Combining policies to remove carbon dioxide (CO2) from the atmosphere with policies to reduce emissions could decrease CO2 concentrations faster than possible via natural processes. We model the optimal selection of a dynamic portfolio of abatement, research and development (R&D), and negative emission policies under an exogenous CO2 constraint and with stochastic technological change. We find that near-term abatement is not sensitive to the availability of R&D policies, but the anticipated availability of negative emission strategies can reduce the near-term abatement optimally undertaken to meet 2 degrees C temperature limits. Further, planning to deploy negative emission technologies shifts optimal R&D funding from "carbon-free" technolo...
This paper analyzes a set of global energy-economic development scenarios for the 21st century. The ...
We assess different policies for reducing carbon dioxide emissions and promoting innovation and diff...
A cumulative emissions approach is increasingly used to inform mitigation policy. However, there are...
In recent years a body of literature has arisen on the topic of how to compose the optimal portfolio...
For aiming to keep global warming well-below 2 °C and pursue efforts to limit it to 1.5 °C, as set o...
For aiming to keep global warming well-below 2 °C and pursue efforts to limit it to 1.5 °C, as set o...
Our carbon-intensive economy has led to an average temperature rise of 1 °C since pre-industrial tim...
International audienceTo limit global warming to <2 °C we must reduce the net amount of CO2 we relea...
This paper explores the significance of policy-induced technological change for the design of carbon...
This article investigates the impact on optimal CO2 abatement and carbon tax levels of introducing e...
This article investigates the impact on optimal CO2 abatement and carbon tax levels of introducing e...
This paper analyzes the economic and investment implications of a series of climate mitigation scena...
This paper explores the implications of delays (to 2030) in implementing optimal policies for long-t...
Global warming and its impacts on the environment, the human being and the economy are one of the bi...
This paper analyzes a set of global energy-economic development scenarios for the 21st century. The ...
We assess different policies for reducing carbon dioxide emissions and promoting innovation and diff...
A cumulative emissions approach is increasingly used to inform mitigation policy. However, there are...
In recent years a body of literature has arisen on the topic of how to compose the optimal portfolio...
For aiming to keep global warming well-below 2 °C and pursue efforts to limit it to 1.5 °C, as set o...
For aiming to keep global warming well-below 2 °C and pursue efforts to limit it to 1.5 °C, as set o...
Our carbon-intensive economy has led to an average temperature rise of 1 °C since pre-industrial tim...
International audienceTo limit global warming to <2 °C we must reduce the net amount of CO2 we relea...
This paper explores the significance of policy-induced technological change for the design of carbon...
This article investigates the impact on optimal CO2 abatement and carbon tax levels of introducing e...
This article investigates the impact on optimal CO2 abatement and carbon tax levels of introducing e...
This paper analyzes the economic and investment implications of a series of climate mitigation scena...
This paper explores the implications of delays (to 2030) in implementing optimal policies for long-t...
Global warming and its impacts on the environment, the human being and the economy are one of the bi...
This paper analyzes a set of global energy-economic development scenarios for the 21st century. The ...
We assess different policies for reducing carbon dioxide emissions and promoting innovation and diff...
A cumulative emissions approach is increasingly used to inform mitigation policy. However, there are...