Assessment of genetic variability among accessions of okra (Abelmoschus esculentus L. Moench)-Reference-Cited by-同舟云学术

Assessment of genetic variability among accessions of okra (Abelmoschus esculentus L. Moench)

Published:2021-11-01 Issue:2 Volume:24 Page:141-147
ISSN:1338-5259
Container-title:Acta Horticulturae et Regiotecturae
language:en
Short-container-title:

Author:

Olayiwola Richard¹^ORCID,Yusuf Rukayat Ayomikun¹,Oyetunde Oyeboade Adebiyi²,Sosanya Olufemi Sunday¹,Ariyo Omolayo Johnson³

Affiliation:

1. Olabisi Onabanjo University , College of Agricultural Sciences , Ago-Iwoye , Nigeria

2. Lagos State Polytechnic , Ikorodu , Nigeria

3. Federal University of Agriculture Abeokuta , Nigeria

Abstract

Abstract Okra yields are low in West and Central Africa and factors including narrow genetic base of available germplasm have been implicated. An assessment of genetic variability among germplasm from various sources and knowledge of trait contributions to these variations is crucial to the success of okra breeding program. Eighteen okra accessions were evaluated during the 2020 cropping season in Nigeria to assess the genotypes for genetic diversity, group the accessions into clusters and identify traits that chiefly accounted for the variations among the genotypes. Data obtained were subjected to analysis of variance (ANOVA), metroglyph and principal component analyses (PCA). ANOVA revealed significant accession mean squares for majority of the measured traits. Metroglyph analysis grouped the accessions into four clusters with members of Cluster IV generally high-yielding, early-maturing and short genotypes. NGB00353 and NGB00356 that were among genotypes with high total index scores were members of Cluster IV. The first four principal components (PCs) accounted for 80% of the total observed variation. PC1 with the highest discriminatory power was loaded with days to budding, internode length, pod yield.plot−1 and the number of pods.plant−1. The variation within and between clusters could be explored in okra breeding program.

Publisher

Walter de Gruyter GmbH

Link

https://www.sciendo.com/pdf/10.2478/ahr-2021-0036

Reference18 articles.

1. Adeniji, S. A., Alimi, K. G., Nassir, A. L., Olayiwola, M. O. & Ariyo, O. J. (2020). Assessment of genetic diversity and inter-trait relationships in Maize (Zea mays L). Nigerian Journal of Genetics, 34(1), 15–20.

2. Ahiakpa, J. K., KaledzI, P. D., Adi, E. B., Peprah, S. & Dapaah, H. K. (2013). Genetic diversity, correlation and path analyses of okra (Abelmoschus spp. (L.) Moench) germplasm collected in Ghana. International Journal of Development and Sustainability, 2(2), 1396–1415. https://www.isdsnet.com/ijds-v2n2-p2.html

3. Alake, C. O, Ariyo O. J. & Kehinde, O. B. (2012). A Quantitative Analysis of the genetics of yield & yield components in West African okra (Abelmoschus caillei, A. Chev Stevels). International Journal of Plant Breeding & Genetics, 6 (2), 94–104. https://doi.org/10.3923/IJPBG.2012.94.10410.3923/ijpbg.2012.94.104

4. Anderson, E. (1960). A semi graphical method for the analysis of complex problems. Technometrics, 2(3), 387–391. https://doi.org/10.1080/00401706.1960.1048990510.1080/00401706.1960.10489905

5. Aremu, C. O. (2011). Genetic diversity: A review for need and measurements for intraspecific crop improvement. Journal of Microbiology and Biotechnology Research, 1(2), 80–5. https://www.researchgate.net/publication/268203271_Genetic_Diversity_A_review_for_need_and_measurements_for_intraspecie_crop_improvement