FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3132952713> ?p ?o ?g. }

• W3132952713 endingPage "e0247718" @default.
• W3132952713 startingPage "e0247718" @default.
• W3132952713 abstract "The objective of this study was to investigate the effect of diet crude protein (CP) content and metabolisable energy (ME) intake on skeletal growth and associated parameters of growing steers prior to and during compensatory growth in weight and catch-up growth in skeletal elongation. The experiment was a factorial design with two cattle genotypes [Brahman crossbred (BX, 178 ± 6 kg) and Holstein-Friesian (HF, 230 ± 34 kg)] and three nutritional treatments; high CP content and high ME intake (HCP-HME), high CP content and low ME intake (HCP-LME) and low CP content and low ME intake (LCP-LME) with the ME intake of HCP-LME matched to that of LCP-LME. Nutritional treatments were imposed over a 103 d period (Phase 1), and after this, all steers were offered ad libitum access to the HCP-HME nutritional treatment for 100 d (Phase 2). Steers fed the high CP content treatment with a low ME intake, showed higher hip height gain ( P = 0.04), larger terminal hypertrophic chondrocytes ( P = 0.02) and a higher concentration of total triiodothyronine in plasma ( P = 0.01) than steers with the same ME intake of the low CP content treatment. In addition, the low CP treatment resulted in significant decreases in bone volume ( P = 0.03), bone surface area ( P = 0.03) and the concentration of bone-specific alkaline phosphatase in plasma ( P < 0.001) compared to steers fed the HCP-HME treatment. A significant interaction between genotype and nutritional treatment existed for the concentration of thyroxine (T4) in plasma where HF steers fed LCP-LME had a lower T4 concentration in plasma ( P = 0.05) than BX steers. All steers with a restricted ME intake during Phase 1 demonstrated compensatory growth during Phase 2. However, HF steers fed the LCP treatment during Phase 1 showed a tendency ( P = 0.07) for a greater LWG during Phase 2 without any increase in dry matter intake. Results observed at the growth plate and hip height growth suggest that catch-up growth in cattle may also be explained by the growth plate senescence hypothesis. Contrary to our initial hypothesis, the results demonstrate that greater CP intake during ME restriction does not increase compensatory gain in cattle during re-alimentation." @default.
• W3132952713 created "2021-03-01" @default.
• W3132952713 creator A5024640414 @default.
• W3132952713 creator A5030066723 @default.
• W3132952713 creator A5033125494 @default.
• W3132952713 creator A5055243050 @default.
• W3132952713 creator A5088041689 @default.
• W3132952713 creator A5089902597 @default.
• W3132952713 date "2021-02-25" @default.
• W3132952713 modified "2023-10-06" @default.
• W3132952713 title "Effect of a high crude protein content diet during energy restriction and re-alimentation on animal performance, skeletal growth and metabolism of bone tissue in two genotypes of cattle" @default.
• W3132952713 cites W113918610 @default.
• W3132952713 cites W123095575 @default.
• W3132952713 cites W1488053186 @default.
• W3132952713 cites W149131629 @default.
• W3132952713 cites W1500619809 @default.
• W3132952713 cites W1573224403 @default.
• W3132952713 cites W1590720809 @default.
• W3132952713 cites W1903717545 @default.
• W3132952713 cites W1922703745 @default.
• W3132952713 cites W197189179 @default.
• W3132952713 cites W1977603398 @default.
• W3132952713 cites W1986371480 @default.
• W3132952713 cites W1992441054 @default.
• W3132952713 cites W1997087247 @default.
• W3132952713 cites W1997392720 @default.
• W3132952713 cites W1997643007 @default.
• W3132952713 cites W1999276356 @default.
• W3132952713 cites W2000565237 @default.
• W3132952713 cites W2003114496 @default.
• W3132952713 cites W2004717076 @default.
• W3132952713 cites W2006493740 @default.
• W3132952713 cites W2012857414 @default.
• W3132952713 cites W2017333123 @default.
• W3132952713 cites W2020017589 @default.
• W3132952713 cites W2024394264 @default.
• W3132952713 cites W2026909190 @default.
• W3132952713 cites W2027852937 @default.
• W3132952713 cites W2031878739 @default.
• W3132952713 cites W2034138220 @default.
• W3132952713 cites W2037439147 @default.
• W3132952713 cites W2039305820 @default.
• W3132952713 cites W2047873035 @default.
• W3132952713 cites W2048273074 @default.
• W3132952713 cites W2049146993 @default.
• W3132952713 cites W2053183030 @default.
• W3132952713 cites W2056841194 @default.
• W3132952713 cites W2063257506 @default.
• W3132952713 cites W2063820907 @default.
• W3132952713 cites W2066818506 @default.
• W3132952713 cites W2067435596 @default.
• W3132952713 cites W2070840906 @default.
• W3132952713 cites W2074611556 @default.
• W3132952713 cites W2076818787 @default.
• W3132952713 cites W2080771051 @default.
• W3132952713 cites W2083839389 @default.
• W3132952713 cites W2086859574 @default.
• W3132952713 cites W2087262506 @default.
• W3132952713 cites W2090024914 @default.
• W3132952713 cites W2093237713 @default.
• W3132952713 cites W2095398057 @default.
• W3132952713 cites W2096425957 @default.
• W3132952713 cites W2099540110 @default.
• W3132952713 cites W2110892495 @default.
• W3132952713 cites W2111609577 @default.
• W3132952713 cites W2119145606 @default.
• W3132952713 cites W2125487311 @default.
• W3132952713 cites W2129213058 @default.
• W3132952713 cites W2133545343 @default.
• W3132952713 cites W2138100786 @default.
• W3132952713 cites W2146126743 @default.
• W3132952713 cites W2147169548 @default.
• W3132952713 cites W2160582239 @default.
• W3132952713 cites W2163723068 @default.
• W3132952713 cites W2167434349 @default.
• W3132952713 cites W2223270979 @default.
• W3132952713 cites W2234824575 @default.
• W3132952713 cites W2243510372 @default.
• W3132952713 cites W2263803297 @default.
• W3132952713 cites W2297686978 @default.
• W3132952713 cites W2315670514 @default.
• W3132952713 cites W2409696851 @default.
• W3132952713 cites W2411560869 @default.
• W3132952713 cites W2416390642 @default.
• W3132952713 cites W2755784269 @default.
• W3132952713 doi "https://doi.org/10.1371/journal.pone.0247718" @default.
• W3132952713 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7906379" @default.
• W3132952713 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33630953" @default.
• W3132952713 hasPublicationYear "2021" @default.
• W3132952713 type Work @default.
• W3132952713 sameAs 3132952713 @default.
• W3132952713 citedByCount "3" @default.
• W3132952713 countsByYear W31329527132022 @default.
• W3132952713 countsByYear W31329527132023 @default.
• W3132952713 crossrefType "journal-article" @default.
• W3132952713 hasAuthorship W3132952713A5024640414 @default.
• W3132952713 hasAuthorship W3132952713A5030066723 @default.
• W3132952713 hasAuthorship W3132952713A5033125494 @default.

• next