Heritability and Path Analysis in F2 Populations of Cotton (Gossypium hirsutum L.)
Yıl 2022,
, 207 - 212, 30.12.2022
Mediha Palabıyık
,
Aydın Ünay
Öz
The estimation of heritability, genetic advance and direct effect of yield attributing components on seed cotton yield have been used to develop indirect selection criteria. For this purpose, seven parents and their F2 populations were evaluated for the identification of superior populations to be transferred to further generations. Claudia x AGC-208, Claudia x AGC-85 and MD x AGC-85 combinations were superior F2 populations for seed cotton yield and fiber quality. The highest heritability and genetic advance were recorded in boll number and fiber fineness. The results of correlation and path analysis indicated that boll number, days to first boll opening and boll weight could be used as selection criteria to improve seed cotton yield.
Kaynakça
- Abdullah, M, Numan M, Shafique MS, Shakoor A, Rehman S, Ahmad MI (2016) Genetic variability and interrelationship of various agronomic traits using correlation and path analysis in cotton (Gossypium hirsutum L.). Academia Journal of Agricultural Research, 4(6): 315-318.
- Ahmad, M, Azhar FM (2000) Genetic correlation and path coefficient analysis of oil and protein contents and other quantitative characters in F2 generation of G. hirsutum L. Pakistan Journal of Biological Sciences, 3(6): 1049-1051.
- Ahmad, MQ, Raza FA, Qayyum A, Malik W, Muhammad RW, Saleem MA, Mahar AB (2017) Association of leaf related traits and boll weight in cotton. Pakistan Journal of Agricultural Research, 30(2): 129-135.
- Ahsan, MA, Majidano MS, Bhotto H, Soomro AW, Panhwar FH, Channa AR, Sial KB (2015) Genetic Variability, Coefficient of Variance, Heritability and Genetic Advance of Some Gossypium hirsutum L. Accessions. Journal of Agricultural Science, 7(2): 147-151.
- Anonymous (2021a) Food, Agriculture Organization of the United Nation. FAOSTAT statistical database. www.fao.org/faostat/en/#data/QC (Accessed 29 December 2021).
- Anonymous (2021b) Cotton Bulletin. www.tarimorman.gov.tr/BUGEM/Belgeler (Accessed 1 November 2021).
- Araújo, LFD, Almeida WSD, Bertini CHCM, Vidal Neto FDC, Bleicher E (2012) Correlations and path analysis in components of fiber yield in cultivars of upland cotton. Bragantia, 71(3): 328-335.
- Aziz, UJ, Afzal M, Iqbal M, Naeem MA, Khan W, Nazeer T, Aslam T, Zahid W (2014) Selection response, heritability and genetic variability studies in upland cotton. Journal of Applied Environmental and Biological Sciences, 4(8S): 400-412.
- Balci, S, Cinar VM, Unay A (2020) A Study on Genetic Advance and Heritability for Quantitative Traits in Cotton (Gossypium hirsutum L.). Adnan Menderes University Faculty of Agriculture Journal of Agricultural Sciences, 17(1): 81-84.
- Baloch, MJ, Lochi R, Jatoi WA, Baloch AW, Arain MA (2018) Genetic Variability, Heritability and Correlation Studies in F2 Populations of Upland Cotton. Journal of Scientific and Industrial Research Series B: Biological Sciences, 61(3): 136-144.
- Deshmukh, MR, Deosarkar DB, Chinchane VN, Deshmukh SB (2019) Studies of genetic parameters for yield, yield contributing and fiber quality characters in desi cotton (Gossypium arboreum L.). Journal of Cotton Research and Development, 33(1): 44-49.
- Dewey, DR, Lu KH (1959) A correlation and path coefficient analysis of components of crested wheat grass and seed production. Agronomy Journal, 51(9): 515–518.
- Dhivya, R, Amalabalu P, Pushpa R, Kavithamani D (2014) Variability, heritability and genetic advance in upland cotton (Gossypium hirsutum L.). African Journal of Plant Science, 8(1): 1–5.
- Dinakaran, E, Thirumeni S, Paramasivam K (2012) Yield and fibre quality components analysis in upland cotton (Gossypium hirsutum L.) under salinity. Annals of Biological Research, 3(8): 3910-3915.
- Gibely, RH (2021) Variability, Genetic Components and Selection Response in Segregating Generations among Some Cotton Crosses. Journal of Sustainable Agricultural Science, 47(1): 1-12.
- Gnanasekaran, M, Thiyagu K, Gunasekaran M (2018) Genetic variability heritability and genetic advance studies in cotton (Gossypium hirsutum L.). Electronic Journal of Plant Breeding, 9(1): 377-382.
- Hazem, M, Bayaty A (2005) Path coefficient analysis in upland cotton (Gossypium hirsutum L.). Mesopotamia Journal Agriculture, 33(3): 1-8.
- Iqbal, MS, Kainth RA, Mahmood A, Ahmad S, Shahid MR (2019) Correlation and path coefficient analysis of yield and yield contributing factors in Gossypium hirsutum L., Annals of Life Sciences, 1: 1–7.
- Komala, M, Ganesan M, Kumar M (2018) Genetic variability, Heritability and Correlation Analysis in F2 Populations of Ratoon Upland Cotton Hybrids. International Journal of Agriculture, Environment and Biotechnology, 11(6): 815-827.
- Kumar, CPS, Prasad V, Rajan REB, Joshi JL, Thirugnanakumar S (2019) Studies on correlation and path-coefficient analysis for seed cotton yield and its contributing traits in cotton (Gossypium hirsutum L.). Plant Archives, 19: 683-686.
- Kwon, SH, Torrie JH (1964) Heritability and interrelationship among traits of two soybean population. Crop Science, 4: 196–8.
- Larik, AS, Mahar Kakar AR, Shaikh MA (1999) Heterosis, inbreeding depression and combining ability in (Triticum aestivum L.) Pakistan Journal of Agricultural Science, 36(1-2): 39-44.
- Nawaz, B, Sattar S, Bashir B, Jamshaid M, Hussain K, Malik TA (2019) Genetics of inheritance and interrelationship of various agronomic traits of F2 population in cotton (Gossypium hirsutum L.). Asian Journal of Research in Crop Science, 4(4): 1-15.
- Nikhil, PG, Nidagundi JM, Anusha HA (2018) Correlation and path analysis studies of yield and fibre quality traits in cotton (Gossypium hirsutum L.). Journal of Pharmacognosy and Photochemistry, 7(5): 2596-2599.
- Parmar, MB, Joshi NR, Patel SM, Kapadia VN (2015) Genetic variability studies in bt cotton hybrids (H x H). AGRES – An International e-Journal, 4(2): 145-150.
- Rehman, A, Mustafa N, Xiongming DU, Azhar MT (2020). Heritability and correlation analysis of morphological and yield traits in genetically modified cotton. Journal of Cotton Research, 3(1): 1-9.
- Salahuddin, S, Abro S, Kandhro MM, Salahuddin L, Laghari S (2010) Correlation and path coefficient analysis of yield components of upland cotton (Gossypium hirsutum L.) sympodial. World Applied Sciences Journal, 8 (Special Issue of Biotechnology & Genetic Engineering), 71-75.
- Singh, RK, Chaudhary BD (1985) Biometrical method in quantitative genetic analysis. Kalyani Publishers, Ludhiana, New Delhi, pp. 54-57.
- Soomro, ZA, Kumbhar MB, Larik AS, Imran M, Brohi SA (2010) Heritability and selection response in segregating generations of upland cotton. Pakistan Journal of Agricultural Research, 23(1-2): 25-30.
- Srinivas, B, Bhadru D, Rao MV (2015) Correlation and path coefficient analysis for seed cotton yield and its components in American cotton (Gossypium hirsutum L.). Agricultural Science Digest-A Research Journal, 35(1): 13-18.
- Wang, X (2015) Impact and Adaptation of Climate Change on Cotton Phenology, Yield and Fiber Quality in Xinjiang. Doctoral dissertation China Agricultural University (in Chinese with English abstract).
F2 Pamuk (Gossypium hirsutum L.) Populasyonlarında Kalıtım ve Path Analizi
Yıl 2022,
, 207 - 212, 30.12.2022
Mediha Palabıyık
,
Aydın Ünay
Öz
Kalıtım derecesi, genetik ilerleme ve kütlü pamuk verimi için doğrudan etkilerin tahminlenmesi dolaylı seleksiyon kriterinin belirlenmesi için önem taşımaktadır. Bu amaçla yedi anaç ve bunlara ait F2 populasyonları ileri generasyonlara aktarılabilecek üstün populasyonların belirlenmesi yönünden değerlendirilmiştir. Kütlü pamuk verimi ve lif kalitesi yönünden Claudia x AGC-208, Claudia x AGC-85 ve MD x AGC-85 populasyonlarının üstün populasyonlar olduğu saptanmıştır. Koza sayısı ve lif inceliği yönünden yüksek kalıtım derecesi ve genetik ilerleme belirlenmiştir. Korelasyon ve path analizi sonucunda kütlü pamuk verimi için yürütülecek ıslah çalışmalarında koza sayısı, koza ağırlığı ve koza açma gün sayısının seleksiyon kriteri olarak kullanılabileceği sonucuna varılmıştır.
Kaynakça
- Abdullah, M, Numan M, Shafique MS, Shakoor A, Rehman S, Ahmad MI (2016) Genetic variability and interrelationship of various agronomic traits using correlation and path analysis in cotton (Gossypium hirsutum L.). Academia Journal of Agricultural Research, 4(6): 315-318.
- Ahmad, M, Azhar FM (2000) Genetic correlation and path coefficient analysis of oil and protein contents and other quantitative characters in F2 generation of G. hirsutum L. Pakistan Journal of Biological Sciences, 3(6): 1049-1051.
- Ahmad, MQ, Raza FA, Qayyum A, Malik W, Muhammad RW, Saleem MA, Mahar AB (2017) Association of leaf related traits and boll weight in cotton. Pakistan Journal of Agricultural Research, 30(2): 129-135.
- Ahsan, MA, Majidano MS, Bhotto H, Soomro AW, Panhwar FH, Channa AR, Sial KB (2015) Genetic Variability, Coefficient of Variance, Heritability and Genetic Advance of Some Gossypium hirsutum L. Accessions. Journal of Agricultural Science, 7(2): 147-151.
- Anonymous (2021a) Food, Agriculture Organization of the United Nation. FAOSTAT statistical database. www.fao.org/faostat/en/#data/QC (Accessed 29 December 2021).
- Anonymous (2021b) Cotton Bulletin. www.tarimorman.gov.tr/BUGEM/Belgeler (Accessed 1 November 2021).
- Araújo, LFD, Almeida WSD, Bertini CHCM, Vidal Neto FDC, Bleicher E (2012) Correlations and path analysis in components of fiber yield in cultivars of upland cotton. Bragantia, 71(3): 328-335.
- Aziz, UJ, Afzal M, Iqbal M, Naeem MA, Khan W, Nazeer T, Aslam T, Zahid W (2014) Selection response, heritability and genetic variability studies in upland cotton. Journal of Applied Environmental and Biological Sciences, 4(8S): 400-412.
- Balci, S, Cinar VM, Unay A (2020) A Study on Genetic Advance and Heritability for Quantitative Traits in Cotton (Gossypium hirsutum L.). Adnan Menderes University Faculty of Agriculture Journal of Agricultural Sciences, 17(1): 81-84.
- Baloch, MJ, Lochi R, Jatoi WA, Baloch AW, Arain MA (2018) Genetic Variability, Heritability and Correlation Studies in F2 Populations of Upland Cotton. Journal of Scientific and Industrial Research Series B: Biological Sciences, 61(3): 136-144.
- Deshmukh, MR, Deosarkar DB, Chinchane VN, Deshmukh SB (2019) Studies of genetic parameters for yield, yield contributing and fiber quality characters in desi cotton (Gossypium arboreum L.). Journal of Cotton Research and Development, 33(1): 44-49.
- Dewey, DR, Lu KH (1959) A correlation and path coefficient analysis of components of crested wheat grass and seed production. Agronomy Journal, 51(9): 515–518.
- Dhivya, R, Amalabalu P, Pushpa R, Kavithamani D (2014) Variability, heritability and genetic advance in upland cotton (Gossypium hirsutum L.). African Journal of Plant Science, 8(1): 1–5.
- Dinakaran, E, Thirumeni S, Paramasivam K (2012) Yield and fibre quality components analysis in upland cotton (Gossypium hirsutum L.) under salinity. Annals of Biological Research, 3(8): 3910-3915.
- Gibely, RH (2021) Variability, Genetic Components and Selection Response in Segregating Generations among Some Cotton Crosses. Journal of Sustainable Agricultural Science, 47(1): 1-12.
- Gnanasekaran, M, Thiyagu K, Gunasekaran M (2018) Genetic variability heritability and genetic advance studies in cotton (Gossypium hirsutum L.). Electronic Journal of Plant Breeding, 9(1): 377-382.
- Hazem, M, Bayaty A (2005) Path coefficient analysis in upland cotton (Gossypium hirsutum L.). Mesopotamia Journal Agriculture, 33(3): 1-8.
- Iqbal, MS, Kainth RA, Mahmood A, Ahmad S, Shahid MR (2019) Correlation and path coefficient analysis of yield and yield contributing factors in Gossypium hirsutum L., Annals of Life Sciences, 1: 1–7.
- Komala, M, Ganesan M, Kumar M (2018) Genetic variability, Heritability and Correlation Analysis in F2 Populations of Ratoon Upland Cotton Hybrids. International Journal of Agriculture, Environment and Biotechnology, 11(6): 815-827.
- Kumar, CPS, Prasad V, Rajan REB, Joshi JL, Thirugnanakumar S (2019) Studies on correlation and path-coefficient analysis for seed cotton yield and its contributing traits in cotton (Gossypium hirsutum L.). Plant Archives, 19: 683-686.
- Kwon, SH, Torrie JH (1964) Heritability and interrelationship among traits of two soybean population. Crop Science, 4: 196–8.
- Larik, AS, Mahar Kakar AR, Shaikh MA (1999) Heterosis, inbreeding depression and combining ability in (Triticum aestivum L.) Pakistan Journal of Agricultural Science, 36(1-2): 39-44.
- Nawaz, B, Sattar S, Bashir B, Jamshaid M, Hussain K, Malik TA (2019) Genetics of inheritance and interrelationship of various agronomic traits of F2 population in cotton (Gossypium hirsutum L.). Asian Journal of Research in Crop Science, 4(4): 1-15.
- Nikhil, PG, Nidagundi JM, Anusha HA (2018) Correlation and path analysis studies of yield and fibre quality traits in cotton (Gossypium hirsutum L.). Journal of Pharmacognosy and Photochemistry, 7(5): 2596-2599.
- Parmar, MB, Joshi NR, Patel SM, Kapadia VN (2015) Genetic variability studies in bt cotton hybrids (H x H). AGRES – An International e-Journal, 4(2): 145-150.
- Rehman, A, Mustafa N, Xiongming DU, Azhar MT (2020). Heritability and correlation analysis of morphological and yield traits in genetically modified cotton. Journal of Cotton Research, 3(1): 1-9.
- Salahuddin, S, Abro S, Kandhro MM, Salahuddin L, Laghari S (2010) Correlation and path coefficient analysis of yield components of upland cotton (Gossypium hirsutum L.) sympodial. World Applied Sciences Journal, 8 (Special Issue of Biotechnology & Genetic Engineering), 71-75.
- Singh, RK, Chaudhary BD (1985) Biometrical method in quantitative genetic analysis. Kalyani Publishers, Ludhiana, New Delhi, pp. 54-57.
- Soomro, ZA, Kumbhar MB, Larik AS, Imran M, Brohi SA (2010) Heritability and selection response in segregating generations of upland cotton. Pakistan Journal of Agricultural Research, 23(1-2): 25-30.
- Srinivas, B, Bhadru D, Rao MV (2015) Correlation and path coefficient analysis for seed cotton yield and its components in American cotton (Gossypium hirsutum L.). Agricultural Science Digest-A Research Journal, 35(1): 13-18.
- Wang, X (2015) Impact and Adaptation of Climate Change on Cotton Phenology, Yield and Fiber Quality in Xinjiang. Doctoral dissertation China Agricultural University (in Chinese with English abstract).