Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
Shopping Cart: ( empty )
You are here: Home > Journals > AN > AN10147
RESEARCH ARTICLE
Contents Vol 51(7)

Morphological traits in Portuguese Bordaleira de Entre Douro e Minho sheep: divergence of the breed

J. O. L. Cerqueira A , X. Feás A B D , A. Iglesias B , L. F. Pacheco C and J. P. P. Araújo A
+ Author Affiliations
- Author Affiliations

A Department of Sciences and Animal Resources, Agricultural College of Ponte de Lima, Polytechnic Institute of Viana do Castelo, E-4990-706, Ponte de Lima, Portugal.

B Department of Anatomy and Animal Production, Faculty of Veterinary Medicine, University of Santiago de Compostela, E-27002, Lugo, Galicia, Spain.

C Regional Directorate of Agriculture and Fisheries for ‘Norte’ region, Quinta de S. José – S. Pedro de Merelim, 4800 – 859, Braga, Portugal.

D Corresponding author. Email: xesusfeas@gmail.com

Animal Production Science 51(7) 635-641 https://doi.org/10.1071/AN10147
Submitted: 11 August 2010  Accepted: 21 March 2011   Published: 27 June 2011

Abstract

Production of the autochthonous Portuguese sheep breed Bordaleira de Entre Douro e Minho (BEDM) is directly associated with the concept of sustainable agriculture. This concept focuses on the adaptation of animal populations to adverse environmental conditions, high biological efficiency and traditional management. Native BEDM sheep can be divided into the following two types on the basis of their geographic location in Portugal and how they are managed: the Várzea, which is found mainly in the lower Entre Douro e Minho region, and the Mountain type, which traditionally prefers common areas. In the present work, we analysed records of liveweight, 15 body measurements and eight indexes of the BEDM sheep, to explore the ability to distinguish different characteristics between BEDM sheep populations. The records that were obtained and analysed by principal component analysis for 412 BEDM sheep (68 males and 344 females) included the following: heights at withers (HW), at back (HB), at rump (HR) and at chest (HC); lengths of trunk (LT), of rump (LR), of head (LH) and of perineum (LP); widths of head (WH), of chest (WC), of biiliac (WBIIL) and of biischiatic (WBIIS); perimeters of the shin (PS), thorax (PT), and abdomen (PA); and finally indexes such as cephalic index (CI), thoracic index (TI), pelvic index (PI), body index (BI), relative chest depth index (RDCI), lateral corporal index (LCI), relative shin thickness index (RTSI) and dactyl–thoracic index (DTI). The Várzea BEDM was morphologically superior to the Mountain variety, with this superiority more evident in females. Height measurements, especially HW in adult females, provided an excellent measurement reference for biometrical breed studies. Functional index values confirmed the BEDM Mountain variety’s appropriateness for mountainous regions. Relationships among body measurements suggested that the breed standard needed to be updated. The research presented here was used by the Portuguese Ministery to split BEDM into two new breeds; the traditional variety called Várzea now represents the new BEDM breed, whereas the Mountain variety represents the new Churra do Minho breed.

Additional keywords: Churra do Minho breed, Portugal.


References

Afolayan RA, Adeyinka IA, Lakpini CAM (2006) The estimation of live weight from body measurements in Yankasa sheep. Czech Journal of Animal Science 51, 343–348.

Araújo MB (1999) Distribution patterns of biodiversity and the design of a representative reserve network in Portugal. Diversity & Distributions 5, 151–163.
Distribution patterns of biodiversity and the design of a representative reserve network in Portugal.Crossref | GoogleScholarGoogle Scholar |

Aziz MA, Sharaby MA (1993) Collinearity as a problem in predicting body weight from body dimensions of Najdi sheep in Saudi Arabia. Small Ruminant Research 12, 117–124.
Collinearity as a problem in predicting body weight from body dimensions of Najdi sheep in Saudi Arabia.Crossref | GoogleScholarGoogle Scholar |

Carvalho A, Flannigan MD, Logan KA, Gowman LM, Miranda AI, Borrego C (2010) The impact of spatial resolution on area burned and fire occurrence projections in Portugal under climate change. Climatic Change 98, 177–197.
The impact of spatial resolution on area burned and fire occurrence projections in Portugal under climate change.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXhsFyksbzK&md5=f7056049d3c715fc448b4d68ea26f605CAS |

Cerqueira JOL (2006) Contribuição para o estudo da raça autóctone ovina Bordaleira de Entre Douro e Minho. Dissertação para a obtenção do grau de Mestrado, Faculdade de Medicina Veterinária, Universidade Técnica de Lisboa.

Degl’Innocenti P, Diaz Rivera P, Martini A, Perez Torrecillas C, Conti S, Giorgetti A (2003) Phenotypic diversity of Tuscany’s endangered sheep breeds: a descriptive approach. Italian Journal of Animal Science 2, 560–562.

DGV (2009) Estratégia para a Conservação e Melhoramento das Raças Autóctones (2007–2013). Direcção Geral de Veterinária (DGV). Available at http://www.dgv.min-agricultura.pt/producao_animal/docs/Autóctones.pdf [Verified 24 November 2009]

EU (1992) Council directive of 21 May 1992 on the conservation of natural habitats and of wild fauna and flora. (OJ L 206, 22.7.1992) (Luxembourg)

EU (2006) Council regulation of 20 March 2006 on agricultural products and foodstuffs as traditional specialities guaranteed. (OJ L 93, 31.3.2006) (Luxembourg)

FAO (2007) ‘Global plan of action for animal genetic resources and the Interlaken Declaration adopted by the international technical conference on animal genetic resources for food and agriculture.’ Available at http://www.fao.org/docrep/010/a1404e/a1404e00.htm [Verified 17 November 2009]

FAO (2009) ‘Domestic animal diversity information system (DAD-IS).’ Available at http://www.fao.org/dad-is/ [Verified 14 May 2009]

Janssens S, Vandepitte W (2004) Genetic parameters for body measurements and linear type traits in Belgian Bleu du Maine, Suffolk and Texel sheep. Small Ruminant Research 54, 13–24.
Genetic parameters for body measurements and linear type traits in Belgian Bleu du Maine, Suffolk and Texel sheep.Crossref | GoogleScholarGoogle Scholar |

Kiyanzad MR (2004) Using linear body measurements of live sheep to predict carcass characteristics for two Iranian fat-tailed sheep breeds. Asian-Australasian Journal of Animal Sciences 17, 693–699.

Kunene NW, Nesamvuni AE, Nsahlai IV (2009) Determination of prediction equations for estimating body weight of Zulu (Nguni) sheep. Small Ruminant Research 84, 41–46.
Determination of prediction equations for estimating body weight of Zulu (Nguni) sheep.Crossref | GoogleScholarGoogle Scholar |

Manly FJ (1991) ‘Multivariate statistical methods.’ (Chapman-Hill: London)

Moreira F, Vaz P, Catry F, Silva JS (2009) Regional variations in wildfire susceptibility of land-cover types in Portugal: implications for landscape management to minimize fire hazard. International Journal of Wildland Fire 18, 563–574.
Regional variations in wildfire susceptibility of land-cover types in Portugal: implications for landscape management to minimize fire hazard.Crossref | GoogleScholarGoogle Scholar |

Oliveira C, Barbosa E, Lopes JC, Arranz JJ, Bayón Y, Brito NV, San Primitivo F (2003) Genetic variability in portuguese sheep breeds Bordaleira of Entre-Douro e Minho and Serra da Estrela using microsatellites. Electronic Journal of Environmental, Agricultural and Food Chemistry 2, 484–486.

Oliveira C, Gutiérrez-Gil B, Pedrosa S, Barbosa E, Dantas R, Leite J, Brito NV, Arranz JJ, Bayón Y (2005) Genetic characterization of Bordaleira de Entre Douro e Minho and Serra da Estrela sheep breeds: nuclear and mitochondrial DNA. Revista Portuguesa de Ciências Veterinárias 100, 175–180.

Pannell DJ, Marshall GR, Barr N, Curtis A, Vanclay F, Wilkinson R (2006) Understanding and promoting adoption of conservation practices by rural landholders. Australian Journal of Experimental Agriculture 46, 1407–1424.
Understanding and promoting adoption of conservation practices by rural landholders.Crossref | GoogleScholarGoogle Scholar |

Pedrosa S, Arranz JJ, Brito N, Molina A, San Primitivo F, Bayón Y (2007) Mitochondrial diversity and the origin of Iberian sheep. Genetics, Selection, Evolution. 39, 91–103.
Mitochondrial diversity and the origin of Iberian sheep.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXitVCrtb4%3D&md5=4ad364222d340c5ae786894c2b51165cCAS |

Rancourt M, Fois N, Lavín MP, Tchakérian E, Vallerand F (2006) Mediterranean sheep and goats production: an uncertain future. Small Ruminant Research 62, 167–179.
Mediterranean sheep and goats production: an uncertain future.Crossref | GoogleScholarGoogle Scholar |

Riva J, Rizzi R, Marelli S, Cavalchini LG (2004) Body measurements in Bergamasca sheep. Small Ruminant Research 55, 221–227.
Body measurements in Bergamasca sheep.Crossref | GoogleScholarGoogle Scholar |

Robertson M, Bathgate A, Moore A, Lawes R, Lilley J (2009) Seeking simultaneous improvements in farm profit and natural resource indicators: a modelling analysis. Animal Production Science 49, 826–836.
Seeking simultaneous improvements in farm profit and natural resource indicators: a modelling analysis.Crossref | GoogleScholarGoogle Scholar |

Scherf BD (2000) ‘World watch list for animal diversity.’ 3rd edn. (FAO: Rome)

Sharples TJ, Dumelow J (1990) Prediction of body dimension of Mule and Scottish Blackface ewes from measurement of body weight. Animal Production 50, 491–495.
Prediction of body dimension of Mule and Scottish Blackface ewes from measurement of body weight.Crossref | GoogleScholarGoogle Scholar |

Sowande OS, Sobola OS (2008) Body measurements of west African dwarf sheep as parameters for estimation of live weight. Tropical Animal Health and Production 40, 433–439.
Body measurements of west African dwarf sheep as parameters for estimation of live weight.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD1cvgslGltA%3D%3D&md5=ec033f9d51caa1a8d29f725dcce2452dCAS | 18575971PubMed |

Stanford K, Jones SDM, Price MA (1998) Methods of predicting lamb carcass composition: a review. Small Ruminant Research 29, 241–254.
Methods of predicting lamb carcass composition: a review.Crossref | GoogleScholarGoogle Scholar |

Taberlet P, Valentini A, Rezaei HR, Naderi S, Pompanon F, Negrini R, Ajmone-Marsan P (2008) Are cattle, sheep, and goats endangered species? Molecular Ecology 17, 275–284.
Are cattle, sheep, and goats endangered species?Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD1c7gt1Sisw%3D%3D&md5=5a85e268b52b81ce36a14771599e3d52CAS | 17927711PubMed |

Traoré A, Tamboura HH, Kaboré A, Royo LJ, Fernández I, Álvarez I, Sangaré M, Bouchel D, Poivey JP, Francois D, Toguyeni A, Sawadogo L, Goyache F (2008) Multivariate characterization of morphological traits in Burkina Faso sheep. Small Ruminant Research 80, 62–67.
Multivariate characterization of morphological traits in Burkina Faso sheep.Crossref | GoogleScholarGoogle Scholar |

Williams JE, Price RJ (2010) Impacts of red meat production on biodiversity in Australia: a review and comparison with alternative protein production industries. Animal Production Science 50, 723–747.
Impacts of red meat production on biodiversity in Australia: a review and comparison with alternative protein production industries.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXhtVyrtbzO&md5=4c4b79ac121495d5ab03c8ea42be6bf2CAS |