The aim of this study was to evaluate the in vitro germination of zygotic embryos and seeds of Caesalpinia ferrea Martius and the morphogenetic responses of the explants to different concentrations of growth regulators. Seeds and zygotic embryos were inoculated in MS culture medium and kept in a growth room at a temperature of 25 ± 2 ºC for 16 hours of photoperiod for 30 days. The seeds had a higher in vitro germination rate than the explants from zygotic embryos. However, zygotic embryos in MS medium supplemented with 0.9 mg L-1 BAP had the highest percentage of regeneration (50%), number of shoots (3.25), buds (2.85) and leaves (3.15), multiplication rate (27.75), and length of shoots (1.96 cm). The in vitro culture of zygotic embryos and seeds made possible the multiplication of a higher number of healthy seedlings. Thus, it can be used as an alternative technique for the propagation of this species.
Libidibia ferrea (Fabaceae) is a valuable medicinal species in the Amazon, but as it is a protected plant, collection from natural populations is forbidden. Therefore, establishing an efficient system for in vitro regeneration and to improve callogenesis of this species is desirable. To determine the optimal nutritional factors needed for shoot multiplication and callus induction, different culture media, plant growth regulators and LED light sources were tested. The data were subjected to analysis of variance (ANOVA) and means compared by Tukey’s test at p < 0.05. We observe that explants inoculated in the Murashige and Skoog (MS) media with 0.05 mg L-1 of 6-benzilaminopurine (BAP) and cultivated under red-blue LED induced the highest number of shoots (3.67), number of buds (3.13), multiplication rate (15.67) and shoots length (22.03 mm) when compared with other treatments. MS and B5 media supplemented with 2.21 and 4.42 mg L-1 of 2,4-D induced 100% formation of friable callus cultivated under red-blue LED, demonstrating that the light quality significantly influenced callogenesis. Obtained results confirmed that in vitro regeneration and callogenesis is a useful strategy in the protection of endangered species. In this way, a new renewable source of biomass with high quality plant material is presented aiming at the bioprospecting of seedling extracts and friable callus to obtain secondary metabolites of this medicinal plant.
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