Environmental impacts of the pork supply chain with regard to farm performance

Abstract

SUMMARYLivestock production is increasingly facing consumer concern about the environmental impact of different production systems. In order to provide a detailed insight into the contribution of pork production, a life-cycle assessment (LCA) of average German pork production was performed. In this way, the global warming potential was estimated at 3·22 kg CO2-eq/kg pork, eutrophication at 23·3 g PO4-eq and acidification at 57·1 g SO2-eq. The functional unit was 1 kg pork as a slaughter weight. The analysis aimed at identifying those farm parameters which had most impact on the LCA results. For that purpose, a deterministic pig farm model was developed which reflected all the processes of a pig farm, while focusing on five distinct areas: general farm information, biological performance, basic feed data, manure management and resource use and emissions. In this way, it was possible to vary the level of performance parameters from farrowing (piglet losses and number of piglets born alive per litter) and finishing stage (lean-meat content, daily weight gain, animal losses and feed conversion ratio). The number of piglets born alive, the lean-meat content and the feed conversion ratio were identified as having the greatest influence on the results. In comparison with average pork production, the values of the impact categories increased and decreased by up to 4·7%. The results show that the fertility of sows and the feed management of finishers should be optimized to mitigate environmental impacts at pig farm level.