This study investigates the initial development of two Cerrado species, Eugenia dysenterica and Byrsonima basiloba. Both species have high ethnobotanical importance and are widely used as a food source as well as in folk medicine. Eugenia dysenterica presented hypogeous cryptocotylar germination and the cotyledons were rich in reserve material. This plant species showed quick root development and after the shoot had produced the first two pairs of eophyls, the seedling went into a latent state for at least 1 year. Byrsonima basiloba had a hard endocarp, which had to be broken to facilitate germination. This species showed epigeous phanerocotylar germination. Similarly to E. dysenterica, B. basiloba roots also developed rapidly; however, the aerial part grew continuously and did not show a latent period. Moreover, within the first 6 months of cultivation B. basiloba developed a xylopodium. The strategies for seed dispersal and breakage of seed dormancy were different between the species, but their initial growth showed several similarities.
RESUMO:O objetivo desta pesquisa foi avaliar o potencial organogenético de entrenós, discos foliares, e raízes de Brosimum gaudichaudii utilizando 12 diferentes combinações dos fitorreguladores 6-benzilaminopurina e ácido naftaleno acético, em meio MS (diluído à metade), sólido (6,5 g de ágar), e com 20 g.L -1 de sacarose. Independentemente das combinações hormonais testadas verificou-se a formação de calos friáveis (2 a 20 mm de diâmetro) em 90% dos entrenós usados como explantes. No entanto, os tratamentos testados não foram capazes induzir calos ou gemas em raízes e em discos foliares. O estudo anatômico revelou a formação de meristemóides nas regiões mais externa e mais interna dos calos. Os resultados obtidos poderão servir de base para novos testes de indução de calos na espécie.Palavras-chaves: ANA, BAP, regeneração in vitro..
ABSTRACT: In vitro cultivation of Brosimum gaudichaudii Tréc. (Moraceae).The objective of this research was to evaluate the organogenic potential of internodes, leaf discs and roots of Brosimum gaudichaudii using 12 different combinations of the plant growth regulators 6-benzylaminopurine and naphthalene acetic acid in MS medium (half strength), solid medium (6.5 g agar) and sucrose medium (20 g.L -1 ). Regardless the hormonal combination tested, we observed the formation of friable calluses (2 -20 mm wide) in 90% of the internode explants. However, the treatments were not able to induce callus or buds on roots and leaf discs. The anatomical analysis revealed meristemoid formation in the outer and inner regions of the calluses. The results may serve as the basis for further testing of callus induction in this species.
The use of micropropagation techniques is crucial for the conservation of endangered moss species and their reestablishment in nature. This study aimed to establish in vitro cultures of gametophyte fragments of ten species of Cerrado mosses. After disinfestation with alcohol and commercial bleach, moss explants were grown in Petri dishes containing Knop medium. The species Bryum argenteum, B. coronatum, Isopterygium tenerifolium, Leucobryum crispum, Pogonatum pensilvanicum, and Vitalia cuspidifera were successively established with efficiency rate ranging from 1 to 31.2%. However, no aseptic cultures were obtained for the species Barbula indica, Bryum densifolium, Fissidens flaccidus, and Sphagnum platyphylloides. Even though, a few contaminated explants of these species were able to develop and grow. Thus, all ten species were submitted to rescue techniques to establish cultures in aseptic conditions, from partially contaminated explants (indirect establishment). Consequently, the indirect establishment resulted in higher percentages of explant development, which enhanced the establishment of in vitro cultures for most of the species tested. This fact is especially important for conservation purposes, mainly for species whose material is sensitive or scarce. Therefore, indirect establishment as a new in vitro culture methodology was a viable form of propagating the bryophyte species listed in this research. This fact is essential for conservation purpose, especially for species whose material is sensitive or scarcer.
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