BREEDING FOR HIGHER FIBRE QUALITY TRAITS IN UPLAND COTTON THROUGH LINE × TESTER ANALYSIS-Reference-Cited by-同舟云学术

BREEDING FOR HIGHER FIBRE QUALITY TRAITS IN UPLAND COTTON THROUGH LINE × TESTER ANALYSIS

Published:2024-02-21 Issue:1 Volume:21 Page:101-113
ISSN:2312-7791
Container-title:Pakistan Journal of Biotechnology
language:
Short-container-title:Pak. J. Biotechnol

Author:

Mangi Ghulam Shabir,Soomro Zahoor Ahmed,Jatoi Wajid Ali,Chachar Qamar-Ur-Din,Mari Shah Nawaz

Abstract

The experiment was conducted using a randomized complete block design with three replications at Shah Abdul Latif Experimental Farm, Sindh Agriculture University, Tandojam. Employing a line × tester mating design in upland cotton (Gossypium hirutum L.), twenty-one cross combinations were obtained from seven females and three males. F1 and F2 generations, along with their parents, were sown in a randomized complete block design with three replications during 2012-13 and 2013-14. Studied traits included lint yield (g) per plant, G.O.T (%), staple length (mm), fiber fineness (mic.value), and fiber strength (g/tex). Throughout the growing period, recommended cultural practices were followed. Analysis of variance revealed high significance for genotypes, parents, crosses, and their interactions (P×C) for all traits. In the F1 generation, lint yield and staple length under line × tester (L×T) were highly significant. For the F2 generation, genotypes, parents, crosses, and P×C were highly significant for all traits except G.O.T%, where lines, testers, and L×T were highly significant for all traits except G.O.T%. Cross VH-292 × VH-291 excelled in lint yield per plant, while CRIS-342 × IR-3701 demonstrated superior fiber fineness and strength. VH-292 × VH-291 also displayed higher lint yield per plant, while CRIS-342 × FH-113 exhibited longer staple length with increased fiber fineness. Significant mean squares for genotypes (parents, crosses, and parents × crosses) indicate the data's utility for assessing parental performance, hybrid evaluation, heterotic effects, and inbreeding depression.

Publisher

Innovative Science and Technology Publishers

Reference47 articles.

1. Ali, M.A., Khan, I.A., Awan, S.I., Ali S., & Niaz, S. (2008). Genetics of fiber quality traits in cotton (Gossypium hirsutum L.). Australian Journal of Crop Science, 2, 10-17.

2. Ali GM, (2011) Cotton hybrid seed production at PARC. Technical Reporter 2(4), 14-18.

3. Basal, H., Canavar, O., & Cerit, C.S. (2011). Combining ability and heterotic studies through line × taster in total and exotic upland cotton genotypes. Pakistan Journal of Botany, 43(3), 1699-1701

4. Batool, S., Khan, N.U., Makhdoom, K., Bibi, Z., Hassan, G. Marwat, K.B., Farhatullah, Mohammad, F., Raziuddin, & Khan, I.A. (2010). Heritability and genetic potential of upland cotton genotypes for morpho-yield traits. Pakistan Journal of Botany, 42(2), 1057-1064.

5. Campbell, B., & Bowman, W. (2010). Enhancing the sustainability of cotton. production in the southeast USA, research project. Coastal plains, soil-water and plant research center, USA.