Assessment of water use by livestock
Abstract
Water scarcity, a function of supply and demand, is a regional issue with global repercussions, given that i) the increasing human population and demand for animal products will increase water demand and that ii) global climate change is altering rainfall patterns worldwide. Water can be divided into “blue” (surface and groundwater), “green” (soil water subject to evapotranspiration) and “grey” water (water necessary to dilute pollutants to acceptable levels). On a global scale, agriculture represents 70% of blue water use. One main difference among all methods for assessing water use is whether and how they include green and grey water with blue water. The “water footprint” approach includes green and grey water, whereas life cycle assessment approaches tend to exclude them or to include only the variation in green water availability resulting from land use change. A second difference is whether water use is reported as a volume of water (L) or a volume weighted by a water stress index (L water equivalents). Because of these differences and the few livestock systems studied, methods give wildly different results for the same livestock product. Ultimately, water scarcity depends on blue water use. The contribution of livestock to water scarcity can be reduced by decreasing their water consumption and/or that of the irrigated crops they consume.
Attachments
No supporting information for this article##plugins.generic.statArticle.title##
Views: 1292
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)
- 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)
- P. MORAND-FEHR, M. DOREAU , Effects of heat stress on feed intake and digestion in ruminants , INRAE Productions Animales: Vol. 14 No. 1 (2001)
- 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)