Acknowledgments We thank reviewers David Manning and Simon Jowitt whose input together greatly focused the manuscript; we also thank Kathryn Goodenough for editorial handling. This work was completed as part of the Geological Society of London’s Energy Transition theme.Peer reviewedPublisher PD
Geotechnical Engineering has matured sufficiently to contribute to resolving some of society’s grand...
Geologic resources contain a huge potential to contribute to reach carbon neutrality and thus, mitig...
Limiting global temperature rise to 1.5°C requires transformations in every aspect of our societies ...
A substantial and rapid decarbonisation of the global economy is required to limit anthropogenic cli...
A substantial and rapid decarbonisation of the global economy is required to limit anthropogenic cli...
At the 2015 United Nations International Climate Change Conference in Paris (COP21), 197 national pa...
The transition to net-zero carbon emissions requires innovative use of the subsurface. Colleagues fr...
The race to net zero emissions, where greenhouse gas emissions match removals, is underway as part o...
In 2009, Geography Compass published a paper on ‘The Geopolitics of Global Energy Security' that rev...
In 2009, Geography Compass published a paper on ‘The Geopolitics of Global Energy Security’ that rev...
Human activities are changing the earth's climate, causing increasingly disruptive social and ecolog...
This paper reviews the energy-development-environment-climate challenge that the world faces and mak...
This paper makes a case for examining energy transition as a geographical process, involving the rec...
Achieving a successful energy transition requires society to deploy as many technologies as possible...
Fighting climate change makes a green energy transition imperative. The transition will have signifi...
Geotechnical Engineering has matured sufficiently to contribute to resolving some of society’s grand...
Geologic resources contain a huge potential to contribute to reach carbon neutrality and thus, mitig...
Limiting global temperature rise to 1.5°C requires transformations in every aspect of our societies ...
A substantial and rapid decarbonisation of the global economy is required to limit anthropogenic cli...
A substantial and rapid decarbonisation of the global economy is required to limit anthropogenic cli...
At the 2015 United Nations International Climate Change Conference in Paris (COP21), 197 national pa...
The transition to net-zero carbon emissions requires innovative use of the subsurface. Colleagues fr...
The race to net zero emissions, where greenhouse gas emissions match removals, is underway as part o...
In 2009, Geography Compass published a paper on ‘The Geopolitics of Global Energy Security' that rev...
In 2009, Geography Compass published a paper on ‘The Geopolitics of Global Energy Security’ that rev...
Human activities are changing the earth's climate, causing increasingly disruptive social and ecolog...
This paper reviews the energy-development-environment-climate challenge that the world faces and mak...
This paper makes a case for examining energy transition as a geographical process, involving the rec...
Achieving a successful energy transition requires society to deploy as many technologies as possible...
Fighting climate change makes a green energy transition imperative. The transition will have signifi...
Geotechnical Engineering has matured sufficiently to contribute to resolving some of society’s grand...
Geologic resources contain a huge potential to contribute to reach carbon neutrality and thus, mitig...
Limiting global temperature rise to 1.5°C requires transformations in every aspect of our societies ...
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