The Carbon Footprint of Energy Consumption in Pastoral and Barn Dairy Farming Systems: A Case Study from Canterbury, New Zealand

• Main Authors: Hafiz Muhammad Abrar Ilyas, Majeed Safa, Alison Bailey, Sara Rauf, Marvin Pangborn
• Format: Article
• Language: English
• Published: MDPI AG 2019-09-01
• Series: Sustainability
• Subjects: energy consumption; carbon footprints; pastoral dairy farming system (PDFs); barn dairy farming system (BDFs); Canterbury; New Zealand
• Online Access: https://www.mdpi.com/2071-1050/11/17/4809

Dairy farming is constantly evolving to more intensive systems of management, which involve more consumption of energy inputs. The consumption of these energy inputs in dairy farming contributes to climate change both with on-farm emissions from the combustion of fossil fuels, and by off-farm emissions due to production of farm inputs (such as fertilizer, feed supplements). The main purpose of this research study was to evaluate energy-related carbon dioxide emissions, the carbon footprint, of pastoral and barn dairy systems located in Canterbury, New Zealand. The carbon footprints were estimated based on direct and indirect energy sources. The study results showed that, on average, the carbon footprints of pastoral and barn dairy systems were 2857 kgCO₂ ha^−1 and 3379 kgCO₂ ha^−1, respectively. For the production of one tonne of milk solids, the carbon footprint was 1920 kgCO₂ tMS^−1 and 2129 kgCO₂ tMS^−1, respectively. The carbon emission difference between the two systems indicates that the barn system has 18% and 11% higher carbon footprint than the pastoral system, both per hectare of farm area and per tonne of milk solids, respectively. The greater carbon footprint of the barn system was due to more use of imported feed supplements, machinery usage and fossil fuel (diesel and petrol) consumption for on-farm activities.