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Phenotypic divergence between the cultivated apple (Malus domestica) and its primary wild progenitor (Malus sieversii)

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  • Thomas Davies
  • Sophie Watts
  • Kendra McClure
  • Zoë Migicovsky
  • Sean Myles

Abstract

An understanding of the relationship between the cultivated apple (Malus domestica) and its primary wild progenitor species (M. sieversii) not only provides an understanding of how apples have been improved in the past, but may be useful for apple improvement in the future. We measured 10 phenotypes in over 1000 unique apple accessions belonging to M. domestica and M. sieversii from Canada’s Apple Biodiversity Collection. Using principal components analysis (PCA), we determined that M. domestica and M. sieversii differ significantly in phenotypic space and are nearly completely distinguishable as two separate groups. We found that M. domestica had a shorter juvenile phase than M. sieversii and that cultivated trees produced flowers and ripe fruit later than their wild progenitors. Cultivated apples were also 3.6 times heavier, 43% less acidic, and had 68% less phenolic content than wild apples. Using historical records, we found that apple breeding over the past 200 years has resulted in a trend towards apples that have higher soluble solids, are less bitter, and soften less during storage. Our results quantify the significant changes in phenotype that have taken place since apple domestication, and provide evidence that apple breeding has led to continued phenotypic divergence of the cultivated apple from its wild progenitor species.

Suggested Citation

  • Thomas Davies & Sophie Watts & Kendra McClure & Zoë Migicovsky & Sean Myles, 2022. "Phenotypic divergence between the cultivated apple (Malus domestica) and its primary wild progenitor (Malus sieversii)," PLOS ONE, Public Library of Science, vol. 17(3), pages 1-11, March.
    • Handle: RePEc:plo:pone00:0250751
    DOI: 10.1371/journal.pone.0250751
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    References listed on IDEAS

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    1. Naibin Duan & Yang Bai & Honghe Sun & Nan Wang & Yumin Ma & Mingjun Li & Xin Wang & Chen Jiao & Noah Legall & Linyong Mao & Sibao Wan & Kun Wang & Tianming He & Shouqian Feng & Zongying Zhang & Zhiqua, 2017. "Genome re-sequencing reveals the history of apple and supports a two-stage model for fruit enlargement," Nature Communications, Nature, vol. 8(1), pages 1-11, December.
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