FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2072287163> ?p ?o ?g. }

• W2072287163 endingPage "1156" @default.
• W2072287163 startingPage "1145" @default.
• W2072287163 abstract "The aim of the study was to evaluate milk fatty acid (FA) profile, animal performance, and rumen microbial population in response to diets containing soybean oil supplemented or not with chestnut and quebracho tannins in dairy ewes. Eighteen Comisana ewes at 122 ± 6 d in milking were allotted into 3 experimental groups. Diets were characterized by chopped grass hay administered ad libitum and by 800 g/head and day of 3 experimental concentrates containing 84.5 g of soybean oil/kg of dry matter (DM) and 52.8 g/kg of DM of bentonite (control diet), chestnut tannin extract (CHT diet), or quebracho tannin extract (QUE diet). The trial lasted 4 wk. Milk yield was recorded daily, and milk composition and blood parameters were analyzed weekly. At the end of the experiment, samples of rumen fluid were collected to analyze pH, volatile fatty acid profile, and the relative proportions of Butyrivibrio fibrisolvens and Butyrivibrio proteoclasticus in the rumen microbial population. Hepatic functionality, milk yield, and gross composition were not affected by tannin extracts, whereas milk FA composition was characterized by significant changes in the concentration of linoleic acid (CHT +2.77% and QUE +9.23%), vaccenic acid (CHT +7.07% and QUE +13.88%), rumenic acid (CHT −1.88% and QUE +24.24%), stearic acid (CHT + 8.71% and QUE −11.45%), and saturated fatty acids (CHT −0.47% and QUE −3.38%). These differences were probably due to the ability of condensed versus hydrolyzable tannins to interfere with rumen microbial metabolism, as indirectly confirmed by changes in the relative proportions of B. fibrisolvens and B. proteoclasticus populations and by changes in the molar proportions of volatile fatty acids. The effect of the CHT diet on the milk FA profile and microbial species considered in this trial was intermediate between that of QUE and the control diet, suggesting a differential effect of condensed and hydrolyzable tannins on rumen microbes. Compared with control animals, the presence of B. fibrisolvens increased about 3 times in ewes fed CHT and about 5 times in animals fed QUE. In contrast, the abundance of B. proteoclasticus decreased about 5- and 15-fold in rumen liquor of ewes fed CHT and QUE diets, respectively. The use of soybean oil and a practical dose of QUE or CHT extract in the diet of dairy ewes can be an efficient strategy to improve the nutritional quality of milk." @default.
• W2072287163 created "2016-06-24" @default.
• W2072287163 creator A5002831925 @default.
• W2072287163 creator A5009196186 @default.
• W2072287163 creator A5016969268 @default.
• W2072287163 creator A5021343750 @default.
• W2072287163 creator A5030977935 @default.
• W2072287163 creator A5037575588 @default.
• W2072287163 creator A5056264369 @default.
• W2072287163 creator A5060941020 @default.
• W2072287163 creator A5068486162 @default.
• W2072287163 creator A5081351312 @default.
• W2072287163 creator A5087736708 @default.
• W2072287163 date "2015-02-01" @default.
• W2072287163 modified "2023-10-14" @default.
• W2072287163 title "Milk fatty acid composition, rumen microbial population, and animal performances in response to diets rich in linoleic acid supplemented with chestnut or quebracho tannins in dairy ewes" @default.
• W2072287163 cites W1668832600 @default.
• W2072287163 cites W1898234187 @default.
• W2072287163 cites W1963752733 @default.
• W2072287163 cites W1965587709 @default.
• W2072287163 cites W1968337374 @default.
• W2072287163 cites W1968993653 @default.
• W2072287163 cites W1978883930 @default.
• W2072287163 cites W1987865047 @default.
• W2072287163 cites W1994046216 @default.
• W2072287163 cites W1996198986 @default.
• W2072287163 cites W1996638103 @default.
• W2072287163 cites W1997087247 @default.
• W2072287163 cites W2004180764 @default.
• W2072287163 cites W2005748535 @default.
• W2072287163 cites W2007132500 @default.
• W2072287163 cites W2008263076 @default.
• W2072287163 cites W2009951949 @default.
• W2072287163 cites W2010882315 @default.
• W2072287163 cites W2014380165 @default.
• W2072287163 cites W2020853780 @default.
• W2072287163 cites W2021113542 @default.
• W2072287163 cites W2030662645 @default.
• W2072287163 cites W2036506084 @default.
• W2072287163 cites W2040001003 @default.
• W2072287163 cites W2045159334 @default.
• W2072287163 cites W2061467470 @default.
• W2072287163 cites W2064584117 @default.
• W2072287163 cites W2075624211 @default.
• W2072287163 cites W2075988694 @default.
• W2072287163 cites W2076707978 @default.
• W2072287163 cites W2078694314 @default.
• W2072287163 cites W2079426150 @default.
• W2072287163 cites W2080845428 @default.
• W2072287163 cites W2087580548 @default.
• W2072287163 cites W2089919345 @default.
• W2072287163 cites W2091938378 @default.
• W2072287163 cites W2095154567 @default.
• W2072287163 cites W2102636495 @default.
• W2072287163 cites W2103456695 @default.
• W2072287163 cites W2116050986 @default.
• W2072287163 cites W2128023954 @default.
• W2072287163 cites W2128363612 @default.
• W2072287163 cites W2135206137 @default.
• W2072287163 cites W2137419334 @default.
• W2072287163 cites W2138656936 @default.
• W2072287163 cites W2146715616 @default.
• W2072287163 cites W2153021933 @default.
• W2072287163 cites W2153500853 @default.
• W2072287163 cites W2156498074 @default.
• W2072287163 cites W2157918375 @default.
• W2072287163 cites W2159794005 @default.
• W2072287163 cites W2163369310 @default.
• W2072287163 cites W2165863762 @default.
• W2072287163 cites W2168526937 @default.
• W2072287163 cites W2169018376 @default.
• W2072287163 cites W2169526758 @default.
• W2072287163 cites W2171488110 @default.
• W2072287163 cites W2314393844 @default.
• W2072287163 cites W85196187 @default.
• W2072287163 doi "https://doi.org/10.3168/jds.2014-8651" @default.
• W2072287163 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25434333" @default.
• W2072287163 hasPublicationYear "2015" @default.
• W2072287163 type Work @default.
• W2072287163 sameAs 2072287163 @default.
• W2072287163 citedByCount "113" @default.
• W2072287163 countsByYear W20722871632015 @default.
• W2072287163 countsByYear W20722871632016 @default.
• W2072287163 countsByYear W20722871632017 @default.
• W2072287163 countsByYear W20722871632018 @default.
• W2072287163 countsByYear W20722871632019 @default.
• W2072287163 countsByYear W20722871632020 @default.
• W2072287163 countsByYear W20722871632021 @default.
• W2072287163 countsByYear W20722871632022 @default.
• W2072287163 countsByYear W20722871632023 @default.
• W2072287163 crossrefType "journal-article" @default.
• W2072287163 hasAuthorship W2072287163A5002831925 @default.
• W2072287163 hasAuthorship W2072287163A5009196186 @default.
• W2072287163 hasAuthorship W2072287163A5016969268 @default.
• W2072287163 hasAuthorship W2072287163A5021343750 @default.
• W2072287163 hasAuthorship W2072287163A5030977935 @default.
• W2072287163 hasAuthorship W2072287163A5037575588 @default.
• W2072287163 hasAuthorship W2072287163A5056264369 @default.

• next