FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3093898790> ?p ?o ?g. }

• W3093898790 endingPage "114738" @default.
• W3093898790 startingPage "114738" @default.
• W3093898790 abstract "This study aimed to evaluate whether probiotics, phytobiotics or their combination as feed additives, given during the preweaning period to neonatal calves, can enhance calf health, performance, and metabolic status. 44 Polish neonatal Holstein-Friesian calves were grouped by sex (22 female and 22 male) and parity (22 born to primiparous cows and 22 born to multiparous cows) and assigned randomly to 4 treatment groups (11 calves each): control (CON, without feed additive), multi-strain Lactobacillus probiotic (PRO, 250 mg/calf/d), phytobiotic (PH, 50 mg rosmarinic acid/calf/d), and the combination of probiotics and phytobiotics (PROPH, combined PRO and PH treatments). The feed additives were provided into colostrum as well as milk replacer immediately before feeding. During the first 12 h of life, calves received 4 L colostrum; on days 2 and 3: 2 meals/d of 2 L of transition milk; from days 5 to 49: 6 L/d of milk replacer (150 g powder as feed/L) in 3 feedings; and from days 50 to 56 : 2 L/d of milk replacer in 1 feed. The PROPH calves had higher body weights on days 28 (P = 0.021) and 56 (P = 0.015) compared to the CON group. Incorporation of the combination of probiotics and phytobiotics as feed additive had significant beneficial effects on average daily gain, starter intake and total dry matter intake (P ≤ 0.05) over the experimental period. Throughout the study, the diarrheal scores 3 (mild diarrhea) and 4 (severe diarrhea) were 2.8 (P = 0.022) and 2.7 (P = 0.016) times lower, respectively, for PROPH calves compared to the scores of the CON calves. In addition, the PROPH calves had lower numbers of parasite oocysts/cysts per gram of feces on d 28 (P = 0.021) and the percentage of Cryptosporidium infected calves was lower on d 28 (P = 0.025) and 56 (P = 0.019). The PROPH calves had higher total counts for ruminal volatile fatty acids (P ≤ 0.05), bacteria and protozoa (P < 0.001). The PROPH treatment resulted in the highest concentrations of blood insulin-like growth factor-I and β-hydroxybutyrate (P ≤ 0.05) for the 29 to 56 day period and the entire experimental period. In conclusion, adding the combination of probiotics and phytobiotics as feed additive to diet of dairy calves during the preweaning period can improve health, performance, rumen fermentation and biochemical blood indices. However, the dietary inclusion of phytobiotic with rosmarinic acid as the main bioactive component or probiotic as a single feed additive does not affect growth performance and physiology indices." @default.
• W3093898790 created "2020-10-29" @default.
• W3093898790 creator A5021333757 @default.
• W3093898790 creator A5037213801 @default.
• W3093898790 creator A5063130432 @default.
• W3093898790 creator A5084463035 @default.
• W3093898790 creator A5091848872 @default.
• W3093898790 date "2021-02-01" @default.
• W3093898790 modified "2023-09-26" @default.
• W3093898790 title "The effect of probiotics, phytobiotics and their combination as feed additives in the diet of dairy calves on performance, rumen fermentation and blood metabolites during the preweaning period" @default.
• W3093898790 cites W1564353110 @default.
• W3093898790 cites W1722571306 @default.
• W3093898790 cites W1917515069 @default.
• W3093898790 cites W1967379938 @default.
• W3093898790 cites W1972239932 @default.
• W3093898790 cites W1975280969 @default.
• W3093898790 cites W1976039594 @default.
• W3093898790 cites W1976906611 @default.
• W3093898790 cites W1984121715 @default.
• W3093898790 cites W1985116148 @default.
• W3093898790 cites W1987297418 @default.
• W3093898790 cites W1987913168 @default.
• W3093898790 cites W1988227922 @default.
• W3093898790 cites W1992305240 @default.
• W3093898790 cites W1994818393 @default.
• W3093898790 cites W1997087247 @default.
• W3093898790 cites W2004994606 @default.
• W3093898790 cites W2007391818 @default.
• W3093898790 cites W2024024119 @default.
• W3093898790 cites W2026871851 @default.
• W3093898790 cites W2034044854 @default.
• W3093898790 cites W2049107700 @default.
• W3093898790 cites W2053348451 @default.
• W3093898790 cites W2059791438 @default.
• W3093898790 cites W2060763527 @default.
• W3093898790 cites W2062296001 @default.
• W3093898790 cites W2066119101 @default.
• W3093898790 cites W2066634844 @default.
• W3093898790 cites W2069601563 @default.
• W3093898790 cites W2076608735 @default.
• W3093898790 cites W2083197223 @default.
• W3093898790 cites W2093443789 @default.
• W3093898790 cites W2106033130 @default.
• W3093898790 cites W2113009616 @default.
• W3093898790 cites W2116910668 @default.
• W3093898790 cites W2116983061 @default.
• W3093898790 cites W2125266622 @default.
• W3093898790 cites W2131691081 @default.
• W3093898790 cites W2137476535 @default.
• W3093898790 cites W2151043086 @default.
• W3093898790 cites W2153071918 @default.
• W3093898790 cites W2158921004 @default.
• W3093898790 cites W2169443259 @default.
• W3093898790 cites W2288867306 @default.
• W3093898790 cites W2489199915 @default.
• W3093898790 cites W2540422813 @default.
• W3093898790 cites W2552547494 @default.
• W3093898790 cites W2584890449 @default.
• W3093898790 cites W2587532477 @default.
• W3093898790 cites W2740648367 @default.
• W3093898790 cites W2767491184 @default.
• W3093898790 cites W2768616041 @default.
• W3093898790 cites W2769860363 @default.
• W3093898790 cites W2771853411 @default.
• W3093898790 cites W2808764328 @default.
• W3093898790 cites W2811218552 @default.
• W3093898790 cites W2908339583 @default.
• W3093898790 cites W2921107235 @default.
• W3093898790 cites W2993395836 @default.
• W3093898790 cites W3001564988 @default.
• W3093898790 cites W3016248537 @default.
• W3093898790 cites W4231292599 @default.
• W3093898790 cites W4376848324 @default.
• W3093898790 doi "https://doi.org/10.1016/j.anifeedsci.2020.114738" @default.
• W3093898790 hasPublicationYear "2021" @default.
• W3093898790 type Work @default.
• W3093898790 sameAs 3093898790 @default.
• W3093898790 citedByCount "21" @default.
• W3093898790 countsByYear W30938987902021 @default.
• W3093898790 countsByYear W30938987902022 @default.
• W3093898790 countsByYear W30938987902023 @default.
• W3093898790 crossrefType "journal-article" @default.
• W3093898790 hasAuthorship W3093898790A5021333757 @default.
• W3093898790 hasAuthorship W3093898790A5037213801 @default.
• W3093898790 hasAuthorship W3093898790A5063130432 @default.
• W3093898790 hasAuthorship W3093898790A5084463035 @default.
• W3093898790 hasAuthorship W3093898790A5091848872 @default.
• W3093898790 hasConcept C100544194 @default.
• W3093898790 hasConcept C134018914 @default.
• W3093898790 hasConcept C140793950 @default.
• W3093898790 hasConcept C147583825 @default.
• W3093898790 hasConcept C159654299 @default.
• W3093898790 hasConcept C203014093 @default.
• W3093898790 hasConcept C22830521 @default.
• W3093898790 hasConcept C2776977481 @default.
• W3093898790 hasConcept C2779073587 @default.
• W3093898790 hasConcept C2780065859 @default.
• W3093898790 hasConcept C2780206646 @default.

• next