Modeling ruminant feed intake with protein, chemostatic, and distention feedbacks

Journal of Animal Science
D S Fisher

Abstract

Little progress has been made in modeling intake regulation in spite of the many mechanisms identified as important. A model with relatively simple inputs was developed that included compartments for protein, soluble carbohydrate, digestible fiber, and very slowly digesting fiber. Distention and chemostatic feedbacks were combined using a previously published equation. The ratio of current ruminal fill to a modulating parameter for ruminal fill represented distention feedback. The ratio of the current flow of available energy to a modulating parameter for chemostatic demand represented chemostatic feedback. The modulating parameter for ruminal fill was based on literature reports of ruminal contents. Intake was adjusted based on current fill and energy flow relative to modulating parameters for fill and chemostatic feedback. The effect of the digestible organic matter (DOM) to CP ratio on DOM intake was modeled to adjust rates of digestion, rates of passage, and the chemostatic feedback. The model tested an integrated concept of intake regulation with only CP, IVDMD, and NDF as inputs. In spite of relatively simple inputs, the model behavior in response to variation in protein, digestibility, and fiber was similar to observatio...Continue Reading

Citations

Oct 27, 2009·Journal of Animal Science·T J Hackmann, J N Spain
Apr 4, 2019·Translational Animal Science·Luis O TedeschiMozart A Fonseca
Mar 1, 2021·Journal of Animal Science·William B SmithEric J Scholljegerdes

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