Cargando…

Sire and liveweight affect feed intake and methane emissions of sheep confined in respiration chambers

Daily methane production and feed intake were measured on 160 adult ewes, which were the progeny of 20 sires and 3 sire types (Merino, dual-purpose and terminal) from a genetically diverse flock. All animals were housed in individual pens and fed a 50/50 mix of chaffed lucerne and oaten hays at 20 g...

Descripción completa

Detalles Bibliográficos
Autores principales: Robinson, D. L., Goopy, J. P., Donaldson, A. J., Woodgate, R. T., Oddy, V. H., Hegarty, R. S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cambridge University Press 2014
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4255326/
https://www.ncbi.nlm.nih.gov/pubmed/25404195
http://dx.doi.org/10.1017/S1751731114001773
_version_ 1782347417668026368
author Robinson, D. L.
Goopy, J. P.
Donaldson, A. J.
Woodgate, R. T.
Oddy, V. H.
Hegarty, R. S.
author_facet Robinson, D. L.
Goopy, J. P.
Donaldson, A. J.
Woodgate, R. T.
Oddy, V. H.
Hegarty, R. S.
author_sort Robinson, D. L.
collection PubMed
description Daily methane production and feed intake were measured on 160 adult ewes, which were the progeny of 20 sires and 3 sire types (Merino, dual-purpose and terminal) from a genetically diverse flock. All animals were housed in individual pens and fed a 50/50 mix of chaffed lucerne and oaten hays at 20 g/kg liveweight (LW), with feed refusals measured for at least 10 days before the first of three 22-h measurements in respiration chambers (RC). Feed was withdrawn at 1600 h on the day before each RC test to encourage the ewes to eat the entire ration provided for them in the RC. After the first 1-day RC test, the sheep were returned to their pens for a day, then given a second 1-day RC test, followed by another day in their pens, then a third RC test. After all animals had been tested, they were ranked according to methane emissions adjusted for feed intake in the RC and on the previous day, enabling 10 low and 10 high methane animals to be chosen for repeat measurement. No variation between sires nor consistent effects of LW on feed eaten (%FE, expressed as per cent of feed offered) was evident in the 10 days before the first RC measurement. However, significant differences between sires (equivalent to an estimated heritability of 41%) were identified for %FE during the 2(nd) and 3(rd) days of RC testing (2 and 4 days after the initial RC test). The analysis of all data showed that methane emissions in the RC were related to feed intake on the day of testing and the two previous days (all P<0.0005). Before correcting for feed intake on previous days, there was some variation between sires in methane yield, equivalent to an estimated heritability of 9%. Correction for feed intake on the 2 previous days halved the residual variation, allowing other effects to be detected, including effects of LW, twins reared as singles, test batch, RC and test-day effects, but estimated sire variation fell to zero. In order to avoid potential biases, statistical models of methane emissions in the RC need to consider potential confounding factors, such as those identified as significant in this study.
format Online
Article
Text
id pubmed-4255326
institution National Center for Biotechnology Information
language English
publishDate 2014
publisher Cambridge University Press
record_format MEDLINE/PubMed
spelling pubmed-42553262014-12-05 Sire and liveweight affect feed intake and methane emissions of sheep confined in respiration chambers Robinson, D. L. Goopy, J. P. Donaldson, A. J. Woodgate, R. T. Oddy, V. H. Hegarty, R. S. Animal Research Article Daily methane production and feed intake were measured on 160 adult ewes, which were the progeny of 20 sires and 3 sire types (Merino, dual-purpose and terminal) from a genetically diverse flock. All animals were housed in individual pens and fed a 50/50 mix of chaffed lucerne and oaten hays at 20 g/kg liveweight (LW), with feed refusals measured for at least 10 days before the first of three 22-h measurements in respiration chambers (RC). Feed was withdrawn at 1600 h on the day before each RC test to encourage the ewes to eat the entire ration provided for them in the RC. After the first 1-day RC test, the sheep were returned to their pens for a day, then given a second 1-day RC test, followed by another day in their pens, then a third RC test. After all animals had been tested, they were ranked according to methane emissions adjusted for feed intake in the RC and on the previous day, enabling 10 low and 10 high methane animals to be chosen for repeat measurement. No variation between sires nor consistent effects of LW on feed eaten (%FE, expressed as per cent of feed offered) was evident in the 10 days before the first RC measurement. However, significant differences between sires (equivalent to an estimated heritability of 41%) were identified for %FE during the 2(nd) and 3(rd) days of RC testing (2 and 4 days after the initial RC test). The analysis of all data showed that methane emissions in the RC were related to feed intake on the day of testing and the two previous days (all P<0.0005). Before correcting for feed intake on previous days, there was some variation between sires in methane yield, equivalent to an estimated heritability of 9%. Correction for feed intake on the 2 previous days halved the residual variation, allowing other effects to be detected, including effects of LW, twins reared as singles, test batch, RC and test-day effects, but estimated sire variation fell to zero. In order to avoid potential biases, statistical models of methane emissions in the RC need to consider potential confounding factors, such as those identified as significant in this study. Cambridge University Press 2014-08-04 2014-12 /pmc/articles/PMC4255326/ /pubmed/25404195 http://dx.doi.org/10.1017/S1751731114001773 Text en © The Animal Consortium 2014 The online version of this article is published within an Open Access environment subject to the conditions of the Creative Commons Attribution licence http://creativecommons.org/licenses/by/3.0/
spellingShingle Research Article
Robinson, D. L.
Goopy, J. P.
Donaldson, A. J.
Woodgate, R. T.
Oddy, V. H.
Hegarty, R. S.
Sire and liveweight affect feed intake and methane emissions of sheep confined in respiration chambers
title Sire and liveweight affect feed intake and methane emissions of sheep confined in respiration chambers
title_full Sire and liveweight affect feed intake and methane emissions of sheep confined in respiration chambers
title_fullStr Sire and liveweight affect feed intake and methane emissions of sheep confined in respiration chambers
title_full_unstemmed Sire and liveweight affect feed intake and methane emissions of sheep confined in respiration chambers
title_short Sire and liveweight affect feed intake and methane emissions of sheep confined in respiration chambers
title_sort sire and liveweight affect feed intake and methane emissions of sheep confined in respiration chambers
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4255326/
https://www.ncbi.nlm.nih.gov/pubmed/25404195
http://dx.doi.org/10.1017/S1751731114001773
work_keys_str_mv AT robinsondl sireandliveweightaffectfeedintakeandmethaneemissionsofsheepconfinedinrespirationchambers
AT goopyjp sireandliveweightaffectfeedintakeandmethaneemissionsofsheepconfinedinrespirationchambers
AT donaldsonaj sireandliveweightaffectfeedintakeandmethaneemissionsofsheepconfinedinrespirationchambers
AT woodgatert sireandliveweightaffectfeedintakeandmethaneemissionsofsheepconfinedinrespirationchambers
AT oddyvh sireandliveweightaffectfeedintakeandmethaneemissionsofsheepconfinedinrespirationchambers
AT hegartyrs sireandliveweightaffectfeedintakeandmethaneemissionsofsheepconfinedinrespirationchambers