TY - JOUR
T1 - The carbon footprint of health care delivery in Western Australia's public health system
AU - Irwin, Amanda
AU - Malik, Arunima
AU - Vyas, Aditya
AU - Bateman, Catherine
AU - Joyce, Sarah
N1 - Funding Information:
The study received funding from the Australian Research Council, The University of Sydney, and the WA Department of Health. The full list of funding information can be found in Acknowledgements.The authors would like to thank the staff at the WA Department of Health who provided their advice on the correct interpretation of financial data codes. This work was supported by the Australian Research Council through its Discovery Project DP200103005, Discovery Early Career Researcher Award DE230101652, Linkage Project LP200100311 and ARC Research Hub IH190100009, and a University of Sydney SOAR Prize. This work was partly funded by the WA Department of Health to enable development of a concordance of financial data with the AusIELab sectoral structure. WA Department of Health staff provided advice on the correct interpretation of financial data codes; however, the researchers remained independent of the funder.
Publisher Copyright:
© 2024 The Author(s)
PY - 2024/7
Y1 - 2024/7
N2 - Background: Health systems have a dual imperative to take action on climate change. First, they must develop climate resilient health services in response to the direct and indirect impacts of climate change on health. Second, they must reduce their own carbon footprint since health systems are a significant contributor to global greenhouse gas emissions. Methods: An environmentally-extended multi-region input–output analysis was carried out, incorporating National Accounts data for Australia and annual expenditure data from WA Health for financial year 2019–20. Expenditure data were categorised to one of 344 economic sectors and by location of the provider of goods or services purchased. Findings: WA Health contributes 8% of WA's total carbon footprint, driven by expenditure on chemicals (23.8% of total), transport (20.2% of total), and electricity supply (19.7% of total). These 3 sectors represent 63.7% of WA Health's carbon footprint, but only 10.8% of its total expenditure. Interpretation: Reducing emissions related to health service provision in WA will require a holistic approach that leverages carbon footprinting insights and integrates them into organisational decision-making across all health programs. The high carbon-intensity of the transport and chemicals sectors supports previous research calling for a reduction in unnecessary pathology testing and the transition to delivery of non-urgent health care via sustainable models of telehealth. The impact of WA's size and location presents challenges, with a predominantly non-renewable energy supply and reliance on transport and supply chains from other states adding significantly to emissions. Funding: The study received funding from the Australian Research Council, The University of Sydney, and the WA Department of Health. The full list of funding information can be found in Acknowledgements.
AB - Background: Health systems have a dual imperative to take action on climate change. First, they must develop climate resilient health services in response to the direct and indirect impacts of climate change on health. Second, they must reduce their own carbon footprint since health systems are a significant contributor to global greenhouse gas emissions. Methods: An environmentally-extended multi-region input–output analysis was carried out, incorporating National Accounts data for Australia and annual expenditure data from WA Health for financial year 2019–20. Expenditure data were categorised to one of 344 economic sectors and by location of the provider of goods or services purchased. Findings: WA Health contributes 8% of WA's total carbon footprint, driven by expenditure on chemicals (23.8% of total), transport (20.2% of total), and electricity supply (19.7% of total). These 3 sectors represent 63.7% of WA Health's carbon footprint, but only 10.8% of its total expenditure. Interpretation: Reducing emissions related to health service provision in WA will require a holistic approach that leverages carbon footprinting insights and integrates them into organisational decision-making across all health programs. The high carbon-intensity of the transport and chemicals sectors supports previous research calling for a reduction in unnecessary pathology testing and the transition to delivery of non-urgent health care via sustainable models of telehealth. The impact of WA's size and location presents challenges, with a predominantly non-renewable energy supply and reliance on transport and supply chains from other states adding significantly to emissions. Funding: The study received funding from the Australian Research Council, The University of Sydney, and the WA Department of Health. The full list of funding information can be found in Acknowledgements.
KW - Carbon footprint
KW - Environmental impacts
KW - GHG emissions
KW - Input–output analysis
KW - Western Australia
UR - http://www.scopus.com/inward/record.url?scp=85196319688&partnerID=8YFLogxK
U2 - 10.1016/j.lanwpc.2024.101115
DO - 10.1016/j.lanwpc.2024.101115
M3 - Article
AN - SCOPUS:85196319688
SN - 2666-6065
VL - 48
SP - 1
EP - 8
JO - The Lancet Regional Health - Western Pacific
JF - The Lancet Regional Health - Western Pacific
M1 - 101115
ER -