C.M. Becerril scite author profile

C.M. Becerril

5Publications

98Citation Statements Received

0Citation Statements Given

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172

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Affiliations

Colegio de Postgraduados, University of Florida

Publications

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Genetic Parameters for Yield and Reproductive Traits of Holstein and Jersey Cattle in Florida

Campos¹,

Wilcox²,

Becerril³

et al. 1994

Journal of Dairy Science

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Records of yield and reproduction from 4293 Holstein and 2143 Jersey first lactation cows from eight Holstein and six Jersey herds were utilized to evaluate genetic parameters for Florida, a subtropical environment. Statistical analyses were by derivative-free REML with the animal model. Genetic variances were based on variation in estimated breeding values of individual cows. Heritabilities were .27 to .43 for yields (6 estimates), .38 to .51 for constituent percentages (4 estimates), and .025 to .056 for reproduction (6 estimates), which were similar to estimates for temperature areas from similar procedures. Also, correlations of breeding values between yields were high and between yields and reproduction were low and generally antagonistic. Correlated responses in calving interval from selection for yield, with selection intensities of 1.0 to 1.5, would be expected to lead to increases of 1.0 to 5.2 d per generation (12 estimates). Thus, estimates of genetic parameters and correlated responses in this subtropical environment did not differ appreciably from those that occur in temperate dairy areas.

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Effects of Percentage of White Coat Color on Holstein Production and Reproduction in a Subtropical Environment

Becerril

Wilcox

Lawlor

et al. 1993

Journal of Dairy Science

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Compositional variation amongst sorghum hybrids: Effect of kafirin concentration on metabolizable energy

Salinas

Pro

Salinas

et al. 2006

Journal of Cereal Science

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Transformation of Measurements Percentage of White Coat Color for Holsteins and Estimation of Heritability

Becerril

Wilcox

Wiggans

et al. 1994

Journal of Dairy Science

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Percentage of white coat color was measured on registration certificates of 4293 Holstein heifers on eight dairy farms in Florida. Measurements of white percentage were by visual evaluation on one side of the upper body (head, neck, and trunk) only and obtained in increments of 5%. Mean, median, mode, standard deviation, and skewness of white percentage were 25.6, 15, 0, 26.9, and 1.03. Distribution of white percentages showed lack of normality. Original data were transformed using an extension of the Box-Cox transformation to approach normality and to provide maximum likelihood estimators of the transformed parameters. Heritability estimates for percentages of white coat color were computed using derivative-free REML with an animal model. Estimates of heritability were .715 from untransformed data and .779 for transformed. Standard errors of estimates were slightly lower (.032 vs. .035) following transformation. Additional study to find an improved transformation procedure still seems warranted.

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Holstein white coat color and performance: phenotypic, genetic and environmental correlations

1996

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Correlations of measures of percentages of white coat color, five measures of production and two measures of reproduction were obtained from 4293 first lactation Holsteins from eight Florida dairy farms. Percentages of white coat color were analyzed as recorded and transformed by an extension of Box-Cox procedures. Statistical analyses were by derivative-free restricted maximum likelihood (DFREML) with an animal model. Phenotypic and genetic correlations of white percentage (not transformed) were with milk yield, 0.047 and 0.097; fat yield, 0.002 and 0.004; fat percentage, -0.047 and -0.090; protein yield, 0.024 and 0.048; protein percentage, -0.070 and -0.116; days open, -0.012 and -0.065; and calving interval, -0.007 and -0.029. Changes in magnitude of correlations were very small for all variables except days open. Genetic and phenotypic correlations of transformed values with days open were -0.027 and -0.140. Modest positive correlated responses would be expected for white coat color percentage following direct selection for milk, fat, and protein yields, but selection for fat and protein percentages, days open, or calving interval would lead to small decreases

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C.M. Becerril

Genetic Parameters for Yield and Reproductive Traits of Holstein and Jersey Cattle in Florida

Effects of Percentage of White Coat Color on Holstein Production and Reproduction in a Subtropical Environment

Compositional variation amongst sorghum hybrids: Effect of kafirin concentration on metabolizable energy

Transformation of Measurements Percentage of White Coat Color for Holsteins and Estimation of Heritability

Holstein white coat color and performance: phenotypic, genetic and environmental correlations

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