Challenges When Assessing Water-Related Environmental Impacts of Livestock Farming: A Case Study of a Cow Milk Production System in Catalonia
Author:
Ruiz-Colmenero Marta1ORCID, Bàllega Ariadna1, Andón Miquel1ORCID, Terré Marta2, Devant Maria2ORCID, Antón Assumpció1, Rosenbaum Ralph K.1ORCID, Targa Anna3, Núñez Montserrat1ORCID
Affiliation:
1. Sustainability in Biosystems Research Program, Institute of Agrifood Research and Technology, Torre Marimon, Ctra c-59 Km. 12.1, Caldes de Montbui, 08140 Barcelona, Spain 2. Ruminant Production Research Program, Institute of Agrifood Research and Technology, Torre Marimon, Ctra c-59 Km. 12.1, Caldes de Montbui, 08140 Barcelona, Spain 3. Cooperativa Lletera Ramaders del Baix Empordà, Carrer Garbí, 5, La Bisbal d’Empordà, 17100 Girona, Spain
Abstract
Water availability is a local issue of growing importance in Mediterranean areas where water scarcity linked to climate change and population growth is already leading to increased competition for this resource. This study is aimed at the following: (i) assessing the water-related environmental impacts (water use, freshwater ecotoxicity and eutrophication, marine eutrophication, acidification, human toxicity, and ionizing radiation) along the production chain of cow milk in Catalonia, northeastern Spain; and (ii) addressing the issues encountered (modelling choices, data gaps and inconsistencies) which t can affect the quality of results when performing a water-footprint comprehensive assessment, focusing on water use and associated water scarcity impacts. The scope included the process from the extraction of raw materials up to the distribution of the packaged fat- and protein-corrected milk to the distribution centres of the supermarket chains and markets. Results showed the farm stage to be determinant (contributing to over 60% of the impact), due to the impact of feed production. Impact results were in the range of the European benchmark given by the Product Environmental Footprint Category Rules for dairy products, except for the water scarcity footprint which was one order of magnitude larger than the reference value, due to water scarcity in Spain. Considering compound feed ingredients with a lower water scarcity footprint, and research into slurry treatment for its use as irrigation and cleaning water (without compromising safety and health) could help reduce this impact. Water accounting and traceability along the production chain could support the dairy industry to take responsibility for the consequences of their production choices.
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