A dynamic mechanistic model of microbial fermentation and methane production in the cow rumen - INRAE - Institut national de recherche pour l’agriculture, l’alimentation et l’environnement
Conference Papers Year : 2023

A dynamic mechanistic model of microbial fermentation and methane production in the cow rumen

Abstract

Dynamic mathematical models have been developed to enhance understanding of rumen function. These models include Molly1, the Dijkstra model2, Karoline3 and their extensions. Model evaluations showed that there is still room to enhance their accuracy for predicting volatile fatty acids concentration and methane production. Previously, Muñoz-Tamayo et al. (2016) developed an alternative model of rumen fermentation under in vitro conditions aimed at better representing the rumen microbiota and hydrogen dynamics. In the present work, we extended the previous model to account for in vivo conditions. We performed an experiment with four Nordic-Red dairy cows equipped with rumen fistulas to provide dynamic data to support model construction. The experiment determined animal daily patterns of feed intake, rumen fermentation and enteric methane production. Feed intake and methane emissions were measured in respiration chambers during two days after an adaptation period. Rumen liquid was collected every three hours for determination of volatile fatty acids concentration. In the model, the rumen microbiota is represented by three functional groups namely sugar-, amino acids- and hydrogen-utilisers. The feed is expressed in three pools as neutral detergent fiber, non-structural carbohydrates and proteins. The model consists of 18 compartments described by ordinary differential equations. The model performance was satisfactory as evaluated by the coefficient of variation of the root mean squared error, which was 9% for acetate, 11% for butyrate, 13% for propionate and 21% for methane. Our model has the potential to be used as virtual platform to simulate the dynamics of rumen fermentation and methane production. Acknowledgements. The authors acknowledge funding from the MASTER project, an Innovation Action funded by the European Union’s Horizon 2020 research and innovation programme under grant agreement No 818368.
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Dates and versions

hal-04181482 , version 1 (16-08-2023)

Identifiers

  • HAL Id : hal-04181482 , version 1

Cite

Rafael Munoz Tamayo, Seppo Ahvenjärvi, Ali Reza Bayat, Ilma Tapio. A dynamic mechanistic model of microbial fermentation and methane production in the cow rumen. ADSA Annual Meeting, ADSA, Jun 2023, Ottawa, Canada. ⟨hal-04181482⟩
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