Arzu. “GENE ACTION and COMBINING ABITIY in LINE X TESTER POPULATION of SAFFLOWER (Carthamus Tinctorius L.)”. Turkish Journal Of Field Crops, vol. 22, no. 2, 2017, pp. 197-03, doi:10.17557/tjfc.356216.
Vancouver Kose A. GENE ACTION and COMBINING ABITIY in LINE X TESTER POPULATION of SAFFLOWER (Carthamus tinctorius L.). TJFC. 2017;22(2):197-203.

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