ABSTRACT
The objective of this work was to carry out the in vitro establishment of Echynochloa polystachya aiming at obtaining a micropropagation protocol for works involving the selection of superior genotypes and the cultivation of the species. E. polystachya stems were collected in the municipality of Manaus-AM. Explants were inoculated in test tubes containing Murashige and Skoog (MS) medium. Thirty days after in vitro establishment, the rate of sprouting and contamination were evaluated. Experiments were also carried out to assess the effects of sucrose and 6-benzylaminopurine (BAP) concentrations on the tillering rate of explants. It was found that during the successive subcultures there was a decrease in internodes and the consequent loss of vigor. There were responses in the multiplication rate at concentrations starting from 45 g L-1 sucrose. In addition, BAP and sucrose interfered the development and in vitro multiplication. Sucrose in conjunction with BAP was harmful and shortened internodes. The physiological state of the explants for the species under study was intrinsically linked to the concentrations of sucrose used for the culture medium and the concentrations of BAP. However, the sucrose and BAP concentrations suggested for in vitro cultivation of E. Polystachya must be adjusted during successive subcultures. Absence of contamination in the in vitro establishment occurred at concentrations 15, 30 and 60 g L-1 sucrose. The combination of 1.5 mg L-1 BAP and 30 g L-1 sucrose promoted greater induction of sprouts. In addition, the in vitro rooting of E. polystachya was 45%.
Subject(s)
In Vitro Techniques , Brachiaria , Tissue Culture TechniquesABSTRACT
The growth of the tropical flower market has demanded a consistent search for new varieties, primarily those endowed with an exotic profile, but that are also beautiful and durable. The genusHeliconia, naturally found in the Amazon region, is among the most prominent of tropical flowers. Looking to augment the genetic variability available in Heliconia chartacea var. Sexy Pink, biotechnological research was conducted with the application of colchicine to induce polyploidy in plants from this species. With that in mind, this study was undertaken to evaluate the establishment of plants in the field drawn from in vitro polyploidy induction assay and to determine the morphological and physiological characteristics of 38 H. chartacea var. Sexy Pink clones. The characterization analyzes were performed through 49 morphological descriptors and a stomatal density evaluation using microscopy. The genotype 35 exhibited the greatest morphological variations, with alterations in the position and coloring of the inflorescence, in addition to having the edges of the entire limbus. Genotype 18 featured the lowest amounts for plant height and inflorescence size, showing promise for research geared towards use in reduced environments. Some genotypes did not have any flowering and arerecommended exclusively for landscape composition such as foliage, since their exotic characteristics allow for this. The genotypes that were evaluated displayed stomata with tetracytic morphology and guard cells that had no significant changes. However, genotypes with greater equatorial diameter and stomatal density were obtained in relation to the mother-plant. Overall, the induction of polyploidy allowed for clones to be obtained with a high variability for the characteristics of the leaf, pseudostem and inflorescence, with various attributes that confer a more efficient post-harvest management to some genotypes, in addition to favorable aspects for commercialized purposes as a cut flower.
A expansão do mercado de flores tropicais tem demandado uma constante procura por novas variedades, principalmente aquelas dotadas de perfil exótico, mas ainda apresentando beleza e durabilidade. Dentre as flores tropicais de maior destaque, se encontram as do gênero Helicônia, sendo estas naturalmente encontradas na região Amazônica. Visando aumentar a variabilidade genética disponível em Heliconia chartacea var. Sexy Pink, pesquisas biotecnológicas foram realizadas com a aplicação de colchicina para indução a poliploidia em plantas da espécie. Deste modo, o objetivo do presente trabalho foi avaliar as plantas estabelecidas em campo, provenientes dos ensaios de indução à poliploidia in vitro para determinar as características morfológicas e fisiológicas de 38 clones de H. chartacea var. Sexy Pink. As análises de caracterização foram realizadas por meio de 49 descritores morfológicos e avaliação da densidade estomática por microscopia. O genótipo 35 foi o que apresentou as maiores variações morfológicas, com alterações na posição e coloração da inflorescência, além de possuir as bordas do limbo foliar inteiras. O genótipo 18 apresentou os menores valores para altura da planta e tamanho das inflorescências, mostrando-se promissor para pesquisas voltadas ao uso em ambientes reduzidos. Alguns genótipos não tiveram floração, sendo recomendada a sua utilização exclusivamente para composição paisagística como folhagens, já que sua exoticidade permite esta finalidade. Os genótipos avaliados apresentaram estômatos com morfologia tetracítica e células-guarda sem alterações significativas, porém, foram obtidos genótipos com maior diâmetro equatorial e densidade estomática em relação a planta matriz. De modo geral, a indução a poliploidia permitiu a obtenção de clones com alta variabilidade para características da folha, pseudocaule e inflorescência, sendo vários os atributos que conferiram a alguns genótipos um manejo pós-colheita mais eficiente, além de aspectos favoráveis para comercialização como flor de corte.