Abstract
Butia odorata is a palm native to southern Brazil and Uruguay, not domesticated, much appreciated for its fruits and economic potential. However, the extractivism and the difficulty of propagation have led to the decline of natural populations. The objective of this work was to prove the possibility of induction of somatic embryogenesis in B. odorata. Mature zygotic embryos were induced in two media, MS and Y3, combined with auxin 2,4-D and picloram in five concentrations (2,4-D: 0, 361.99, 452.49, 542.99 and 633.48 μM/L, picloram: 0, 50, 150, 300 and 450 μM/L). The results promising during induction with the formation of embryogenic calli and somatic embryos, however the regeneration of them was not efficient, this may be due to the occurrence of somatic embryos fused during its development. The roots were formed, but the aerial part remained molten, not completing its development. Auxin picloram and Y3 medium provided the most adequate conditions for calogenesis, formation of embryogenic callus and somatic embryos, with concentrations of 150, 300 and 450 μM/L. This is the first description of somatic embryogenesis in B. odorata that will serve as the basis for future research and adjustments of the methodology proposed here.
Highlights
Butia odorata, known as pindo palm, is a palm (Arecaceae) native to the Pampa biome in Brazil and Uruguay (Noblick 2011)
The objective of this work was to induce somatic embryogenesis from mature zygotic embryos, to identify the factors related to the process and to provide information for the development of protocols for in vitro multiplication of B. odorata
Induction of somatic embryogenesis Formation of primary calli took place in the treatments with 361.99 μM2, 4D, and 50 μMicloram; zygotic embryos tended to germinate in treatments without auxin
Summary
Known as pindo palm, is a palm (Arecaceae) native to the Pampa biome in Brazil and Uruguay (Noblick 2011). Native pindo palm populations are diminishing due to urban and agricultural expansion, and the inadequate management cattle ranching, which compromises the regeneration of populations due to trampling and grazing of the seedlings (Rivas & Barbieri 2014). Fior et al (2011) and Schlindwein et al (2013) suggested several alternatives to overcome dormancy, as opening the seed embryonic cavity or through dry and warm stratification. These methods are labor-demanding and require specific conditions. Pindo palm only have one apical meristem, which limits asexual propagation. In this context, tissue culture techniques can contribute significantly to the
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