Hostname: page-component-78c5997874-v9fdk Total loading time: 0 Render date: 2024-11-15T07:27:59.641Z Has data issue: false hasContentIssue false

Distribution of prolific Garole sheep in West Bengal, India

Published online by Cambridge University Press:  01 June 2011

S. Banerjee*
Affiliation:
B-1/87, Kalyani, Nadia 741235, West Bengal, India
S.M. Galloway
Affiliation:
AgResearch Molecular Biology Unit, Dunedin, New Zealand
G.H. Davis
Affiliation:
AgResearch Invermay Agricultural Centre, Mosgiel, New Zealand
*
Correspondence to: S. Banerjee, B-1/87, Kalyani, Nadia 741235, West Bengal, India. email: [email protected]
Get access

Summary

The Garole is a prolific breed of sheep. High prolificacy in sheep carrying the Booroola gene (FecB) is the result of a mutation in bone morphogenetic protein receptor-IB (BMPR-IB) (Wilson et al., 2001a,b) which had previously been identified in Garole sheep from the Sunderban region of West Bengal (Davis et al., 2002) . There is evidence that the breed has originated from the sheep brought by the Tibetan traders and traded in the plains of Bengal during the seventeenth till the nineteenth century. The present study was carried out to remap the distribution of the Garole sheep within the state of West Bengal (India) using the presence of the BMPR-IB mutation in the sheep flocks reared at different locations within the state of West Bengal. The breeding tract of Garole sheep was initially thought to be in the districts of 24 Parganas, South and North alone. However, the results from the present study indicate that the sheep is also reared in the district of Midnapur (East), besides in Jalpaiguri and Cooch Behar districts situated in northern parts of the state. The results of the present study indicate that the breeding tract of Garole sheep extends up to Jalpaiguri and CoochBehar districts of West Bengal at 26°16′ and 27°0′ North latitude and 88°4′ and 89°53′ East longitude. This study also indicates that the ancestors of the Garole sheep have migrated from China/Tibet, during the trading between West Bengal and Bangladesh during the seventeenth century till the early-twentieth century.

Résumé

Le Garole est une espèce prolifique de mouton. Haut prolificacy dans le mouton qui porte le gène de Booroola (FecB) est le résultat d'une mutation dans BMPR-IB (Wilson et al., 2001a, b) qui avait été précédemment identifié dans le mouton de Garole de la région de Sunderban de Bengale d'ouest (Davis et al., 2002). Il y a de la preuve que l'espèce a provenu du mouton amené par les commerçants tibétains et échangé dans les plaines de Bengale pendant le dix-septième jusqu’à le dix-neuvième siècle. L’étude présente a été exécuté à remap la distribution du mouton de Garole dans l’état de Bengale d'ouest (l'Inde) utilisant la présence de la mutation de BMPR-IB dans les troupeaux de mouton a élevé aux emplacements différents dans l’état de Bengale d'ouest. L’étendue élevant de mouton de Garole a été pensée au début pour être dans les quartiers de 24 Parganas, le Sud et Nord seul. Cependant, les résultats de l’étude présente indiquent que le mouton est aussi élevé dans le quartier de Midnapur (l'Est), en plus dans Jalpaiguri et les quartiers de Behar de Cooch ont situé dans les parties du nord de l’état. Les résultats de l’étude présente indiquent que l’étendue élevant de mouton de Garole s’étend en haut aux quartiers de Jalpaiguri et CoochBehar de Bengale d'ouest à 26°16′ et 27°0′ la latitude du nord et 88°4′ et 89°53′ la longitude de l'Est. L’étude présente indique aussi que les ancêtres du mouton de Garole ont migré de Chine/Tibet, pendant le commerce entre Bengale et Bangladesh d'ouest pendant le dix-septième siècle jusqu’à le premier vingtième siècle.

Resumen

La Garole es una prolífica raza de ovejas. La alta prolificidad en las ovejas portadoras del gen Booroola (FecB) es el resultado de una mutación en BMPR-IB (Wilson et al., 2001a, b), que había sido previamente identificado en el ganado ovino Garole de la región de Sunderban de Bengala Occidental (Davis et al.2002). Existen pruebas de que la raza tiene su origen en las ovejas traídas por los comerciantes tibetanos y comerciaban en las llanuras de Bengala desde el siglo XVII hasta el siglo XIX.

El presente trabajo se realizó para reasignar la distribución geográfica de las ovejas Garole dentro del estado de Bengala Occidental (India), utilizando la presencia de la mutación BMPR-IB en los rebaños de ovejas criadas en distintos lugares dentro del estado de Bengala Occidental. Inicialmente se pensó que el área de cría de las ovejas Garole fuera en distritos de 24 Parganas, Sur y Norte solo.

Sin embargo, los resultados del presente estudio indican que las ovejas también se crían en el distrito de Midnapur (este), además de en los distritos de Jalpaiguri y Cooch Behar, situado en el norte del estado. Dichos resultados indican que la zona de cría de ovejas Garole se extiende hasta Jalpaiguri y CoochBehar, distritos de Bengala Occidental a 26°16′ y 27°0′ latitud Norte y 88°4′ y 89°53′ longitud Este. Asimismo, el estudio señala que los ancestros de las ovejas Garole fueron traídos desde China / Tíbet, a consecuencia del comercio entre el Oeste de Bengala y Bangladesh desde el siglo XVII hasta comienzos del siglo XX.

Type
Research Article
Copyright
Copyright © Food and Agriculture Organization of the United Nations 2011

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

Acharya, R.N. 1982. Sheep and goat breeds of India. Rome, Food and Agriculture Organization.Google Scholar
Austin, H.B. 1943. The merino, past, present and probable. Sydney, Grahme Book Co.Google Scholar
Banerjee, S. & Banerjee, S. 2000. Garole sheep of Bengal. Asian Livestock Food Agri. Org. Bangkok, 24(3): 1921.Google Scholar
Bell, Sir Charles, 1928. The people of Tibet. Oxford, UK, Clarendon Press, pp. 120121.Google Scholar
Binny, K.R. 2005. Horsemen of the first frontier (1788–1900) and The Serpent's Legacy. Neutral Bay, NSW, Volcanic Productions, p. 6.Google Scholar
Bradford, G.E. & Inounu, I. 1996. Prolific breeds of Indonesia. In Fahmy, M.H., ed. Prolific sheep. Wallingford, UK, CAB International.Google Scholar
Bose, S. & Moitra, D.N. 1995. Bengal breed of sheep in the Sunderbans. Bangkok, Asian Livestock, Food and Agricultural Organization, pp. 1617.Google Scholar
Chen, S.Y., Duan, Z.Y., Sha, T., Xiangyu, J., Wu, S.F. & Zhang, Y.P. 2006. Origin, genetic diversity, and population structure of Chinese domestic sheep. Gene, 376: 216223.CrossRefGoogle ScholarPubMed
Chu, M.X., Liu, Z.H., Jiao, C.L., He, Y.Q., Fang, L., Ye, S.C., Chen, G.H. & Wang, J.Y. 2007. Mutations in BMPR-IB and BMP-15 genes are associated with litter size in small tailed Han sheep (Ovis aries). J. Anim Sci., 85: 598603.Google Scholar
Davis, G.H. 2004. Fecundity genes in sheep. Anim. Reprod. Sci., 82–83: 247253.CrossRefGoogle ScholarPubMed
Davis, G.H. 2008. The Booroola gene: origin, distribution, use and management of the Fec B mutation. In Walkden-Brown, S.W., Werf, J.H.J. van der, Nimbkar, C. & Gupta, V.S., eds. Use of the FecB (Booroola) gene in sheep-breeding programs. Proceedings of the Helen Newton Turner Memorial International Workshop held in Pune, Maharashtra, India, 10–12 November 2008, p. 133.Google Scholar
Davis, G.H., Galloway, S.M., Ross, I.K., Gregan, S.M., Ward, J., Nimbkar, B.V., Ghalsasi, P.M., Nimbkar, C., Gray, G.D., Subandriyo, , Inounu, I., Tiesnamurty, B., Martyniuk, E., Eythorsdottir, E., Mulsant, P., Lecerf, F., Hanrahan, J.P., Bradford, G.E. & Wilson, T. 2002. DNA tests in prolific sheep from eight countries provide new evidence on origin of Booroola (FecB) mutation. Biol. Reprod., 66(6): 18691874.CrossRefGoogle ScholarPubMed
Dorji, T., Tshering, G., Wangchuck, T., Rege, J.E.O. & Hannote, O. 2003. Indigenous sheep genetic resources and management in Bhutan. Anim. Genet. Resour. Inf., 33: 8191.Google Scholar
Feng, W., Ma, Y., Zhang, Z. & Zhou, D. 1996. Prolific breeds of China (English). In Fahmy, M.H., ed. Prolific sheep. Wallingford, UK, CAB International, pp. l46151.Google Scholar
Firminger, W.K. ed. 1920. Rangpur, Bengal District Records, Vol. I, pp. 1770–1779, Calcutta, 1914, Vol. II, pp. 1779–1782, Calcutta.Google Scholar
Ghalsasi, P.M. & Nimbkar, B.V. 1993. The Garole microsheep of Bengal. India. Anim. Genet. Resour. Inf., 12: 7379.Google Scholar
Grenard, F. 1974. Tibet: The country and its inhabitants. Delhi, Cosmo Publications.Google Scholar
Guthrie, J.F. 1957. The world history of sheep and wool. Melborne, McCarron Bird.Google Scholar
Hunter, W.W. 1875. A Statistical account of Bengal. Vol. I. Districts of 24 Parganas and Sunderbans. London, Trǖbner and Co.Google Scholar
Hunter, W.W. 1876. A statistical account of Bengal. Vol. X. Districts of Darjeeling, Jalpaiguri and state of Kuch Behar. London, Trǖbner and Co.Google Scholar
Hunter, W.W. 1879. A statistical account of Assam. Vol. 1. London, Trubner & Co.Google Scholar
ICAR. 2002. Hand book of animal husbandry. New Delhi, Indian Council of Agricultural Research.Google Scholar
Letterio, J.J. & Roberts, A.B. 1998. Regulation of immune responses by TGFbeta. Annu. Rev. Immunol., 16: 137161.CrossRefGoogle ScholarPubMed
Massague, J. 1998. TGF-beta signal transduction. Annu. Rev. Biochem., 67: 753791.Google Scholar
Meadows, J.R.S., Kantanen, K.L.J., Tapio, M., Sipos, W., Pardeshi, V., Gupta, V., Calvo, J.H., Whan, V., Norris, B. & Kijas, J.W. 2005. Mitochondrial sequence reveals high levels of gene flow between breeds of domestic sheep from Asia and Europe. J. Hered. 96: 494501.CrossRefGoogle ScholarPubMed
Milburn, W. 1813. Oriental commerce. Vol. II. London, Black Perry and Co.Google Scholar
Mulsant, P., Lecerf, F., Fabre, S., Schibler, L., Monget, P., Lanneluc, I., Pisselet, C., Riquet, J., Monniaux, D., Callebaut, I., Cribiu, E., Thimonier, J., Teyssier, J., Bodin, L., Cognie, Y., Chitour, N. & Elsen, J.M. 2001. Mutation in the bone morphogenetic protein receptor-IB is associated with increased ovulation rate in Booroola ewes. Proc. Natl. Acad. Sci. USA, 98: 51045109.CrossRefGoogle Scholar
Pemberton, R.B. 1839. Report on Bootan. Bengal Military Orphan Press.Google Scholar
Rennie, D.F. 1866. Bhotan and the story of the DoarWar. New Delhi, Manjusri Publishing House, (1970). pp. 1011, 64 and 262.Google Scholar
Rudbeck, L. & Dissing, J. 1998. Rapid, simple alkaline extraction of human genomic DNA from whole blood, buccal epithelial cells, semen and forensic stains for PCR. Biotechniques, 25: 588592.CrossRefGoogle ScholarPubMed
Sahana, G., Gupta, S.C. & Nivsarkar, A.E. 2001. Garole. The prolific sheep of India. Anim. Genet. Res. Inf., 31: 5563.Google Scholar
Sarkar, R. & Ray, I. 2005. Reconstructing of nineteenth century trade route between Bhutan and Assam: evidences from British political missions. J. Bhutan Stud., 13: 130.Google Scholar
Sarkar, R. & Ray, I. 2006. Two nineteenth century trade routes in the Eastern Himalayas: the Bhutanese trade with Tibet and Bengal. J. Bhutan Stud. 15: 5683.Google Scholar
Sharma, R.C., Arora, A.L., Narula, H.K. & Singh, R.N. 1999. Characteristics of Garole sheep in India. Anim. Genet. Resour. Inf., 26: 5764.Google Scholar
Singh, R.N. & Bohra, S.D.J. 1996. Garole sheep a profile (Bengal breed of sheep known as Garole. Indian J. Small Ruminants, 2(2):3842.Google Scholar
Vij, P.K., Tantia, M.S. & Nivsarkar, A.E. 1997. Characteristics of Bonpala sheep. Anim. Genet. Resour. Inf. Bull., 22: 1518.Google Scholar
Wilson, X.Y.W., Juengel, J.L., Ross, I.K., Lumsden, J.M., Lord, E.A., Dodds, K.G., Walling, G.A., McEwan, J.C., O'Connell, A.R., McNatty, K.P. & Montgomery, G.W. 2001a. Highly prolific Booroola sheep have a mutation in the intracellular kinase domain of bone morphogenetic protein IB receptor (ALK-6) that is expressed in both oocytes and granulosa cells. Biol. Reprod., 64: 12251235.CrossRefGoogle ScholarPubMed
Wilson, T., Wu, X.-Y., Juengel, J.L., Ross, I.K., Lumsden, J.M., Lord, E.A., Dodds, K.G., Walling, G.A., McEwan, J.C., O'Connell, A.R., McNatty, K.P. & Montgomery, G.W. 2001b. Highly prolific Booroola sheep have a mutation in the intracellular kinase domain of bone morphogenetic protein IB receptor (ALK-6) that is expressed in both oocytes and granulosa cells. Biol. Reprod., 64(6): 12251235.Google Scholar
Yan, Y.-D., Chu, M.-X., Zeng, Y.-Q., Fang, L., Ye, S.-C., Wang, L.-M., Guo, Q.-K., Han, D.-Q., Zhang, Z.-X., Wang, X.-J. & Zhang, Z.-X. 2005. Bone morphogenetic protein receptor IB as a candidate gene for prolificacy in Small Tail Han and Hu ewes. Chin. J. Agri. Biotechnol., 2: 125130. doi:10.1079/CJB200570.Google Scholar