Hostname: page-component-586b7cd67f-dlnhk Total loading time: 0 Render date: 2024-11-20T06:33:52.572Z Has data issue: false hasContentIssue false

Follicle population in Black Bengal goats

Published online by Cambridge University Press:  27 March 2009

M. A. Bari Khan
Affiliation:
Department of Anatomy and Histology, Bangladesh Agricultural University, Mymensingh, Bangladesh
A. H. Talukdar
Affiliation:
Department of Anatomy and Histology, Bangladesh Agricultural University, Mymensingh, Bangladesh

Extract

Many authors have studied the follicle population in sheep and goats with a view to establishing a scientific basis for the breeding of sheep and goats with improved wool.

Pant & Kapri (1966) examined skin samples from five Gaddis, ten Angoras seven F1S, eight first back crosses to Angora, four second back crosses to Angora and eight goats produced by inter se mating of the second back crosses and recorded the S/P ratio as 0·019, 6·55, 5·58, 6·25, 8·30 and 6·78 in the six types respectively. Das, Mitra & Nayudamma (1963) mentioned that the percentage of coarse hairs was about 35 in Indian goats. According to CLRI (1963) the density of hairs in Calcutta Black Bengal goats varies between 9000 and 13000/in.2 of the skin surface area and coarse hairs constituted about 28% of the total hairs. Ryder (1966) mentioned that the S/P ratio in Australian goats ranged from less than 5/1 to 7/1. He also noted the S/P value in Scottish goats as 3/1–5/1 and that in female Toggen-burg goats as 2·5/1–3·9/1. Sar & Calhoun (1966) reported that in Common American goats, three to six secondary follicles were associated with the trio of primary hair follicles. According to Burns (1965) the S/P ratio of Nigerian goats was 4/1. Margolena (1966) reported that in Texas and South African Angora does the primary follicles comprised about 9–14% of the total number of follicles. The purpose of this present investigation is to provide basic information on the S/P follicle ratio in Bangladesh Black Bengal goats.

Type
Short Note
Copyright
Copyright © Cambridge University Press 1977

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

Burns, M. (1949). Studies on folliole population in relation to fleece changes in lambs of the English Leicester and Romney breeds. Journal of Agricultural Science, Cambridge 39, 6479.Google Scholar
Burns, M. (1965). The skin histology of some Nigerian goats. Tropical Agriculture 42, 243–59.Google Scholar
Carter, H. B. (1955). The hair folliole population in sheep. Animal Breeding Abstracts 23, 101–16.Google Scholar
Clri, (1963). Indian hides and skin. Histological characteristics, Part 1.Google Scholar
Das, D. K., Mitra, S. K. & Nayudamma, Y. (1963). Grain quality of Indian goat skins: a histological study. Tanner 18, 107–9, 147–51.Google Scholar
Margolena, L. A. (1966). Lock type follicular characteristics and medullation in Texas and South African Angora does. Virginia Journal of Science 17, 32–9. In Animal Breeding Abstracts 34, 378.Google Scholar
Pant, K. P. & Kapri, B. D. (1966). Studies on the hair follicle ratios of Angora, Gaddi and their cross-bred goats. Indian Veterinary Journal 43, 1085–8.Google Scholar
Ryder, M. L. (1966). Coat structure and seasonal shedding in goats. Animal Production 8, 389412.Google Scholar
Sar, M. & Calhoun, M. L. (1966). Microscopic anatomy of the integument of the common American goat. American Journal of Veterinary Research 27, 444–56.Google Scholar