Papaya recombinant inbred lines selection by image-based phenotyping

Authors

  • Diego Fernando Marmolejo Cortes State University of North Fluminense “Darcy Ribeiro”; Genetic and Plant Breeding Lab
  • Renato Santa-Catarina State University of North Fluminense “Darcy Ribeiro”; Genetic and Plant Breeding Lab
  • Alinne Oliveira Nunes Azevedo State University of North Fluminense “Darcy Ribeiro”; Genetic and Plant Breeding Lab
  • Tathianne Pastana de Sousa Poltronieri State University of North Fluminense “Darcy Ribeiro”; Genetic and Plant Breeding Lab
  • Julio Cesar Fiorio Vettorazzi State University of North Fluminense “Darcy Ribeiro”; Genetic and Plant Breeding Lab
  • Nádia Fernandes Moreira State University of North Fluminense “Darcy Ribeiro”; Genetic and Plant Breeding Lab
  • Geraldo Antônio Ferreguetti Caliman Agrícola S/A
  • Helaine Christine Cancela Ramos State University of North Fluminense “Darcy Ribeiro”; Genetic and Plant Breeding Lab
  • Alexandre Pio Viana State University of North Fluminense “Darcy Ribeiro”; Genetic and Plant Breeding Lab
  • Messias Gonzaga Pereira State University of North Fluminense “Darcy Ribeiro”; Genetic and Plant Breeding Lab

DOI:

https://doi.org/10.1590/1678-992x-2016-0482

Keywords:

Carica papaya, digital phenotyping, genetic gains, genetic parameters

Abstract

The selection of superior Carica papaya (L) genotypes depends on the availability of genetic variability and on the favorable and simultaneous response of the genotypes to those traits of most interest. However, manual phenotyping (MP) demands intensive labor, is time-consuming and expensive. The aim of the current study is to access the efficiency of image-based phenotyping (IBP) in estimating genetic parameters and in selecting F4 recombinant inbred lines. The genetic parameters and values were estimated in accordance with the REML/BLUB procedure and combined selection using the selection index based on standardized genetic values. The majority of traits accessed through IBP showed experimental coefficients of variation similar to those found through MP. Both methodologies showed genetic parameters of similar magnitude, indicating expressive genetic variability between lines in the traits accessed in this study. The same superior lines were indicated in both methodologies and expressive genetic gains obtained through the lines were selected for all traits. IBP performance was similar to that of MP with respect to the estimates of breeding-relevant traits such as commercial fruits and yield. Thus, IBP showed efficient phenotypic assessment, as well as selective accuracy in accessing genetic variability and genetic gains, when it was compared to MP. Since IBP is far less dependent on labor, it is expected to be incorporated into the routine of papaya breeding programs as a way of increasing the number of accessed lines and, consequently, increasing genetic gains.

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Published

2018-05-01

Issue

Vol. 75 No. 3 (2018)

Section

Genetics and Plant Breeding

License

All content of the journal, except where identified, is licensed under a Creative Common attribution-type BY-NC.

How to Cite

Papaya recombinant inbred lines selection by image-based phenotyping. (2018). Scientia Agricola, 75(3), 208-215. https://doi.org/10.1590/1678-992x-2016-0482