Lilium lancifolium Thunb. (2n = 2x = 24) is a cytologically conspicuous species with both diploids and triploids in nature. Cytological and molecular genetic analyses were carried out in both diploids and triploids that were collected from 55 geographical locations in Korea, Japan, and China. While the 5S rRNA gene loci were located at duplicated loci on the long arm of chromosome 2, the 45S rRNA gene loci were present in chromosomes 1, 2, 4, 6, 7, and 11. While the loci on chromosomes 1 and 7 were constant, the loci on chromosomes 2, 4, 6, 7, and 11 were variable in some plants so that the L. lancifolium accessions were grouped into 7 cytotypes in diploids and 12 cytotypes in triploids. REMAP marker analysis revealed that the diploids were classified into seven clusters, and the triploids were classified into a large cluster. Geographic, cytological, and genetic differentiations were not related in both the diploid and triploid accessions of L. lancifolium. Thus, current genetic variations occurred prior to the geographic differentiation in both diploids and triploids, and the 45S rDNA cytotype variations occurred after geographic differentiation in the current habitats of L. lancifolium.
An experiment was carried out using eight double cross F1s (DCF1s) as lines and two testers to obtain sixteen Line ×Tester hybrids for the evaluation of major growth and flowering traits thereby to understand the breeding potentiality of the parental lines. The performance of growth and flowering traits of all twenty-six genotypes were evaluated in a randomized complete block design (RCBD) with three replications. The analysis of variance (ANOVA) showed all the genotypes were significantly different for all agro-morphological traits under study. The estimated general combining ability (GCA) effects showed that parent 5(P5), were superior for plant height, stem diameter, number of leaves, leaf length, days to flowering and attitude of floral axis followed by parent 2(P2) for leaf length, leaf width, days to flowering and attitude of floral axis and parent7 (P7) for number of flower, flower diameter, bud length and attitude for floral axis. Likewise; tester 1 found to be best combiner with significant GCA effect for almost all growth and flowering traits (except number of leaves). The plant height, leaf width, number of flower and attitude of floral axis showed prevailing additive gene action while stem diameter, number of leaves, leaf length, days to flowering, flower diameter and bud length indicated predominance of dominance gene action. We can conclude that parent P5, parent P2 and parent P7 can be used as good mother lines and the tester 1, as good donor for the seed production. SAARC J. Agri., 17(1): 175-187 (2019)
An experiment was carried out to evaluate the influences of seed storage temperature and variation due to cultivars on the germination of the Lilium×formolongi hort. seeds. The seeds of four cultivars of Lilium×formolongi Hort. viz. Augusta, Raizan Herald (RH), Eorayeon 1ho, and Eorayeon 2ho was treated with four temperature ranges 5°C, -2°C, -20°C and 20°C (Room temperature, Control) up to 6 months to execute the experiment. In total 500 seeds of each cultivar including four temperature regimes and four replications for each temperature treatment and each replication represented by 30 seeds have been provided 10 days chilling treatment before to test the germination to get the uniformity in germination. The laboratory experiment was carried out in a completely randomized design (CRD) to assess the different parameters of germination viz. germination percentage(GP), mean germination time (MGT), germination index (GI), time taken to 50% germination (T50), and coefficient of the velocity of germination (CVG) at four temperature regime of four cultivars. The ANOVA analysis revealed significant variability among the four cultivars for all germination parameters in all temperature treatment levels. The results of the experiment demonstrated that the storage temperature has a great influence on germination percentage (GP), mean germination time (MGT), germination index (GI), time taken to 50% germination (T50), and coefficient of the velocity of germination (CVG) with comparisons to the normal temperature stored seeds (20°C). The significant variation among these parameters for each cultivar demonstrated the significance of varied requirements like stored temperature for the long term storage of that particular cultivar.
The characteristics of Lilium brownii var. colchesteri are not found in other lily species. This study analyzed twelve genotypes (F1 hybrids) of L. brownii var. colchesteri for nine important cut flower characteristics. As part of pre-breeding, the variability analysis task for the studied traits was carried out in a randomized complete block design with three replications. The analysis of variance (ANOVA) analyses demonstrated significant variability among the genotypes for the studied cut-flower traits. The higher values of the phenotypic coefficient of variation (PCV) and genotypic coefficient of variation (GCV), coupled with higher heritability, along with the genetic advance expressed as a percentage mean (GAM), revealed that plant height, leaf length, leaf burn, and flower diameter had demonstrated the prevalence of the additive type of gene action. The remaining cut flower traits, especially leaf width, number of flowers, length of outer tepal, the width of outer tepal, and days to flowering, proved to have a prevalence of the non-additive type of gene action. The mean performance of the cut flower traits provides information for effective progeny selection after hybridization. The performance of Ryunghoehyeon had been found to be outstanding for plant height, flower diameter, length of the outer tepal, width of the outer tepal, days to flowering, and the number of flowers.
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