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This article was conducted by Victoria Watts and Solenn Le Goff and originally published in the Department magazine .inspired No. 16 in German.
Economists agree that technological innovation is endogenous and responds to policies and regulation. However, when it comes to climate change, the literature focuses on models in which technological change is exogenous and policies have no effect on the pace and path of innovation. Conclusions drawn from this exogeneity assumption have serious consequences. These are amplified as technological innovation is path dependent: decisions for a specific approach become self-perpetuating as it becomes harder to switch technology further down the line even if the chosen approach has obvious flaws.
Compared to local economic issues, global challenges have added layers of complexity. Mutual consent on appropriate global action in tackling climate change is hard to achieve and unilateral regulations, such as carbon taxes are often criticized for triggering a relocation of energy intensive production into unregulated markets.
David Hémous and co-authors create a new framework incorporating path dependency and the effect of public policies on innovation efforts. Assume an economy that produces one good. It can do this with fossil fuel or a clean energy. If fossil fuel energy is cheaper than clean energy, the economy will rely more on fossil fuels than on clean energy. Since the two inputs are substitutes, the fossil fuel sector will also earn higher revenues. This leads to innovation further improving the fossil fuel technology, e.g. better turbines for natural gas power plants. It also leads to less or nor innovation into clean energy, e.g. better blades for windmills.
Returning to the carbon tax example above: path dependency and the current high share of fossil-fuel energy production in China increases fossil-fuel-based innovations there, while the reduced demand for energy in regulated European countries will reduce green energy innovation here. In extreme cases, unilateral carbon taxes may even backfire and increase total emissions.
The paper argues that there it is possible to reduce emissions in both regulated and the unregulated countries in the long run. The unilateral green industrial policy combines clean research subsidies, trade policy and carbon taxes with the goal of supporting clean energy innovation in the regulated country. If research subsidies are maintained sufficiently long so that clean technologies become better than dirty ones, then the same forces which were pushing toward dirty innovation beforehand will favor clean innovation, making future subsidies obsolete.
This article was conducted by Victoria Watts and Solenn Le Goff and originally published in the Department magazine .inspired No. 16 in German.
Economists agree that technological innovation is endogenous and responds to policies and regulation. However, when it comes to climate change, the literature focuses on models in which technological change is exogenous and policies have no effect on the pace and path of innovation. Conclusions drawn from this exogeneity assumption have serious consequences. These are amplified as technological innovation is path dependent: decisions for a specific approach become self-perpetuating as it becomes harder to switch technology further down the line even if the chosen approach has obvious flaws.
Acemoglu, Aghion, Bursztyn and Hémous. 2012. The environment and directed technical change. American Economic Review, 102 (1): 131-66.
Hémous, David. 2016. The dynamic impact of unilateral environmental policies. Journal of International Economics, 103: 80-95.
David Hémous received his PhD from Harvard University in 2012. He is a macroeconomist working on economic growth, climate change and inequality. His work highlights that innovation responds to economic incentives and that public policies should be designed taking this dependence into account. In particular, he has shown in the context of climate change policy that innovations in the car industry respond to gas prices and that global and regional climate policies should support clean innovation to efficiently reduce CO2 emissions. His work on technological change and income distribution shows that higher labor costs lead to more automation, and that the recent increase in labor income inequality and in the capital share can be explained by a secular increase in automation. He has also shown that innovation affects top income shares. He was awarded an ERC Starting Grant on 'Automation and Income Distribution – a Quantitative Assessment' and he received the 2022 'European Award for Researchers in Environmental Economics under the Age of Forty'.
David Hémous received his PhD from Harvard University in 2012. He is a macroeconomist working on economic growth, climate change and inequality. His work highlights that innovation responds to economic incentives and that public policies should be designed taking this dependence into account. In particular, he has shown in the context of climate change policy that innovations in the car industry respond to gas prices and that global and regional climate policies should support clean innovation to efficiently reduce CO2 emissions. His work on technological change and income distribution shows that higher labor costs lead to more automation, and that the recent increase in labor income inequality and in the capital share can be explained by a secular increase in automation. He has also shown that innovation affects top income shares. He was awarded an ERC Starting Grant on 'Automation and Income Distribution – a Quantitative Assessment' and he received the 2022 'European Award for Researchers in Environmental Economics under the Age of Forty'.