持続可能なエネルギーシステムを計画するとき、人のことを忘れてはいけない(When Planning Sustainable Energy Systems-Don’t Forget About People)

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2024-02-29 カリフォルニア大学サンディエゴ校(UCSD)

『国立科学アカデミー紀要』(PNAS)に掲載された新しい研究は、気候変動の緩和を形成するために一般的に使用されるモデルには人間の行動や規則を含める必要があり、モデルを適応させることができることを示している。気候変動目標を達成するために、国や政府、大企業は排出削減と持続可能なエネルギー源の導入の最良の方法を探している。これらのシステムの規模と複雑さが増すにつれて、適切なモデルを使用することが重要である。この研究では、制度要因を追加することで、持続可能性モデルを現実の問題に対処するためにどのように向上させるかを示している。

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持続可能性科学における組織の異質性のシミュレーション Simulating institutional heterogeneity in sustainability science

Michael R. Davidson , Tatiana Filatova , Wei Peng , +1, and Fikri Kucuksayacigil
Proceedings of the National Academy of Sciences  Published:February 15, 2024
DOI:https://doi.org/10.1073/pnas.2215674121

持続可能なエネルギーシステムを計画するとき、人のことを忘れてはいけない(When Planning Sustainable Energy Systems-Don’t Forget About People)

Significance

Sustainability outcomes are influenced by natural and engineered systems, as well as by social institutions—rules and norms in socio-economic systems. While the importance of formal and informal institutions is well established, incorporating institutions into computational models is challenging, limited by model structure and availability of relevant datasets. We compare simulation outcomes of three approaches: integrated assessment modeling, engineering–economic optimization, and agent-based modeling. Through adding institutional factors, we demonstrate concrete ways sustainability models can be enhanced to address real-world questions such as consumer adoption of clean energy technologies and national costs of climate mitigation. The next modeling frontier is to include how institutions evolve over time toward sustainability transitions, calling for joint efforts between modelers and social scientists.

Abstract

Sustainability outcomes are influenced by the laws and configurations of natural and engineered systems as well as activities in socio-economic systems. An important subset of human activity is the creation and implementation of institutions, formal and informal rules shaping a wide range of human behavior. Understanding these rules and codifying them in computational models can provide important missing insights into why systems function the way they do (static) as well as the pace and structure of transitions required to improve sustainability (dynamic). Here, we conduct a comparative synthesis of three modeling approaches— integrated assessment modeling, engineering–economic optimization, and agent-based modeling—with underexplored potential to represent institutions. We first perform modeling experiments on climate mitigation systems that represent specific aspects of heterogeneous institutions, including formal policies and institutional coordination, and informal attitudes and norms. We find measurable but uneven aggregate impacts, while more politically meaningful distributional impacts are large across various actors. Our results show that omitting institutions can influence the costs of climate mitigation and miss opportunities to leverage institutional forces to speed up emissions reduction. These experiments allow us to explore the capacity of each modeling approach to represent insitutions and to lay out a vision for the next frontier of endogenizing institutional change in sustainability science models. To bridge the gap between modeling, theories, and empirical evidence on social institutions, this research agenda calls for joint efforts between sustainability modelers who wish to explore and incorporate institutional detail, and social scientists studying the socio-political and economic foundations for sustainability transitions.

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