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RESEARCH ARTICLE

Variation in mohair staple length over the lifetime of Angora goats

B. A. McGregor A B F , K. L. Butler C and M. B. Ferguson D E
+ Author Affiliations
- Author Affiliations

A Institute for Frontier Materials, Deakin University, Geelong, Vic. 3220, Australia.

B Formerly Livestock Production Sciences, Future Farming Systems Research Division, Department of Primary Industries, Attwood, Vic. 3049, Australia.

C Biometrics Unit, Future Farming Systems Research Division, Department of Primary Industries, Werribee, Vic. 3030, Australia.

D The New Zealand Merino Company Ltd, PO Box 25160, Christchurch 8024, New Zealand.

E Formerly, Livestock Production Sciences, Future Farming Systems Research Division, Department of Primary Industries, Hamilton, Vic. 3300, Australia.

F Corresponding author. Email: bruce.mcgregor@deakin.edu.au

Animal Production Science 53(6) 479-486 https://doi.org/10.1071/AN12288
Submitted: 15 August 2012  Accepted: 14 November 2012   Published: 27 March 2013

Abstract

Previous work has shown that, within an Angora goat flock, clean fleece weight is proportional to fleece-free liveweight (FFLwt)2/3 and for goats of the same age and cohort, the mean mohair fibre diameter is proportional to FFLwt1/3. This indicates that fibre length might not be related to the size of animals. This study examines how mohair staple length (SL) is related to FFLwt of Angora goats of different genetic origins over their lifetime and how the relationship varies with other lifetime factors. Measurements were made over 11 shearing periods on a population of Angora goats representing the current range and diversity of genetic origins in Australia, including South African, Texan and interbred admixtures of these and Australian sources. Records of breed, sire, dam, date of birth, dam age, birthweight, birth parity, weaning weight, liveweight, fleece growth and fleece quality were taken for castrated males (wethers) (n = 94 animals). FFLwt were determined for each goat at shearing time by subtracting the greasy fleece weight from the liveweight recorded immediately before shearing. The average of the FFLwt at the start of the period and the FFLWt at the end of the period was calculated. Liveweight change (LwtCh) was the change in FFLwt over the period between shearings. A restricted maximum likelihood model was developed for SL, which allowed the observations of the same animal at different ages to be correlated in an unstructured manner. Average SL differed from ~12.0 to ~14.5 cm, depending on age. There were no consistent effects of season. At any age, an increase of 10 kg LwtCh between animals results in about a 0.34 (s.e. = 0.087) cm increase in SL. There was no evidence of an effect of FFLwt on SL. The results confirm our hypothesis that within a single age cohort of Angora goats, there is very little, if any, relationship between the liveweight and SL of individual animals. This implies that the biological determinants of size of fibres related to cross-sectional area are substantially different to the size determinants of fibre length.

Additional keywords: age effects, fibre morphology, liveweight, mohair production, nutrition management.


References

Birrell HA (1989) The influence of pasture and animal factors on the consumption of pasture by grazing sheep. Australian Journal of Agricultural Research 40, 1261–1275.

Ferguson MB, McGregor BA (2004) An evaluation of Angora sires through progeny testing – a progress report. South African Journal of Animal Science 34, 7–9.

Ferguson MB, McGregor BA (2005) ‘Selecting high performing Angoras.’ RIRDC Research Report No. 05/141. (Rural Industries Research and Development Corporation: Barton, ACT) Available at https://rirdc.infoservices.com.au/items/05-141 [Verified 31 July 2012]

Gifford DR, Ponzoni RW, Lampe RJ, Burr J (1991) Phenotypic and genetic parameters of fleece traits and live weight in South Australian Angora goats. Small Ruminant Research 4, 293–302.
Phenotypic and genetic parameters of fleece traits and live weight in South Australian Angora goats.Crossref | GoogleScholarGoogle Scholar |

Huisman AE, Brown DJ (2008) Genetic parameters for bodyweight, wool, and disease resistance and reproduction traits in Merino sheep. 2. Genetic relationships between bodyweight traits and other traits. Australian Journal of Experimental Agriculture 48, 1186–1193.
Genetic parameters for bodyweight, wool, and disease resistance and reproduction traits in Merino sheep. 2. Genetic relationships between bodyweight traits and other traits.Crossref | GoogleScholarGoogle Scholar |

Hunter L (1993) ‘Mohair: a review of its properties, processing and applications.’ (CSIRO: Port Elizabeth)

Hynd PI (1994a) Follicular determinants of the length and diameter of wool fibres. I. Comparison of sheep differing in fibre length/diameter ratio at two levels of nutrition. Australian Journal of Agricultural Research 45, 1137–1147.
Follicular determinants of the length and diameter of wool fibres. I. Comparison of sheep differing in fibre length/diameter ratio at two levels of nutrition.Crossref | GoogleScholarGoogle Scholar |

Hynd PI (1994b) Follicular determinants of the length and diameter of wool fibres II. Comparison of sheep differing in thyroid hormone status. Australian Journal of Agricultural Research 45, 1149–1157.
Follicular determinants of the length and diameter of wool fibres II. Comparison of sheep differing in thyroid hormone status.Crossref | GoogleScholarGoogle Scholar |

IWTO-30 (2007) ‘Determination of staple length and staple strength.’ (International Wool Textile Organisation: Ilkley, Yorkshire)

Lang WR, Chaudhri AM (1948) A note on the interpretation of Merino staple length measurements. Journal of the Textile Institute 39, T249–T252.
A note on the interpretation of Merino staple length measurements.Crossref | GoogleScholarGoogle Scholar |

McGregor BA (1992) Body composition, body condition scores and carcass and organ components of grazing Angora goats. Proceedings of the Australian Society of Animal Production 19, 273–276.

McGregor BA (2005) ‘Nutrition and management of goats in drought.’ Research Report No. 05/188. (Rural Industries Research and Development Corporation: Barton, ACT) Available at https://rirdc.infoservices.com.au/items/05-188 [Verified 31 July 2012]

McGregor BA (2010a) The influence of stocking rate and mixed grazing of Angora goats and Merino sheep on animal and pasture production in southern Australia. 3. Mohair and wool production and quality. Animal Production Science 50, 168–176.
The influence of stocking rate and mixed grazing of Angora goats and Merino sheep on animal and pasture production in southern Australia. 3. Mohair and wool production and quality.Crossref | GoogleScholarGoogle Scholar |

McGregor BA (2010b) The influence of stocking rate and mixed grazing of Angora goats and Merino sheep on animal and pasture production in southern Australia. 2. Live weight, body condition, carcass yield and mortality. Animal Production Science 50, 149–157.
The influence of stocking rate and mixed grazing of Angora goats and Merino sheep on animal and pasture production in southern Australia. 2. Live weight, body condition, carcass yield and mortality.Crossref | GoogleScholarGoogle Scholar |

McGregor BA, Butler KL (2004) Contribution of objective and subjective attributes to the variation in commercial value of Australian mohair: implications for mohair production, genetic improvement, and mohair marketing. Australian Journal of Agricultural Research 55, 1283–1298.
Contribution of objective and subjective attributes to the variation in commercial value of Australian mohair: implications for mohair production, genetic improvement, and mohair marketing.Crossref | GoogleScholarGoogle Scholar |

McGregor BA, Butler KL (2008) The effect of frequency and timing of shearing on the growth of fibre and objective and subjective attributes of Angora goat fleeces. Journal of Agricultural Science Cambridge 146, 351–361.

McGregor BA, Butler KL (2009) Variation of staple length across mohair fleeces: implications for animal selection and fleece evaluation. Journal of Agricultural Science Cambridge 147, 493–501.
Variation of staple length across mohair fleeces: implications for animal selection and fleece evaluation.Crossref | GoogleScholarGoogle Scholar |

McGregor BA, Butler KL (2011) The relationship between permanent incisor wear and mohair production and attributes in grazing adult Angora goats. Small Ruminant Research 100, 37–43.
The relationship between permanent incisor wear and mohair production and attributes in grazing adult Angora goats.Crossref | GoogleScholarGoogle Scholar |

McGregor BA, Butler KL, Ferguson MB (2012) The allometric relationship between mean fibre diameter of mohair and the fleece-free live weight of Angora goats over their lifetime. Animal Production Science 52, 35–43.
The allometric relationship between mean fibre diameter of mohair and the fleece-free live weight of Angora goats over their lifetime.Crossref | GoogleScholarGoogle Scholar |

McGregor BA, Butler KL, Ferguson MB (2013) The allometric relationship between clean mohair fleece weight and the fleece-free liveweight of Angora goats over their lifetime varies with season and liveweight change. Animal Production Science 53, 154–162.
The allometric relationship between clean mohair fleece weight and the fleece-free liveweight of Angora goats over their lifetime varies with season and liveweight change.Crossref | GoogleScholarGoogle Scholar |

Nicoll GB, Bigham ML, Alderton MJ (1989) Estimates of environmental effects and genetic parameters for live weights and fleece traits of Angora goats. Proceedings of the New Zealand Society of Animal Production 49, 183–189.

Payne RW (Ed.) (2011) ‘The guide to Genstat. Release 14. Part 2: statistics.’ (VSN International: Hertfordshire, UK)

Shelton M, Bassett JW (1970) ‘Estimate of certain genetic parameters relating to Angora goats.’ Texas Agricultural Station Research Reports (PR-2750), 38–41. (Texas Agricultural and Mechanical University: College Station, TX)

Snyman MA, Olivier JJ (1996) Genetic parameters for body weight, fleece weight and fibre diameter in South African Angora goats. Livestock Production Science 47, 1–6.
Genetic parameters for body weight, fleece weight and fibre diameter in South African Angora goats.Crossref | GoogleScholarGoogle Scholar |

Whan RB (1972) Fibre-length variation in greasy wool. Journal of the Textile Institute 63, 84–90.
Fibre-length variation in greasy wool.Crossref | GoogleScholarGoogle Scholar |

Yalçin BC, Ariturk E, Imeryuz F, Sincer N, Muftuoglu S (1979) Genetic and environmental aspects of Angora goat production. 2. Phenotypic and genetic parameters for the important production traits. Instanbul University Vet. Fak. Derg. 5, 19–34.