Effect of lambing season, sex, parity, and litter size on growth performance in lambs—a review

Non-genetic factors and lamb growth performance

Authors

  • Lindokuhle Christopher Mhlongo Department of Animal Science, Faculty of Natural and Agricultural Science, University of the Free State, Bloemfontein, South Africa https://orcid.org/0000-0002-4315-3889
  • Thando Tenza Equitable Education and Economies Division, Human Sciences Research Council, Durban, South Africa

DOI:

https://doi.org/10.62310/liab.v5i2.227

Keywords:

Nongenetic parameters, Sheep, Average daily gain, Body weight, Growth performance

Abstract

Poor pre-weaning and post-weaning mortality in lambs is common in communal sheep productions due to the use of extensive management practices. Communal sheep producers often lack the resources to address poor performance issues associated with extensive production systems. Non-genetic factors present a potential tool for communal farmers to identify animals prone to poor performance in advance. By using these factors as indicators, farmers can prioritise limited feed additives for lambs at higher risk of poor performance. Key non-genetic factors such as lambing season, sex, parity, and litter size can help identify lamb groups prone to mortality. However, these factors have contrasting effects on pre-weaning and post-weaning lamb performance. Therefore, there is a need to summarise the individual effects of non-genetic factors on lamb performance for the identification of their current trends. Thus, the objective of this review was to assess the effect of lambing season, sex, parity, and litter size mainly on birthweight (0 d BW), weaning weight (90 d BW), and post-weaning weight (180 d BW), as well as pre- weaning (0-90 d BW) and post-weaning (90-180 d BW) average daily gains (ADGs) in lambs.

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References

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Published

03-08-2025

How to Cite

Mhlongo, L. C., & Tenza, T. (2025). Effect of lambing season, sex, parity, and litter size on growth performance in lambs—a review: Non-genetic factors and lamb growth performance. Letters In Animal Biology, 5(2), 60–67. https://doi.org/10.62310/liab.v5i2.227

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Section

Review Articles
Recieved 2025-05-21
Accepted 2025-07-22
Published 2025-08-03