Home Articles List Article Information
Journal of Plant Production
Journal Archive
Volume Volume 15 (2024)
Volume Volume 14 (2023)
Volume Volume 13 (2022)
Volume Volume 12 (2021)
Volume Volume 11 (2020)
Volume Volume 10 (2019)
Volume Volume 9 (2018)
Volume Volume 8 (2017)
Volume Volume 7 (2016)
Volume Volume 6 (2015)
Volume Volume 5 (2014)
Volume Volume 4 (2013)
Volume Volume 3 (2012)
Volume Volume 2 (2011)
Volume Volume 1 (2010)
Volume Volume 34 (2009)
Volume Volume 33 (2008)
Volume Volume 32 (2007)
Volume Volume 31 (2006)
Volume Volume 30 (2005)
Volume Volume 29 (2004)
Volume Volume 28 (2003)
Volume Volume 27 (2002)
Volume Volume 26 (2001)
Volume Volume 25 (2000)
Badr,, M., El–Torky, M., Abbas, R., Gaber, G. (2000). BIOMETRICAL ANALYSIS OF SOME IMPORTANT QUANTITATIVE CHARACTERS IN SNAPDRAGON (Antirrhinum majus, L.). Part II : Flowering Characteristics.. Journal of Plant Production, 25(10), 6367-6382. doi: 10.21608/jpp.2000.259791
M. Badr,; M. G. El–Torky; Rabha Abbas; Gehan Gaber. "BIOMETRICAL ANALYSIS OF SOME IMPORTANT QUANTITATIVE CHARACTERS IN SNAPDRAGON (Antirrhinum majus, L.). Part II : Flowering Characteristics.". Journal of Plant Production, 25, 10, 2000, 6367-6382. doi: 10.21608/jpp.2000.259791
Badr,, M., El–Torky, M., Abbas, R., Gaber, G. (2000). 'BIOMETRICAL ANALYSIS OF SOME IMPORTANT QUANTITATIVE CHARACTERS IN SNAPDRAGON (Antirrhinum majus, L.). Part II : Flowering Characteristics.', Journal of Plant Production, 25(10), pp. 6367-6382. doi: 10.21608/jpp.2000.259791
Badr,, M., El–Torky, M., Abbas, R., Gaber, G. BIOMETRICAL ANALYSIS OF SOME IMPORTANT QUANTITATIVE CHARACTERS IN SNAPDRAGON (Antirrhinum majus, L.). Part II : Flowering Characteristics.. Journal of Plant Production, 2000; 25(10): 6367-6382. doi: 10.21608/jpp.2000.259791

BIOMETRICAL ANALYSIS OF SOME IMPORTANT QUANTITATIVE CHARACTERS IN SNAPDRAGON (Antirrhinum majus, L.). Part II : Flowering Characteristics.

Article 17, Volume 25, Issue 10, October 2000, Page 6367-6382  XML PDF (694.4 K)
Document Type: Original Article
DOI: 10.21608/jpp.2000.259791
View on SCiNiTO View on SCiNiTO
Authors
M. Badr,1; M. G. El–Torky1; Rabha Abbas2; Gehan Gaber2
1Dept. of Floriculture, Fac. of Agriculture, Alexandria Univ., Egypt.
2Antoniadis Botanical Garden, Horticulture Research Institute, Agriculture Research Center, Alexandria, Egypt.
Abstract
Intraspecific hybridization among four cultivars of snapdragon, i.e. P1 = Sonnet wit (white), P2 = Sonnet karmijn (red), P3 = Sonnet rose (rose) and P4 = Sonnet geel (yellow) was carried out during three successive seasons: 95/1996, 96/1997 and 97/1998 at Antoniadis Botanical Garden, Horticulture Research Institute, Agriculture Research Center, Alexandria, Egypt.
The main objective of this work was to produce new patterns of snapdragon, especially with reference to flower characteristics. Diallel cross analysis was used to study and determine the genetic system controlling flower traits and also the type of gene action for the different traits.
The results showed that the additive and dominance gene effects were important in the inheritance of days to: first flower bud, showing colour and opening of the first floret. In the F1, dominance gene effect was significant. The degree of dominance and Wr, Vr graph indicated overdominance in the F1, but partial dominant in the F2. Most of dominant genes acted toward earliness. The parents P1 and P2 have most dominant genes. All F1 – progenies achieved negative heterosis towards the earliness.
As for the number of spikes, the additive gene effects were important in the inheritance of that trait and overdominance was involved in the F1 and F2 generations. Dominance genes seemed to be acting in negative direction in the F1, while in the F2, dominance seemed to be acting in positive direction. Heritability in narrow sense was moderate in the F1 hybrids but low in the F2 generations, which indicated that environment effect had minor effect on this trait. Most of the F1 – progenies obtained hybrid vigour.
With respect to spike length, the additive and dominance gene effects were important in the inheritance of this trait and overdominance was involved. Dominance genes seemed to be acting in positive direction and increasing spike length. Narrow sense heritability was moderate in the F1 but low in the F2. Environmental component was significant in both generations. F1 – progenies achieved hybrid vigour.
As for the number of florets per spike, the dominance gene effect played the major role in the inheritance of this trait and overdominance was involved. In addition, additive gene variance was significant in the F2 generations only indicating that it was possible to accumulate the favorable genes. Heritability in narrow sense was moderate to low in the F1 hybrids and F2 generations. Dominant genes seemed to be acting in positive direction and increased the number of florets. The two parents P3 and P4 seemed to carry most dominant genes. The F1 – crosses obtained positive heterosis.
Statistics
Article View: 63
PDF Download: 209