Genotype-environment interaction in Cordia trichotoma (Vell.) Arráb. Ex Steud. progenies in two different soil conditions

Investment in silvicultural techniques is noticeably lacking, especially in breeding programs for non-conventional wood species. Studying genotype × environment interaction (G × E) is essential to the development of breeding programs. Thus, this study aimed to estimate genetic diversity of and the e...

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Published in:Journal of forestry research 2022-02, Vol.33 (1), p.309-319
Main Authors: dos Santos, Wanderley, de Souza, Bruno Marchetti, Zulian, Daniele Fernanda, Alves, Gilberto Terra Ribeiro, Gomes, João Bosco Vasconcellos, de Moraes, Mário Luiz Teixeira, de Sousa, Valderês Aparecida, de Aguiar, Ananda Virginia
Format: Article
Language:English
Subjects:
Biomedical and Life Sciences
Breeding
Cordia
Environmental conditions
Environmental testing
Forestry
Genetic diversity
Genetic improvement
Genetic variability
Genotype-environment interactions
Genotypes
Heritability
Life Sciences
Mathematical analysis
Original Paper
Parameters
Progeny
Silviculture
Soil conditions
Soil surfaces
Soil texture
Soil types
Soils
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Summary:Investment in silvicultural techniques is noticeably lacking, especially in breeding programs for non-conventional wood species. Studying genotype × environment interaction (G × E) is essential to the development of breeding programs. Thus, this study aimed to estimate genetic diversity of and the effects of G × E interaction on two progeny tests of Cordia trichotoma , including the estimation of genetic gain and genetic diversity after selection. For the experiment, 30 progenies of C. trichotoma were tested at two sites with differing soil textures. Diameter at breast height (1.30 m above soil surface, dbh-cm), total height, diameter at 30 cm from the soil, first branch height, and survival were all monitored for four years. Statistical deviance, best linear unbiased estimator, and harmonic mean of relative performance of genetic values (MHPRVG) were all calculated to predict breeding values, estimate genetic parameters, and analyze deviance. All quantified traits varied significantly among progenies by soil type, with greatest variation recorded for genetic variability. Heritability of the progenies led to predictions of genetic gain, ranging from 7.73 to 15.45%, for dbh at four years of age. The calculated decrease in genetic diversity after selection showed that this parameter should be monitored in subsequent breeding cycles. G × E was low for all tests. The best-performing progenies proved most stable and best adapted to the different environmental conditions tested.
ISSN:1007-662X
1993-0607
DOI:10.1007/s11676-021-01337-5