Brown, Daniel; Swan, Andrew; Gill, J S; Banks, Robert

Author(s)

Brown, Daniel

Swan, Andrew

Gill, J S

Banks, Robert

Publication Date

2013

Abstract

The Merino breeding population in Australia exhibits considerable diversity in objectives and breeding philosophies. It could be beneficial for both the analysis and reporting of the national genetic evaluation to objectively group flocks into logical subsets. This study evaluates techniques to cluster flocks into logical groups based on either estimated breeding values or genomic information. Principle component analyses were conducted using flock mean breeding values and the genomic relationship matrix. Using the flock mean breeding values, 6 clusters of flocks were identified with the first 2 principle components explaining 73% of the variation between flocks. The first principle component separated flocks based on overall productivity, with approximately equal emphasis across all traits. The second component separated flocks based on fleece weight, wrinkle and staple length. Less separation between flocks was apparent for flocks with below average fibre diameter. The principle components of the genomic relationship matrix were also strongly correlated with mean breeding values across the flocks. The lack of accurate Australian Sheep Breeding Values (ASBVs) for some traits and genomic information across some of the flocks is a limitation of this approach as it makes allocation of some flocks challenging.

Citation

Proceedings of the Association for the Advancement of Animal Breeding and Genetics, v.20, p. 66-69

ISBN

9780473260569

ISSN

1328-3227

Link

https://hdl.handle.net/1959.11/14336

Publisher

Association for the Advancement of Animal Breeding and Genetics (AAABG)

Title

Strategies to Objectively Group Merino Flocks in Sheep Genetics

Type of document

Conference Publication

Entity Type

Publication

Author(s)	Brown, Daniel Swan, Andrew Gill, J S Banks, Robert
Publication Date	2013
Abstract	The Merino breeding population in Australia exhibits considerable diversity in objectives and breeding philosophies. It could be beneficial for both the analysis and reporting of the national genetic evaluation to objectively group flocks into logical subsets. This study evaluates techniques to cluster flocks into logical groups based on either estimated breeding values or genomic information. Principle component analyses were conducted using flock mean breeding values and the genomic relationship matrix. Using the flock mean breeding values, 6 clusters of flocks were identified with the first 2 principle components explaining 73% of the variation between flocks. The first principle component separated flocks based on overall productivity, with approximately equal emphasis across all traits. The second component separated flocks based on fleece weight, wrinkle and staple length. Less separation between flocks was apparent for flocks with below average fibre diameter. The principle components of the genomic relationship matrix were also strongly correlated with mean breeding values across the flocks. The lack of accurate Australian Sheep Breeding Values (ASBVs) for some traits and genomic information across some of the flocks is a limitation of this approach as it makes allocation of some flocks challenging.
Citation	Proceedings of the Association for the Advancement of Animal Breeding and Genetics, v.20, p. 66-69
ISBN	9780473260569
ISSN	1328-3227
Link	https://hdl.handle.net/1959.11/14336
Publisher	Association for the Advancement of Animal Breeding and Genetics (AAABG)
Title	Strategies to Objectively Group Merino Flocks in Sheep Genetics
Type of document	Conference Publication
Entity Type	Publication

Strategies to Objectively Group Merino Flocks in Sheep Genetics

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