Variação genética em progênies de jacaranda cuspidifolia mart. Utilizando o delineamento sistemático tipo leque
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Data
2013-06-01
Autores
Moraes de, Marcela Aparecida [UNESP]
Moraes de, Selma Maria Bozzite [UNESP]
Silva da, Erica Cristina Bueno [UNESP]
Kubota, Thaisa Yuriko Kuboyama [UNESP]
Silva, Alexandre Marques [UNESP]
De Resende, Marcos Deon Vilela
De Moraes, Mario Luiz Teixeira [UNESP]
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Resumo
Knowledge of genetic variation in native tree species has helped direct strategies of genetic ex situ conservation, based on provenances and progenies tests. These tests use fixed spacing, not allowing evaluating the behavior of different progenies under this management variable. One way to evaluate simultaneously the genetic variation and different spacing in a small planting area is to use a systematic design. The aim of this study was to estimate the genetic variation and to evaluate its performance in Jacaranda cuspidifolia under different spacing. We used a progeny test in a systematic fan design, arranged in a system of 30 concentric rays, with one progeny per ray, randomly, at angles of 12°. The plants were arranged in rays in geometric progression of ratio 1.21, corresponding to nine for plant spacing: 1,95 m2; 2,86 m2; 4,18 m2; 6,12 m2; 8,96 m2; 13,12 m2; 19,21 m2; 28,13 m2; e 41,19 m 2 installed in Selvíria/MS. The traits height, height diameter of 30 cm to soil (DA3) and survival were evaluated at 12 and 24 months of age. Estimates of genetic parameters and spacing were evaluated using the procedure REML/BLUP (restricted maximum likelihood / best linear unbiased prediction). The progenies showed genetic variation, showing that the sample strategy to ex situ conservation was efficient. The species showed good adaptability inthe field and the best performance in treating five, equivalent to a 3 × 3 m spacing, with 8,96 m2;/plant for all traits. The fan systematic design permitted to evaluate in a small area the silvicultural behavior of J. Cuspidifolia plants in spacing varying from 2 to 42 m2/plant (5.000 to 238 trees/ha); which could hardly be evaluat by the traditional designs.
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Palavras-chave
Conservation genetics, Forest management and planting systems, Progeny test, Best linear unbiased predictions, Genetic parameters, Geometric progressions, Native tree species, Planting systems, Progeny tests, Restricted maximum likelihood, Systematic designs, Conservation, Forestry, Genes, Forest Management, Genetics
Como citar
Scientia Forestalis/Forest Sciences, v. 41, n. 98, p. 175-183, 2013.