Athanasios Mavromatis

Genetic diversity and metabolic profile of Salvia officinalis populations: implications for advanced breeding strategies

AbstractMain conclusionAs a result of this work, we were able to characterize seven indigenous to GreeceSalvia officinalispopulations using genetic and metabolomic tools. These tools can be used to select the most promising genotypes, capable to design future breeding programs for high valuable varieties. An initial investigation was carried out to compare the genetic and metabolic diversity in S. officinalis grown in Greece and to discern the relationship between the two sets of data. Analysis of inter-simple sequence repeats (ISSR) revealed significant genetic differences among seven sage populations, which were grouped into three main clusters according to an UPGMA ISSR data-based dendrogram and Principle Coordinate Analysis. 80 loci were scored of which up to 90% were polymorphic at species level. According to the composition of their essential oil, the populations were classified into two chemotypes: 1.8 cineole/α-thujone and α-thujone/1.8 cineole. Additionally, a targeted ultra performance liquid chromatography (UPLC–MS/MS) method was used to qualify and quantify phenolic compounds in methanolic extracts of the seven sage genotypes according to which they were districted in six clusters among the sage populations. The main compounds characterizing the seven genotypes were rosmarinic acid and carnosol, followed by apigenin-7-O-glucoside (Ap7glc), and luteolin-7-O-glucoside (Lu7glc). The correlation between matrices obtained from ISSR data and metabolic profiles was non-significant. However, based on the differences in metabolic fingerprint, we aimed to define populations using as main selection criteria the high polyphenol content and desired essential oil composition, using state to the art analytical tools for the identification of parent lines for breeding programs.

Conventional breeding of Greek oregano (Origanum vulgare ssp. hirtum) and development of improved cultivars for yield potential and essential oil quality

This study is an attempt to describe a conventional breeding program on Greek oregano (Origanum vulgare ssp. hirtum). First of all, a descriptor list including the most significant morphological traits was developed for the starting genetic material. The program aimed to select the elite self-plants obtained from the initial population originated from Samothraki Island, in purpose to generate the ideotype of a new cultivar, characterized by desirable agronomical traits and qualitative properties. Therefore, a pedigree intraselection method, based on widely spaced single-plant performance through honeycomb arrangement, was applied. The existing genetic/phenotypic variability of plants and families produced after selection was evaluated for plant’s growth and biomass density, type of stems and inflorescences and their components of yield potential. In addition, the effect of the mode of pollination on plants’ performance from two types of families obtained from self (SP) and open pollination (OP) was assessed. The evaluation for the components of yield potential, the composition of essential oil and carvacrol content, was detected in selected self plants, revealing genotypes with high yield potential. The target of this breeding program was the selection for high essential oil and carvacrol content and stabilization of valuable herbage components. The main selection criteria; high carvacrol and essential oil content, dry weight of leaves and flowers, ratio of leaves and flowers per stem, were subjected to statistical analysis using analytic hierarchy process, and plants were ranking according to their performance. The end-scope of this research was to recombine or even improve the starting population of local population of Greek oregano, according to mean essential oil content and carvacrol, biomass production and uniformity in desirable yield components using efficient breeding and statistical tools of selection.

Hybridization between cotton and Malvaceae species as a tool for production of partial interspecific aneuploid cotton plants

Cotton although is an autogamous species could be cross pollinated under favorable climate conditions and/or in the presence of pollinators. The coexistence of cotton with Malvaceae species raises questions on the possibility pollen to be exchanged among Malvaceae species and on the resulted consequences. The present work was undertaken to evaluate the in situ response of cotton flowers (G.hirsutum L, G. barbadense L.) and their F1 interspecific hybrids when are artificially pollinated with Malva sylvestris L., Hibiscus syriacus L. and Abelmoschus esculentus Moench. Furthermore, an in vitro protocol was attempted to support embryos’ growth in order to produce viable progenies originating from crosses between cotton and the aforementioned Malvaceae species. The obtained results gave evidence that pollen from the above Malvaceae species stimulated cotton ovaries without successful hybridization. The interaction between pollen and cotton’s stigmas was higher at early stages when M. sylvestris was used as pollinator but in crosses with H. syriacus and A. esculentus more ovules were activated as revealed by the percentage of carpodesis and life-time of bolls onto maternal plants. Only crosses between cotton with okra produced cotton seeds under in situ conditions. The in vitro embryo-ovule culture protocol, used, increased the number of regenerated cotton plants, especially in crosses among F1 interspecific cotton hybrids and A. esculentus. In this case, regenerated plants were recombinant aneuploids, combining traits from both cotton species. This novel cotton germplasm possessing unique chromosome rearrangements, at aneuploid level could be proved useful after cytogenetic, molecular or QTL genetic analysis referring to important agronomic traits.

Evaluation of lentil varieties and farming system effect on seed damage and yield loss due to bruchid (Bruchus spp.) infestation

Abstract. A major constraint of lentil (Lens culinaris Medik.) cultivation is yield reduction due to field infestation by the seed beetles Bruchus spp. (bruchids). The aim of the study was to assess seed loss (SL) and yield loss (YL) due to bruchid infestation under organic and conventional farming, and to investigate genotypic variability for seed yield of 20 lentil varieties in response to bruchid damage. Field experiments were established over three consecutive years in two areas of central and northern Greece. SL was determined as the percentage of damaged seeds, whereas the weight of the damaged seeds was estimated as YL. Farming system was the main source of variation for both SL and YL. Mean SL under organic farming was 15% and mean YL was 0.13 t ha–1. SL and YL were 2.6- and 8.4-fold higher, respectively, under organic than conventional farming. Valuable genotypic variability was observed with respect to both SL and YL. Early flowering and small seed size were traits associated with low SL and YL. Among varieties, mean SL ranged from 8.5% to 29.2% and YL from 0.06 to 0.31 t ha–1. Evaluation for high yield potential, indicating bruchid tolerance, revealed two types of promising varieties: varieties with high yield and low seed bruchid damage due to phenological escape, and varieties with high yielding potential despite the high SL and YL.

The effect of genetic variation and nitrogen fertilization on productive characters of Greek oregano

ABSTRACT This study aims to investigate the response of 10 Greek Oregano (Origanum vulgare subsp. hirtum) populations, collected across Greece, under 3 levels of N-fertilization during 2012 and 2013. The populations were differentiated for dry matter (from 32.7 to 63.3 g·pot−1), for essential oil content (from 2.31 to 5.86 ml·100−1 g dry weight) and for amount of essential oil (from 1.37 to 2.46 ml·pot−1), for both years. Those with the highest dry matter (1-“Palaiochori” and 5-“Gliki”) and the highest essential oil content (10-“Gytheio” and 9-“Achladocastro”) were superior by 30%, as compared to the general mean of the experiment. The populations 3-“Litochoro” and 5-“Gliki” had an increased amount of essential oil (24%) as compared to the general mean of the experiment. An additional nitrogen supply (N0 to N1 level) increased dry matter production and amount of essential oil per pot, while decreased essential oil content for all populations. Further increase of nitrogen supply, favored six populations for dry matter production and two populations for amount of essential oil per pot while had almost no effect on five populations for essential oil content. The superior populations could be used in a breeding program as starting material for the development of new cultivars.