Marijana Barić

Quantitative inheritance of some wheat plant traits

The objective of this study was to estimate gene effects and genetic variability for some quantitative traits of two winter wheat crosses (Soissons/Zitarka and Soissons/Sana) by generation mean analysis. In most cases a digenic epistatic model was sufficient to explain variation in generation means. The additive-dominance model was adequate for plant height and grain weight per spike of the longest culm. In two cases (grain yield per plant and single grain weight) these models failed to explain variation in generation means, implying the presence of higher order interactions or interactions between linked loci. Dominance effects and additive x additive epistasis were more important than additive effects and other epistatic components. Only complementary type epistasis was observed. The estimated values of narrow-sense heritability (h2n) varied for plant height (54-81%), number of heads per plant (9-76%), number of grains per spike (11-99.8%), grain weight per spike (23-73%), grain yield per plant (21-78%) and single grain weight (49.7-72%). The adequacy of certain modes of inheritance as well as the importance and significance of gene effects and genetic components of variance for analyzed traits were dependent upon the particular crossing combination and experimental site.

Originality of M3S maize population and changes in allele frequencies revealed by SSR markers after two cycles of selfed progeny recurrent selection

Maksimir 3 Synthetic (M3S) maize population was developed at the Faculty of Agriculture University of Zagreb by intercrossing inbred lines, whose origins trace back to several open-pollinated varieties and local populations from different regions of the former Yugoslavia. The population was subjected to two cycles of selfed progeny recurrent selection for grain yield. The objectives of this study were: (i) to determine genetic distances among the parental inbred lines of the M3S population (M3S progenitors), the M3S population before and after two cycles of recurrent selection, and elite inbred lines representing the BSSS and Lancaster heterotic group; and (ii) to examine the effect of two cycles of recurrent selection on allele frequency changes in the population. Nine M3S progenitors, three BSSS lines, and three Lancaster lines were genotyped at 24 SSR loci, out of which nine randomly chosen loci were used for genotyping 96 individuals from both C0 (the M3S population before selection) and from C2 (M3S population after two cycles of selection). A total of 101 alleles were detected across 24 loci in the 15 lines, whereas 83 alleles were found in the nine M3S progenitors. Among the latter 83 alleles 31 were unique, i.e. found only in one of the progenitors. Mean genetic distance among nine M3S progenitors was 0.61 indicating a broad genetic base of the M3S population. High mean genetic distance was found between M3S progenitors and BSSS lines (0.69) and M3S progenitors and Lancaster lines (0.71). This indicates that the M3S population represents a germplasm source unrelated to both the BSSS and Lancaster germplasm. Mean genetic distance between the M3S population and BSSS as well as Lancaster lines decreased slightly after two cycles of recurrent selection suggesting the need to introduce testers from both groups in future selection in the M3S population in order to maintain heterotic complementarity of the M3S population to these groups. A test of selective neutrality identified several non-neutral loci in the population whose allele frequency changes from the C0 to the C2 cannot be explained by genetic drift. The majority of non-neutral alleles, whose frequency increased after two cycles of selection, were present in at least one line from the BSSS or Lancaster heterotic group.

Genotypic differences for nitrogen use efficiency in winter wheat ( Triticum aestivum L.)

Our results showed that genetic variability for N use efficiency exists in high-yielding winter wheat genotypes even at the lowest N level (N0). Genotypes Renan and Monika reached their maximal yield in the highest N level (N100), while line ZgM1 (also high yielding) reached maximal yield at the lowest N level (N0) without significant increase of yield with additional N inputs. Breeding line ZgM1 is therefore selected as genotype with high nitrogen use efficiency and will be used as the parent in the future crosses.

The micropropagation of chrysanthemums via axillary shoot proliferation and highly efficient plant regeneration by somatic embryogenesis

Protocols for axillary shoot proliferation and somatic embryogenesis were developed for Dendranthema × grandiflora (Ramat.) Kitamura cv. Palisade White. Shoot tips were cultured on a modified Murashige and Skoog (MS) media supplemented with benzyl aminopurine (BA) and gibberellic acid (GA 3 ) or BA, kinetin (Kin) and indole-3-acetic acid (IAA). The auxins indole -3-butyric acid (IBA) and IAA were used to induce rooting. Direct somatic embryogenesis was induced from leaf, internode’s stem and for the first time for chrysanthemums from petiole explants. Modified MS medium supplemented with 1 mg/L naphthalene acetic acid (NAA) or 2,4- dichlorophenoxyacetic acid (2,4-D), 0.1 mg/L BA, 200 mg/L casein hydrosylate (CH) and 290 mg/L proline was used for induction. Proliferation rate of 3.2 new microshoots per one inoculated was achieved when BA (0.1 mg/L) was used in combination with GA 3 (0.5 mg/L). The number of roots per shoot was higher using IBA (0.5 mg/L), but IAA (2 mg/L) promoted longer roots. A high percentage of embryogenesis was induced by both combinations of plant growth regulators (PGRs). Leaf explants were most responsive, demonstrating the highest percentage of embryogenesis (97.9%), followed by petiole and internode’s stem explants (56.3 and 35.1%, respectively). The number of somatic embryos per embryogenic explant was also the highest on leaf explants; however, the best conversion rate (53.8%) of somatic embryos to plantlets was observed from petiole explants. For this reason, petiole explants are the most suitable type of explants for plant regeneration of chrysanthemum cv. Palisade White through somatic embryogenesis. Key words : Chrysanthemum, Dendranthema × grandiflora (Ramat.) Kitamura cv. Palisade White, micropropagation, direct somatic embryogenesis, explant type.