Agroindustrial by-products from tomato, grape and myrtle given at low dosage to lactating dairy ewes: effects on rumen parameters and microbiota

Agroindustrial by-products from tomato, grape and myrtle given at low dosage to lactating dairy ewes: effects on rumen parameters and microbiota

The inclusion of by-products in composite pellet feeds could be a strategy to recycle nutritional components and a commercial opportunity for feeds industries. Aim of this study was to evaluate if the use of small amount of dried by-products containing polyphenols could alter rumen fermentation para...

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Main Authors: G. Buffa, N. P. Mangia, A. Cesarani, D. Licastro, S. Sorbolini, G. Pulina, A. Nudda
Format: Article
Language:English
Published: Taylor & Francis Group 2020-12-01
Series:Italian Journal of Animal Science
Subjects:
sheep
agroindustrial by-product
polyphenols
rumen microbiota
Online Access:http://dx.doi.org/10.1080/1828051X.2020.1848465
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spelling doaj-f685850bf0744e1091a70d233837355d2021-06-25T10:30:45ZengTaylor & Francis GroupItalian Journal of Animal Science1594-40771828-051X2020-12-011911462147110.1080/1828051X.2020.18484651848465Agroindustrial by-products from tomato, grape and myrtle given at low dosage to lactating dairy ewes: effects on rumen parameters and microbiotaG. Buffa0N. P. Mangia1A. Cesarani2D. Licastro3S. Sorbolini4G. Pulina5A. Nudda6Dipartimento di Agraria, University of SassariDipartimento di Agraria, University of SassariDipartimento di Agraria, University of SassariARGO Open Lab Platform for Genome sequencing, AREA Science ParkDipartimento di Agraria, University of SassariDipartimento di Agraria, University of SassariDipartimento di Agraria, University of SassariThe inclusion of by-products in composite pellet feeds could be a strategy to recycle nutritional components and a commercial opportunity for feeds industries. Aim of this study was to evaluate if the use of small amount of dried by-products containing polyphenols could alter rumen fermentation parameters and microbiota in dairy ewes. Thirty-six ewes (9 animals per group) were fed control diet (CON), and diets supplemented with 100 g/d per animal of tomato pomace (TP), 100 g/d per animal of grape marc (GM), and 75 g/d per animal of exhausted myrtle berries (EMB). Treatment showed significant effects only on pH, whereas sampling time affected almost all rumen fermentation parameters. No differences in the proportion of any phylum were detected in GM group compared to CON group. TP, compared to CON, evidenced higher abundance of Proteobacteria phylum (counts of 4.86; log fold chain of 5.61) which was dominated by Acetobacteraceae family with Acetobacter genus. The supplementation of EMB resulted in higher abundance of Succinivibrionaceae and lower abundance of Veillonellaceae family. Furthermore, in EMB group the Paraprevotellaceae and Prevotellaceae families dominated the phylum of Bacteroidetes. This phylum was significantly different between EMB and CON diet (counts of 57.06; log fold change of 1.10). The estimated production of methane and rumen fermentation parameters were not affected by the diets. The supplementation in small doses of GM, TP and EMB in the diets of sheep did not evidence a clear variation in rumen fermentation parameters nor changes in the general structure of rumen microbiota.HIGHLIGHTS The agroindustrial by-products did not affect the rumen biochemical parameters. The structure of bacteria community was influenced by EMB diet. GM and TP diets did not increase rumen ammonia.http://dx.doi.org/10.1080/1828051X.2020.1848465sheepagroindustrial by-productpolyphenolsrumen microbiota
collection DOAJ
language English
format Article
sources DOAJ
author G. Buffa
N. P. Mangia
A. Cesarani
D. Licastro
S. Sorbolini
G. Pulina
A. Nudda
spellingShingle G. Buffa
N. P. Mangia
A. Cesarani
D. Licastro
S. Sorbolini
G. Pulina
A. Nudda
Agroindustrial by-products from tomato, grape and myrtle given at low dosage to lactating dairy ewes: effects on rumen parameters and microbiota
Italian Journal of Animal Science
sheep
agroindustrial by-product
polyphenols
rumen microbiota
author_facet G. Buffa
N. P. Mangia
A. Cesarani
D. Licastro
S. Sorbolini
G. Pulina
A. Nudda
author_sort G. Buffa
title Agroindustrial by-products from tomato, grape and myrtle given at low dosage to lactating dairy ewes: effects on rumen parameters and microbiota
title_short Agroindustrial by-products from tomato, grape and myrtle given at low dosage to lactating dairy ewes: effects on rumen parameters and microbiota
title_full Agroindustrial by-products from tomato, grape and myrtle given at low dosage to lactating dairy ewes: effects on rumen parameters and microbiota
title_fullStr Agroindustrial by-products from tomato, grape and myrtle given at low dosage to lactating dairy ewes: effects on rumen parameters and microbiota
title_full_unstemmed Agroindustrial by-products from tomato, grape and myrtle given at low dosage to lactating dairy ewes: effects on rumen parameters and microbiota
title_sort agroindustrial by-products from tomato, grape and myrtle given at low dosage to lactating dairy ewes: effects on rumen parameters and microbiota
publisher Taylor & Francis Group
series Italian Journal of Animal Science
issn 1594-4077
1828-051X
publishDate 2020-12-01
description The inclusion of by-products in composite pellet feeds could be a strategy to recycle nutritional components and a commercial opportunity for feeds industries. Aim of this study was to evaluate if the use of small amount of dried by-products containing polyphenols could alter rumen fermentation parameters and microbiota in dairy ewes. Thirty-six ewes (9 animals per group) were fed control diet (CON), and diets supplemented with 100 g/d per animal of tomato pomace (TP), 100 g/d per animal of grape marc (GM), and 75 g/d per animal of exhausted myrtle berries (EMB). Treatment showed significant effects only on pH, whereas sampling time affected almost all rumen fermentation parameters. No differences in the proportion of any phylum were detected in GM group compared to CON group. TP, compared to CON, evidenced higher abundance of Proteobacteria phylum (counts of 4.86; log fold chain of 5.61) which was dominated by Acetobacteraceae family with Acetobacter genus. The supplementation of EMB resulted in higher abundance of Succinivibrionaceae and lower abundance of Veillonellaceae family. Furthermore, in EMB group the Paraprevotellaceae and Prevotellaceae families dominated the phylum of Bacteroidetes. This phylum was significantly different between EMB and CON diet (counts of 57.06; log fold change of 1.10). The estimated production of methane and rumen fermentation parameters were not affected by the diets. The supplementation in small doses of GM, TP and EMB in the diets of sheep did not evidence a clear variation in rumen fermentation parameters nor changes in the general structure of rumen microbiota.HIGHLIGHTS The agroindustrial by-products did not affect the rumen biochemical parameters. The structure of bacteria community was influenced by EMB diet. GM and TP diets did not increase rumen ammonia.
topic sheep
agroindustrial by-product
polyphenols
rumen microbiota
url http://dx.doi.org/10.1080/1828051X.2020.1848465
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