4.6 Article

No evidence that selection for egg production persistency causes loss of bone quality in laying hens

Journal

GENETICS SELECTION EVOLUTION
Volume 53, Issue 1, Pages -

Publisher

BMC
DOI: 10.1186/s12711-021-00603-8

Keywords

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Funding

  1. ERANET grant [BBSRC BB/M028291/1]
  2. Svenska Forskningsradet Formas [2014-01840]
  3. ARN (Instituto Nacional de Investigacion y Tecnologia Agraria y Alimentaria) [291815]
  4. COST Action [CA15224]
  5. BBSRC Institute strategic program [BB/P013759/1]
  6. BBSRC [BBS/E/D/30002276, BB/M028291/1, BBS/E/D/20211554, BBS/E/D/20211553, BBS/E/D/05191132] Funding Source: UKRI
  7. Formas [2014-01840] Funding Source: Formas

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The study found that there is no genetic or phenotypic relationship between egg production and bone quality. Important factors associated with bone quality include onset of puberty, mineralization of the medullary bone, and genetic correlation between pre-peak egg production/age at first egg and bone quality in the White Leghorn breed.
Background The physiological adaptations that have evolved for egg laying make hens susceptible to bone fractures and keel bone damage. In modern laying hen breeds, longer periods of egg laying could result in a greater risk of poor bone quality, and selection for increased egg production has frequently been stated to be a cause. However, the existing literature does not support this hypothesis. To test the hypothesis that egg production is associated with quality, breaking strength and density of bone, genetic correlations between these traits were estimated in White Leghorn and Rhode Island Red breeds. Genetic correlations of cortical and medullary bone material chemical properties with bone quality were also estimated, in order to identify methods to improve bone quality with appropriately targeted measurement of key traits. Results Estimates of heritability for bone quality traits were moderate (0.19-0.59) for both White Leghorn and Rhode Island Red breeds, except for the keel bone trait, which had a heritability estimate equal to zero. There was no evidence for genetic or phenotypic relationships between post-peak egg production and bone quality. In the White Leghorn breed, the estimate of the genetic correlation between pre-peak production/age at first egg and bone quality was significant and negative (- 0.7 to - 0.4). Estimates of heritability of thermogravimetric measurements of tibial medullary bone mineralisation were significant (0.18-0.41), as were estimates of their genetic correlations with tibia breaking strength and density (0.6-0.9). Conclusions The low genetic correlation of post-peak egg production with bone quality suggests that selection for increased persistency of egg production may not adversely affect bone quality. Onset of puberty and mineralisation of the medullary bone, which is a specialised adaptation for egg laying, were identified as important factors associated with the quality of the skeleton later during egg production. These are traits for which genetic, as well as environmental and management factors can positively impact the overall quality of the skeleton of laying hens.

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