This is the final version. Available from the Global Systems Institute, University of Exeter via the link in this recordGSI scientific working paper series number 2021/02Limiting global warming to a 1.5°C temperature rise requires drastic emissions reductions and removal of carbon dioxide from the atmosphere. Most modelled pathways for 1.5°C assume substantial removals in the form of biomass energy with carbon capture and storage, which brings with it increasing risks to biodiversity and food security via extensive land-use change. Recently, multiple efforts to describe and quantify potential removals via ecosystem-based approaches have gained traction in the climate policy discourse. However, these options have yet to be evaluated in a sys...
To achieve the Paris Agreement requires aggressive mitigation strategies alongside negative emission...
This is the author accepted manuscript. The final version is available from American Association for...
Since the beginning of farming, and even before, humans have been actively modifying our environment...
Limiting global warming to a 1.5°C temperature rise requires drastic emissions reductions and remov...
The role of nature restoration in mitigating the impacts of climate change is receiving increasing a...
We analyze a set of simulations to assess the impact of climate change on global forests where MC2 d...
The global carbon cycle is a central part of the climate system which forms a direct link between h...
Climate change may pose a high risk of change to Earth’s ecosystems: shifting climatic boundaries ma...
We assess the potential and possible consequences for the global climate of a strong reforestation s...
Both aggressive mitigation strategies and negative emission technologies are required to limit globa...
The Paris Agreement to keep global temperature increase to well-below 2 °C and to pursue efforts to ...
Global warming is increasing due to the ongoing rise in atmospheric greenhouse gases, and has the po...
Climate change associated with increasing concentrations of the greenhouse gas, carbon dioxide(CO2),...
Most climate mitigation scenarios involve negative emissions, especially those that aim to limit glo...
To achieve the Paris Agreement requires aggressive mitigation strategies alongside negative emission...
This is the author accepted manuscript. The final version is available from American Association for...
Since the beginning of farming, and even before, humans have been actively modifying our environment...
Limiting global warming to a 1.5°C temperature rise requires drastic emissions reductions and remov...
The role of nature restoration in mitigating the impacts of climate change is receiving increasing a...
We analyze a set of simulations to assess the impact of climate change on global forests where MC2 d...
The global carbon cycle is a central part of the climate system which forms a direct link between h...
Climate change may pose a high risk of change to Earth’s ecosystems: shifting climatic boundaries ma...
We assess the potential and possible consequences for the global climate of a strong reforestation s...
Both aggressive mitigation strategies and negative emission technologies are required to limit globa...
The Paris Agreement to keep global temperature increase to well-below 2 °C and to pursue efforts to ...
Global warming is increasing due to the ongoing rise in atmospheric greenhouse gases, and has the po...
Climate change associated with increasing concentrations of the greenhouse gas, carbon dioxide(CO2),...
Most climate mitigation scenarios involve negative emissions, especially those that aim to limit glo...
To achieve the Paris Agreement requires aggressive mitigation strategies alongside negative emission...
This is the author accepted manuscript. The final version is available from American Association for...
Since the beginning of farming, and even before, humans have been actively modifying our environment...