Micropropagation and molecular characterization of Thymus sibthorpii Benth. (Lamiaceae), an aromatic-medicinal thyme with ornamental value and conservation concern

Thymus sibthorpii Benth. (Lamiaceae), with accession number 01,1796-22, is a biotype of native Greek thyme with ascending stems and potential use as a new medicinal-aromatic crop and ornamental plant. An efficient and reliable protocol for in vitro clonal propagation of T. sibthorpii from nodes and meristem tip explants was developed. Shoot proliferation succeeded on a new basal medium (BB) without plant growth regulators, as prior experiments with 6-benzyladenine generated hyperhydricity. Eight different basal media were compared; on two formulations using the new BB 5.9 and 5.6 shoots per explant were produced. Regenerated single shoots were rooted in the BB medium, supplemented with 5 μM of indole-3-butyric acid, and produced 3.1 roots along with 2.5 adventitious shoots. Three types of acclimatization were assessed: in vitro, using two different systems (no significant differences); ex vitro, using eight soil substrates under greenhouse and outdoor nursery conditions (in two of them, 100% of plantlets survived); and in field cultivations, established at eight geographically distant areas of Greece (100% survival rate at all locations). Molecular characterization of T. sibthorpii was evaluated with one nuclear ribosomal DNA and seven chloroplast DNA markers, followed by DNA sequence comparisons with a total of 30 different Thymus species, subspecies, and varieties. The trnH/psbA, trnL/trnF, and matK genes were the most efficient markers for molecular characterization of T. sibthorpii. The molecular markers rpoC1 and petB/petD did not match to any Thymus species and therefore, these DNA sequences provide new sequence information for entire Thymus taxa.

     

<Emphasis Type="Italic">Parietaria judaica</Emphasis> flowering phenology,pollen production,viability and atmospheric circulation,and expansive ability in the urban environment: impacts of environmental factors

Parietaria judaica (Urticaceae) grows abundantly in urban areas of the Mediterranean region. Its pollen is a major allergy source. We studied the species’ distribution and abundance in and around Thessaloniki (Greece), pollen production and pollen season. We also examined how urban pollution affects pollen viability. Our ultimate goal was to obtain an estimate of the species’ performance and ability to expand under different environmental conditions related to climate change. We mapped P. judaica and the other Urticaceae species. In a north- and a south-facing population, we recorded the progress of P. judaica flowering and estimated the pollen content per flower, shoot and surface unit. We concurrently assessed atmospheric circulation of Urticaceae pollen. We estimated P. judaica pollen viability and Cu, Pb and Zn concentrations in plants collected from sites differing in traffic intensity. P. judaica is the most abundant Urticaceae species in the area; its occurrence has increased dramatically over the last 100 years. Production of flowers is intense in spring and autumn. Flowering started 12 days earlier in the south-facing population in spring, and 3 days later in autumn. Pollen production was higher in spring and in the south-facing population. Flower and pollen production were positively correlated with the size of the plant and the flower, respectively. Copper and lead concentrations in plants were positively correlated with pollen viability, which was higher for plants collected from high-traffic sites. P. judaica has a high phenotypic plasticity; this is a feature that promotes success of expansive and invasive species. It is also well adapted to warm and polluted urban environments. The climatic change forecast for the Mediterranean region could provoke earlier, longer, and more pronounced flowering and, consequently, more P. judaica pollen in the air. In return, this would result in increased severity of Parietaria pollinosis.     

Analysis of the ex situ conservation of the Greek endemic flora at national European and global scales and of its effectiveness in meeting GSPC Target 8

We examine the extent to which the rich endemic flora of Greece, a country in the Mediterranean hotspot, and particularly that part facing an extinction risk, is effectively conserved ex situ. We detected 3067 accessions of 523 taxa representing 37.2% of the Greek endemics in 213 botanic gardens (BGs, 439 taxa) and 14 seed banks (SBs, 344 taxa) of 36 countries; 46.7% of these accessions are in Greek institutions. Seeds are available for only 23.8% of the taxa in SBs. Of the 558 threatened and near-threatened endemics, 268 are conserved ex situ. Of these, 44.8% are accessioned in a single BG and 48.9% in a single SB; in the latter, 25% are represented by a single accession number. Based on major concerns, for a taxon to be considered as effectively conserved ex situ, we propose that it be represented by no less than five accessions deposited in two institutions of two countries, at least. This criterion is met by only 6.4% of the taxa in SBs. There is still a long way to go so as to achieve Target 8 of the Global Strategy for Plant Conservation (GSPC).     

Flower morphology, phenology and visitor patterns in an alpine community on Mt Olympos, Greece

Alpine vegetation, restricted to the top of high mountains, is among the vegetation types most endangered by global warming, currently predicted to raise temperatures from 1.1 to 6.4 °C, by the end of the century. Nevertheless, background information allowing evaluation of impacts is rather scarce for some geographic zones. Our study of an alpine community on the Plateau of Muses (2600–2750 m a.s.l.) of Mt Olympos, the highest mountain of Greece, conducted in 1993–1994, can provide such background information for the Mediterranean region. We studied features relating to phenology of flowering, floral morphology, distribution and abundance, and flower visitors of plant species that exhibit a biotic pollination syndrome. We identified dominant patterns and we further (i) explored the relative contribution of the plant features and abiotic factors studied in explaining the activity patterns of flower visitors, (ii) examined if flower and visitor traits of the alpine community match each other according to the classical pollination syndromes, and (iii) investigated whether the responses of individual plant species to the yearly climatic variability result into phenological patterns that characterize the whole community. The common strategy of the alpine community was for early flowering and long flower life span; consistently early flowering species were twice as many as late flowering ones, whereas floral longevity (estimated for 36 species) averaged 5.2 days. Duration of flowering (estimated for 57 species) averaged 18.2 days. Climatic variability affected onset of flowering; all late flowering species delayed their flowering during the year characterized by a humid and cold summer. Duration of flowering and floral longevity did not change in a consistent way. Hymenoptera (Aculeates) were the dominant flower visitors. They accounted for 43.3% of the visits recorded, with bumblebees making a little less than half. Diptera followed making 37.5% of the visits (most made by syrphid flies). There was a mismatch between flower-morphology and flower visitor traits; the alpine community had predominantly non-specialized, pale-colour flowers, which are traits assumed to correspond to Diptera dominance and absence of social bees. Visitation was influenced by flower abundance and duration of flowering; proportionately more Diptera, and proportionately less Hymenoptera visited species with short flowering periods and few flowers present in the field. In a number of cases, the phenological and flower visitor patterns of the community of Mt Olympos deviated from those observed in other alpine environments suggesting a mediterranean influence even at high altitudes.     

In vitro propagation of medicinal and aromatic plants: the case of selected Greek species with conservation priority

Worldwide, many medicinal and aromatic plants (MAPs) are still collected from the wild and only a small fraction of them are exclusively sourced from cultivation. This practice when performed non-sustainably threatens species and populations. Micropropagation of MAPs is a powerful tool to conserve rare, threatened, and valuable MAPs, and to massively produce high-value plant material for cultivation without seasonal constraints. In this study, the in vitro propagation protocols of 22 Greek native MAPs assigned with conservation priority were assessed (herbaceous perennials, bulbous, subshrubs, and trees), including 17 range-restricted plants and 5 taxa of Orchidaceae. For the latter, current micropropagation efforts include seed germination, callus induction, and protocorm formation for successful plantlet development; however, these propagation protocols are still fragmentary. For the rest (n = 17), a five-stage detailed procedure is outlined (plant material, establishment, proliferation, rooting, and acclimatization), while materials, treatments, and data per stage are shown comparatively and discussed. Emphasis is given on the selection and preparation of plant material obtained from nature for research, sustainable use, and ex situ conservation actions, and on their effectiveness for conservation purposes or mass production needs. The protocol effectiveness was calculated using a specific equation to estimate the potential number of acclimatized plants raised from a single explant within a year. All protocols can facilitate conservation, and almost half of them could be used for commercialization with high cost (five cases), intermediate cost (eight), or low cost (four), which enables their possible sustainable use.

     

GIS-facilitated in vitro propagation and ex situ conservation of Achillea occulta

A Geographical Information Systems (GIS)-facilitated approach for the in vitro propagation and ex situ conservation of the conservation priority species Achillea occulta is presented. To realize the species?? ecological requirements, the coordinates of the original habitat were linked with thematic layers derived from digital databases in a GIS environment. From wild plants, shoot tips were established in vitro in a basal medium with 4???M 6-benzyladenine (BA) and 0.5???M indole-3-butyric acid (IBA). A modified basal MS medium (modMS, double amount of Fe) proved to be the most effective for in vitro adventitious shoot production. The effect of BA in combination with ??-naphthaleneacetic acid (NAA) or IBA on shoot proliferation was also tested. The highest number of new microshoots/explant (3.5), with 0.93?cm shoot height was obtained when the modMS was supplemented with 5???M BA and 2.5???M IBA. To evaluate the root induction ability, microshoots produced were transferred to modMS media supplemented with 0?C20???M IBA and 0?C20???M NAA. Rooting proved to be very difficult and only by adding 20???M IBA, a 12.5% rooting percentage was achieved. Acclimatization succeeded only during early spring. Young plants transplanted at the Balkan Botanic Garden of Kroussia produced flowers and seeds in the first year. This GIS-approach provided useful guidelines for A. occulta??s (a) effective propagation (selection of greenhouse temperatures, temperatures during in vitro culture, suitable period for cuttings and acclimatization of plantlets), and (b) ex situ cultivation (selection of watering regime, temperatures, locations and exposures for growing sites).     

Latitudinal variation in soil nematode communities under climate warming‐related range‐expanding and native plants

Current climate change has led to latitudinal and altitudinal range expansions of numerous species. During such range expansions, plant species are expected to experience changes in interactions with other organisms, especially with belowground biota that have a limited dispersal capacity. Nematodes form a key component of the belowground food web as they include bacterivores, fungivores, omnivores and root herbivores. However, their community composition under climate change‐driven intracontinental range‐expanding plants has been studied almost exclusively under controlled conditions, whereas little is known about actual patterns in the field. Here, we use novel molecular sequencing techniques combined with morphological quantification in order to examine nematode communities in the rhizospheres of four range‐expanding and four congeneric native species along a 2,000 km latitudinal transect from South‐Eastern to North‐Western Europe. We tested the hypotheses that latitudinal shifts in nematode community composition are stronger in range‐expanding plant species than in congeneric natives and that in their new range, range‐expanding plant species accumulate fewest root‐feeding nematodes. Our results show latitudinal variation in nematode community composition of both range expanders and native plant species, while operational taxonomic unit richness remained the same across ranges. Therefore, range‐expanding plant species face different nematode communities at higher latitudes, but this is also the case for widespread native plant species. Only one of the four range‐expanding plant species showed a stronger shift in nematode community composition than its congeneric native and accumulated fewer root‐feeding nematodes in its new range. We conclude that variation in nematode community composition with increasing latitude occurs for both range‐expanding and native plant species and that some range‐expanding plant species may become released from root‐feeding nematodes in the new range.     

Effect of temperature and light on seed germination of Erysimum naxense and Erysimum krendlii

Seed germination of two local Greek endemics was studied (Erysimum naxense, Erysimum krendlii). Seed viability was determined by using the tetrazolium method and germination was studied in synchronized cycles of five and four alternating temperatures [10/5 (for E. naxense only) and 15/10, 20/15, 25/20, and 30/25°C for both species, in cycles of 16 h day/8 h night], and in five light regimes (red, blue, green, white, and dark). Germination of E. naxense and E. krendlii seeds was determined daily for six and five weeks, respectively, with the data analyzed as viability adjusted accumulative seed germination at the end of each week. E. naxense’s seed viability was higher (90%) than that of E. krendlii (64%); seed germination (%) of both increased at low alternating temperatures (10/5°C, 15/10°C, 20/15°C). Germination of E. naxense seeds at low temperatures was light-independent, whereas at high temperatures it was increased with red light. Germination of E. krendlii seeds was inconsistently affected by light at the temperatures studied. Percentages of seed germination of both species were higher in experimental conditions similar to the ones of their natural habitats during autumn and/or spring (facilitated with Geographic Information Systems). These conclusions provide guidelines for species-specific propagation protocols and ex situ conservation.     

Conservation of important plants from the Ionian Islands at the Balkan Botanic Garden of Kroussia,N Greece: using GIS to link the in situ collection data with plant propagation and <Emphasis Type="Italic">ex situ</Emphasis> cultivation

The Balkan Botanic Garden of Kroussia (BBGK) is dedicated to the ex situ conservation of native plants of Greece and the Balkans. The BBGK has formulated a conservation strategy for the collection of wild plant material for propagation, prioritizing mainly the endemic, rare, endangered, threatened and vulnerable plants of Europe found in different regions of Greece. Its aim is to contribute to the implementation of Target 8 of the Global and European Strategies for Plant Conservation at local, regional and international scales. In order to (i) define the ecological profile of the in situ requirements preferred and/or tolerated by each selected species, (ii) develop rapid and effective species-specific propagation protocols, and (iii) improve the cultivation of species of conservation concern in BBGK’s nurseries and ex situ conservation sections, geographical coordinates and in situ collection data obtained for each taxon were imported into a Geographic Information System environment (GIS). This information was then linked with several digital GIS thematic layers, including topographic, geological, edaphic, climatic, precipitation and temperature data derived from digital databases. Based on this approach, sexual and asexual propagation of plants from the Ionian Islands were conducted and rapid and effective baseline protocols were developed for 29 taxa (species and subspecies); four are presented here in detail and species-specific ex situ propagation and cultivation guidelines are given. Most of the taxa originating from the Ionian Islands were propagated by cuttings (55.2%) or seeds (34.5%), while the rest were propagated by root division at a rate from 1.7 to 2. The first round of propagation achieved a success rate ranging from 15 to 50% for 3 taxa, from 60 to 80% for 8 taxa and from more than 80 to 100% for 16 taxa, while the ex situ cultivation of the wild and propagated plant material has, so far, been successful. The application of GIS exemplified here presents a sensible and invaluable tool with a broad-scale potential in enhancing the prospects of the ex situ conservation of priority species collected from diverse environmental conditions in man-made habitats such as botanic gardens.