Malafry, Laurence and Soares Brinca, Pedro (2021): Climate Policy in an Unequal World: Assessing the Cost of Risk on Vulnerable Households.
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Abstract
Policy makers concerned with setting optimal values for carbon instruments to address climate change externalities often employ integrated assessment models (IAMs). While these models differ on their assumptions of climate damage impacts, discounting and technology, they conform on their assumption of complete markets and a representative household. In the face of global inequality and significant vulnerability of asset poor households, we relax the complete markets assumption and introduce a realistic degree of global household inequality. In contrast to the representative agent framework, we find that a household’s position on the global wealth distribution predicts the identity of their most-preferred carbon price. Specifically, poor agents prefer strong public action against climate change to mitigate the risk for which they are implicitly more vulnerable. We find the carbon tax fills the role of insurance, reducing the volatility of future welfare. It is this role that drives the wedge between rich and poor households’ policy preferences, even in the absence of redistribution. Taking into account the risk channel, we find an optimal tax value four times larger than standard estimates from representative agent models.
Item Type: | MPRA Paper |
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Original Title: | Climate Policy in an Unequal World: Assessing the Cost of Risk on Vulnerable Households |
Language: | English |
Keywords: | Climate change, Inequality, Risk, Optimal carbon policy |
Subjects: | H - Public Economics > H2 - Taxation, Subsidies, and Revenue > H23 - Externalities ; Redistributive Effects ; Environmental Taxes and Subsidies H - Public Economics > H3 - Fiscal Policies and Behavior of Economic Agents > H31 - Household Q - Agricultural and Natural Resource Economics ; Environmental and Ecological Economics > Q5 - Environmental Economics > Q54 - Climate ; Natural Disasters and Their Management ; Global Warming Q - Agricultural and Natural Resource Economics ; Environmental and Ecological Economics > Q5 - Environmental Economics > Q58 - Government Policy |
Item ID: | 106420 |
Depositing User: | Pedro Brinca |
Date Deposited: | 05 Mar 2021 03:55 |
Last Modified: | 24 Dec 2024 02:27 |
References: | [1] Anthoff, D., Hepburn, C., and Tol, R. S. (2009a). Equity weighting and the marginal damage costs of climate change. Ecological Economics, 68(3):836–849. [2] Anthoff, D., Tol, R. S., and Yohe, G. (2009b). Discounting for climate change. Economics: The Open-Access, Open-Assessment E-Journal, 3. [3] Arrhenius, S. (1896). Xxxi. on the influence of carbonic acid in the air upon the temperature of the ground. The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science, 41(251):237–276. [4] Bosetti, V., Carraro, C., Galeotti, M., Massetti, E., and Tavoni, M. (2006). A world induced technical change hybrid model. The Energy Journal, (Special Issue# 2). [5] Bosetti, V. and Maffezzoli, M. (2013). Taxing carbon under market incompleteness. [6] Carleton, T. A. and Hsiang, S. M. (2016). Social and economic impacts of climate. Science, 353(6304). [7] Davies, J. B., Sandstr¨om, S., Shorrocks, A., and Wolff, E. N. (2011). The level and distribution of global household wealth. The Economic Journal, 121(551):223–254. [8] Dell, M., Jones, B. F., and Olken, B. A. (2013). What do we learn from the weather? the new climate-economy literature. Technical report, National Bureau of Economic Research. [9] Dennig, F., Budolfson, M. B., Fleurbaey, M., Siebert, A., and Socolow, R. H. (2015). Inequality, climate impacts on the future poor, and carbon prices. Proceedings of the National Academy of Sciences, 112(52):15827–15832. [10] Diffenbaugh, N. S. and Burke, M. (2019). Global warming has increased global economic inequality. Proceedings of the National Academy of Sciences, 116(20):9808–9813. [11] Floden, M. (2001). The effectiveness of government debt and transfers as insurance. Journal of Monetary Economics, 48(1):81–108. [12] Fremstad, A. and Paul, M. (2019). The impact of a carbon tax on inequality. Ecological Economics, 163:88–97. [13] Fried, S., Novan, K., and Peterman, W. B. (2018). The distributional effects of a carbon tax on current and future generations. Review of Economic Dynamics, 30:30–46. [14] Gerst, M. D., Howarth, R. B., and Borsuk, M. E. (2010). Accounting for the risk of extreme outcomes in an integrated assessment of climate change. Energy Policy, 38(8):4540–4548. [15] Golosov, M., Hassler, J., Krusell, P., and Tsyvinski, A. (2014). Optimal taxes on fossil fuel in general equilibrium. Econometrica, 82(1):41–88. [16] Hassler, J., Krusell, P., and Smith Jr, A. A. (2016). Environmental macroeconomics. In Handbook of macroeconomics, volume 2, pages 1893–2008. Elsevier. [17] Hellebrandt, T. and Mauro, P. (2015). The future of worldwide income distribution. Peterson Institute for international economics working paper, (15-7). [18] Howarth, R. B., Gerst, M. D., and Borsuk, M. E. (2014). Risk mitigation and the social cost of carbon. Global environmental change, 24:123–131. [19] Hubmer, J., Krusell, P., and Smith Jr, A. A. (2020). Sources of us wealth inequality: Past, present, and future. In NBER Macroeconomics Annual 2020, volume 35. University of Chicago Press. [20] Islam, N. and Winkel, J. (2017). Climate change and social inequality. [21] Jorda, O ., Knoll, K., Kuvshinov, D., Schularick, M., and Taylor, A. M. (2019). The rate of return on everything, 1870–2015. The Quarterly Journal of Economics, 134(3):1225–1298. [22] Krusell, P. and Smith, Jr, A. A. (1998). Income and wealth heterogeneity in the macroeconomy. Journal of political Economy, 106(5):867–896. [23] Krusell, P. and Smith Jr, A. A. (2015). Climate change around the world. In Work in progress, Walras-Bowley Lecture. Econometric Society 2015 World Congress, Montreal. [24] Lakner, C. and Milanovic, B. (2016). Global income distribution: from the fall of the berlin wall to the great recession. The World Bank Economic Review, 30(2):203–232. [25] Leimbach, M., Bauer, N., Baumstark, L., and Edenhofer, O. (2010). Mitigation costs in a globalized world: climate policy analysis with remind-r. Environmental modeling & assessment, 15(3):155–173. [26] Mankiw, N. G. (1986). The equity premium and the concentration of aggregate shocks. Journal of Financial Economics, 17(1):211–219. [27] Monasterolo, I., Roventini, A., and Foxon, T. J. (2019). Uncertainty of climate policies and implications for economics and finance: An evolutionary economics approach. Ecological Economics, 163:177–182. [28] Nordhaus, W. and Sztorc, P. (2013). Dice 2013r: Introduction and user’s manual. retrieved November. [29] Nordhaus, W. D. (2008). A question of balance: economic modeling of global warming. [30] Nordhaus, W. D. and Yang, Z. (1996). Rice: a regional dynamic general equilibrium model of optimal climate-change policy. American Economic Review, 86(4):741–765. [31] O’Hara, P. A. (2009). Political economy of climate change, ecological destruction and uneven development. Ecological Economics, 69(2):223–234. [31] Olsson, L., Opondo, M., Tschakert, P., Agrawal, A., Eriksen, S. E., et al. (2014). Livelihoods and poverty. [32] Saelen, H., Atkinson, G., Dietz, S., Helgeson, J., and Hepburn, C. J. (2008). Risk, inequality and time in the welfare economics of climate change: is the workhorse model underspecified. University of Oxford Department of Economics Working Paper, 400. [33] Skoufias, E. (2012). The poverty and welfare impacts of climate change: quantifying the effects, identifying the adaptation strategies. World Bank Publications. [34] Solomon, S., Qin, D., Manning, M., Chen, Z., Marquis, M., Averyt, K., Tignor, M., Miller, H., et al. (2007). Summary for policymakers. Climate change 2007: the physical science basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change,pages 1–18. [35] Stern, N. (2007). The economics of climate change: the Stern review. cambridge University press. [36] Tol, R. S. (1997). On the optimal control of carbon dioxide emissions: an application of fund. Environmental Modeling & Assessment, 2(3):151–163. [37] Tol, R. S. (2009). The economic effects of climate change. The Journal of Economic Perspectives, 23(2):29–51. |
URI: | https://mpra.ub.uni-muenchen.de/id/eprint/106420 |
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Climate Policy in an Unequal World: Assessing the Cost of Risk on Vulnerable Households. (deposited 10 May 2020 12:17)
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