Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-16T15:05:26.177Z Has data issue: false hasContentIssue false

Genetic parameters of purebred and crossbred Milking Criollos in tropical Mexico

Published online by Cambridge University Press:  25 May 2016

J. de Alba
Affiliation:
Asociacion Mexicana de Produccion Animal, Juarez 86 Esq. M. Ocampo, Coyoacan, DF 04110 Mexico
B. W. Kennedy
Affiliation:
Centre for Genetic Improvement of Livestock, Department of Animal and Poultry Science, University of Guelph, Guelph, Ontario, N1G 2W1, Canada
Get access

Abstract

Records on total of 1746 calvings of principally Milking Criollos and their crosses were collected between 1972 and 1990 at the experiment station of the Mexican Association of Animal Production on the Gulf Coast of Mexico. Traits of interest were 305-day milk yield, days in lactation, number of services per lactation (raised to power 1/2), age at first calving and lifetime milk yield. Data were analysed by restricted maximum likelihood (REML) under an individual animal model based on 584 animals of which 146 were female ancestors and 35 were male ancestors. Heritabilities of 305-day milk and age at first calving were 0·17 and 0·07, respectively, but heritabilities of other traits were close to zero. Genetic trend in the Milking Criollos for 305-day milk was small and not significant (0·76 (s.e. 2·38) kg/year). Of crosses with Criollo sires, those involving Holstein and Canadienne breeding had highest 305-day and lifetime milk yields and those involving Brown Swiss and native Mexican (mostly Oaxaca) had lowest yields. Jersey crosses were intermediate for 305-day yield. The F1 Criollo × Jersey cross had highest lifetime yield, but backcrosses involving Jersey breeding were poor for lifetime milk. Additive breed effects for Jersey and Canadienne, relative to Milking Criollo, were 88 (s.e. 91) and 227 (s.e. 74) kg 305-day milk, respectively. Heterosis was 144 (s.e. 55) kg (11·6%) for 305-day milk, 16–4 (s.e. 9·6) (5·0%) for days in milk, −0·107 (s.e. 0–042) (7·7%) for number of services per lactation raised to power 1/2, −25·6 (s.e. 41·4) days (2•3%) for age at first calving and 1789 (s.e. 664) kg (60·0%) for lifetime milk. A plan was designed to develop a nucleus breeding scheme utilizing multiple ovulation and embryo transfer technology (MOET) for the genetic improvement of the Milking Criollo breed in Mexico.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1994

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

Alba, J. de and Kennedy, B. W. 1985. Milk production in the Latin-American Milking Criollo and its crosses with the Jersey. Animal Production 41: 143150.Google Scholar
Kasonta, J. S. and Nitter, G. 1990. Efficiency of nucleus breeding schemes in dual purpose cattle of Tanzania. Animal Science Papers and Report 6: 7584.Google Scholar
Meyer, K. 1989. Restricted maximum likelihood to estimate variance components for animal models with several random effects using a derivative free algorithm. Genetique, Selection, Evolution 21: 317340.Google Scholar
Nicholas, F. W. and Smith, C. 1983. Increased rates of genetic change in dairy cattle by embryo transfer and splitting. Animal Production 36: 341353.Google Scholar
Smith, C. 1988. Genetic improvement of livestock in developing countries using nucleus breeding units. World Animal Review FAO (Rome) 65: 210.Google Scholar
Touchberry, R. W. 1992. Crossbreeding effects in dairy cattle: the Illinois experiment, 1949 to 1969. journal of Dairy Science 75: 640667.CrossRefGoogle ScholarPubMed