Gina Brito

Micropropagation of Juniperus phoenicea from adult plant explants and analysis of ploidy stability using flow cytometry

We report here the successful micropropagation of adult Juniperus phoenicea L. with respective ploidy stability studies. Microcuttings with axillary buds were grown on five media supplemented with different growth regulator combinations. Best elongation rates were achieved on Driver and Kuniyuki (DKW) medium supplemented with kinetin alone or with naphthaleneacetic acid (NAA), while Rugini olive (OM) medium stimulated the development of new branches. Shoots growing on Murashige and Skoog (MS) medium browned and showed necrotic zones. Shoots of second to fourth subcultures usually had higher elongation rates than those of the first culture. For rooting assays, half strength DKW and OM media, different concentrations of growth regulators, auxin continuous exposure vs. dipping and the type of solid matrix were assessed. During rooting assays, two morphotypes were observed with one type having well developed internodes and the other showing hyperhydratation and no internode development. High rooting rates (40 %) were only obtained in the first morphotype shoots exposed for 5 min to 2.4 µM IBA and then transferred to OM medium without growth regulators. Plants were acclimatized in pots containing a mixture of peat and Perlite (3:2) in greenhouse with progressive reduction of relative humidity. A flow cytometric screening for major ploidy changes revealed no differences among the morphotypes and between them and the mother plant. Also the nuclear DNA content of this species was estimated for the first time using flow cytometry (2C = 24.71 pg).

Large-scale field acclimatization of Olea maderensis micropropagated plants: morphological and physiological survey

Micropropagation allows large-scale plant multiplication and germplasm preservation, representing an added value in forest breeding strategies to combat desertification and/or protect endangered species. We developed a large-scale micropropagation protocol of Olea maderensis (a native endangered wild olive of Madeira Archipelago) using OMG medium (rich in Fe, Mg and Mn) supplemented with zeatin for elongation and with NAA for rooting. We now describe the performance of micropropagated plants during five-period field acclimatization: (1) in vitro, (2) growth-cabinet, (3) greenhouse, (4) open-greenhouse, and (5) field mountain in Porto Santo Island. One hundred OG4 plants were acclimatized, showing >95% surviving rates. During acclimatization, several physiological parameters were evaluated; water content remained higher in in vitro/greenhouse conditions, decreased in field leaves. Soluble protein contents decreased during the first acclimatization periods increasing thereafter. Membrane permeability slightly increased during the field acclimatization. Chlorophylls content increased in in vitro leaves, while during acclimatization, mostly chl b decreased, increasing chl a/chl b ratio. F0 decreased in first acclimatization periods, increasing thereafter, while the other parameters (Fv; Fm; Fv/Fm) decreased. Nutrient contents decreased in plants transferred to poor field soil conditions, reaching values similar to mother plant leaves. Overall, with the exception of PSII fluorescence, field acclimatized plants had similar values to mother plants, showing a good adjustment to stressful field conditions. This protocol is being used in large-scale micropropagation within a reforestation program, and is an example of R&D technologies with immediate application on protection of endangered ecosystems.