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    'Staff publications' is the digital repository of Wageningen University & Research

    'Staff publications' contains references to publications authored by Wageningen University staff from 1976 onward.

    Publications authored by the staff of the Research Institutes are available from 1995 onwards.

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Record number 64960
Title Modelling lipid metabolism in the rumen
Author(s) Dijkstra, J.; Gerrits, W.J.J.; Bannink, A.; France, J.
Source In: Modelling Nutrient Utilization in Farm Animals / McNamara, J.P., France, J., Beever, D.E., Wallingford : CAB International - ISBN 9780851994499 - p. 25 - 36.
Department(s) Adaptation Physiology
Animal Nutrition
Publication type Chapter in scientific book
Publication year 2000
Abstract Nutritional manipulation through fat supplementation of diets is of interest because
of the large energy requirements of high-producing ruminants, and because of
human health concerns about saturated long-chain fatty acids (LCFA) in ruminant
products. High dietary fat levels may adversely affect microbial activity and nutrient
degradation in the rumen. Mathematical models of the rumen fermentation process
have been developed and applied to quantify the profile of nutrients available for
absorption. However, the representation of lipid dynamics is limited in these rumen
models. Therefore, an extant rumen model was modified to represent the effects of
LCFA on microbial metabolism and nutrient digestion. The primary objective of the
model currently being developed is to integrate LCFA metabolism with microbial
metabolism of other substrates in the rumen, and to predict the effect of amount and
composition of dietary fat upon the profile of nutrients available for absorption.
In the modified model, there are three rumen lipid pools: unhydrolysed lipid (Li),
saturated free LCFA (Fs) and unsaturated free LCFA (Fu). Inputs to these pools are
from the feed and outputs are flows to the duodenum. The rate of biohydrogenation
is dependent on the amount of fibre and of unsaturated LCFA in the rumen. The
unsaturated LCFA are considered to inhibit fibrolytic bacterial metabolism, but not
amylolytic bacterial metabolism, whilst saturated LCFA are assumed not to affect
bacterial metabolism. Protozoal metabolism is assumed to be inhibited by both saturated and unsaturated LCFA. The rates of biohydrogenation and inhibition of bacterial metabolism are represented by sigmoidal Michaelis–Menten equations, with parameters derived from in vitro and in vivo data. Preliminary results of sensitivity
analyses suggest that the model responds appropriately to perturbations in dietary
inputs. The degradation of fibre in the rumen was reduced when the amount of
unsaturated LCFA in the diet was raised, but the reduction in fibre degradation was
far more pronounced with a low forage diet in comparison to a high forage diet. In
all cases, the efficiency of microbial growth was increased upon an increase in
dietary LCFA content because of a reduction in protozoal numbers and consequently
in microbial recycling within the rumen. Decreasing the forage proportion of the diet
decreases the degree of saturation of LCFA flowing to the duodenum. A decrease in
acetate to propionate ratio in rumen fluid was only apparent when a diet high in
unsaturated LCFA was fed. Such responses are related to the effects of unsaturated
LCFA and saturated LCFA on metabolism of amylolytic and fibrolytic bacteria and of
protozoa, and consequently on nutrient degradation in the rumen.
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