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W2566956552 abstract "The flow of protozoa from the reticulo-rumen is lower than expected, due to ability of protozoa to prevent washout through sequestration on feed particles and the rumen epithelium. In order to estimate the distribution of protozoa within the reticulo-rumen and passage to the omasum, Czerkawski (1987) developed a model containing pools for the rumen liquid phase, rumen solid phase, and the omasum. This model was used to estimate loss of protozoa in the omasum as well as the amount of protozoal protein available to the animal in the lower gut. A number of assumptions were incorporated into the model, some of which appear unsupported by current research. This paper represents an update, revision, and re-evaluation of Czerkawski's model, where the assumptions that all protozoa in the ‘attached’ phase are in solid digesta, and that protozoa only leave the rumen in the liquid, have been relaxed. Therefore, the revised model allows for sequestration of protozoa on the rumen epithelium and protozoal passage with particulate outflow. Using experimental observations with inputs within biological limits, the revised model and Czerkawski's original model were verified. The effect of diet on the model was then assessed using inputs from a 100% forage diet and a 35–65% concentrate diet. The extent of sequestration was also varied from complete sequestration, to partial sequestration, and no sequestration. A sensitivity analysis was conducted through a linear regression of perturbed mean inputs versus outputs. The results from the revised model indicate that within the reticulo-rumen, the concentrate diet has a greater fractional flow rate of protozoa from the liquid to solid phase, but a lesser fractional flow rate back to the liquid phase, compared to the forage diet. As well, the concentrate diet has a slower net growth rate of protozoa in the attached phase, compared to the forage diet. In the omasum, the forage diet has a less negative net growth rate, compared to the concentrate diet. The forage diet was also associated with smaller loss of protozoa from the omasum. There are limited data from the omasum to be incorporated into the revised model, especially for quantity of protozoa in the omasum. Further research on quantification of protozoa in the omasum could strengthen the predictions made by the model. Despite this, the revised model found a loss of protozoa in the omasum similar to that suggested by Czerkawski's original model 65–73% versus 66%. The revised model results indicate that efforts to increase protozoal flow to the duodenum should focus on reduced sequestration and increased outflow rate from the rumen, although more research is needed to quantify protozoa in the omasum, and to investigate the role of sequestration onto the wall of the reticulo-rumen." @default.
W2566956552 created "2017-01-06" @default.
W2566956552 creator A5035383708 @default.
W2566956552 creator A5087502190 @default.
W2566956552 date "2017-03-01" @default.
W2566956552 modified "2023-10-14" @default.
W2566956552 title "Further assessment of the protozoal contribution to the nutrition of the ruminant animal" @default.
W2566956552 cites W1242678688 @default.
W2566956552 cites W146194262 @default.
W2566956552 cites W1481819226 @default.
W2566956552 cites W1495220554 @default.
W2566956552 cites W1507204855 @default.
W2566956552 cites W166777835 @default.
W2566956552 cites W167256918 @default.
W2566956552 cites W1699338132 @default.
W2566956552 cites W1733190033 @default.
W2566956552 cites W1743591514 @default.
W2566956552 cites W1963958112 @default.
W2566956552 cites W1965564612 @default.
W2566956552 cites W1969208439 @default.
W2566956552 cites W1970780794 @default.
W2566956552 cites W1972072655 @default.
W2566956552 cites W1972225366 @default.
W2566956552 cites W1973976462 @default.
W2566956552 cites W1974354693 @default.
W2566956552 cites W1979388974 @default.
W2566956552 cites W1984545896 @default.
W2566956552 cites W1985778393 @default.
W2566956552 cites W1988315701 @default.
W2566956552 cites W1988849073 @default.
W2566956552 cites W1990083291 @default.
W2566956552 cites W1992513644 @default.
W2566956552 cites W1996705871 @default.
W2566956552 cites W2000253216 @default.
W2566956552 cites W2002367620 @default.
W2566956552 cites W2007391818 @default.
W2566956552 cites W2011112409 @default.
W2566956552 cites W2012323107 @default.
W2566956552 cites W2014074302 @default.
W2566956552 cites W2028978943 @default.
W2566956552 cites W2034505732 @default.
W2566956552 cites W2038091692 @default.
W2566956552 cites W2041699725 @default.
W2566956552 cites W2044410618 @default.
W2566956552 cites W2046786403 @default.
W2566956552 cites W2060380574 @default.
W2566956552 cites W2061624163 @default.
W2566956552 cites W2062681193 @default.
W2566956552 cites W2070562928 @default.
W2566956552 cites W2071817210 @default.
W2566956552 cites W2077466828 @default.
W2566956552 cites W2081405785 @default.
W2566956552 cites W2089396416 @default.
W2566956552 cites W2090425151 @default.
W2566956552 cites W2098015017 @default.
W2566956552 cites W2099138236 @default.
W2566956552 cites W2105917973 @default.
W2566956552 cites W2113114758 @default.
W2566956552 cites W2123076966 @default.
W2566956552 cites W2144363571 @default.
W2566956552 cites W2145884099 @default.
W2566956552 cites W2147763854 @default.
W2566956552 cites W2150608392 @default.
W2566956552 cites W2159275533 @default.
W2566956552 cites W2159929404 @default.
W2566956552 cites W2164532199 @default.
W2566956552 cites W2177858583 @default.
W2566956552 cites W2416014585 @default.
W2566956552 cites W248812248 @default.
W2566956552 cites W2554345945 @default.
W2566956552 cites W2562411201 @default.
W2566956552 cites W4233000250 @default.
W2566956552 cites W4237390461 @default.
W2566956552 cites W4239224213 @default.
W2566956552 cites W4240221251 @default.
W2566956552 cites W4241800485 @default.
W2566956552 doi "https://doi.org/10.1016/j.jtbi.2016.12.007" @default.
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