A multiple-uncertainty analysis framework for integrated assessment modelling of several sustainable development goals

https://doi.org/10.1016/j.envsoft.2020.104795Get rights and content
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Highlights

  • An integrated assessment model is linked to a portfolio analysis model in two stages.

  • Technological subsidisation is modelled in different shared socioeconomic pathways.

  • Impacts on health, energy access and resulting emissions are considered uncertain.

  • We create a midpoint dataset and analyse uncertainty across the broad scenario range.

  • For validation, the most robust technological portfolios are simulated again in GCAM.

Abstract

This research introduces a two-level integration of climate-economy modelling and portfolio analysis, to simulate technological subsidisation with implications for multiple Sustainable Development Goals (SDGs), across socioeconomic trajectories and considering different levels of uncertainties. We use integrated assessment modelling outputs relevant for progress across three SDGs—namely air pollution-related mortality (SDG3), access to clean energy (SDG7) and greenhouse gas emissions (SDG13)—calculated with the Global Change Assessment Model (GCAM) for different subsidy levels for six sustainable technologies, across three Shared Socioeconomic Pathways (SSPs), feeding them into a portfolio analysis model. Optimal portfolios that are robust in the individual socioeconomic scenarios as well as across the socioeconomic scenarios are identified, by means of an SSP-robustness score. A second link between the two models is established, by feeding portfolio analysis results back into GCAM. Application in a case study for Eastern Africa confirms that most SSP-robust portfolios show smaller output ranges among scenarios.

Keywords

Integrated assessment modeling
Global change assessment model
Shared socioeconomic pathways
Sustainable development goals
Stochastic uncertainty
Scenario analysis

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