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RESEARCH ARTICLE
Contents Vol 46(7)

Genetic changes generated within the Katanning Merino Resource flocks

J. C. Greeff A B and G. Cox A
+ Author Affiliations
- Author Affiliations

A Department of Agriculture and Food Western Australia, 10 Dore Street, Katanning, WA 6317, Australia.

B Corresponding author. Email: jgreeff@agric.wa.gov.au

Australian Journal of Experimental Agriculture 46(7) 803-808 https://doi.org/10.1071/EA06007
Submitted: 9 January 2006  Accepted: 21 May 2006   Published: 8 June 2006

Abstract

Genetic changes for clean fleece weight, fibre diameter and hogget body weight were determined in the Katanning Merino Resource flocks from 1982 to 2004. From 1982 to 1992 genetic trends are presented for individual studs that used mainly subjective classing selection methods (Phase 1) and the genetic trends from 1997 to 2004 demonstrate the genetic changes that can be achieved from using estimated breeding values calculated from best linear unbiased prediction (BLUP) mixed methodology (Phase 2). The results during the first phase show that very few genetic changes occurred in most studs, except for the 4 studs of the Performance Sheep Breeding strain which showed genetic increases in hogget body weight. The genetic trends show that some studs generated change towards their breeding objective, while others show no changes or changes in the opposite direction. In contrast, the use of BLUP estimated breeding values resulted in positive changes in clean fleece weight, fibre diameter and body weight in accordance with the defined breeding objectives.


Acknowledgements

The authors wish to acknowledge Dr Roger Lewer for establishing these flocks and would also like to thank all the Merino ram breeders who have participated in this project since 1982. Many technical staff were involved in these flocks and we would like to thank them for their support over all these years. This project was funded by the Department of Agriculture Western Australia.


References


Ashtiani , Miraei SD, James JW (1991) Efficient use of link rams in Merino sire evaluation schemes. Proceedings of the Australian Association of Animal Breeding and Genetics 9, 388–391. open url image1

Atkins KD (1997) Genetic improvement of wool production. In ‘The genetics of sheep’. (Eds L Piper, A Rubinsky) Chapter 7. (CAB International: Wallingford)

Bichard M (1971) Dissemimation of genetic improvement through a livestock industry. Animal Production 13, 401–411. open url image1

Blair HT, Pollak EJ (1984) Estimation of genetic trend in a selected population with and without the use of a control population. Journal of Animal Science 58, 878–886.
PubMed |
open url image1

Brien FD, Jaensch KS, Grimson RJ, Kemper KE, Smith DH, Ewers ML, Ramsay AMM (2005) Selection demonstration flocks – what have we learnt? Proceedings of the Australian Association for the Advancement of Animal Breeding and Genetics. 16,  – . open url image1

Cloete SWP, Olivier JJ, Snyman MA, du Toit E (1998) Genetic parameters and trends in a selection experiment for increased clean fleece weight involving South African Merinos. Australian Journal of Experimental Agriculture 38, 427–432.
Crossref | GoogleScholarGoogle Scholar | open url image1

Davis GP , McGuirk BJ (1987) Genetic relationships between clean wool weight, its components and related skin characters. In ‘Merino improvement programs in Australia’. (Ed. BJ McGuirk) pp. 189–206. (Australian Wool Corporation: Melbourne)

Greeff JC (2000) Staple strength is genetically the same trait in autumn and spring shorn wool. Asian-Australian Journal of Animal Sciences 13, 24– . open url image1

Groeneveld E (1990) ‘PEST User’s manual.’ (Institute of Animal Husbandry and Animal Behaviour: Neustadt, Germany)

Lewer RP, Woolaston RR, Howe RR (1993) Studies on Western Australian Merino sheep. I. Stud, strain and environmental effects on hogget performance. Australian Journal of Agricultural Research 43, 1381–1397. open url image1

Lewer RP, Woolaston RR, Howe RR (1994) Studies on Western Australian Merino sheep. II. Genetic and phenotypic parameter estimates for objectively measured traits on ram and ewe hoggets using different model types. Australian Journal of Agricultural Research 45, 829–840.
Crossref | GoogleScholarGoogle Scholar | open url image1

Lewer RP, Woolaston RR, Howe RR (1995) Studies on Western Australian Merino sheep. III. Genetic and phenotypic parameter estimates for subjectively assessed and objectively measured traits in ewe hoggets. Australian Journal of Agricultural Research 46, 379–388.
Crossref | GoogleScholarGoogle Scholar | open url image1

Ponzoni RW, Jaensch KS, Grimson RJ, Smith DH, Ewers AL, Ingham VM (2000) South Australian Merino selection demonstration flocks: background and update with 1998 drop hogget results. Journal of Wool Technology and Sheep Breeding 48, 166–182. open url image1

Ramsay AMM, Ponzoni RW, Jaensch KS, Ingham VM, Grimson RJ, Smith DH, James PJ (2003) Merino selection demonstration flocks project background and update with 2001 drop hogget results. Journal of Wool Technology and Sheep Breeding 51, 202–233. open url image1

Taylor PJ, Atkins KD (2000) Within flock selection to reduce fibre diameter and increase fleece weight in Merinos – response to the first round of selection in the Trangie QPLUS lines. Journal of Wool Technology and Sheep Breeding 48, 15–26. open url image1

Turner HN , Young SSY (1969) ‘Quantitative genetics of sheep breeding.’ (MacMillan: Sydney)