Year 2019,
, 185 - 194, 15.12.2019
İmren Kutlu
,
Zeynep Sırel
References
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2011. Line × tester analysis for yield and its traits in bread
wheat. Egypt. J. Agric. Res. 89 (3): 979-992.
- Acquaah, G. 2012. Principles of Plant Genetics and Breeding.
Second edition, John Wiley and Sons, UK.
- Ahmad, E., M. Akhtar, S. Badoni and J. P. Jaiswal. 2017.
Combining ability studies for seed yield related attributes
and quality parameters in bread wheat Triticum aestivum
L.. Journal of Genetics Genomics and Plant Breeding, 1: 21-
27.
- Akel, W., P. Thorwarth, V. Mirdita, E. A. Weissman, G. Liu, T.
Würschum and C. F. H. Longin. 2018. Can spelt wheat be
used as heterotic group for hybrid wheat
breeding?. Theoretical and Applied Genetics 131 (4): 973-
984.
- Altinkut, A., K. Kazan, Z. Ipekci and N. Gozukirmizi. 2001.
Tolerance to paraquat is correlated with the traits associated
with water stress tolerance in segregating F2 populations of
barley and wheat. Euphytica 121: 81-86.
- Anderberg, M. R. 1993. Cluster Analysis for Application.
Academic press, New York.
- Aslam, R., M. Munawar and A. Salam. 2014. Genetic
architecture of yield components accessed through line ×
tester analysis in wheat (Triticum aestivum L.). Universal
Journal of Plant Science 2(5): 93-96.
- Aytac, Z. and G. Kinaci. 2009. Genetic variability and
association studies of some quantitative characters in winter
rapeseed Brassica napus L. African Journal of
Biotechnology 8 (15): 3547-3554.
- Barot, H. G., M. S. Patel, W. A. Sheikh, L. P. Patel and C. R.
Allam 2014. Heterosis and combining ability analysis for
yield and its component traits in wheat (Triticum aestivum
L.). Electronic Journal of Plant Breeding 5(3): 350-359.
- Beena, R., V. Vighneswaran, P. Sindhumole, M. C.
Narayankutty and S. R. Voleti. 2018. Impact of high
temperature stress during reproductive and grain filling stage
in rice. ORYZA-An International Journal on Rice 551: 126-
133.
- Cochran, W. G. and M. C. Cox 1957. Experimental Design. John
Wiley and Sons, Inc. New York.
Esposito, M. A., H. Gatti, V. P. Cravero, F. S. L. Anodo and E.
L. Cointry. 2013. Combining ability and heterotic groups in
Pea. Aust. J. Crop Sc. 11: 1634- 1641.
- Falconer, D. S. and T. F. C. Mackay 1996. Introduction to
Quantitative Genetics. Longman, 464 p.
- Fan, X. M., Y. M. Zhang, W. H. Yao, H. M. Chen, J. Tan, C. X.
Xu, X. L. Han, L. M. Luo and M. S. Kang. 2009. Classifying
maize inbred lines into heterotic groups using a factorial
mating design. Agron. J. 101: 106–112.
- Ferrari, E., A. Picca, R. Domínguez and H. Paccapelo. 2018.
Heterosis and combining ability for yield and other
agronomic traits in Triticale. Open Agriculture 31: 38-45.
- Flood, P. J., J. Harbinson and M. G. Aarts 2011. Natural genetic
variation in plant photosynthesis. Trends in Plant
Science 166: 327-335.
- Fonseca, S. M. and F. L. Patterson. 1968. Hybrid vigor in a
seven parent diallel cross in common winter wheat Triticum
aestivum L.. Crop. Sci. 8: 85-88.
- Goldringer, I., P. Brabant and A. Gallais. 1997. Estimation of
additive and epistatic genetic variances for agronomic traits
in a population of doubled-haploid lines of
wheat. Heredity 79(1): 60-71.
- Hannachi, A., Z. A. Fellahi, H. Bouzerzour and A. Boutakrabt.
2013. Diallel-cross analysis of grain yield and stress
tolerance-related traits under semi-arid conditions in durum
wheat (Triticum durum Desf.). Electronic Journal of Plant
Breeding 41: 1027-1033.
- Hill, W. G. 2010. Understanding and using quantitative genetic
variation. Philosophical Transactions of the Royal Society of
London B: Biological Sciences 3651537: 73-85.
- Istipliler, D., E. Ilker, F. A. Tonk, G. Civi and M. Tosun. 2015.
Line × tester analysis and estimating combining abilities for
yield and some yield components in bread wheat. Turk. J.
Field Crops 201: 72-77.
- Jackson, P., M. Robertson, M. Cooper and G. Hammer. 1996.
The role of physiological understanding in plant breeding,
from a breeding perspective. Field Crops Res. 49: 11–37.
- Kalayci, M., V. Ozbek, C. Cekic, H. Ekiz, M. Keser and F.
Altay. 1998. Determination of Drought Resistant Wheat
Genotypes and Development of Morphological and
Physiological Parameters in Central Anatolia Conditions,
Eskisehir, Tubitak Research Project Final Report. Anatolian
Agricultural Research Institute (in Turkish).
- Kempthorne, O. 1957. An Introduction to Genetic Studies. John
Wiley and Sons Inc., New York. pp. 265-270.
- Krystkowiak, K., T. Adamski, M. Surma and Z. Kaczmarek.
2009. Relationship between phenotypic and genetic diversity
of parental genotypes and the specific combining ability and
heterosis effects in wheat Triticum aestivum L. Euphytica
1653: 419-434.
- Kutlu, I. and M. Olgun. 2015. Determination of genetic
parameters for yield components in bread wheat. Int. J.
Bioscience 612: 61-70.
- McKinney, N. V., J. R. Schapaugh and E. T. Kanemasu. 1989.
Selecting for canopy temperature differential in six
populations of soybean. Crop Sci. 29: 255-259.
- Melchinger, A. E. 1999. Genetic diversity and heterosis. In: The
Genetics and Exploitation of Heterosis in Crops. Ed. Coors,
J. G. and S. Pandey. ASA, CSSA, and SSSA, Madison, WI.
pp. 99–118.
- Novoselovic, D., M. Baric, G. Drezner, J. Gunjaca and A. Lalic.
2004. Quantitative inheritance of some wheat plant
traits. Genetics and Molecular Biology 27(1): 92-98.
- Ozcan, K. and N. Acikgoz. 1999. Development of a statistical
package program for population genetics. In: Third
Symposium on Computer Applications in Agriculture,
Adana, Turkey.
- Pandey, P., V. R. Pandey, A. Kumar, S. Yadav, D. Tiwari and R.
Kumar. 2015. Relationship between heterosis and genetic
diversity in Indian pigeonpea [Cajanus cajan L. Millspaugh]
accessions using multivariate cluster analysis and heterotic
grouping, Australian Journal of Crop Science 96: 494.
- Rad, M. R. N., M. A. Kadir and M. R. Yusop. 2012. Genetic
behaviour for plant capacity to produce chlorophyll in wheat
(Triticum aestivum L). Australian Journal of Crop Science
63: 415-420.
- Rajput, R. S. and V. S. Kandalkar. 2018. Combining ability and
heterosis for grain yield and its attributing traits in bread
wheat (Triticum aestivum L). Journal of Pharmacognosy and
Phytochemistry 72: 113-119.
- Reif, J. C., A. R. Hallauer and A. E. Melchinger. 2005. Heterosis
and heterotic pattern in maize. Maydica 50: 215–223.
- Reif, J. C., F. M. Gumpert, S. Fischer and A. E. Melchinger.
2007. Impact of inter population divergence on additive and
dominance variance in hybrid populations. Genetics 176:
1931-1934.
- Reynolds, M. P., S. Nagarajan, M. A. Razzaque and O. A. A.
Ageeb. 2001. Heat tolerance. In: Application of Physiology
in Wheat Breeding. Ed. Reynolds, M. P. CIMMYT.
- Riday, H., E. C. Brummer, T. A. Campbell, D. Luth and P. M.
Cazcarro. 2003. Comparisons of genetic and orphological
distance with heterosis between Medicago sativa subsp.
sativa and subsp. Falcate. Theor. Appl. Genet. 131: 37-45.
- Saeed, M., I. H. Khalil, D. Nayab, S. A. Anjum and M. Tanveer.
2016. Combining ability and heritability for yield traits in
wheat (Triticum aestivum L). Pak. J. Agric. Sci. 533: 577-
583.
- Saeed, M. and I. H. Khalil. 2017. Combining ability and narrowsense heritability in wheat (Triticum aestivum L.) under
rainfed environment. Sarhad Journal of Agriculture 331: 22-29.
- Singh, S. P. and S. Ramanujam 1981. Genetic divergence and
hybrid performance in Cicer arietinum L. Indian J. Genet.41: 268–276.
- Singh, T. P., J. Kumari, R. Yadav and P. Prakesh. 2017. Effect
of drought and high temperature on physiological traits and
wheat production. Advances in Plant Physiology 15: 147.
- Tecklewold, A. and H. C. Becker. 2006. Comparison of
phenotypic and molecular distances to predict heterosis and
F1 performance in Ethiopian Mustard Brassica carinata A.
Braun. Theor. Appl. Genet. 112: 752-759.
- Wenkel, K. O., S. Brozio, R. Gebbers and W. Mirschel. 2003.
Approaches to site-specific nitrogen fertilization. Archives
of Agronomy and Soil Science 492: 149-162.
- Yildirim, M., C. Akinci, M. Koc and C. Barutcular. 2009.
Applicability of canopy temperature depression and
chlorophyll content in durum wheat breeding. Anadolu J.
Agric. Sci. 243: 158-166.
- Yildirim, M., M. Koc, C. Akinci and C. Barutcular. 2013.
Variations in morphological and physiological traits of bread
wheat diallel crosses under timely and late sowing
conditions. Field Crops Research 140: 9-17.
USING LINE × TESTER METHOD AND HETEROTIC GROUPING TO SELECT HIGH YIELDING GENOTYPES OF BREAD WHEAT (Triticum aestivum L.)
Year 2019,
, 185 - 194, 15.12.2019
İmren Kutlu
,
Zeynep Sırel
Abstract
Studies on genetic gain, made by direct or indirect phenotypic selection, are needed regularly since they offer
valuable information for breeding programs. The purpose of this study to investigate the gene effects on the
yield-related traits of the F1 and F2 populations of bread wheat “line×tester” crosses; to identify suitable
parents and promising hybrids for development of high yielding varieties; to determine correlations between
genetic distances of the parents and heterosis with heterotic groups (HG) based on specific combining ability
(SCA). The combining abilities, heritability, heterosis (Ht)-heterobeltiosis (Hb) and the potential of
populations as a HG were analysed. According to the results, non-additive gene effects were predominated and
narrow sense heritability was low for all examined features, significant combining ability effects were
determined for some parents and hybrids. While DH18, DH20 and Harmankaya-99 were good combiners,
“DH16×Altay-2000”, “DH16×Kate A-1” and “DH21×Kate A-1” were promising hybrids. The yield, Ht and
SCA were higher in inter-group hybrids than intra-group hybrids in HG. Although molecular markers are
considered more reliable to create HG, only marker selection will not adequate to improve the trait in question
because of complex genetic structure and environmental influence. Therefore, HG based on yield-specific SCA
can be utilized as a reliable parameter in breeding studies.
Supporting Institution
Scientific Research Commission of Eskisehir Osmangazi University
Thanks
This study was supported by Scientific Research
Commission of Eskisehir Osmangazi University (Project
no: 201723009).
References
- Abdel, Nour, N.A.R., H. S. A. El-Fateh and A. K. Mostafa.
2011. Line × tester analysis for yield and its traits in bread
wheat. Egypt. J. Agric. Res. 89 (3): 979-992.
- Acquaah, G. 2012. Principles of Plant Genetics and Breeding.
Second edition, John Wiley and Sons, UK.
- Ahmad, E., M. Akhtar, S. Badoni and J. P. Jaiswal. 2017.
Combining ability studies for seed yield related attributes
and quality parameters in bread wheat Triticum aestivum
L.. Journal of Genetics Genomics and Plant Breeding, 1: 21-
27.
- Akel, W., P. Thorwarth, V. Mirdita, E. A. Weissman, G. Liu, T.
Würschum and C. F. H. Longin. 2018. Can spelt wheat be
used as heterotic group for hybrid wheat
breeding?. Theoretical and Applied Genetics 131 (4): 973-
984.
- Altinkut, A., K. Kazan, Z. Ipekci and N. Gozukirmizi. 2001.
Tolerance to paraquat is correlated with the traits associated
with water stress tolerance in segregating F2 populations of
barley and wheat. Euphytica 121: 81-86.
- Anderberg, M. R. 1993. Cluster Analysis for Application.
Academic press, New York.
- Aslam, R., M. Munawar and A. Salam. 2014. Genetic
architecture of yield components accessed through line ×
tester analysis in wheat (Triticum aestivum L.). Universal
Journal of Plant Science 2(5): 93-96.
- Aytac, Z. and G. Kinaci. 2009. Genetic variability and
association studies of some quantitative characters in winter
rapeseed Brassica napus L. African Journal of
Biotechnology 8 (15): 3547-3554.
- Barot, H. G., M. S. Patel, W. A. Sheikh, L. P. Patel and C. R.
Allam 2014. Heterosis and combining ability analysis for
yield and its component traits in wheat (Triticum aestivum
L.). Electronic Journal of Plant Breeding 5(3): 350-359.
- Beena, R., V. Vighneswaran, P. Sindhumole, M. C.
Narayankutty and S. R. Voleti. 2018. Impact of high
temperature stress during reproductive and grain filling stage
in rice. ORYZA-An International Journal on Rice 551: 126-
133.
- Cochran, W. G. and M. C. Cox 1957. Experimental Design. John
Wiley and Sons, Inc. New York.
Esposito, M. A., H. Gatti, V. P. Cravero, F. S. L. Anodo and E.
L. Cointry. 2013. Combining ability and heterotic groups in
Pea. Aust. J. Crop Sc. 11: 1634- 1641.
- Falconer, D. S. and T. F. C. Mackay 1996. Introduction to
Quantitative Genetics. Longman, 464 p.
- Fan, X. M., Y. M. Zhang, W. H. Yao, H. M. Chen, J. Tan, C. X.
Xu, X. L. Han, L. M. Luo and M. S. Kang. 2009. Classifying
maize inbred lines into heterotic groups using a factorial
mating design. Agron. J. 101: 106–112.
- Ferrari, E., A. Picca, R. Domínguez and H. Paccapelo. 2018.
Heterosis and combining ability for yield and other
agronomic traits in Triticale. Open Agriculture 31: 38-45.
- Flood, P. J., J. Harbinson and M. G. Aarts 2011. Natural genetic
variation in plant photosynthesis. Trends in Plant
Science 166: 327-335.
- Fonseca, S. M. and F. L. Patterson. 1968. Hybrid vigor in a
seven parent diallel cross in common winter wheat Triticum
aestivum L.. Crop. Sci. 8: 85-88.
- Goldringer, I., P. Brabant and A. Gallais. 1997. Estimation of
additive and epistatic genetic variances for agronomic traits
in a population of doubled-haploid lines of
wheat. Heredity 79(1): 60-71.
- Hannachi, A., Z. A. Fellahi, H. Bouzerzour and A. Boutakrabt.
2013. Diallel-cross analysis of grain yield and stress
tolerance-related traits under semi-arid conditions in durum
wheat (Triticum durum Desf.). Electronic Journal of Plant
Breeding 41: 1027-1033.
- Hill, W. G. 2010. Understanding and using quantitative genetic
variation. Philosophical Transactions of the Royal Society of
London B: Biological Sciences 3651537: 73-85.
- Istipliler, D., E. Ilker, F. A. Tonk, G. Civi and M. Tosun. 2015.
Line × tester analysis and estimating combining abilities for
yield and some yield components in bread wheat. Turk. J.
Field Crops 201: 72-77.
- Jackson, P., M. Robertson, M. Cooper and G. Hammer. 1996.
The role of physiological understanding in plant breeding,
from a breeding perspective. Field Crops Res. 49: 11–37.
- Kalayci, M., V. Ozbek, C. Cekic, H. Ekiz, M. Keser and F.
Altay. 1998. Determination of Drought Resistant Wheat
Genotypes and Development of Morphological and
Physiological Parameters in Central Anatolia Conditions,
Eskisehir, Tubitak Research Project Final Report. Anatolian
Agricultural Research Institute (in Turkish).
- Kempthorne, O. 1957. An Introduction to Genetic Studies. John
Wiley and Sons Inc., New York. pp. 265-270.
- Krystkowiak, K., T. Adamski, M. Surma and Z. Kaczmarek.
2009. Relationship between phenotypic and genetic diversity
of parental genotypes and the specific combining ability and
heterosis effects in wheat Triticum aestivum L. Euphytica
1653: 419-434.
- Kutlu, I. and M. Olgun. 2015. Determination of genetic
parameters for yield components in bread wheat. Int. J.
Bioscience 612: 61-70.
- McKinney, N. V., J. R. Schapaugh and E. T. Kanemasu. 1989.
Selecting for canopy temperature differential in six
populations of soybean. Crop Sci. 29: 255-259.
- Melchinger, A. E. 1999. Genetic diversity and heterosis. In: The
Genetics and Exploitation of Heterosis in Crops. Ed. Coors,
J. G. and S. Pandey. ASA, CSSA, and SSSA, Madison, WI.
pp. 99–118.
- Novoselovic, D., M. Baric, G. Drezner, J. Gunjaca and A. Lalic.
2004. Quantitative inheritance of some wheat plant
traits. Genetics and Molecular Biology 27(1): 92-98.
- Ozcan, K. and N. Acikgoz. 1999. Development of a statistical
package program for population genetics. In: Third
Symposium on Computer Applications in Agriculture,
Adana, Turkey.
- Pandey, P., V. R. Pandey, A. Kumar, S. Yadav, D. Tiwari and R.
Kumar. 2015. Relationship between heterosis and genetic
diversity in Indian pigeonpea [Cajanus cajan L. Millspaugh]
accessions using multivariate cluster analysis and heterotic
grouping, Australian Journal of Crop Science 96: 494.
- Rad, M. R. N., M. A. Kadir and M. R. Yusop. 2012. Genetic
behaviour for plant capacity to produce chlorophyll in wheat
(Triticum aestivum L). Australian Journal of Crop Science
63: 415-420.
- Rajput, R. S. and V. S. Kandalkar. 2018. Combining ability and
heterosis for grain yield and its attributing traits in bread
wheat (Triticum aestivum L). Journal of Pharmacognosy and
Phytochemistry 72: 113-119.
- Reif, J. C., A. R. Hallauer and A. E. Melchinger. 2005. Heterosis
and heterotic pattern in maize. Maydica 50: 215–223.
- Reif, J. C., F. M. Gumpert, S. Fischer and A. E. Melchinger.
2007. Impact of inter population divergence on additive and
dominance variance in hybrid populations. Genetics 176:
1931-1934.
- Reynolds, M. P., S. Nagarajan, M. A. Razzaque and O. A. A.
Ageeb. 2001. Heat tolerance. In: Application of Physiology
in Wheat Breeding. Ed. Reynolds, M. P. CIMMYT.
- Riday, H., E. C. Brummer, T. A. Campbell, D. Luth and P. M.
Cazcarro. 2003. Comparisons of genetic and orphological
distance with heterosis between Medicago sativa subsp.
sativa and subsp. Falcate. Theor. Appl. Genet. 131: 37-45.
- Saeed, M., I. H. Khalil, D. Nayab, S. A. Anjum and M. Tanveer.
2016. Combining ability and heritability for yield traits in
wheat (Triticum aestivum L). Pak. J. Agric. Sci. 533: 577-
583.
- Saeed, M. and I. H. Khalil. 2017. Combining ability and narrowsense heritability in wheat (Triticum aestivum L.) under
rainfed environment. Sarhad Journal of Agriculture 331: 22-29.
- Singh, S. P. and S. Ramanujam 1981. Genetic divergence and
hybrid performance in Cicer arietinum L. Indian J. Genet.41: 268–276.
- Singh, T. P., J. Kumari, R. Yadav and P. Prakesh. 2017. Effect
of drought and high temperature on physiological traits and
wheat production. Advances in Plant Physiology 15: 147.
- Tecklewold, A. and H. C. Becker. 2006. Comparison of
phenotypic and molecular distances to predict heterosis and
F1 performance in Ethiopian Mustard Brassica carinata A.
Braun. Theor. Appl. Genet. 112: 752-759.
- Wenkel, K. O., S. Brozio, R. Gebbers and W. Mirschel. 2003.
Approaches to site-specific nitrogen fertilization. Archives
of Agronomy and Soil Science 492: 149-162.
- Yildirim, M., C. Akinci, M. Koc and C. Barutcular. 2009.
Applicability of canopy temperature depression and
chlorophyll content in durum wheat breeding. Anadolu J.
Agric. Sci. 243: 158-166.
- Yildirim, M., M. Koc, C. Akinci and C. Barutcular. 2013.
Variations in morphological and physiological traits of bread
wheat diallel crosses under timely and late sowing
conditions. Field Crops Research 140: 9-17.