Lazaro Renilton Emerick Silva scite author profile

Lazaro Renilton Emerick Silva

2Publications

0Citation Statements Received

33Citation Statements Given

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Instituto Federal do Espírito Santo

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Reciprocal recurrent selection for obtaining water-deficit tolerant maize progeny

et al. 2022

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In view of the need to increase genetic variability to obtain materials with a significant capacity to drought tolerance, this study conducted a cycle of a reciprocal recurrent selection of full-sib families of maize. To this end, 64 full-sib families of maize were evaluated in two environments according to their morpho-agronomic data in a randomized block design with two replicates. It were analyzed of Male flowering (MF); Female flowering (FF); Flowering interval (IF); days for flowering (DF); Plant height (PH); Ear height (EH); number of plants at the Stand (NPS); Number of broken plant (NBrP); Number of bedded plants (NBeP); Strawing (St); Ear length (EL); Ear diameter (ED); Ear number (EN); Prolificacy (Pr); Number of diseased ears (NDE); Number of ears attacked by pests (NEP); Ear weight (EW); Yield (YIE) and Total Chlorophyll Index (TCI). The analysis of variance was performed by the F test at 5% significance level, and also the evaluation of genetic parameters. Regarding morpho-agronomic data, the analysis of variance and the analysis of genetic parameters showed that there was no interaction genotype x environment with regard to the genetic variability among the families under study. Lastly, the final selection of the superior genotypes was made on the basis of the ranking of the 40 most productive families, from which, combined with the molecular data, the 30 most productive, most drought-tolerant, and most genetically diverse ones were selected to compose the next cycle of recurrent maize selection aiming water-stress tolerance.

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Caracterização Morfoagronômica, Bromatológica E Análise Da Divergência Genética Entre Acessos De Tomate

et al. 2022

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O tomate (Solanum lycopersicum) pertence à família Solanaceae, sendo a segunda hortaliça mais cultivada a nível mundial. O banco ativo de germoplasma é fundamental para a conservação de recursos genéticos, as caracterizações morfológicas e bromatológicas desse banco são importantes para determinar: a dissimilaridade genética da cultura, indicar genótipos com aspectos relevantes para o melhoramento de plantas, identificação de duplicatas e entre outras. Objetivou-se caracterizar morfologicamente e bromatologicamente 34 acessos de tomate do banco ativo de germoplasma do IFES Campus de Alegre, e inferir a dissimilaridade genética entre eles. Foram selecionadas 20 variáveis morfoagronômicas, de acordo com os descritores internacionais, e 6 variáveis bromatológicas. No dendrograma de dissimilaridade genética utilizou-se o agrupamento de Ligação Média Entre Grupo (UPGMA) em combinação com o método de Tocher. Empregou-se o método de Singh para obter a contribuição dos caracteres. Os coeficientes de variação foram baixos e médios, o que está relacionado à confiabilidade dos dados obtidos. O diâmetro do fruto demonstrou maior herdabilidade e também a maior contribuição para a diversidade. O dendrograma de dissimilaridade genética foi constituído por nove grupos, onde os acessos dos grupos II e VI foram os mais recomendados para o consumo in natura, enquanto os acessos dos grupos VIII e IX foram os mais recomendados para o processamento, e os acessos do grupo V possuem dupla finalidade. As caracterizações foram primordiais para demonstrar a elevada variabilidade genética e também recomendar acessos com potenciais para atender diferentes nichos de mercado.

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