Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

Influence of grain supplements during winter on liveweight, mohair growth and mohair quality of weaner Angora goats

B. A. McGregor A B D , R. Harris C and G. Denney C
+ Author Affiliations
- Author Affiliations

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

B Current address: Centre for Material and Fibre Innovation, Deakin University, Geelong, Vic. 3217, Australia.

C Currajong Angora Stud, Big Jack Mountain Road, Burragate, NSW 2550, Australia.

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

Animal Production Science 50(6) 593-598 https://doi.org/10.1071/AN09222
Submitted: 17 December 2009  Accepted: 1 February 2010   Published: 11 June 2010

Abstract

To identify methods to improve growth and mohair production of weaned Angora goats (mean liveweight 18–20 kg) during their first winter, two supplementary feeding experiments using whole-grain barley and lupins were conducted on a farm in southern New South Wales, in a region where weaner illthrift had been reported. Experiment 1 was a 2 × 2 + 1 factorial with 16 replicate goats; two feeding levels (115 or 230 g/day of whole-barley grain) × two periods of feeding (4 or 8 weeks) + Control (grazing only). Experiment 2 had five treatments × 13 replicate goats; three treatments fed 230 g/day of whole-barley grain for periods of 2 or 3 months and two treatments fed a 50 : 50 mixture of lupin and barley grain at 350 g/day for 2 or 4 months. Goats were individually fed and then all returned together for grazing. There were no effects of feeding in Experiment 1 and variations of feeding 230 g/day of barley in Experiment 2 provided no benefit. Feeding lupin/barley for 4 months increased liveweight (gain 59 g/day), mohair production, mohair fibre diameter and the incidence of medullated fibre. About 25% of this ration was not eaten by eight goats, reducing treatment average intake to 295 g/day. By the end of spring, there was no difference in treatment liveweights. Regression constants indicated that for each 1 μm increase in mean fibre diameter, greasy fleece weight increased 35 g and for each 1 kg increase in pre-shearing liveweight, greasy fleece weight increased 26 g. The results show that Angora weaner goats can grow during winter, provided their energy and protein needs for growth are met. Improved pasture management and higher levels of supplementary feeding to weaned Angoras are indicated compared with current practices on farms in Australia.

Additional keywords: growth rate, nutritional management, supplementary feeding.


Acknowledgements

The Rural Industries Research and Development Corporation provided financial support. Mr KL Butler provided biometric support.


References


AWI (2003) Weaner management. In ‘Planning for profit – a practical guide to assist woolgrowers recover from drought’. (Australian Wool Innovation: Sydney) Chapter 8, 1–10.

Cayley JWD , Bird RP (1991) Techniques for measuring pasture. Technical Report No. 191. (Department of Agriculture: Hamilton, Vic.)

Huston JE (1994) Effects of supplemental feeding on intake by kid, yearling and adult Angora goats on rangeland. Journal of Animal Science 72, 768–773.
CAS | PubMed |
open url image1

Huston JE, Taylor CA, Lupton CJ, Brooks TD (1993) Effects of supplementation on intake, growth rate, and fleece production by female Angora kid goats grazing rangeland. Journal of Animal Science 71, 3124–3130.
CAS | PubMed |
open url image1

International Wool Textile Organisation (2002a) ‘Determination of wool base and vegetable matter base of core samples of raw wool.’ IWTO-19. (International Wool Textile Organisation: Ilkley, Yorkshire)

International Wool Textile Organisation (2002b) ‘Measurement of the mean and distribution of fibre diameter of wool using an optical fibre diameter analyser (OFDA).’ IWTO-47. (International Wool Textile Organisation: Ilkley, Yorkshire)

International Wool Textile Organisation (2002c) ‘Determination of medullated fibre content of wool and mohair samples by opacity measurement using an OFDA.’ IWTO-57. (International Wool Textile Organisation: Ilkley, Yorkshire)

McGregor BA (1984) Compensatory liveweight gain and mohair growth on Angora goats. Proceedings of the Australian Society of Animal Production 15, 716. open url image1

McGregor BA (1996a) Lupin grain but not barley straw supplements allow cashmere buck kids to grow rapidly during winter. Animal Production in Australia 21, 294–297. open url image1

McGregor BA (1996b) Carcass quality and commercial acceptance of Angora goat kids fed supplementary energy and slaughtered at 5 months of age. Animal Production in Australia 21, 135–138. open url image1

McGregor BA (2002) ‘Extent and source of short and cotted mohair.’ Research Paper No. 02/108. pp. 60 + viii. (Rural Industries Research and Development Corporation: Barton, ACT)

McGregor BA (2005) ‘Nutrition and management of goats in drought.’ Research Report No. 05/188. pp. 90 + x. (Rural Industries Research and Development Corporation: Barton, ACT)

McGregor BA (2010) Influence of stocking rate and mixed grazing of Angora goats and Merino sheep on animal and pasture production in southern Australia. 2. Liveweight, body condition, carcass yield and mortality. Animal Production Science 50, 149–157.
Crossref | GoogleScholarGoogle Scholar | open url image1

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.
Crossref | GoogleScholarGoogle Scholar | open url image1

Payne RW (Ed.) (2005) ‘The guide for Genstat Release 7.’ (Lawes Agricultural Trust: Rothamsted, UK)

SCA (1990) ‘Feeding standards for Australian livestock: ruminants.’ Standing Committee on Agriculture. (CSIRO: Melbourne)