Loading…
Milk fatty acid profile in cows fed red clover- or alfalfa-silage based diets differing in rumen-degradable protein supply
•Feeding red clover silage modifies rumen fermentation and digestion in dairy cows.•Feeding red clover increases the transfer efficiency of PUFA from diet to milk fat.•Feeding red clover modified odd- and branched-chain fatty acid profile in milk.•Feeding red clover decreased ruminal ammonia as well...
Saved in:
Published in: | Animal feed science and technology 2017-01, Vol.223, p.59-72 |
---|---|
Main Authors: | , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
Summary: | •Feeding red clover silage modifies rumen fermentation and digestion in dairy cows.•Feeding red clover increases the transfer efficiency of PUFA from diet to milk fat.•Feeding red clover modified odd- and branched-chain fatty acid profile in milk.•Feeding red clover decreased ruminal ammonia as well as plasma and milk urea.•Varying rumen degradable protein supply had limited impact on rumen biohydrogenation.
Polyphenol oxidase in red clover (RC) silage reduces lipolysis and consequently protects its constituent fatty acids (FA) against biohydrogenation by ruminal microorganisms. Fatty acid biohydrogenation could be further inhibited by reducing the nitrogen (N) supply to ruminal bacteria. To compare the effects of RC and alfalfa (AL) silage fed in diets differing in rumen-degradable protein supply on the transfer efficiency of polyunsaturated FA from diet to milk, and on the resulting FA profile of milk fat, 8 multiparous Holstein dairy cows (72±17days in milk) were used in a replicated 4×4 Latin square design (21-day periods including 14days of adaptation). Four treatments were compared in a 2×2 factorial arrangement with AL or RC fed in diets formulated to provide 100% (RDP‐100) or 85% (RDP‐85) of calculated rumen-degradable protein requirements. Rumen-degradable protein concentrations were adjusted by varying the supplies of ground vs. steam-flaked corn grains, and untreated vs. heat-treated soybean meals. Feeding RC, as compared with AL diets, decreased ruminal ammonia-N concentration as well as urea-N in plasma and milk. Intakes of c9c12 18:2 and c9c12c15 18:3 were lower for cows fed RC, but their secretion in milk and their apparent transfer efficiency from diet were greater as compared to cows fed AL. As a result, feeding RC increased the concentrations of c9c12 18:2 and c9c12c15 18:3, but decreased the proportions of t11 18:1, c9t11 18:2, and t11c15 18:2 in milk fat. These results are consistent with the lower effective ruminal disappearance of c9c12 18:2 and c9c12c15 18:3 in RC as determined by a 96h in sacco incubation, and the lower abundance of ruminal bacteria capable of hydrolyzing dietary lipids and hydrogenating polyunsaturated FA (Ruminococcus albus and Ruminococcus flavefaciens) in the rumen content. The apparent transfer efficiency of c9c12 18:2 from diet to milk was further increased by feeding RDP‐85 as compared with RDP‐100 diet. Feeding RC decreased concentrations of linear odd-chain FA (11:0, 13:0, 15:0, 17:0, and c9 17:1) and incre |
---|---|
ISSN: | 0377-8401 1873-2216 |
DOI: | 10.1016/j.anifeedsci.2016.11.001 |