Releases: chrisroadmap/loaded-dice
Climate uncertainty impacts on social cost of carbon and optimal mitigation pathways
This repository contains the code and data to reproduce all results in "Climate uncertainty impacts on social cost of carbon and optimal mitigation pathways".
The final published paper in Environmental Research Letters can be accessed from https://iopscience.iop.org/article/10.1088/1748-9326/acedc6.
v1.4 includes a number of additional figures and simulations to address reviewer comments after the first round of reviews. No previously submitted results have changed.
Climate uncertainty impacts on social cost of carbon and optimal mitigation pathways
This repository contains the code and data to reproduce all results in "Climate uncertainty impacts on social cost of carbon and optimal mitigation pathways", Smith et al., submitted.
A preprint of this paper is available at https://arxiv.org/abs/2304.08957.
v1.3 updates figure 3 to a 4-panel plot to include the impacts of aerosol forcing on mid-century CO2 emissions.
Climate uncertainty impacts on social cost of carbon and optimal mitigation pathways
Climate uncertainty impacts on social cost of carbon and optimal mitigation pathways
Code to reproduce figures and results from "Climate uncertainty impacts on social cost of carbon and optimal mitigation pathways", Smith et al., submitted.
This version shows the influence of aerosol forcing on SCC and emissions pathways, and the effect of using a well-calibrated setup of FaIR where ECS=3°C with different ECS values (breaking historical consistency).
Climate uncertainty impacts on social cost of carbon and optimal mitigation pathways
Code to reproduce figures and results from "Climate uncertainty impacts on social cost of carbon and optimal mitigation pathways", Smith et al., submitted.
Output data included in this version in the data_output folder.
Climate uncertainty impacts on social cost of carbon and optimal mitigation pathways
Code to reproduce figures and results from "Climate uncertainty impacts on social cost of carbon and optimal mitigation pathways", Smith et al., submitted.