ABSTRACT
In vitro germplasm conservation allows to extend the interval between subcultures without compromising the viability and genetic integrity of the plant, ensuring a backup of genotypes with high phytosanitary quality. Thus, this study aimed to verify the effect of four concentrations of Paclobutrazol® in inducing minimum growth in five Manihot esculenta accessions from the in vitro Active Germplasm Bank of Embrapa Cassava and Fruits. An experiment was installed using the Murashige and Skoog medium without addition and added with four concentrations of Paclobutrazol® (0.10, 0.20, 0.30, and 0.40 mg L-1), in five in vitro accessions of M. esculenta: BRS Jari (BGM 2041), Cigana (BGM 0264), BRS Poti Branca (BGM 2017), TME 14, and BRS Novo Horizonte. The statistical design was completely randomized in a 5 x 5 factorial scheme, with 15 repetitions. After 120 days of cultivation, the following variables were evaluated: plant height (cm), number of green leaves, number of senescent leaves, number of mini-cuttings, number of shoots, and fresh and dry mass of shoots and roots (mg). Paclobutrazol® caused a reduction in plant height and gain in root mass for all accessions, in addition to preserving the number of green leaves and decreasing leaf senescence for most genotypes. There was a strong dependence of the genotype in relation to the concentration of Paclobutrazol®. The concentration of 0.20 mg L-1 showed potential in the in vitro conservation of M. esculenta genotypes.(AU)
Subject(s)
Plant Growth Regulators/genetics , Manihot/genetics , Gibberellins/adverse effects , Plant Breeding/methodsABSTRACT
A micropropagação é uma técnica muitas vezes indicada para a multiplicação em larga escala de plantas com propriedades medicinais. Dentre elas, destaca-se a hortelã-pimenta (Mentha x Piperita L.), cujo óleo essencial é utilizado no tratamento de transtornos digestivos e respiratórios. Para otimizar o protocolo de micropropagação dessa espécie são necessários estudos, principalmente quanto à suplementação do meio de cultura para garantir a produção massal in vitro e posterior extração do óleo essencial. Nesse contexto, objetivou-se avaliar o efeito de concentrações e combinações de reguladores de crescimento vegetal na morfogênese in vitro de hortelã-pimenta. Segmentos nodais provenientes de plântulas estabelecidas in vitro foram utilizados como fonte de explante e inoculados em meio de cultura MS suplementado com 0; 2,0 e 4,0 mg L-1 de BAP (6-benzilaminopurina), 0; 0,5 e 1,5 mg L-1 de ANA (ácido naftaleno-acético) e 0; 0,5 e 1,0 mg L-1 de GA3 (ácido giberélico). O delineamento experimental adotado foi inteiramente casualizado, com os tratamentos distribuídos em esquema fatorial 3x3x3 com oito repetições. Concluiu-se que o BAP favoreceu a sobrevivência de segmentos nodais de M. x Piperita inoculados in vitro e, quando combinado ao GA3, promoveu a brotação dos explantes. Essas características, no entanto, não foram estimuladas pela adição de ANA ao meio de cultura. Conclui-se que após a multiplicação dos brotos in vitro estes devem ser transferidos para meio sem reguladores para seu desenvolvimento. Apesar dos efeitos benéficos do BAP na organogênese de M. x Piperita, elevadas concentrações deste regulador de crescimento vegetal promoveram a formação de calos.
Micropropagation is a technique used for the large-scale production of medicinal plants. Among them, peppermint (Mentha x piperita L.) may be mentioned because of the pharmacological importance of its essential oil, which is used on the treatment of digestive and respiratory disorders. Studies are needed in order to optimize the micropropagation protocol of this species, especially concerning the culture medium, to ensure the in vitro mass clonal production and to enable the future extraction of the plant essential oil. Therefore, this work aimed to evaluate the effects of concentrations and combinations of different plant growth regulators on the in vitro morphogenesis of peppermint. Nodal segments from plantlets already established in vitro were used as explants and inoculated on MS medium supplemented with 0, 2.0 and 4.0 mg L-1 of BAP (6-benzylaminopurine), 0, 0.5 and 1.5 mg L-1 of NAA (naphthalene acetic acid) and 0; 0.5 and 1.0 mg L-1 of GA3 (gibberellic acid). The experiment was in a completely randomized design, set up as a 3x3x3 factorial design with eight replicates. We concluded that BAP increases the survival rate of in vitro inoculated nodal segments of M. x piperita. In addition, its combination with GA3 stimulates explants shooting. Those aspects, however, are not promoted by the addition of NAA into the culture medium. Also, the results indicate that, after in vitro multiplication, peppermint shoots must be transferred to another medium without plant growth regulators for shoot elongation. High concentrations of BAP promote calli induction, despite having beneficial effects on the organogenesis of M. piperita.