Inbreeding depression as a cause of fruit abortion in structured populations of macaw palm (Acrocomia aculeata): Implications for breeding programs

•Inbreeding depression reduces the fruit number and causes fruit abortion.•Inbreeding depression is harmful for productive traits.•Productive traits are likely ruled by the dominance effect.•There is evidence of genetic drift of vegetative traits.•A high accuracy of genetic parameter estimates is go...

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Bibliographic Details
Published in:Industrial crops and products 2018-02, Vol.112, p.652-659
Main Authors: Simiqueli, Guilherme Ferreira, Resende, Marcos Deon Vilela de, Motoike, Sérgio Yoshimitsu, Henriques, Emiliano
Format: Article
Language:English
Subjects:
Biofuel
Fixation index
Fruit abortion
Genetic accuracy
Plant breeding
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Summary:•Inbreeding depression reduces the fruit number and causes fruit abortion.•Inbreeding depression is harmful for productive traits.•Productive traits are likely ruled by the dominance effect.•There is evidence of genetic drift of vegetative traits.•A high accuracy of genetic parameter estimates is got by modeling of population effect. Acrocomia aculeata [Jacq.] Lodd. ex Martius is an outstanding species to produce biofuels from its fruit oil. This species occurs in small populations and, consequently, inbreeding depression limits its development and jeopardizes its traits, mainly on fruit number (fruit abortion). Thus, this study aimed to estimate inbreeding depression, genetic and population parameters, verify the direct and indirect selection for pulp oil production and model the structured population effect. The data were collected in A. aculeata germplasm collection, referred to 44 half-sib families, and eight out of them had at least one inbred individual. All families were clustered in populations according to their geographic coordinates. The inbreeding depression reduced the fruit number and is one of the causes of fruit abortion. It was more severe in productive traits, indicating they are likely ruled by the dominance effect. The heritabilities were high for most of traits. The genetic gain of pulp oil production was 178% for direct selection, 173% and 171% for indirect selection, considering fruit moist matter and fruit number, respectively. Productive and vegetative traits had a low and high fixation index, respectively. There is evidence of genetic drift for vegetative traits. The model with structured populations obtained high accuracy. A reciprocal recurrent selection is indicated for macaw palm’s genetic breeding. Therefore, this work helps to establish strategies to keep the genetic variability of A. aculeata for a sustainable breeding program and to confirm it as a source of renewable energy and a new oil crop for biofuel production.
ISSN:0926-6690
1872-633X
DOI:10.1016/j.indcrop.2017.12.068