Fabrício Antonio Biernaski scite author profile

Fabrício Antonio Biernaski

5Publications

27Citation Statements Received

66Citation Statements Given

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Instituto Florestal

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Variabilidade genética para caracteres juvenis de progênies de Cedrela fissilis Vell.: subsídio para definição de zonas de coleta e uso de sementes

Biernaski¹,

Higa

Silva

2012

Rev. Árvore

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RESUMO -Este trabalho teve como objetivo avaliar diferenças genéticas entre três grupos de matrizes de Cedrela fissilis a partir de variáveis quantitativas juvenis em teste de progênies, para delinear zonas de coleta e uso de sementes da espécie na região de estudo, bem como avaliar a variabilidade genética do material amostrado. Instalou-se um teste de progênies, em viveiro, a partir de sementes de 48 matrizes amostradas nos Municípios de Rio Negrinho, Mafra e São Bento do Sul, no Estado de Santa Catarina; e em Lapa, Rio Negro, Campo do Tenente e Antonio Olinto, no Estado do Paraná. Das matrizes coletadas, 33 encontravam-se distribuídas em três grupos espaciais e 15 dispersas na região. O delineamento em blocos casualizados com oito repetições e 20 plantas por parcela foi empregado. Os dados avaliados incluíram: índice de velocidade de emergência, diâmetro do colo e altura das mudas (aos 61, 102 e 145 dias após a semeadura); sobrevivência, número de folhas por muda, massa seca da parte aérea e da raiz e área foliar da terceira folha totalmente expandida a contar do ápice. A metodologia de máxima verossimilhança restrita foi utilizada para a análise estatística, com o auxílio do software SELEGEN. Verificou-se que os caracteres juvenis apresentam elevado controle genético, podendo ser utilizados para avaliação da variabilidade genética de amostras de populações da espécie. Os três grupos de matrizes delimitados espacialmente não apresentam diferenças genéticas significativas, sendo possível inferir que as três áreas pertencem a uma mesma zona de coleta e uso de sementes Palavras-chave: Teste de progênies, Caracteres juvenis, Zonas de coleta e uso de sementes. GENETIC VARIABILITY FOR JUVENILE CHARACTERS OF Cedrela fissilis VELL. PROGENIES: A SUBSIDY FOR DEFINITION OF SEED COLLECTION ZONE

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Genetic evaluation of Pinus taeda clones from somatic embryogenesis and their genotype x environment interaction

Dias

Xavier

Resende

et al. 2018

Crop Breed. Appl. Biotechnol.

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The objective of this study was to evaluate the genotype x environment interaction and to estimate the genetic components of variance and mean using mixed models in early selection of 238 clones of Pinus taeda propagated by somatic embryogenesis. The experiment consisted of a complete blocks design, with 12 replications, with one plant per plot, in four environments, at 1, 3, and 4 years of age. Estimates of heritability and of genetic gains in the evaluated environments showed good prospects for selection of superior genotypes. The effect of genotype x environment interaction was pronounced for all traits investigated. With the simultaneous selection for stability and adaptability, 10% genetic gain was obtained in relation to the mean of the commercial controls. This estimated gain indicates that the somatic embryogenesis technique has been effective in propagation of clones with good productive potential.

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JUVENILE-MATURE GENETIC CORRELATIONS IN Pinus taeda CLONES PROPAGATED VIA SOMATIC EMBRYOGENESIS

et al. 2016

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-This study aimed to estimate the genetic correlation among selection ages (juvenile -adult) and efficiency of early selection for the height, diameter, and volume traits of individuals from Pinus taeda families propagated via somatic embryogenesis. This study was carried out by genetic-statistical analysis, estimation procedure of variance (Reml), and prediction components of breeding values (Blup), using the Selegen-Reml/ Blup software. Genetic correlations among juvenile ages and rotation age were performed by applying the linear model developed by Lambeth (1980). In accordance with results of the established model, the early selection can be performed in clones of Pinus taeda with high selection efficiency. Ages from 4 to 6 years old are enough to select Pinus taeda clones propagated via somatic embryogenesis for harvesting at 8 and 12 years old; and 6 to 10 years old are enough to select them for harvesting at 20 years old. On the basis of the genetic correlations estimates from the environments, the clones' selection of Pinus taeda propagated via somatic embryogenesis should be developed specifically for each environment. The clones' selection can be performed considering the diameter due to the high correlation between volume and diameter.

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Predição de ganhos genéticos em progênies de Eucalyptus benthamii Maiden & Cambage por diferentes métodos de seleção

Costa¹,

Estopa²,

Biernaski³

et al. 2016

Sci. For.

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Predicted genetic gains for growth traits and wood resistance in Pinus maximinoi and Pinus tecunumanii

Perek

Hodge

Tambarussi

et al. 2022

Crop Breed. Appl. Biotechnol.

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Tree breeders use traits of economic interest as productivity, stem form and wood quality, to select individuals for advanced generations. We determined the genetic control of growth volume, tree height and diameter, stem form and wood resistance, and calculated a selection index for Pinus maximinoi and P. tecunumanii, selected individuals were used to establish a seedling seed orchard (SSO). The largest genetic gain obtained in SSO for P. maximinoi was 21.48% for volume, while for P. tecunumanii it was 21.87% for stem form. There is enough genetic variability for genetic gain in future generations in tests of P. maximinoi and P. tecunumanii progenies. The selection index provided satisfactory total genetic gains for several traits, being more recommended than the BLUP method in order to support the selection and ranking of superior genetic materials in the progeny tests with greater probability of retaining favorable alleles over generations.

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