Smith, E G; Walkom, S F; Brown, D J; Clark, S A

Author(s)

Smith, E G

Walkom, S F

Brown, D J

Clark, S A

Publication Date

2023-08

Abstract

<p>The capacity to measure and select livestock that are more resilient to environmental fluctuation is of increasing importance amidst climate change, labour shortages and increasing production demand. Currently, however, there is no consensus on how to quantify resilience, particularly in extensive sheep populations. In this study, we explored the ability to derive resilience indicator traits from fibre diameter variation measured longitudinally (5 mm increments) along the wool staple. Fibre diameter varies in relation to the supply of nutrients to the wool follicles and thereby provides a stable archive of the animal's physiological status across the preceding wool growth period. From this fibre diameter variation, ways to detect and characterise an animal's ability to withstand or be minimally affected by its environment were explored. The heritability estimates of these traits were shown to be low to moderate (0.10 to 0.31), indicating that genetic variation exists for fibre diameter variation measured along the wool staple which may be interpreted as a measure of resilience. The inclusion of such measures in sheep breeding programs has the potential to improve the resilience of sheep to environmental challenges, which may have positive implications for sheep enterprise profitability, health and welfare.</p>

Citation

Book of Abstracts of the 74th Annual Meeting of the European Federation of Animal Science, v.29, p. 172-172

ISBN

978-90-8686-936-7

978-90-8686-384-6

ISSN

1382-6077

Link

https://hdl.handle.net/1959.11/56146

Publisher

Wageningen Academic Publishers

Title

Defining resilience traits in sheep from fibre diameter variation of wool

Type of document

Conference Publication

Entity Type

Publication

Author(s)	Smith, E G Walkom, S F Brown, D J Clark, S A
Publication Date	2023-08
Abstract	<p>The capacity to measure and select livestock that are more resilient to environmental fluctuation is of increasing importance amidst climate change, labour shortages and increasing production demand. Currently, however, there is no consensus on how to quantify resilience, particularly in extensive sheep populations. In this study, we explored the ability to derive resilience indicator traits from fibre diameter variation measured longitudinally (5 mm increments) along the wool staple. Fibre diameter varies in relation to the supply of nutrients to the wool follicles and thereby provides a stable archive of the animal's physiological status across the preceding wool growth period. From this fibre diameter variation, ways to detect and characterise an animal's ability to withstand or be minimally affected by its environment were explored. The heritability estimates of these traits were shown to be low to moderate (0.10 to 0.31), indicating that genetic variation exists for fibre diameter variation measured along the wool staple which may be interpreted as a measure of resilience. The inclusion of such measures in sheep breeding programs has the potential to improve the resilience of sheep to environmental challenges, which may have positive implications for sheep enterprise profitability, health and welfare.</p>
Citation	Book of Abstracts of the 74th Annual Meeting of the European Federation of Animal Science, v.29, p. 172-172
ISBN	978-90-8686-936-7 978-90-8686-384-6
ISSN	1382-6077
Link	https://hdl.handle.net/1959.11/56146
Publisher	Wageningen Academic Publishers
Title	Defining resilience traits in sheep from fibre diameter variation of wool
Type of document	Conference Publication
Entity Type	Publication

Defining resilience traits in sheep from fibre diameter variation of wool

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