Hostname: page-component-84b7d79bbc-dwq4g Total loading time: 0 Render date: 2024-07-27T06:11:28.602Z Has data issue: false hasContentIssue false
  • English
  • Français

Wool growth cycles in Soay sheep

Published online by Cambridge University Press:  27 March 2009

M. L. Ryder
M. L. Ryder
Affiliation:
ARC Animal Breeding Research Organization, Edinburgh EH9 3JQ
Get access Rights & Permissions [Opens in a new window]

Summary

The wool growth cycle in six rams and eight ewes was studied by taking monthly coat and skin samples for 3 years from each. Coat length was measured, and the percentage of inactive follicles was noted as well as the percentage of medullated fibres.

In the spring moult ‘mainland’ sheep (stock removed from St Kilda 60 years ago) cast less completely than ‘St Kilda sheep’ (Soays removed more recently from St Kilda). Mainland rams cast less than the ewes, but St Kilda rams began casting earlier, and completed casting more quickly than the ewes. Despite differences between years in the rate of casting, similarities in the pattern of casting were observed between years in the same animal, and between parent and offspring.

This apparent annual cycle was confirmed by graphs of follicle inactivity which showed that most inactivity occurred from September to March in the rams, and from October to April in the ewes. It was possible to fit sin and cos waves of 12-month duration to the graphs and further analysis revealed superimposed a 6-month cycle in one group, and a 4-month cycle in another group, which were associated with subsidiary peaks of inactivity in the summer. There were suggestions of a cycle about 2 months in length throughout the year, and sin waves of this duration could be fitted to the data from one of the groups of ewes. Possible control mechanisms for the annual and shorter cycles are discussed.

Peaks of follicle inactivity were frequently followed by troughs in coat length which suggested actual loss of the longest fibres.

Medullation was absent or minimal from December to March, and there were two peaks during the period of maximum medullation, that in the spring being greater than the one in the autumn.

Type
Short Note
Information
The Journal of Agricultural Science , Volume 76 , Issue 1 , February 1971 , pp. 183 - 197
Copyright
Copyright © Cambridge University Press 1971

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Boyd, J. M., Doney, J. M., Gunn, R. G. & Jewell, P. A. (1964). The Soaj> sheep of the island of Hirta, St Kilda. A study of a feral population. Proc. zool. Soc. Lond. 142, 129–63.CrossRefGoogle Scholar
Burns, M. (1967). The Katsina wool project. I. The coat and skin histology of some northern Nigerian hair sheep and their Merino crosses. Trop. Agric. Trin. 44, 173–92.Google Scholar
Doney, J. M. & Smith, W. F. (1969). Casting of the fleece in sheep. Estimation of experimentally induced fibre shedding rate. J. agric. Sci., Camb. 73, 231–37.CrossRefGoogle Scholar
Doney, J. M. (1971). In Nature Conservancy Monograph on Soay Sheep (forthcoming).Google Scholar
Ebling, F. J. & Johnson, E. (1964). ‘The control of hair growth in ‘The mammalian epidermis and its derivatives’, Symp. zool. Soc. Lond. No. 12, pp. 97126.Google Scholar
Grubb, P. & Jewell, P. A. (1966). Social grouping and home range in feral Soay sheep. Symp. zool. Soc. Lond. No. 18, 179210.Google Scholar
Priestley, G. C. (1965). Wool and hair growth on autografts of sheep skin. Proc. R. Soc. Med. 58, 508–10.Google ScholarPubMed
Ryder, M. L. (1958). Some observations on the glycogen of the wool follicle. Q. Jl Microsc. Sci. 99, 221–8.Google Scholar
Ryder, M. L. (1960). A study of the coat of the Mouflon Ovis musimon with special reference to seasonal change. Proc. zool. Soc. Lond. 135, 387408.CrossRefGoogle Scholar
Ryder, M. L. (1964). Moulting and hair replacement in Progress in Biol. Sci. in relation to Dermatol. 2. Rook, A. and Champion, R. H. (Eds.), pp. 325–35. Cambridge University Press.Google Scholar
Ryder, M. L. (1966a). Coat structure in Soay sheep. Nature, Lond. 211, 1092–93.CrossRefGoogle Scholar
Ryder, M. L. (1966b). Coat structure and seasonal shedding in goats. Anim. Prod. 8, 289302.Google Scholar
Ryder, M. L. (1967). Wool fibre shedding in some Merino sheep. Aust. J. agric. Res., 18, 683–88.CrossRefGoogle Scholar
Ryder, M. L. (1968). Fleece structure in some native and unimproved breeds of sheep. Z. Tierzilcht ZuchtBiol. 85, 143–70.CrossRefGoogle Scholar
Ryder, M. L. (1969). Development, structure and seasonal change in the coat of Wiltshire sheep. Anim. Prod. 11, 467–77.Google Scholar
Ryder, M. L. (1970). Post-natal fleece development in some primitive sheep and crosses. Z. Tierziicht. ZuchtBiol. 86, 372–91.CrossRefGoogle Scholar
Ryder, M. L. & Stephenson, S. K. (1968). Wool Orowth. New York, London: Academic Press.Google Scholar
Slee, J. (1959). Fleece shedding, staple-length and fleece weight in experimental Wiltshire Horn-Scottish Blackface crosses. J. agric. Sci., Camb. 53, 209–23.CrossRefGoogle Scholar