Modelización de los efectos macroeconómicos del calentamiento global
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1
Universitat de València
info
- 2 BBVA Research y Universidad de Valencia
ISSN: 0019-977X, 2340-8790
Ano de publicación: 2023
Título do exemplar: Hacia una economía descarbonizada: transición energética en la Unión Europea
Número: 932
Páxinas: 165-185
Tipo: Artigo
Outras publicacións en: Información Comercial Española, ICE: Revista de economía
Resumo
En este artículo realizamos una panorámica de los modelos macroeconómicos medioambientales que abordan los costes económicos del cambio climático, y simulan los efectos de las políticas con las que reducir las emisiones de gases de efecto invernadero, mediante impuestos medioambientales que reflejen el coste social del carbono y las inversiones en nuevas tecnologías que permiten reducir o capturar las emisiones de CO2 y producir energía verde. En el artículo también se resumen los principales resultados de la investigación empírica que, utilizando distintas metodologías econométricas, estima los efectos económicos del cambio climático y de la imposición medioambiental.
Referencias bibliográficas
- Acemoglu, D., Aghion, P., Bursztyn, L., & Hemous, D. (2012). The Environment and Directed Technical Change. American Economic Review, 102(1), 131-166.
- Andersson, J. J. (2019). Carbon Taxes and CO2 Emissions: Sweden as a Case Study. American Economic Journal: Economic Policy, 11(4), 1-30.
- Andrés, J. y Doménech, R. (2020). Cambio Climático y Crecimiento Económico. Revista de Geoeconomía. http://https://bit.ly/3I845OA
- Andrés, J., Boscá, J. E., Doménech, R., & Ferri, J. (2023). Net-Zero Transition and Welfare in General Equilibrium. BBVA Research. Mimeo.
- Andrés, J., Barrutiabengoa, J. M., Cubero, J. J., & Doménech, R. (2023). Social Welfare and the Social Cost of Carbon (BBVA Research Working Paper No. 23/04). Banco Bilbao Vizcaya Argentaria. http://t.ly/yH7h
- Annicchiarico, B., Carattini, S., Fischer, C., & Heutel, G. (2021). Business cycles and environmental policy: Literature review and policy implications (NBER Working Paper N0. 29032). National Bureau of Economic Research.
- Annicchiarico, B., & Di Dio, F. (2015). Environmental policy and macroeconomic dynamics in a new Keynesian model. Journal of Environmental Economics and Management, 69, 1-21. http://t.ly/f-XQF
- Auffhammer, M. (2018). Quantifying economic damages from climate change. Journal of Economic Perspectives, 32(4), 33-52. https://rb.gy/qcmah
- Barrutiabengoa, J. M., Cubero, J. J., & Más, P. (2022). Measuring the CO2 Footprint of European Households: A comprehensive approach. BBVA Research. http://bit.ly/3PZpwG6
- Batten, S. (2018). Climate change and the macro-economy: a critical review (Bank of England Working Paper No. 706). http://t.ly/bD-hK
- BCE. (2021). Climate change and monetary policy in the euro area (BCE Occasional Paper Series No. 271). Banco Central Europeo. http://bit.ly/3NPikd0
- Blanchard, O., Gollier, C., & Tirole, J. (2022). The portfolio of economic policies needed to fight climate change. Annual Review of Economics, 15, 689-722. http://t.ly/j6e1u
- Botzen, W., Deschenes, O., & Sanders, M. (2019). The Economic Impacts of Natural Disasters: A Review of Models and Empirical Studies. Review of Environmental Economics and Policy, 13(2), 167-188. Association of Environmental and Resource Economists. https://rb.gy/a70zc
- Brand, C., Coenen, G., Hutchinson, J., & Saint Guilhem, A. (2023, May 25). How will higher carbon prices affect growth andinflation? The ECB Blog. http://t.ly/h8ZLp
- Burke, M., Davis, W. M., & Diffenbaugh, N. S. (2018). Large potential reduction in economic damages under UN mitigation targets. Nature, 557, 549-553. http://t.ly/ti2uE
- Dell, M., Jones, B. F., & Olken, B. A. (2014). What Do We Learn from the Weather? The New Climate-Economy Literature. Journal of Economic Literature, 52(3), 740-798. http://bit.ly/352jzOz
- Dietz, S., & Stern, N. (2015). Endogenous growth, convexity of damage and climate risk: how Nordhaus' framework supports deep cuts in carbon emissions. The Economic Journal, 125(583), 574-620. http://bitly.ws/F7DK
- Golosov, M., Hassler, J., Krusell, P., & Tsyvinski, A. (2014). Optimal taxes on fossil fuel in general equilibrium. Econometrica, 82(1), 41-88. http://bit.ly/2th7zLb
- Graff Zivin, J., & Neidell, M. (2014). Temperature and the allocation of time: Implications for climate change. Journal of Labor Economics, 32(1), 1-26. https://rb.gy/hyfb0
- Hassler. (2023). Lecture Notes on Climate Damages. Institute for International Economic Studies (IIES). Mimeo. http://bit.ly/3OzlLGJ
- Hassler, J., Krusell, P., Olovsson, C., & Reiter, M. (2020). On the effectiveness of climate policies (IIES Working Paper). Institute for International Economic Studies. https://bit.ly/3LtgIFN
- Hausfather, Z. (2018, June 19). How scientists estimate ‘climate sensitivity’. CarbonBrief. http://t.ly/T7Wmg
- Heutel, G. (2012). How should environmental policy respond to business cycles? Optimal policy under persistent productivity shocks. Review of Economic Dynamics, 15(2), 244-264.
- Howard, P. H., & Sterner, T. (2017). Few and not so far between: a meta-analysis of climate damage estimates. Environmental and Resource Economics, 68(1), 197-225.
- Huber, M., & Knutti, R. (2012). Anthropogenic and natural warming inferred from changes in Earth’s energy balance. Nature Geoscience, 5(1), 31-36. http://t.ly/t1UJ
- IPCC. (2023). Climate Change 2023. AR6 Synthesis Report. Intergovernmental Panel on Climate Change. https://www.ipcc.ch/report/ar6/syr/
- Jouzel, J., Masson-Delmotte, V., Cattani, O., Dreyfus, G., Falourd, S., Hoffmann, G., Minster, B., Nouet, J., Chappellaz, J., Fischer, H., Gallet, J. C., Johnsen, S., Leuenberger, M., Loulergue, L., Luethi, D., Oerter, H., Parrenin, F., Raisbeck, G., Raynaud, D.,... & Wolff, E. W. (2007). Orbital and millennial Antarctic climate variability over the past 800,000 years. Science, 317(5839), 793-796.
- Kahn, M. E., Mohaddes, K., Ng, R. N., Pesaran, M. H., Raissi, M., & Yang, J.-C. (2021). Long-term macroeconomic effects of climate change: A cross-country analysis. Energy Economics, 104, 105624. https://rb.gy/wumpt
- Kalkuhl, M., & Wenz, L. (2020). The impact of climate conditions on economic production. Evidence from a global panel of regions. Journal of Environmental Economics and Management, 103, 102360. https://doi.org/10.1016/j.jeem.2020.102360
- Känzig, D. R. (2021). The unequal economic consequences of carbon pricing. Social Science Research Network (SSRN), 3786030. http://bit.ly/42b3Klc
- Känzig, D. R., & Konradt, M. (2023). Climate Policy and the Economy: Evidence from Europe's Carbon Pricing Initiatives (NBER Working Paper No. 31260). National Bureau of Economic Research. http://t.ly/Rxpk
- Kotz, M., Levermann, A., & Wenz, L. (2022). The effect of rain fall changes on economic production. Nature, 601(7892), 223-227. http://t.ly/UWa_
- Kotz, M., Wenz, L., Stechemesser, A., Kalkuhl, M., & Levermann, A. (2021). Day-to-day temperature variability reduces economic growth. Nature Climate Change, 11(4), 319-325. http://t.ly/Vfe5
- Lamb, W. F., Wiedmann, T., Pongratz, J., Andrew, R., Crippa, M., Olivier, J. G. J., Wiedenhofer, D., Mattioli, G., Khourdajie, A. A, House, J., Pachauri, S., Figueroa, M., Saheb, Y., Slade, R., Hubacek, K., Sun, L., Ribeiro, S. K., Khennas, S., de la Rue du Can, S.,... & Minx, J. (2021). A review of trends and drivers of greenhouse gas emissions by sector from 1990 to 2018. Environmental Research Letters, 16(7), 073005. https://doi.org/10.1088/1748-9326/abee4e
- Letta, M., & Tol, R. S. J. (2019). Weather, climate and total factor productivity. Environmental and Resource Economics, 73(1), 283-305. https://rb.gy/jrchs
- Lüthi, D., Le Floch, M., Bereiter, B., Blunier, T., Barnola, J. M., Siegenthaler, U., Raynaud, D., Jouzel, J., Fischer, H., Kawamura, K., & Stocker, T. F. (2008). High-resolution carbon dioxide concentration record 650,000-800,000 years before present. Nature, 453(7193), 379-382.
- Metcalf, G. E. (2019). On the Economics of a Carbon Tax for the United States. In Brookings Papers on Economic Activity: Spring 2019 (pp. 405-458). Brookings Institution.
- Metcalf, G. E., & Stock, J. H. (2020a). “Measuring the macroeconomic impact of carbon taxes. AEA Papers and Proceedings, 110, 101-106. http://t.ly/Wl_f
- Metcalf, G. E., & Stock, J. H. (2020b). The macroeconomic impact of Europe’s carbon taxes (NBER Working Paper No. 27488). National Bureau of Economic Research. http://t.ly/XZI0
- Mokyr, J. (2018). The Past and the Future of Innovation: some lessons from Economic History. Explorations in Economic History, 69, 13-26.
- Newell, R. G., Prest, B. C., & Sexton, S. E. (2021). The GDP-temperature relationship: implications for climate change damages. Journal of Environmental Economics and Management, 108, 102445.
- NGFS. (2022). NGFS Scenarios for Central Banks and Supervisors. Network of Central Banks and Supervisors for Greening the Financial System. http://bit.ly/3pCxydA
- NOOA. (2022). Trends in Atmospheric Carbon Dioxide. National Oceanic & Atmospheric Administration, U. S. Department of Commerce. http://t.ly/R32-
- Nordhaus, W. D. (1977). Economic growth and climate: the carbon dioxide problem. The American Economic Review, 67(1), 341-346.
- Nordhaus, W. D. (1992). An optimal transition path for controlling greenhouse gases. Science, 258(5086), 1315-1319.
- Nordhaus, W. D. (1993). Rolling the «dice»: an optimal transition path for controlling greenhouse gases. Resource and Energy Economics, 15(1), 27-50.
- Nordhaus, W. D. (2007). The Challenge of Global Warming: Economic Models and Environmental Policy. Yale University. https://bit.ly/3EnYZeE
- Nordhaus, W. D. (2013). The climate casino: risk, uncertainty, and economics for a warming world. Yale University Press.
- Nordhaus, W. D. (2018). Evolution of modeling of the economics of global warming: Changes in the DICE model, 1992-2017. Climatic Change, 148(4), 623-640. http://bit.ly/2PPq4PG
- Nordhaus, W. D., & Moffat, A. (2017). A survey of global impacts of climate change: replication, survey methods, and a statistical analysis (NBER Working Paper No. 23646). National Bureau of Economic Research.
- O'Hara Jr., F. (1990). Glossary: Carbon Dioxide and Climate. Carbon Dioxide Information Analysis Center. Third Edition.
- Pindyck, R. S. (2013). Climate Change Policy: What Do the Models Tell Us? Journal of Economic Literature, 51(3), 860-872. http://bit.ly/2P2ED1H
- Pindyck, R. S. (2017). The Use and Misuse of Models for Climate Policy. Review of Environmental Economics and Policy, 11(1), 100-114. https://t.ly/NkMh
- Rezai, A., & van der Ploeg, F. (2016). Intergenerational Inequality Aversion, Growth, and the Role of Damages: Occam’s Rule for the Global Carbon Tax. Journal of the Association of Environmental and Resource Economists, 3(2), 493-522. https://rb.gy/0wbfb
- Riahi, K., van Vuuren, D. P., Kriegler, E., Edmonds, J., O’Neill, B. C., Fujimori, S., Bauer, N., Calvin, K., Dellink, R., Fricko, O., Lutz, W., Popp, A., Cuaresma, J. C., KC, S., Leimbach, M., Jiang, L., Kram, T., Rao, S., Emmerling, J.,… & Tavoni, M. (2017). The Shared Socioeconomic Pathways and their energy, land use, and greenhouse gas emissions implications: An overview. Global Environmental Change, 42, 153-168. http://t.ly/hJXR
- Stern, N. (2013). The structure of economic modeling of the potential impacts of climate change: grafting gross underestimation of risk onto already narrow science models. Journal of Economic Literature, 51(3), 838-859.
- Stern, N. (2018). Public economics as if time matters: Climate change and the dynamics of policy. Journal of Public Economics, 162, 4-17. https://rb.gy/woil7
- Stern, N. (2022). Towards a carbon neutral economy: How government should respond to market failures and market absence. Journal of Government and Economics, 6(1-2), 100036. http://dx.doi.org/10.1016/j.jge.2022.100036
- Stiglitz, J. (2019, December 9). Is Growth Passé? Project Syndicate. http://bit.ly/2PF4aNM
- Tol, R. S. (2009). The economic effects of climate change. Journal of Economic Perspectives, 23(2), 29-51. https://doi.org/10.1257/jep.23.2.29
- Tol, R. S. (2018). The economic impacts of climate change. Review of Environmental Economics and Policy, 12(1), 4-25. https://www.journals.uchicago.edu/doi/epdf/10.1093/reep/rex027
- Tol, R. S. (2019). A social cost of carbon for (almost) every country. Energy Economics, 83, 555-566. http://bit.ly/2QjoA0n
- Tol, R. S. (2022). A meta-analysis of the total economic impact of climate change. arXiv preprint arXiv:2207.12199.
- Tol, R. S. (2023). Social cost of carbon estimates have increased over time. Nature Climate Change, 13(6), 1-5. http://t.ly/Wl5oW
- Tsigaris, P., & Wood, J. (2016). A simple climate-Solow model for introducing the economics of climate change to undergraduate students. International Review of Economics Education, 23, 65-81. http://t.ly/msDS
- Tsigaris, P., & Wood, J. (2019). The potential impacts of climate change on capital in the 21st century. Ecological Economics, 162, 74-86.https://rb.gy/vjtqr
- Weitzman, M. (2012). GHG targets as insurance against catastrophic climate damages. Journal of Public Economic Theory, 14(2), 221-244. https://t.ly/Qm9W