Timothy J Snelling
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Explore the profile of Timothy J Snelling including associated specialties, affiliations and a list of published articles.
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Articles
16
Citations
848
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Recent Articles
1.
Snelling T, Auffret M, Duthie C, Stewart R, Watson M, Dewhurst R, et al.
Anim Microbiome
. 2021 Jan;
1(1):16.
PMID: 33499961
Background: Dietary intake is known to be a driver of microbial community dynamics in ruminants. Beef cattle go through a finishing phase that typically includes very high concentrate ratios in...
2.
Vargas J, Andres S, Lopez-Ferreras L, Snelling T, Yanez-Ruiz D, Garcia-Estrada C, et al.
Sci Rep
. 2020 Feb;
10(1):1613.
PMID: 32005859
Ruminants contribute to the emissions of greenhouse gases, in particular methane, due to the microbial anaerobic fermentation of feed in the rumen. The rumen simulation technique was used to investigate...
3.
Lima J, Auffret M, Stewart R, Dewhurst R, Duthie C, Snelling T, et al.
Front Genet
. 2019 Aug;
10:701.
PMID: 31440274
The rumen microbiome is essential for the biological processes involved in the conversion of feed into nutrients that can be utilized by the host animal. In the present research, the...
4.
Wallace R, Sasson G, Garnsworthy P, Tapio I, Gregson E, Bani P, et al.
Sci Adv
. 2019 Jul;
5(7):eaav8391.
PMID: 31281883
A 1000-cow study across four European countries was undertaken to understand to what extent ruminant microbiomes can be controlled by the host animal and to identify characteristics of the host...
5.
Stewart R, Auffret M, Snelling T, Roehe R, Watson M
Bioinformatics
. 2018 Nov;
35(12):2150-2152.
PMID: 30418481
Motivation: Metagenomics is a powerful tool for assaying the DNA from every genome present in an environment. Recent advances in bioinformatics have enabled the rapid assembly of near-complete metagenome-assembled genomes...
6.
Stewart R, Auffret M, Warr A, Wiser A, Press M, Langford K, et al.
Nat Commun
. 2018 Mar;
9(1):870.
PMID: 29491419
The cow rumen is adapted for the breakdown of plant material into energy and nutrients, a task largely performed by enzymes encoded by the rumen microbiome. Here we present 913...
7.
Auffret M, Stewart R, Dewhurst R, Duthie C, Rooke J, Wallace R, et al.
Front Microbiol
. 2018 Jan;
8:2642.
PMID: 29375511
Previous shotgun metagenomic analyses of ruminal digesta identified some microbial information that might be useful as biomarkers to select cattle that emit less methane (CH), which is a potent greenhouse...
8.
Vargas J, Andres S, Snelling T, Lopez-Ferreras L, Yanez-Ruiz D, Garcia-Estrada C, et al.
Front Microbiol
. 2017 Jul;
8:1124.
PMID: 28676798
This study using the rumen simulation technique (RUSITEC) investigated the changes in the ruminal microbiota and anaerobic fermentation in response to the addition of different lipid supplements to a ruminant...
9.
Wallace R, Snelling T, McCartney C, Tapio I, Strozzi F
Genet Sel Evol
. 2017 Mar;
49(1):27.
PMID: 28245807
No abstract available.
10.
Tapio I, Snelling T, Strozzi F, Wallace R
J Anim Sci Biotechnol
. 2017 Jan;
8:7.
PMID: 28123698
Methane emissions from ruminant livestock contribute significantly to the large environmental footprint of agriculture. The rumen is the principal source of methane, and certain features of the microbiome are associated...