FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3157712370> ?p ?o ?g. }

• W3157712370 endingPage "114959" @default.
• W3157712370 startingPage "114959" @default.
• W3157712370 abstract "Lucerne silages of the Kometa and Verko cultivars were investigated in four consecutive experiments to evaluate their effects on ruminal fermentation and fatty acid (FA) proportions in the rumen fluid and milk of dairy cows. Initially, two successive in vitro experiments were performed using a semicontinuous culture system (RUSITEC). In Experiment 1, the treatments were: (1) MGS: a high-forage diet (65:35 forage:concentrate ratio; DM basis) containing maize silages (MS) and grass silages (GS) as the main forage sources, (2) MKLS: a high-forage diet containing MS and Kometa lucerne silage (KLS) as the main forage sources; and (3) sMKLS: a high-forage diet containing MS and KLS as the main forage sources and supplemented with sufficient saponin extract powder from KLS to give a saponin content equal to the in the KLS. The treatments in Experiment 2 (MGS, MVLS, or sMVLS) were similar to those in Experiment 1, except that Verko Lucerne silage (VLS) and its saponin extract were used. Methane concentration statistically insignificant decreased (P = 0.97) as a result of the MKLS treatment, while digestible dry matter (DDM) was increased (P = 0.002) for MKLS and sMKLS. However, neither methane concentration nor DDM were affected by MVLS or sMVLS. We also performed two in vivo experiments: in Experiment 3, we used six cannulated Polish Holstein-Friesian cows fitted with rumen cannulas, and in Experiment 4, we used 54 productive Polish Holstein-Friesian cows. The treatments for these two experiments were based on partial replacement of GS with KLS or VLS in the high-forage diet containing MS, as described earlier: MGS, MKLS, and MVLS. In Experiment 3, the methane concentration decreased (P < 0.001) for both MKLS and MVLS, with the diets lowering the total bacterial and protozoal counts and the total methanogens (P ≤ 0.002). Interestingly in Experiment 4, only MVLS led to a decrease in fat content and energy (P ≤ 0.02). MKLS and MVLS were also associated with lower levels of milk polyunsaturated fatty acid (P < 0.001) and higher levels of milk saturated fatty acid (P < 0.001). MKLS had more promising fatty acid composition than MVLS, with clearer methane mitigation. In conclusion, the Kometa lucerne silages inhibited methane emission and microbial population, but at the cost of increasing the saturated fatty acids in the milk fat." @default.
• W3157712370 created "2021-05-10" @default.
• W3157712370 creator A5002684475 @default.
• W3157712370 creator A5006658776 @default.
• W3157712370 creator A5009138884 @default.
• W3157712370 creator A5045413186 @default.
• W3157712370 creator A5046904713 @default.
• W3157712370 creator A5060223207 @default.
• W3157712370 creator A5063211684 @default.
• W3157712370 creator A5072858445 @default.
• W3157712370 creator A5074342908 @default.
• W3157712370 creator A5081828255 @default.
• W3157712370 date "2021-07-01" @default.
• W3157712370 modified "2023-10-16" @default.
• W3157712370 title "Effects of partially replacing grass silage by lucerne silage cultivars in a high-forage diet on ruminal fermentation, methane production, and fatty acid composition in the rumen and milk of dairy cows" @default.
• W3157712370 cites W1837026033 @default.
• W3157712370 cites W1970303538 @default.
• W3157712370 cites W1977141405 @default.
• W3157712370 cites W1983357519 @default.
• W3157712370 cites W1997087247 @default.
• W3157712370 cites W2001573440 @default.
• W3157712370 cites W2003476674 @default.
• W3157712370 cites W2005004362 @default.
• W3157712370 cites W2007391818 @default.
• W3157712370 cites W2008419698 @default.
• W3157712370 cites W2009951949 @default.
• W3157712370 cites W2018040072 @default.
• W3157712370 cites W2018655664 @default.
• W3157712370 cites W2021196618 @default.
• W3157712370 cites W2027918576 @default.
• W3157712370 cites W2032294452 @default.
• W3157712370 cites W2036146859 @default.
• W3157712370 cites W2037194720 @default.
• W3157712370 cites W2059036979 @default.
• W3157712370 cites W2061319554 @default.
• W3157712370 cites W2063311575 @default.
• W3157712370 cites W2067011744 @default.
• W3157712370 cites W2069848490 @default.
• W3157712370 cites W2079094059 @default.
• W3157712370 cites W2079457708 @default.
• W3157712370 cites W2084398479 @default.
• W3157712370 cites W2088235442 @default.
• W3157712370 cites W2090706359 @default.
• W3157712370 cites W2091601536 @default.
• W3157712370 cites W2095715584 @default.
• W3157712370 cites W2096636414 @default.
• W3157712370 cites W2101230126 @default.
• W3157712370 cites W2110439814 @default.
• W3157712370 cites W2110969234 @default.
• W3157712370 cites W2112369264 @default.
• W3157712370 cites W2114230892 @default.
• W3157712370 cites W2117838116 @default.
• W3157712370 cites W2127352211 @default.
• W3157712370 cites W2153112502 @default.
• W3157712370 cites W2154173976 @default.
• W3157712370 cites W2154933549 @default.
• W3157712370 cites W2161555604 @default.
• W3157712370 cites W2169615833 @default.
• W3157712370 cites W2300936203 @default.
• W3157712370 cites W2341421605 @default.
• W3157712370 cites W2472812919 @default.
• W3157712370 cites W2547912720 @default.
• W3157712370 cites W2573028430 @default.
• W3157712370 cites W2580024651 @default.
• W3157712370 cites W2584941484 @default.
• W3157712370 cites W2620367251 @default.
• W3157712370 cites W2736490758 @default.
• W3157712370 cites W2744628038 @default.
• W3157712370 cites W2789746073 @default.
• W3157712370 cites W2892287249 @default.
• W3157712370 cites W2896448681 @default.
• W3157712370 cites W2906339958 @default.
• W3157712370 cites W2920213725 @default.
• W3157712370 cites W2942954659 @default.
• W3157712370 cites W2954877373 @default.
• W3157712370 cites W2962892191 @default.
• W3157712370 cites W2995303721 @default.
• W3157712370 cites W4313232301 @default.
• W3157712370 doi "https://doi.org/10.1016/j.anifeedsci.2021.114959" @default.
• W3157712370 hasPublicationYear "2021" @default.
• W3157712370 type Work @default.
• W3157712370 sameAs 3157712370 @default.
• W3157712370 citedByCount "6" @default.
• W3157712370 countsByYear W31577123702021 @default.
• W3157712370 countsByYear W31577123702022 @default.
• W3157712370 countsByYear W31577123702023 @default.
• W3157712370 crossrefType "journal-article" @default.
• W3157712370 hasAuthorship W3157712370A5002684475 @default.
• W3157712370 hasAuthorship W3157712370A5006658776 @default.
• W3157712370 hasAuthorship W3157712370A5009138884 @default.
• W3157712370 hasAuthorship W3157712370A5045413186 @default.
• W3157712370 hasAuthorship W3157712370A5046904713 @default.
• W3157712370 hasAuthorship W3157712370A5060223207 @default.
• W3157712370 hasAuthorship W3157712370A5063211684 @default.
• W3157712370 hasAuthorship W3157712370A5072858445 @default.
• W3157712370 hasAuthorship W3157712370A5074342908 @default.
• W3157712370 hasAuthorship W3157712370A5081828255 @default.
• W3157712370 hasConcept C100544194 @default.

• next