Abstract
Dairy sheep systems are relevant for the economy of many rural areas of the Mediterranean Basin and the optimisation of their productive factors is necessary to improve their competitiveness and to reduce their environmental impact. The objective of this study was to assess, through a farm-scale life cycle assessment (LCA) approach, the potential of reducing environmental impacts on ewe milk of an innovative farming system (IF), based on the adoption of a precision feeding approach to improve milk production and quality, compared with a conventional farming system (CF) in dairy sheep farms in Tuscany region, Italy. The LCA analysis was carried out through a cradle-to-farm-gate LCA, comparing three conventional farms with three innovative farms, using 1 kg of fat protein corrected milk (FPCM) as a functional unit. The Small Ruminants Module of Nutritional Dynamic System (NDS) software was used to estimate methane emissions due to enteric fermentation. The introduction of precision feeding strategy reduced the environmental impacts of ewe milk as a consequence of the increased milk production efficiency (+50%). Indeed, the environmental impact of ewe milk was reduced in IF by 42% as the average of the impact categories being significantly different between the two farming systems. Highlights Precision feeding is recognised as a strategy to mitigate the environmental impacts of ruminant production. Dairy sheep innovative farms (IF), using a precision feeding approach, were compared with conventional farms (CF). Environmental impacts of ewe mik were assessed through an LCA approach and a mechanistic model for ruminant diet formulation and evaluation. Precision feeding improved milk production efficiency (+50) and lowered environmental impacts. Environmental impact of ewe milk was significantly reduced in IF by 42% in eight impact categories out of 15.
Highlights
Dairy small ruminants are mainly located in subtropical-temperate areas of Asia, Africa and Europa and they account approximately for 29% of all sheep and goats in the world, producing around 3.4% of the world’s milk (FAOSTAT 2021)
Results of environmental impact of ewe milk in conventional farms and innovative farms The results from the one-way ANOVA showed that the environmental impact of ewe milk was significantly lower in innovative farming system (IF) compared to C in eight impact categories out of 15, while no differences were observed in the others impact categories (Table 4)
CC, freshwater eutrophication (FE), Ire and marine eutrophication (ME) showed a reduction of 44% from conventional farming system (CF) to IF, followed by POF and OD, with a reduction of 42 and 41%, respectively, and with slightly lower values by PM (38%) and RDm (37%)
Summary
Dairy small ruminants are mainly located in subtropical-temperate areas of Asia, Africa and Europa and they account approximately for 29% of all sheep and goats in the world, producing around 3.4% of the world’s milk (FAOSTAT 2021). Dairy sheep systems are relevant for the economy of many rural areas and the optimisation of their productive factors is an effective strategy for increase their competitiveness and reduce their environmental impact (de Rancourt and Carrere 2011; Vagnoni and European Commission, Joint Research Centre (JRC), Institute for Environment and Supplemental data for this article can be accessed here. ÃPresent address: European Commission, Joint Research Centre (JRC), Ispra, Italy.
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