An experiment was conducted to evaluate genetic variability and association of characters of hermaphrodite papaya genotypes for further breeding improvement. Sixteen hermaphrodite papaya genotypes were evaluated at Melkassa Agricultural Research Centre in a randomized complete block design experiment with two replicates from 2011 to 2013. Based on the analysis, the genotypes showed variation in their performances. High heritability coupled with high genetic advance recorded for fruit weight (94, 44.75) followed by inter-node length (86, 37.3), fruit length (94, 29.25), and total number of fruit per plant (75, 30.94). Yield per plant exhibited highly significant positive correlation with inter-node length (0.7, 0.58), fruit length (0.49, 0.46) and fruit diameter (0.41, 0.44) both genotypic and phenotypic levels respectively. Based on path coefficient analysis, number of fruits per plant had the highest direct effect (1.05) on fruit yield per plant followed by fruit length (0.56), fruit diameter (0.49) and fruit weight (0.45). The overall results of this study indicated number of fruits, fruit length, fruit diameter, fruit weight and inter-node length exhibited high variation, heritability and genetic advance, and positive direct path coefficient effect on fruit yield per plant. Hence, these traits can be used as principal selection criteria for papaya fruit yield improvement.
| Published in | Advances in Bioscience and Bioengineering (Volume 4, Issue 2) |
| DOI | 10.11648/j.abb.20160402.11 |
| Page(s) | 10-15 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Heritability, Genetic Advance, Association, Path Analysis, Genotypes
| [1] | Allard, R. W, 1960. Principles of Plant Breeding. John Willy and Sons, Inc., New York, USA. |
| [2] | CSA (Central Static Agency). 2015. Agriculture Sample Survey Report on area and production for major Crops (Private holdings, main season). Statical Volume. 1. Central Static Authority of Ethiopia, Addiss Abeba, Ethiopia. pp: 11-19 |
| [3] | CSA (Central Static Agency). 2005. Agriculture Sample Survey Report on area and production for major Crops (Private holdings, main season). Statical Volume. 1. Central Static Authority of Ethiopia, Addiss Abeba, Ethiopia. 10-20 |
| [4] | da Silva, F. F, M. G. Pereira, H. C. C. Ramos, P. C. D. Junior, T. N. S. Pereira, A. P. C. Gabriel, A. P. Viana and G. A. Ferreguetti, 2007. Selection and estimation of the genetic gain in segregating generations of papaya. Crop Breed. Appl. Biotechnol. 8 (1): pp: 1-8. |
| [5] | Dewey, D., K. H. Lu, 1959. A correlation and path coefficient analysis of components of crested wheat grass seed production. Agronomy Journal 51: pp: 515-518 |
| [6] | Dwiwedi, A. K., P. K. Ghanta, and S. K. Mitra, 1999. Genetic variability, heritability and genetic advances relating to some fruit characters in Papaya. South Indian Hort. 43: pp: 73-76. |
| [7] | Ethiopian Investment Commission. 2014. Business opportunity for horticulture: http://ethioinvest.net/investment-opportunities/stratei-sectors/horticulture. pp: (Accessed on May 22, 2016). |
| [8] | Evans, E. A. and F. H. Ballen. 2012. An overview of global papaya production, trade and consumption,” in Topics: Food and Resource Economics, Extension service Institute of Food and Agricultural (IFAS), FE913, pp: 1–7, University of Florida, Gainesville, Fla, USA |
| [9] | FAO. 2013. Rom United Nations Food and Agriculture Organization. http://faostat3.fao.org/download/Q/QC/E. (Accessed on May 10, 2016). |
| [10] | Fuentes, G. and J. M. Santamaría, 2014. “Chapter 1: papaya (Carica papaya L.): origin, domestication, and production. Genetics and genomics of papaya,” in Plant Genetics and Genomics: Crops and Models, Springer. Vol. 10, pp: 3–15. |
| [11] | Hohenboken, W. D. 1985. Phenotypic, genetic and environmental correlations. In: general and Quantitative Genetics. Chapman A. B. (ed). Elsevier Science Publishers, B. V. Amsterdam. pp: 121-134. |
| [12] | Jambhale, V. M., N. S. Kute, and S. V. Pawar. 2014. Studies on genetic variability parameters, character association and path analysis among yield and yield contributing traits in papaya carica papaya (l.) the bioscan. 9 (4): pp: 1711-1715 |
| [13] | Jana, B. R., M. Rai, B. Das, and V. Nath. 2005. Genetic variability and association of component characters for fruit yield in papaya (carica papaya L.). The orissa journal of horticulture Vol 33 (1). pp: 90-95 |
| [14] | Johnson, H. W., H. F. Robinson, and R. E. Comstock. 1955. Estimates of genetic and environmental variability in soybeans. Agronomy Journal 47: pp: 314-318. |
| [15] | Karunakaran, G., H. Ravishankar, and M. R. Dinesh. 2010. Genetical studies in papaya (Carica papaya L). Acta Horticulturae 851: pp: 103-108. |
| [16] | Kumar, M., K. M. Prasad, S. Prakash, and S. Kumar. 2015. Evaluation of Genetic Variability, Genetic advance, Heritability and Character association for Yield and its Contributing traits in Papaya (Carica papaya L.). VEGETOS. Vol. 28 (2): pp: 99-102 |
| [17] | Miller, P. A., J. C. Williams, H. F. Robinson and R. F. Comstock. 1958. Estimation of genotypic and environmental variances and covariances in upland cotton and their implications in selection. Agronomy Journal 50: pp: 126-131. |
| [18] | Oliveira, E. J., G. A. F. Filho, J. P. X. de Freitas, J. L. L. Dantasand, M. D. V. de Resende, 2012. Plant selection in F2 segregating populations of papaya from commercial hybrids. Crop Breeding and Applied Biotechnology 12: pp: 191-198 |
| [19] | Robinson, H. F., R. E. Comstock and V. H. Harvey. 1949. Agronomy Journal. 41 |
| [20] | Robertson, G. E. 1959. The sampling variance of the genetic correlation coefficient. Biometrics 15: pp: 469-485 |
| [21] | Shimeles A., A. Bekele, W. Dagne and T. Adeferis. 2016. Genetic variability and association of characters in Ethiopian hot pepper (capsicum annum l.) landraces. Journal of Agricultural Sciences Vol. 61, No. 1. pp: 19-36 |
| [22] | Singh, R. K., B. D. Chaudhary. 1985. Biometrical Methods in Quantitative Genetics Analysis, 2nd ed. Kalyani Publishers, New Delhi, India. |
| [23] | Silva, F. F., M. G. Pereira, W. F. Campos, P. C. Junior Damasceno, T. N. S. Pereira, F. G. A Souza, H. C. C. Ramos, A. P. Vianaand, G. A. Ferreguetti. 2007. DNA marker-assisted sex conversion in elite papaya genotype (Carica papaya L.). Crop Breeding and Applied Biotechnology 7: pp: 52-58. |
| [24] | Tsegaye, D., A. Ahmed, Z. Dilnesaw. 2009. Availability and consumption of fruits and vegetables in nine regions of Ethiopia with special emphasis to vitamin a deficiency. Ethiop. J. Health Dev.; 23 (3): Pp 216-222 |
APA Style
Wegayehu Assefa, Edossa Etissa, Asmare Dagnew, Lemma Ayele, Girma Kebede, et al. (2016). Genetic Variability and Association of Characters of Hermaphrodite Papaya Genotypes. Advances in Bioscience and Bioengineering, 4(2), 10-15. https://doi.org/10.11648/j.abb.20160402.11
ACS Style
Wegayehu Assefa; Edossa Etissa; Asmare Dagnew; Lemma Ayele; Girma Kebede, et al. Genetic Variability and Association of Characters of Hermaphrodite Papaya Genotypes. Adv. BioSci. Bioeng. 2016, 4(2), 10-15. doi: 10.11648/j.abb.20160402.11
AMA Style
Wegayehu Assefa, Edossa Etissa, Asmare Dagnew, Lemma Ayele, Girma Kebede, et al. Genetic Variability and Association of Characters of Hermaphrodite Papaya Genotypes. Adv BioSci Bioeng. 2016;4(2):10-15. doi: 10.11648/j.abb.20160402.11
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.abb.20160402.11,
author = {Wegayehu Assefa and Edossa Etissa and Asmare Dagnew and Lemma Ayele and Girma Kebede and Mikiyas Damtew and Merkebu Ayalew},
title = {Genetic Variability and Association of Characters of Hermaphrodite Papaya Genotypes},
journal = {Advances in Bioscience and Bioengineering},
volume = {4},
number = {2},
pages = {10-15},
doi = {10.11648/j.abb.20160402.11},
url = {https://doi.org/10.11648/j.abb.20160402.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.abb.20160402.11},
abstract = {An experiment was conducted to evaluate genetic variability and association of characters of hermaphrodite papaya genotypes for further breeding improvement. Sixteen hermaphrodite papaya genotypes were evaluated at Melkassa Agricultural Research Centre in a randomized complete block design experiment with two replicates from 2011 to 2013. Based on the analysis, the genotypes showed variation in their performances. High heritability coupled with high genetic advance recorded for fruit weight (94, 44.75) followed by inter-node length (86, 37.3), fruit length (94, 29.25), and total number of fruit per plant (75, 30.94). Yield per plant exhibited highly significant positive correlation with inter-node length (0.7, 0.58), fruit length (0.49, 0.46) and fruit diameter (0.41, 0.44) both genotypic and phenotypic levels respectively. Based on path coefficient analysis, number of fruits per plant had the highest direct effect (1.05) on fruit yield per plant followed by fruit length (0.56), fruit diameter (0.49) and fruit weight (0.45). The overall results of this study indicated number of fruits, fruit length, fruit diameter, fruit weight and inter-node length exhibited high variation, heritability and genetic advance, and positive direct path coefficient effect on fruit yield per plant. Hence, these traits can be used as principal selection criteria for papaya fruit yield improvement.},
year = {2016}
}
TY - JOUR T1 - Genetic Variability and Association of Characters of Hermaphrodite Papaya Genotypes AU - Wegayehu Assefa AU - Edossa Etissa AU - Asmare Dagnew AU - Lemma Ayele AU - Girma Kebede AU - Mikiyas Damtew AU - Merkebu Ayalew Y1 - 2016/07/21 PY - 2016 N1 - https://doi.org/10.11648/j.abb.20160402.11 DO - 10.11648/j.abb.20160402.11 T2 - Advances in Bioscience and Bioengineering JF - Advances in Bioscience and Bioengineering JO - Advances in Bioscience and Bioengineering SP - 10 EP - 15 PB - Science Publishing Group SN - 2330-4162 UR - https://doi.org/10.11648/j.abb.20160402.11 AB - An experiment was conducted to evaluate genetic variability and association of characters of hermaphrodite papaya genotypes for further breeding improvement. Sixteen hermaphrodite papaya genotypes were evaluated at Melkassa Agricultural Research Centre in a randomized complete block design experiment with two replicates from 2011 to 2013. Based on the analysis, the genotypes showed variation in their performances. High heritability coupled with high genetic advance recorded for fruit weight (94, 44.75) followed by inter-node length (86, 37.3), fruit length (94, 29.25), and total number of fruit per plant (75, 30.94). Yield per plant exhibited highly significant positive correlation with inter-node length (0.7, 0.58), fruit length (0.49, 0.46) and fruit diameter (0.41, 0.44) both genotypic and phenotypic levels respectively. Based on path coefficient analysis, number of fruits per plant had the highest direct effect (1.05) on fruit yield per plant followed by fruit length (0.56), fruit diameter (0.49) and fruit weight (0.45). The overall results of this study indicated number of fruits, fruit length, fruit diameter, fruit weight and inter-node length exhibited high variation, heritability and genetic advance, and positive direct path coefficient effect on fruit yield per plant. Hence, these traits can be used as principal selection criteria for papaya fruit yield improvement. VL - 4 IS - 2 ER -
Information
Email: