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.
相似文献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.
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