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Characterization of commercial and biological growth curves in the Segureña sheep breed

Published online by Cambridge University Press:  23 April 2015

T. M. Lupi*
Affiliation:
Escola Superior Agrária do Instituto Politécnico de Castelo Branco, 6001-909 Castelo Branco, Portugal
S. Nogales
Affiliation:
Departamento de Genética, Universidad de Córdoba, Campus Universitario de Rabanales, 14071-Córdoba, Spain
J. M. León
Affiliation:
Centro Agropecuario Diputación de Córdoba, 14071-Córdoba, Spain
C. Barba
Affiliation:
Departamento de Producción Animal, Universidad de Córdoba, Campus Universitario de Rabanales, 14071-Córdoba, Spain
J. V. Delgado
Affiliation:
Departamento de Genética, Universidad de Córdoba, Campus Universitario de Rabanales, 14071-Córdoba, Spain
*
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Abstract

Non-linear models were analysed to describe both the biological and commercial growth curves of the Segureña sheep, one of the most important Spanish breeds. We evaluated Brody, von Bertalanffy, Verhulst, logistic and Gompertz models, using historical data from the National Association of Segureña Sheep Breeders (ANCOS). These records were collected between 2000 and 2013, from a total of 129 610 weight observations ranging from birth to adulthood. The aim of this research was to establish the mathematical behaviour of body development throughout this breed’s commercial life (birth to slaughter) and biological life (birth to adulthood); comparison between both slopes gives important information regarding the best time for slaughter, informs dietary advice according to animals’ needs, permits economical predictions of productions and, by using the curve parameters as selection criteria, enables improvements in growth characteristics of the breed. Models were fitted according to the non-linear regression procedure of statistical package SPSS version19. Model parameters were estimated using the Levenberg–Marquardt algorithm. Candidate models were compared using the determinative coefficient, mean square error, number of iterations, Akaike information coefficient and biological coherence of the estimated parameters. The von Bertalanffy and logistic models were found to be best suited to the biological and commercial growth curves, respectively, for both sexes. The Brody equation was found to be unsuitable for studying the commercial growth curve. Differences between the parameters in both sexes indicate a strong impact of sexual dimorphism on growth. This can emphasize the value of the highest growth rate for females, indicating that they reach maturity earlier.

Type
Research Article
Copyright
© The Animal Consortium 2015 

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References

ANCOS 2014. Raza Segureña – Producción de carne. Retrieved April 24, 2014, from http://www.ancos.org/ Google Scholar
Bathaei, SS and Leroy, PL 1998. Genetic and phenotypic aspects of the growth curve characteristics in Mehraban Iranian fat-tailed sheep. Small Ruminant Research 29, 261269.Google Scholar
Brody, S 1945. Bioenergetics and growth. Reinhold, New York. 1023pp.Google Scholar
Brown, JE, Fitzhugh, HA and Cartwright, TC 1976. A comparison of nonlinear models for describing weight-age relationships in cattle. Journal of Animal Science 42, 810818.Google Scholar
Cano, T, Peña, F, Martos, J, Domenech, V, Alcade, MJ, Garcia, A, Herrera, M, Rodero, E and Acero, R 2003. Calidad de la canal y de la carne en corderos ligeros de raza Segureña. Achivos Zootécnicos 52, 315326.Google Scholar
Carneiro, PLS, Malhado, CHM, PRAM, Affonso, Pereira, DG, Suzart, JCC, Ribeiro, M Jr and Rocha, JL 2009. Curva de crescimento em caprinos, da raça Mambrina, criados na caatinga. Revista Brasileira de Saúde e Produção Animal 10, 536545.Google Scholar
Carolino, RNP and Gama, LT 1993. Análise do crescimento corporal nas espécies pecuárias. Veterinária Técnica Ano 3 nº 2, 14:21.Google Scholar
Daskiran, I, Koncagul, S and Bingol, M 2010. Growth characteristics of indigenous Norduz female and male lambs. Journal of Agricultural Sciences 16, 6269.Google Scholar
Echeverri, AML, Bergmann, JAG, Toral, FLB, Osorio, JP, Carmo, AS, Mendonça, LF, Moustacas, VS and Henry, M 2013. Use of nonlinear models for describing scrotal circumference growth in Guzerat bulls raised under grazing conditions. Theriogenology 79, 751759.Google Scholar
Fitzhugh, HA 1976. Analysis of growth curves and strategies for altering their shapes. Journal of Animal Science, Champaign 42, 10361051.Google Scholar
Freitas, AR 2005. Curvas de Crescimento na Produção Animal. Revista Brasileira de Zootecnia 34, 786795.Google Scholar
Gbangboche, AB, Youssao, AKI, Senou, M, Adamou-Ndiaye, M, Ahissou, A, Farnir, F, Michaux, C, Abiola, FA and Leroy, PL 2006. Examination of non-genetic factors affecting the growth performance of djallonke sheep in soudanian zone at the Okpara breeding farm of Benin. Tropical Animal Health and Production 38, 5564.Google Scholar
Gbangboche, AB, Glele-Kakai, R, Salifou, S, Albuquerque, LG and Leroy, PL 2008. Comparison of non-linear growth models to describe the growth curve. West African Dwarf sheep. Animal 2, 10031012.Google Scholar
Gbangboche, AB, Alkoiret, TI, Salifou, S, Farnir, F, Leroy, PL and Abiola, FA 2011. Growth pattern of purebred West African Dwarf sheep and its crosses with the West African long legged. Research Journal of Animal Sciences 5, 613.Google Scholar
Gómez, DAA, Muñoz, MFC and Betancur, LFR 2008. Modelación de funciones de crecimiento aplicadas a la producción animal. Revista Colombiana de Ciencias Pecuarias 21, 3958.Google Scholar
Hamouda, MB and Atti, N 2011. Comparison of growth curves of lamb fat tail measurements and their relationship with body weight in Babarine sheep. Small Ruminant Research 95, 120127.Google Scholar
Hernandez, JVR 2004. Evaluación fenotípica y genotípica de los caracteres de crecimiento en el esquema de selección del ovino segureño. Dissertation PhD, University of Córdoba, Córdoba, Spain.Google Scholar
Lambe, NR, Navajas, EA, Simm, G and Bünger, L 2006. A genetic investigation of various growth models to describe growth of lambs of two contrasting breeds. Journal of Animal Science 84, 26422654.CrossRefGoogle ScholarPubMed
León, JM, Barba, C, Gama, LT, Carolino, NP, Puntas, J, Quiroz, J and Delgado, JV 2005. Parámetros genéticos de prolificidad de la oveja segureña. Resultados preliminares. Archivos de Zootecnia 54, 323326.Google Scholar
León, JM, Macciotta, NPP, Gama, LT, Barba, C and Delgado, JV 2012. Characterization of the lactation curve in Murciano-Granadina dairy goats. Small Ruminant Research 107, 7684.Google Scholar
Lewis, RM, Emmans, GC, Dingwall, WS and Simm, G 2002. A description of the growth of sheep and its genetic analysis. Journal of Animal Science 74, 5162.Google Scholar
MAGRAMA 2012. Programa de mejora de la raza ovina segureña. Retrieved March 15, 2014, from http://www.magrama.gob.es/es/ganaderia/temas/zootecnia/Programa_de_Mejora_Raza_Ovina_Segurena._Definitivo._tcm7-293647.pdf Google Scholar
McManus, C, Evangelista, C, Fernandes, LAC, Miranda, RM, Moreno-Bernal, FE and Santos, NR 2003. Curvas de Crescimento de Ovinos Bergamácia Criados no Distrito Federal. Revista Brasileira de Zootecnia 32, 12071212.Google Scholar
Noguera, RR, Pereira, R and Solarte, CE 2008. Comparación de modelos no lineales para describir curvas de crecimiento en cuyes (Cavia porcellus) desde el nacimiento hasta la edad de sacrificio. Livestock Research for Rural Development 20, Article no. 79.Google Scholar
Posada, SL and Noguera, RR 2007. Comparación de modelos matemáticos: una aplicación en la evaluación de alimentos para animales. Revista Colombiana de Ciências Pecuárias 20, 141148.Google Scholar
Quirino, CR, Bergman, JAG, Vale Filho, VR and Pereira, JCC 1999. Evaluation of four mathematical functions to describe scrotal circumference maturation in Nellore bulls. Theoriogenology 52, 2534.Google Scholar
Ratkowsky, DA 1983. Nonlinear regression modeling. Marcel Dekker Inc., New York. 297pp.Google Scholar
Sarmento, JLR, Regazzi, AJ, Sousa, WH, de Torres, RA, Breda, FC and Menezes, GRO 2006. Estudo da curva de crescimento de ovinos Santa Inês. Revista Brasileira de Zootecnia 35, 435442.Google Scholar
Silva, FLR and Araújo, AM 2000. Características de reprodução e de crescimento de ovinos mestiços Santa Inês, no Ceará. Revista Brasileira de Zootecnia 29, 17121720.Google Scholar
Souza, LA 2010. Avaliação do crescimento de ovinos da raça Morada Nova sob modelos não lineares convencionais e alternativos. Dissertation (Master), State University of Southwest of Bahia, Itapetinga, Bahia, Brasil.Google Scholar
Souza, JC and Bianchini Sobrinho, E 1994. Estimativa do peso de bovinos de corte, aos 24 meses, da raça Nelore, usando curvas de crescimento. Revista da Sociedade Brasileira de Zootecnia 23, 8591.Google Scholar
Tariq, MM, Iqbal, F, Eyduran, E, Bajwa, MA, Huma, Z and Waheed, A 2013. Comparison of non-linear functions to describe the growth in Mengali sheep breed of Balochistan. Pakistan Journal of Zoology 45, 661665.Google Scholar
Thomas, MSC, Annaz, D, Ansari, D, Serif, G, Jarrold, C and Karmiloff-Smith, A 2009. Using developmental trajectories to understand developmental disorders. Journal of Speech, Language, and Hearing Research 52, 336358.CrossRefGoogle ScholarPubMed
Topal, M, Ozdemir, M, Aksakal, V, Yildiz, N and Dogru, U 2004. Determination of the best nonlinear function in order to estimate growth in Morkaraman and Awassi lambs. Small Ruminant Research 55, 229232.Google Scholar
Ulutas, Z, Sezer, M, Aksoy, Y, Sirin, E, Sen, U, Kuran, M and Akbas, Y 2010. The effect of birth types on growth curve parameters of Karayaka lamb. Journal of Animal and Veterinary Advances 9, 13841388.Google Scholar