Geological Net Zero and the Role of Carbon Capture and Storage new insights from science for global climate change policy

Authors

  • Dave Frame University of Canterbury
  • Adrian Macey New Zealand Climate Change Research Institute

DOI:

https://doi.org/10.26686/pq.v21i4.10330

Keywords:

climate change science and policy, mitigation, global warming, Paris Agreement, net zero, geological net zero, carbon capture and storage, international cooperation

Abstract

International cooperation on climate change mitigation has been insufficient to put the world on track to meet the Paris Agreement’s
temperature goal, and some interpretations of ‘net zero’ do not help because they do not achieve what net zero was intended to achieve: climate stabilisation. Nature’s capacity to offset warming is less than is often assumed, so reliance on policies such as tree planting could make the temperature goal even more distant; other approaches, such as bioenergy with carbon capture and storage,
risk compromising food production. The recently developed concept of ‘geological net zero’ enables a better alignment of policy and temperature outcomes. In this context, judicious use of carbon capture and storage as a backstop technology would avoid over-taxing natural sinks and, given appropriate regulatory design, could become an essential tool in achieving temperature targets.

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Author Biographies

Dave Frame, University of Canterbury

Dave Frame is professor of physics at the University of Canterbury.

Adrian Macey, New Zealand Climate Change Research Institute

Adrian Macey is adjunct professor at the New Zealand Climate Change Research Institute and was New Zealand’s first climate change ambassador.

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Published

2025-11-09

Issue

Vol. 21 No. 4 (2025): Policy Quarterly

Section

Articles

License

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