Effects of heat stress on feed intake and digestion in ruminants
Abstract
Heat stress generally leads to a decrease in voluntary intake, in relation to thermoregulation, in order to allow a decrease in heat production, especially due to rumen fermentations. The decrease in intake may also be due to a low availability of forage on rangelands, as well as its low nutritive value and sometimes to a lack of drinking water. When feed intake is very low, digestibility may decrease, for one same diet. In controlled conditions and for a same intake, an increase in temperature increases diet digestibility by 0.2 point per degree Celsius. To prevent the negative effects of heat stress, especially on feed intake, ruminants modify their intake pattern by grazing during the night when the temperature is at its lowest, by increasing the number of meals and decreasing their length. They also modify feed preferences and thus the composition of their diet. In intensive systems, it is suggested to provide a shelter, to use water mist, to increase the energy concentration of the diet, to provide a source of fermentable nitrogen when this may limit forage digestion, and to increase the cation-anion balance of the diet.
Attachments
No supporting information for this article##plugins.generic.statArticle.title##
Views: 1485
Most read articles by the same author(s)
- Y. CHILLIARD, A. FERLAY, M. DOREAU, Dietary control of milk fat nutritional quality in the dairy cow : trans, and polyunsaturated fatty acids, and conjugated linoleic acid , INRAE Productions Animales: Vol. 14 No. 5 (2001): Numéro Spécial: Matières grasses alimentaires et qualité des produits
- J.F. HOCQUETTE, P. MAINSANT, J.D. DAUDIN, I. CASSAR-MALEK, D. RÉMOND, M. DOREAU, P. SANS, D. BAUCHART, J. AGABRIEL, W. VERBEKE, B. PICARD, Will meat be produced in vitro in the future? , INRAE Productions Animales: Vol. 26 No. 4 (2013)
- M. DOREAU, C. MARTIN, M. EUGÈNE, M. POPOVA, D.P. MORGAVI, Tools for decreasing enteric methane production by ruminants , INRAE Productions Animales: Vol. 24 No. 5 (2011): Dossier : Gaz à effet de serre en élevage bovin : le méthane
- M. POPOVA, D.P. MORGAVI, M. DOREAU, C. MARTIN, Methane production and ruminal microbial interactions , INRAE Productions Animales: Vol. 24 No. 5 (2011): Dossier : Gaz à effet de serre en élevage bovin : le méthane
- C. MARTIN , L. BROSSARD , M. DOREAU , Mechanisms of appearance of ruminal acidosis and consequences on physiopathology and performances , INRAE Productions Animales: Vol. 19 No. 2 (2006)
- P. MORAND-FEHR, G. TRAN , Feed lipids and fats in animal nutrition , INRAE Productions Animales: Vol. 14 No. 5 (2001): Numéro Spécial: Matières grasses alimentaires et qualité des produits
- A. FARRUGGIA , B. MARTIN , R. BAUMONT , S. PRACHE , M. DOREAU , H. HOSTE , D. DURAND , Is floristic diversity of permanent pastures important for ruminants and animal products ? , INRAE Productions Animales: Vol. 21 No. 2 (2008)
- M. DOREAU, A. FARRUGGIA, P. VEYSSET, Environmental amenities and impact of French farms for beef production , INRAE Productions Animales: Vol. 30 No. 2 (2017): Volume 30 Issue 2 : Dossier: Suckling cattle farming
- Y. CHILLIARD, M. DOREAU, G. GAGLIOSTRO, Y. ELMEDDAH, Protected (encapsulated or calcium salts) lipids in dairy cow diets. Effects on production and milk composition , INRAE Productions Animales: Vol. 6 No. 2 (1993)
- M. DOREAU, V. FIEVEZ, A. TROEGELER-MEYNADIER, F. GLASSER, Ruminal metabolism and digestion of long chain fatty acids in ruminants: recent advances in knowledge , INRAE Productions Animales: Vol. 25 No. 4 (2012)