Ruminal pH regulation and nutritional consequences of low pH

Volatile fatty acids (VFA) and lactic acid can build up in the rumen and reduce ruminal pH. Low ruminal pH for prolonged periods each day can affect feed intake, microbial metabolism and feed digestion, and has also been related to inflammation, diarrhea and milk fat depression. This paper considers...

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Published in	Animal feed science and technology Vol. 172; no. 1-2; pp. 22 - 33
Main Authors	Dijkstra, J., Ellis, J.L., Kebreab, E., Strathe, A.B., López, S., France, J., Bannink, A.
Format	Journal Article
Language	English
Published	Elsevier B.V 28.02.2012
Subjects	Fiber Methane Rumen Subacute ruminal acidosis Volatile fatty acids VFA Methane BC peNDF Volatile fatty acids Fiber pH Rumen Subacute ruminal acidosis
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Abstract	Volatile fatty acids (VFA) and lactic acid can build up in the rumen and reduce ruminal pH. Low ruminal pH for prolonged periods each day can affect feed intake, microbial metabolism and feed digestion, and has also been related to inflammation, diarrhea and milk fat depression. This paper considers aspects of pH regulation, as well as the effects of ruminal pH on rate of substrate degradation and on the profile of VFA available for absorption. Removal of VFA from the rumen by passage in the liquid phase and by absorption through the rumen wall are major processes that influence ruminal pH. The buffering capacity (BC) of rumen fluid is variable and is generally assumed to depend primarily on bicarbonate. Bicarbonate-dependent absorption is not just a primary absorption pathway of VFA but can also secrete bicarbonate at a capacity equal to that from saliva, thus removing protons from the rumen by neutralization. In addition, the inherent BC of the diet is involved in pH regulation, largely explained by the cation exchange capacity of feedstuffs. Empirical models to predict ruminal pH have had limited success. The inclusion of dietary characteristics in those models is needed to improve prediction accuracy. Representations of the effect of pH on fiber degradation adopted in models of ruminal function differ widely and include linear decline, saturation-type and sigmoidal relationships. In comparison with pH effects on degradation of fiber in sacco, most representations tend to overestimate the inhibiting effect of pH. Because the products of fiber hydrolysis are a major source of energy for microbial growth in the rumen, proper understanding and representation of fiber degradation at low pH is vital to predict microbial protein supply and VFA production satisfactorily. Variation in VFA profile is associated with variation in methane production, nutrient partitioning and milk composition. Various ruminal bacterial species have been observed to shift pathways in response to changes in pH while fermenting the same substrate. Mechanistic rumen models have adopted VFA stoichiometric coefficients related to type of substrate present in the feed or fermented in the rumen, but the majority of models do not include the effect of pH on VFA profile. In conclusion, ruminal pH is a major determinant of the profile of nutrients available for absorption. Shifting focus to factors other than salivary bicarbonate secretion will aid in better understanding ruminal pH regulation. Improved models to predict effects of ruminal pH on microbial metabolism and VFA profile will enable further optimization of dairy cow nutrition.
AbstractList	Volatile fatty acids (VFA) and lactic acid can build up in the rumen and reduce ruminal pH. Low ruminal pH for prolonged periods each day can affect feed intake, microbial metabolism and feed digestion, and has also been related to inflammation, diarrhea and milk fat depression. This paper considers aspects of pH regulation, as well as the effects of ruminal pH on rate of substrate degradation and on the profile of VFA available for absorption. Removal of VFA from the rumen by passage in the liquid phase and by absorption through the rumen wall are major processes that influence ruminal pH. The buffering capacity (BC) of rumen fluid is variable and is generally assumed to depend primarily on bicarbonate. Bicarbonate-dependent absorption is not just a primary absorption pathway of VFA but can also secrete bicarbonate at a capacity equal to that from saliva, thus removing protons from the rumen by neutralization. In addition, the inherent BC of the diet is involved in pH regulation, largely explained by the cation exchange capacity of feedstuffs. Empirical models to predict ruminal pH have had limited success. The inclusion of dietary characteristics in those models is needed to improve prediction accuracy. Representations of the effect of pH on fiber degradation adopted in models of ruminal function differ widely and include linear decline, saturation-type and sigmoidal relationships. In comparison with pH effects on degradation of fiber in sacco, most representations tend to overestimate the inhibiting effect of pH. Because the products of fiber hydrolysis are a major source of energy for microbial growth in the rumen, proper understanding and representation of fiber degradation at low pH is vital to predict microbial protein supply and VFA production satisfactorily. Variation in VFA profile is associated with variation in methane production, nutrient partitioning and milk composition. Various ruminal bacterial species have been observed to shift pathways in response to changes in pH while fermenting the same substrate. Mechanistic rumen models have adopted VFA stoichiometric coefficients related to type of substrate present in the feed or fermented in the rumen, but the majority of models do not include the effect of pH on VFA profile. In conclusion, ruminal pH is a major determinant of the profile of nutrients available for absorption. Shifting focus to factors other than salivary bicarbonate secretion will aid in better understanding ruminal pH regulation. Improved models to predict effects of ruminal pH on microbial metabolism and VFA profile will enable further optimization of dairy cow nutrition.
Author	Dijkstra, J. López, S. France, J. Strathe, A.B. Bannink, A. Ellis, J.L. Kebreab, E.
Author_xml	– sequence: 1 givenname: J. surname: Dijkstra fullname: Dijkstra, J. email: jan.dijkstra@wur.nl organization: Animal Nutrition Group, Wageningen University, P.O. Box 338, 6700 AH Wageningen, The Netherlands – sequence: 2 givenname: J.L. surname: Ellis fullname: Ellis, J.L. organization: Animal Nutrition Group, Wageningen University, P.O. Box 338, 6700 AH Wageningen, The Netherlands – sequence: 3 givenname: E. surname: Kebreab fullname: Kebreab, E. organization: Department of Animal Science, University of California, Davis 95616, USA – sequence: 4 givenname: A.B. surname: Strathe fullname: Strathe, A.B. organization: Department of Animal Science, University of California, Davis 95616, USA – sequence: 5 givenname: S. surname: López fullname: López, S. organization: Instituto de Ganadería de Montaña (ULE–CSIC), Department Producción Animal, Universidad de León, 24071 León, Spain – sequence: 6 givenname: J. surname: France fullname: France, J. organization: Centre for Nutrition Modelling, Department of Animal and Poultry Science, University of Guelph, Guelph, ON N1G 2W1, Canada – sequence: 7 givenname: A. surname: Bannink fullname: Bannink, A. organization: Livestock Research, Animal Sciences Group, Wageningen University and Research Centre, Lelystad, The Netherlands
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Keywords	VFA Methane BC peNDF Volatile fatty acids Fiber pH Rumen Subacute ruminal acidosis
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PublicationDate	2012-02-28
PublicationDateYYYYMMDD	2012-02-28
PublicationDate_xml	– month: 02 year: 2012 text: 2012-02-28 day: 28
PublicationDecade	2010
PublicationTitle	Animal feed science and technology
PublicationYear	2012
Publisher	Elsevier B.V
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Snippet	Volatile fatty acids (VFA) and lactic acid can build up in the rumen and reduce ruminal pH. Low ruminal pH for prolonged periods each day can affect feed...
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SubjectTerms	Fiber Methane Rumen Subacute ruminal acidosis Volatile fatty acids
Title	Ruminal pH regulation and nutritional consequences of low pH
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