Association of total mixed ration particle fractions retained on the Penn State Particle Separator with milk, fat, and protein yield lactation curves at the cow level

Association of total mixed ration particle fractions retained on the Penn State Particle Separator with milk, fat, and protein yield lactation curves at the cow level

As part of a larger project aiming to develop management evaluation tools based on results from test-day (TD) models, the objective of this study was to examine the effect of physical composition of total mixed rations (TMR) tested quarterly from March 2006 through December 2008 on milk, fat, and protein yield curves for 25 herds in Ragusa, Sicily. A random regression sire-maternal grandsire model was used to estimate variance components for milk, fat, and protein yields fitted on a full data set, including 241,153 TD records from 9,809 animals in 42 herds recorded from 1995 through 2008. The model included parity, age at calving, year at calving, and stage of pregnancy as fixed effects. Random effects were herd × test date, sire and maternal grandsire additive genetic effect, and permanent environmental effect modeled using third-order Legendre polynomials. Model fitting was carried out using ASREML. Afterward, for the 25 herds involved in the study, 9 particle size classes were defined based on the proportions of TMR particles on the top (19-mm) and middle (8-mm) screen of the Penn State Particle Separator. Subsequently, the model with estimated variance components was used to examine the influence of TMR particle size class on milk, fat, and protein yield curves. An interaction was included with the particle size class and days in milk. The effect of the TMR particle size class was modeled using a ninth-order Legendre polynomial. Lactation curves were predicted from the model while controlling for TMR chemical composition (crude protein content of 15.5%, neutral detergent fiber of 40.7%, and starch of 19.7% for all classes), to have pure estimates of particle distribution not confounded by nutrient content of TMR. We found little effect of class of particle proportions on milk yield and fat yield curves. Protein yield was greater for sieve classes with 10.4 to 17.4% of TMR particles retained on the top (19-mm) sieve. Optimal distributions different from those recommended may reflect regional differences based on climate and types and quality of forages fed.

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Main Authors: Caccamo, M., Ferguson, J.D., Veerkamp, R.F., Schadt, I., Petriflieri, R., Azzaro, G., Pozzebon, A., Licitra, G.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:corn-silage, dairy-cows, forage, grain fermentability, midlactation cows, neutral detergent fiber, physically effective fiber, rumen fermentation, ruminal ph, size,
Online Access:https://research.wur.nl/en/publications/association-of-total-mixed-ration-particle-fractions-retained-on-
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spelling dig-wur-nl-wurpubs-4533992024-12-04 Caccamo, M. Ferguson, J.D. Veerkamp, R.F. Schadt, I. Petriflieri, R. Azzaro, G. Pozzebon, A. Licitra, G. Article/Letter to editor Journal of Dairy Science 97 (2014) 4 ISSN: 0022-0302 Association of total mixed ration particle fractions retained on the Penn State Particle Separator with milk, fat, and protein yield lactation curves at the cow level 2014 As part of a larger project aiming to develop management evaluation tools based on results from test-day (TD) models, the objective of this study was to examine the effect of physical composition of total mixed rations (TMR) tested quarterly from March 2006 through December 2008 on milk, fat, and protein yield curves for 25 herds in Ragusa, Sicily. A random regression sire-maternal grandsire model was used to estimate variance components for milk, fat, and protein yields fitted on a full data set, including 241,153 TD records from 9,809 animals in 42 herds recorded from 1995 through 2008. The model included parity, age at calving, year at calving, and stage of pregnancy as fixed effects. Random effects were herd × test date, sire and maternal grandsire additive genetic effect, and permanent environmental effect modeled using third-order Legendre polynomials. Model fitting was carried out using ASREML. Afterward, for the 25 herds involved in the study, 9 particle size classes were defined based on the proportions of TMR particles on the top (19-mm) and middle (8-mm) screen of the Penn State Particle Separator. Subsequently, the model with estimated variance components was used to examine the influence of TMR particle size class on milk, fat, and protein yield curves. An interaction was included with the particle size class and days in milk. The effect of the TMR particle size class was modeled using a ninth-order Legendre polynomial. Lactation curves were predicted from the model while controlling for TMR chemical composition (crude protein content of 15.5%, neutral detergent fiber of 40.7%, and starch of 19.7% for all classes), to have pure estimates of particle distribution not confounded by nutrient content of TMR. We found little effect of class of particle proportions on milk yield and fat yield curves. Protein yield was greater for sieve classes with 10.4 to 17.4% of TMR particles retained on the top (19-mm) sieve. Optimal distributions different from those recommended may reflect regional differences based on climate and types and quality of forages fed. en application/pdf https://research.wur.nl/en/publications/association-of-total-mixed-ration-particle-fractions-retained-on- 10.3168/jds.2012-6490 https://edepot.wur.nl/301011 corn-silage dairy-cows forage grain fermentability midlactation cows neutral detergent fiber physically effective fiber rumen fermentation ruminal ph size Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic corn-silage
dairy-cows
forage
grain fermentability
midlactation cows
neutral detergent fiber
physically effective fiber
rumen fermentation
ruminal ph
size
corn-silage
dairy-cows
forage
grain fermentability
midlactation cows
neutral detergent fiber
physically effective fiber
rumen fermentation
ruminal ph
size
spellingShingle corn-silage
dairy-cows
forage
grain fermentability
midlactation cows
neutral detergent fiber
physically effective fiber
rumen fermentation
ruminal ph
size
corn-silage
dairy-cows
forage
grain fermentability
midlactation cows
neutral detergent fiber
physically effective fiber
rumen fermentation
ruminal ph
size
Caccamo, M.
Ferguson, J.D.
Veerkamp, R.F.
Schadt, I.
Petriflieri, R.
Azzaro, G.
Pozzebon, A.
Licitra, G.
Association of total mixed ration particle fractions retained on the Penn State Particle Separator with milk, fat, and protein yield lactation curves at the cow level
description As part of a larger project aiming to develop management evaluation tools based on results from test-day (TD) models, the objective of this study was to examine the effect of physical composition of total mixed rations (TMR) tested quarterly from March 2006 through December 2008 on milk, fat, and protein yield curves for 25 herds in Ragusa, Sicily. A random regression sire-maternal grandsire model was used to estimate variance components for milk, fat, and protein yields fitted on a full data set, including 241,153 TD records from 9,809 animals in 42 herds recorded from 1995 through 2008. The model included parity, age at calving, year at calving, and stage of pregnancy as fixed effects. Random effects were herd × test date, sire and maternal grandsire additive genetic effect, and permanent environmental effect modeled using third-order Legendre polynomials. Model fitting was carried out using ASREML. Afterward, for the 25 herds involved in the study, 9 particle size classes were defined based on the proportions of TMR particles on the top (19-mm) and middle (8-mm) screen of the Penn State Particle Separator. Subsequently, the model with estimated variance components was used to examine the influence of TMR particle size class on milk, fat, and protein yield curves. An interaction was included with the particle size class and days in milk. The effect of the TMR particle size class was modeled using a ninth-order Legendre polynomial. Lactation curves were predicted from the model while controlling for TMR chemical composition (crude protein content of 15.5%, neutral detergent fiber of 40.7%, and starch of 19.7% for all classes), to have pure estimates of particle distribution not confounded by nutrient content of TMR. We found little effect of class of particle proportions on milk yield and fat yield curves. Protein yield was greater for sieve classes with 10.4 to 17.4% of TMR particles retained on the top (19-mm) sieve. Optimal distributions different from those recommended may reflect regional differences based on climate and types and quality of forages fed.
format Article/Letter to editor
topic_facet corn-silage
dairy-cows
forage
grain fermentability
midlactation cows
neutral detergent fiber
physically effective fiber
rumen fermentation
ruminal ph
size
author Caccamo, M.
Ferguson, J.D.
Veerkamp, R.F.
Schadt, I.
Petriflieri, R.
Azzaro, G.
Pozzebon, A.
Licitra, G.
author_facet Caccamo, M.
Ferguson, J.D.
Veerkamp, R.F.
Schadt, I.
Petriflieri, R.
Azzaro, G.
Pozzebon, A.
Licitra, G.
author_sort Caccamo, M.
title Association of total mixed ration particle fractions retained on the Penn State Particle Separator with milk, fat, and protein yield lactation curves at the cow level
title_short Association of total mixed ration particle fractions retained on the Penn State Particle Separator with milk, fat, and protein yield lactation curves at the cow level
title_full Association of total mixed ration particle fractions retained on the Penn State Particle Separator with milk, fat, and protein yield lactation curves at the cow level
title_fullStr Association of total mixed ration particle fractions retained on the Penn State Particle Separator with milk, fat, and protein yield lactation curves at the cow level
title_full_unstemmed Association of total mixed ration particle fractions retained on the Penn State Particle Separator with milk, fat, and protein yield lactation curves at the cow level
title_sort association of total mixed ration particle fractions retained on the penn state particle separator with milk, fat, and protein yield lactation curves at the cow level
url https://research.wur.nl/en/publications/association-of-total-mixed-ration-particle-fractions-retained-on-
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