最新最全参考文献:气候经济、环境经济、能源经济

发布时间:2022-11-28 阅读 1947

Stata连享会   主页 || 视频 || 推文 || 知乎 || Bilibili 站

温馨提示: 定期 清理浏览器缓存,可以获得最佳浏览体验。

New! lianxh 命令发布了:
随时搜索推文、Stata 资源。安装:
. ssc install lianxh
详情参见帮助文件 (有惊喜):
. help lianxh
连享会新命令:cnssc, ihelp, rdbalance, gitee, installpkg

课程详情 https://gitee.com/lianxh/Course

课程主页 https://gitee.com/lianxh/Course

⛳ Stata 系列推文:

PDF下载 - 推文合集


目录


Climate econ literature

Source: 本文内容摘录自 Asjad Naqvi 教授的 github 仓库 climate-econ。该仓库一直在更新,网址为:
https://github.com/asjadnaqvi/climate-econ

  • Topics are sorted below under broad thematic areas. This repository is still incompletely. It is constantly being updated and will eventually move to a decidated website.
  • If you would like to include your paper, or other papers, or your own bibliography collection, then PR in the bibliography_submitted folder please with a .bib file. Alternatively, you can also open an Issue with links to papers and resources.

Fiscal instruments

Carbon tax

  • Adetutu, M. O., Odusanya, K. A., & Weyman-Jones, T. G. (2020). Carbon Tax and Energy Intensity: Assessing the Channels of Impact using UK Microdata. The Energy Journal, 41(2). Link, PDF
  • Andrade de Sá, S., & Daubanes, J. (2016). Limit pricing and the (in)effectiveness of the carbon tax. Journal of Public Economics, 139, 28–39. Link, PDF
  • Austin, D., & Dinan, T. (2005). Clearing the air: The costs and consequences of higher CAFE standards and increased gasoline taxes. Journal of Environmental Economics and Management, 50(3), 562–582. Link, PDF
  • Böhringer, C., Carbone, J. C., & Rutherford, T. F. (2016). The Strategic Value of Carbon Tariffs. American Economic Journal: Economic Policy, 8(1), 28–51. Link, PDF
  • Carattini, S., Baranzini, A., Thalmann, P., Varone, F., & Vöhringer, F. (2017). Green Taxes in a Post-Paris World: Are Millions of Nays Inevitable? Environmental and Resource Economics, 68(1), 97–128. Link, PDF
  • Chiroleu-Assouline, M., & Fodha, M. (2014). From regressive pollution taxes to progressive environmental tax reforms. European Economic Review, 69, 126–142. Link, PDF
  • Convery, F., McDonnell, S., & Ferreira, S. (2007). The most popular tax in Europe? Lessons from the Irish plastic bags levy. Environmental and Resource Economics, 38(1), 1–11. Link, PDF
  • Fremstad, A., & Paul, M. (2019). The Impact of a Carbon Tax on Inequality. Ecological Economics, 163, 88–97. Link, PDF
  • Goulder, L. H., Hafstead, M. A. C., Kim, G., & Long, X. (2019). Impacts of a carbon tax across US household income groups: What are the equity-efficiency trade-offs? Journal of Public Economics, 175, 44–64. Link, PDF
  • Grainger, C. A., & Kolstad, C. D. (2010). Who Pays a Price on Carbon? Environmental and Resource Economics, 46(3), 359–376. Link, PDF
  • Hagmann, D., Ho, E. H., & Loewenstein, G. (2019). Nudging out support for a carbon tax. Nature Climate Change, 9(6), 484–489. Link, PDF
  • Hepburn, C., Stern, N., & Stiglitz, J. E. (2020). “Carbon pricing” special issue in the European economic review. European Economic Review, 127, 103440. Link, PDF
  • Leslie, G. (2018). Tax induced emissions? Estimating short-run emission impacts from carbon taxation under different market structures. Journal of Public Economics, 167, 220–239. Link, PDF
  • Lin, B., & Li, X. (2011). The effect of carbon tax on per capita CO2 emissions. Energy Policy, 39(9), 5137–5146. Link, PDF
  • Marron, D. B., & Toder, E. J. (2014). Tax Policy Issues in Designing a Carbon Tax. American Economic Review, 104(5), 563–568. Link, PDF
  • Martin, R., de Preux, L. B., & Wagner, U. J. (2014). The impact of a carbon tax on manufacturing: Evidence from microdata. Journal of Public Economics, 117, 1–14. Link, PDF
  • Metcalf, G. E. (2009). Designing a Carbon Tax to Reduce U.S. Greenhouse Gas Emissions. Review of Environmental Economics and Policy, 3(1), 63–83. Link, PDF
  • Nordhaus, W. D. (2007). To Tax or Not to Tax: Alternative Approaches to Slowing Global Warming. Review of Environmental Economics and Policy, 1(1), 26–44. Link, PDF
  • Seifert, J., Uhrig-Homburg, M., & Wagner, M. (2008). Dynamic behavior of CO2 spot prices. Journal of Environmental Economics and Management, 56(2), 180–194. Link, PDF
  • Summers, L. (2015, January 4). Let this be the year when we put a proper price on carbon. Financial Times.
  • World Bank. (2014). State and Trends of Carbon Pricing 2014. The World Bank. Link, PDF
  • Yamazaki, A. (2022). Environmental taxes and productivity: Lessons from Canadian manufacturing. Journal of Public Economics, 205, 104560. Link, PDF

Climate Politics

  • Abrell, J., Kosch, M., & Rausch, S. (2019). Carbon abatement with renewables: Evaluating wind and solar subsidies in Germany and Spain. Journal of Public Economics, 169, 172–202. Link, PDF
  • Accordino, M. H., & Rajagopal, D. (2015). When a National Cap-and-Trade Policy with Carve-out Provision May Be Preferable to a National CO2 Tax. The Energy Journal, 36(3). Link, PDF
  • Aichele, R., & Felbermayr, G. (2012). Kyoto and the carbon footprint of nations. Journal of Environmental Economics and Management, 63(3), 336–354. Link, PDF
  • Aklin, M., & Mildenberger, M. (2020). Prisoners of the Wrong Dilemma: Why Distributive Conflict, Not Collective Action, Characterizes the Politics of Climate Change. Global Environmental Politics, 20(4), 4–27. Link, PDF
  • Albrizio, S., Kozluk, T., & Zipperer, V. (2017). Environmental policies and productivity growth: Evidence across industries and firms. Journal of Environmental Economics and Management, 81, 209–226. Link, PDF
  • Aldy, J. E., Krupnick, A. J., Newell, R. G., Parry, I. W. H., & Pizer, W. A. (2010). Designing Climate Mitigation Policy. Journal of Economic Literature, 48(4), 903–934. Link, PDF
  • Ambec, S., Cohen, M. A., Elgie, S., & Lanoie, P. (2013). The Porter Hypothesis at 20: Can Environmental Regulation Enhance Innovation and Competitiveness? Review of Environmental Economics and Policy, 7(1), 2–22. Link, PDF
  • Arimura, T. H., Hibiki, A., & Katayama, H. (2008). Is a voluntary approach an effective environmental policy instrument? Journal of Environmental Economics and Management, 55(3), 281–295. Link, PDF
  • Auty, R. M. (2001). The political economy of resource-driven growth. European Economic Review, 45(4–6), 839–846. Link, PDF
  • Benke, K., & Tomkins, B. (2017). Future food-production systems: vertical farming and controlled-environment agriculture. Sustainability: Science, Practice and Policy, 13(1), 13–26. Link, PDF
  • Bennear, L. S., & Stavins, R. N. (2007). Second-best theory and the use of multiple policy instruments. Environmental and Resource Economics, 37(1), 111–129. Link, PDF
  • Berman, E., & Bui, L. T. M. (2001). Environmental Regulation and Productivity: Evidence from Oil Refineries. Review of Economics and Statistics, 83(3), 498–510. Link, PDF
  • Bernardo, V., Fageda, X., & Flores-Fillol, R. (2021). Pollution and congestion in urban areas: The effects of low emission zones. Economics of Transportation, 26–27, 100221. Link, PDF
  • Bohringer, C. (2002). Climate Politics from Kyoto to Bonn: From Little to Nothing? The Energy Journal, 23(2). Link, PDF
  • Breetz, H., Mildenberger, M., & Stokes, L. (2018). The political logics of clean energy transitions. Business and Politics, 20(4), 492–522. Link, PDF
  • Cao, S., Zhong, B., Yue, H., Zeng, H., & Zeng, J. (2009). Development and testing of a sustainable environmental restoration policy on eradicating the poverty trap in China’s Changting County. Proceedings of the National Academy of Sciences, 106(26), 10712–10716. Link, PDF
  • Charpentier, A., & le Maux, B. (2014). Natural catastrophe insurance: How should the government intervene? Journal of Public Economics, 115, 1–17. Link, PDF
  • Ciccarelli, M., & Marotta, F. (2021). Demand or Supply? An Empirical Exploration of the Effects of Climate Change on the Macroeconomy. SSRN Electronic Journal. Link, PDF
  • Claudet, J., Bopp, L., Cheung, W. W. L., Devillers, R., Escobar-Briones, E., Haugan, P., Heymans, J. J., Masson-Delmotte, V., Matz-Lück, N., Miloslavich, P., Mullineaux, L., Visbeck, M., Watson, R., Zivian, A. M., Ansorge, I., Araujo, M., Aricò, S., Bailly, D., Barbière, J., … Gaill, F. (2020). A Roadmap for Using the UN Decade of Ocean Science for Sustainable Development in Support of Science, Policy, and Action. One Earth, 2(1), 34–42. Link, PDF
  • Coady, D., Parry, I., Sears, L., & Shang, B. (2017). How Large Are Global Fossil Fuel Subsidies? World Development, 91, 11–27. Link, PDF
  • Colgan, J. D., Green, J. F., & Hale, T. N. (2021). Asset Revaluation and the Existential Politics of Climate Change. International Organization, 75(2), 586–610. Link, PDF
  • Currie, J., & Walker, R. (2019). What Do Economists Have to Say about the Clean Air Act 50 Years after the Establishment of the Environmental Protection Agency? Journal of Economic Perspectives, 33(4), 3–26. Link, PDF
  • de Area Leão Pereira, E. J., Silveira Ferreira, P. J., de Santana Ribeiro, L. C., Sabadini Carvalho, T., & de Barros Pereira, H. B. (2019). Policy in Brazil (2016–2019) threaten conservation of the Amazon rainforest. Environmental Science & Policy, 100, 8–12. Link, PDF
  • Dechezleprêtre, A., & Sato, M. (2017). The Impacts of Environmental Regulations on Competitiveness. Review of Environmental Economics and Policy, 11(2), 183–206. Link, PDF
  • Dechezleprêtre, A., Fabre, A., Kruse, T., Planterose, B., Chico, A. S., & Stantcheva, S. (2022). Fighting Climate Change: International Attitudes Toward Climate Policies *.
  • Dietz, S., & Venmans, F. (2019). Cumulative carbon emissions and economic policy: In search of general principles. Journal of Environmental Economics and Management, 96, 108–129. Link, PDF
  • Dongyu, Q., Georgieva, K., Malpass, D., Beasely, D., & Okonjo-Iweala, N. (2022). Joint Statement by the Heads of the Food and Agriculture Organization, International Monetary Fund, World Bank Group, World Food Programme, and World Trade Organization on the Global Food Security Crisis.
  • Easterly, W. (2009). How the Millennium Development Goals are Unfair to Africa. World Development, 37(1), 26–35. Link, PDF
  • Farmer, J. D., Hepburn, C., Mealy, P., & Teytelboym, A. (2015). A Third Wave in the Economics of Climate Change. Environmental and Resource Economics, 62(2), 329–357. Link, PDF
  • Fischer, C., & Newell, R. G. (2008). Environmental and technology policies for climate mitigation. Journal of Environmental Economics and Management, 55(2), 142–162. Link, PDF
  • Fischer, C., Parry, I. W. H., & Pizer, W. A. (2003). Instrument choice for environmental protection when technological innovation is endogenous. Journal of Environmental Economics and Management, 45(3), 523–545. Link, PDF
  • Frank, S., Chegwidden, O. (2022). Why climate data matters to climate-related financial risk assessments.
  • Gans, J. S. (2012). Innovation and Climate Change Policy. American Economic Journal: Economic Policy, 4(4), 125–145. Link, PDF
  • Goulder, L. H., & Parry, I. W. H. (2008). Instrument Choice in Environmental Policy. Review of Environmental Economics and Policy, 2(2), 152–174. Link, PDF
  • Goulder, L. H., & Stavins, R. N. (2011). Challenges from State-Federal Interactions in US Climate Change Policy. American Economic Review, 101(3), 253–257. Link, PDF
  • Green, J. F. (2021). Does carbon pricing reduce emissions? A review of ex-post analyses. Environmental Research Letters, 16(4), 043004. Link, PDF
  • Greve, H., & Lay, J. (2022). “Stepping down the ladder”: The impacts of fossil fuel subsidy removal in a developing country. Journal of the Association of Environmental and Resource Economists. Link, PDF
  • Haan, P., & Simmler, M. (2018). Wind electricity subsidies — A windfall for landowners? Evidence from a feed-in tariff in Germany. Journal of Public Economics, 159, 16–32. Link, PDF
  • He, G., Wang, S., & Zhang, B. (2020). Watering Down Environmental Regulation in China*. The Quarterly Journal of Economics, 135(4), 2135–2185. Link, PDF
  • Jaffe, A. B., Newell, R. G., & Stavins, R. N. (2002). Environmental Policy and Technological Change. Environmental and Resource Economics, 22(1/2), 41–70. Link, PDF
  • Jenkins, J. D. (2014). Political economy constraints on carbon pricing policies: What are the implications for economic efficiency, environmental efficacy, and climate policy design? Energy Policy, 69, 467–477. Link, PDF
  • Johnstone, N., Haščič, I., & Popp, D. (2010). Renewable Energy Policies and Technological Innovation: Evidence Based on Patent Counts. Environmental and Resource Economics, 45(1), 133–155. Link, PDF
  • Kahn, M. E., Li, P., & Zhao, D. (2015). Water Pollution Progress at Borders: The Role of Changes in China’s Political Promotion Incentives. American Economic Journal: Economic Policy, 7(4), 223–242. Link, PDF
  • Kallbekken, S., & Westskog, H. (2005). Should Developing Countries Take on Binding Commitments in a Climate Agreement? An Assessment of Gains and Uncertainty. The Energy Journal, 26(3). Link, PDF
  • Kersting, J., Duscha, V., & Weitzel, M. (2017). Cooperation on Climate Change under Economic Linkages: How the Inclusion of Macroeconomic Effects Affects Stability of a Global Climate Coalition. The Energy Journal, 38(4). Link, PDF
  • Klepper, G., & Peterson, S. (2006). Emissions Trading, CDM, JI, and More: The Climate Strategy of the EU. The Energy Journal, 27(2). Link, PDF
  • Köberle, A. C., Vandyck, T., Guivarch, C., & Rogelj, J. (2022). Guest post: Why estimates of the ‘cost’ of climate action are overly pessimistic. Carbon Brief - Clear on Climate .
  • Kyle, P., Clarke, L., Rong, F., & Smith, S. J. (2010). Climate Policy and the Long-Term Evolution of the U.S. Buildings Sector. The Energy Journal, 31(2). Link, PDF
  • Li, H., Zhu, X., Chen, J., & Jiang, F. (2019). Environmental regulations, environmental governance efficiency and the green transformation of China’s iron and steel enterprises. Ecological Economics, 165, 106397. Link, PDF
  • Liu, H., Wang, Y., Shi, X., & Pang, L. (2022). How do environmental policies affect capital market reactions? Evidence from China’s construction waste treatment policy. Ecological Economics, 198, 107461. Link, PDF
  • Liu, J., Li, S., Ouyang, Z., Tam, C., & Chen, X. (2008). Ecological and socioeconomic effects of China’s policies for ecosystem services. Proceedings of the National Academy of Sciences, 105(28), 9477–9482. Link, PDF
  • Mastini, R., Kallis, G., & Hickel, J. (2021). A Green New Deal without growth? Ecological Economics, 179, 106832. Link, PDF
  • Meckling, J., Kelsey, N., Biber, E., & Zysman, J. (2015). Winning coalitions for climate policy. Science, 349(6253), 1170–1171. Link, PDF
  • Miola, A., & Schiltz, F. (2019). Measuring sustainable development goals performance: How to monitor policy action in the 2030 Agenda implementation? Ecological Economics, 164, 106373. Link, PDF
  • Moyer, J. D., & Hedden, S. (2020). Are we on the right path to achieve the sustainable development goals? World Development, 127, 104749. Link, PDF
  • Nordhaus, W. (2015). Climate Clubs: Overcoming Free-riding in International Climate Policy. American Economic Review, 105(4), 1339–1370. Link, PDF
  • Ouyang, X., Li, Q., & Du, K. (2020). How does environmental regulation promote technological innovations in the industrial sector? Evidence from Chinese provincial panel data. Energy Policy, 139, 111310. Link, PDF
  • Overland, I., Sagbakken, H. F., Chan, H.-Y., Merdekawati, M., Suryadi, B., Utama, N. A., & Vakulchuk, R. (2021). The ASEAN climate and energy paradox. Energy and Climate Change, 2, 100019. Link, PDF
  • Parnell, S. (2016). Defining a Global Urban Development Agenda. World Development, 78, 529–540. Link, PDF
  • Perdana, S., & Tyers, R. (2020). Global Climate Change Mitigation: Strategic Incentives. The Energy Journal, 41(3). Link, PDF
  • Prasad, A., Loukoianova, E., Feng, A. X., & Oman, W. (2022). CLIMATE CLIMATE Mobilizing Private Climate Financing in Emerging Market and Developing Economies.
  • Rodrik, D. (2014). Green industrial policy. Oxford Review of Economic Policy, 30(3), 469–491. Link, PDF
  • Rose, A., & Oladosu, G. (2002). Greenhouse Gas Reduction Policy in the United States: Identifying Winners and Losers in an Expanded Permit Trading System. The Energy Journal, 23(1). Link, PDF
  • Scarlat, N., Dallemand, J.-F., Monforti-Ferrario, F., & Nita, V. (2015). The role of biomass and bioenergy in a future bioeconomy: Policies and facts. Environmental Development, 15, 3–34. Link, PDF
  • Stern, N. (2018). Public economics as if time matters: Climate change and the dynamics of policy. Journal of Public Economics, 162, 4–17. Link, PDF
  • Stiglitz, J. E. (2019). Addressing climate change through price and non-price interventions. European Economic Review, 119, 594–612. Link, PDF
  • Umar, M., Ji, X., Kirikkaleli, D., & Xu, Q. (2020). COP21 Roadmap: Do innovation, financial development, and transportation infrastructure matter for environmental sustainability in China? Journal of Environmental Management, 271, 111026. Link, PDF
  • van der Ploeg, F., & Withagen, C. (2012). Is there really a green paradox? Journal of Environmental Economics and Management, 64(3), 342–363. Link, PDF
  • Viard, V. B., & Fu, S. (2015). The effect of Beijing’s driving restrictions on pollution and economic activity. Journal of Public Economics, 125, 98–115. Link, PDF
  • Wang, Y., Sun, X., & Guo, X. (2019). Environmental regulation and green productivity growth: Empirical evidence on the Porter Hypothesis from OECD industrial sectors. Energy Policy, 132, 611–619. Link, PDF
  • Webster, M. (2002). The Curious Role of “Learning” in Climate Policy: Should We Wait for More Data? The Energy Journal, 23(2). Link, PDF
  • Zaidi, S. A. H., Zafar, M. W., Shahbaz, M., & Hou, F. (2019). Dynamic linkages between globalization, financial development and carbon emissions: Evidence from Asia Pacific Economic Cooperation countries. Journal of Cleaner Production, 228, 533–543. Link, PDF
  • Zhang, Q., Yu, Z., & Kong, D. (2019). The real effect of legal institutions: Environmental courts and firm environmental protection expenditure. Journal of Environmental Economics and Management, 98, 102254. Link, PDF

Emissions trading

  • Anderson, B., & di Maria, C. (2011). Abatement and Allocation in the Pilot Phase of the EU ETS. Environmental and Resource Economics, 48(1), 83–103. Link, PDF
  • Cao, J., Ho, M. S., Ma, R., & Teng, F. (2021). When carbon emission trading meets a regulated industry: Evidence from the electricity sector of China. Journal of Public Economics, 200, 104470. Link, PDF
  • Convery, F. J., & Redmond, L. (2007). Market and Price Developments in the European Union Emissions Trading Scheme. Review of Environmental Economics and Policy, 1(1), 88–111. Link, PDF
  • Ellerman, A. D., & Buchner, B. K. (2007). The European Union Emissions Trading Scheme: Origins, Allocation, and Early Results. Review of Environmental Economics and Policy, 1(1), 66–87. Link, PDF
  • Fowlie, M., Holland, S. P., & Mansur, E. T. (2012). What Do Emissions Markets Deliver and to Whom? Evidence from Southern California’s NOx Trading Program. American Economic Review, 102(2), 965–993. Link, PDF
  • Herrero, M., Havlík, P., Valin, H., Notenbaert, A., Rufino, M. C., Thornton, P. K., Blümmel, M., Weiss, F., Grace, D., & Obersteiner, M. (2013). Biomass use, production, feed efficiencies, and greenhouse gas emissions from global livestock systems. Proceedings of the National Academy of Sciences, 110(52), 20888–20893. Link, PDF
  • Hintermann, B. (2010). Allowance price drivers in the first phase of the EU ETS. Journal of Environmental Economics and Management, 59(1), 43–56. Link, PDF
  • Keohane, N. O. (2009). Cap and Trade, Rehabilitated: Using Tradable Permits to Control U.S. Greenhouse Gases. Review of Environmental Economics and Policy, 3(1), 42–62. Link, PDF
  • Kruger, J., Oates, W. E., & Pizer, W. A. (2007). Decentralization in the EU Emissions Trading Scheme and Lessons for Global Policy. Review of Environmental Economics and Policy, 1(1), 112–133. Link, PDF
  • Schmalensee, R., & Stavins, R. N. (2017). Lessons Learned from Three Decades of Experience with Cap and Trade. Review of Environmental Economics and Policy, 11(1), 59–79. Link, PDF

IAMs: Cost-Benefit

  • Arrow, K., Cropper, M., Gollier, C., Groom, B., Heal, G., Newell, R., Nordhaus, W., Pindyck, R., Pizer, W., Portney, P., Sterner, T., Tol, R. S. J., & Weitzman, M. (2013). Determining Benefits and Costs for Future Generations. Science, 341(6144), 349–350. Link, PDF
  • Fischhoff, B. (2015). The realities of risk-cost-benefit analysis. Science, 350(6260). Link, PDF
  • Gabay, H., Meir, I. A., Schwartz, M., & Werzberger, E. (2014). Cost-benefit analysis of green buildings: An Israeli office buildings case study. Energy and Buildings, 76, 558–564. Link, PDF
  • Gao, J., Yuan, Z., Liu, X., Xia, X., Huang, X., & Dong, Z. (2016). Improving air pollution control policy in China—A perspective based on cost–benefit analysis. Science of The Total Environment, 543, 307–314. Link, PDF
  • Gayer, T., & Viscusi, W. K. (2016). Resisting Abuses of Benefit-Cost Analysis. National Affairs , Spring, 59–71.
  • Gigli, S., Landi, D., & Germani, M. (2019). Cost-benefit analysis of a circular economy project: a study on a recycling system for end-of-life tyres. Journal of Cleaner Production, 229, 680–694. Link, PDF
  • Glykas, A., Papaioannou, G., & Perissakis, S. (2010). Application and cost–benefit analysis of solar hybrid power installation on merchant marine vessels. Ocean Engineering, 37(7), 592–602. Link, PDF
  • Hahn, R. W., & Dudley, P. M. (2007). How Well Does the U.S. Government Do Benefit-Cost Analysis? Review of Environmental Economics and Policy, 1(2), 192–211. Link, PDF
  • Thoft-Christensen, P. (2012). Infrastructures and life-cycle cost-benefit analysis. Structure and Infrastructure Engineering, 8(5), 507–516. Link, PDF
  • Tol, R. S. J. (2012). A cost–benefit analysis of the EU 20/20/2020 package. Energy Policy, 49, 288–295. Link, PDF

Fiscal space

EKC and decoupling

  • Al-Mulali, U., Saboori, B., & Ozturk, I. (2015). Investigating the environmental Kuznets curve hypothesis in Vietnam. Energy Policy, 76, 123–131. Link, PDF
  • Andreoni, J., & Levinson, A. (2001). The simple analytics of the environmental Kuznets curve. Journal of Public Economics, 80(2), 269–286. Link, PDF
  • Andreoni, V., & Galmarini, S. (2012). Decoupling economic growth from carbon dioxide emissions: A decomposition analysis of Italian energy consumption. Energy, 44(1), 682–691. Link, PDF
  • Apergis, N., & Ozturk, I. (2015). Testing Environmental Kuznets Curve hypothesis in Asian countries. Ecological Indicators, 52, 16–22. Link, PDF
  • Awaworyi Churchill, S., Inekwe, J., Ivanovski, K., & Smyth, R. (2018). The Environmental Kuznets Curve in the OECD: 1870–2014. Energy Economics, 75, 389–399. Link, PDF
  • Carson, R. T. (2010). The Environmental Kuznets Curve: Seeking Empirical Regularity and Theoretical Structure. Review of Environmental Economics and Policy, 4(1), 3–23. Link, PDF
  • Cole, M. A. (2003). Development, trade, and the environment: how robust is the Environmental Kuznets Curve? Environment and Development Economics, 8(4), 557–580. Link, PDF
  • Csereklyei, Z., & Stern, D. I. (2015). Global energy use: Decoupling or convergence? Energy Economics, 51, 633–641. Link, PDF
  • Culas, R. J. (2007). Deforestation and the environmental Kuznets curve: An institutional perspective. Ecological Economics, 61(2–3), 429–437. Link, PDF
  • Dasgupta, S., Laplante, B., Wang, H., & Wheeler, D. (2002). Confronting the Environmental Kuznets Curve. Journal of Economic Perspectives, 16(1), 147–168. Link, PDF
  • de Freitas, L. C., & Kaneko, S. (2011). Decomposing the decoupling of CO2 emissions and economic growth in Brazil. Ecological Economics, 70(8), 1459–1469. Link, PDF
  • de Vita, G., Katircioglu, S., Altinay, L., Fethi, S., & Mercan, M. (2015). Revisiting the environmental Kuznets curve hypothesis in a tourism development context. Environmental Science and Pollution Research, 22(21), 16652–16663. Link, PDF
  • Destek, M. A., & Sarkodie, S. A. (2019). Investigation of environmental Kuznets curve for ecological footprint: The role of energy and financial development. Science of The Total Environment, 650, 2483–2489. Link, PDF
  • Destek, M. A., Ulucak, R., & Dogan, E. (2018). Analyzing the environmental Kuznets curve for the EU countries: the role of ecological footprint. Environmental Science and Pollution Research, 25(29), 29387–29396. Link, PDF
  • Dinda, S. (2004). Environmental Kuznets Curve Hypothesis: A Survey. Ecological Economics, 49(4), 431–455. Link, PDF
  • Ehrhardt-Martinez, K., Crenshaw, E. M., & Jenkins, J. C. (2002). Deforestation and the Environmental Kuznets Curve: A Cross-National Investigation of Intervening Mechanisms. Social Science Quarterly, 83(1), 226–243. Link, PDF
  • Fodha, M., & Zaghdoud, O. (2010). Economic growth and pollutant emissions in Tunisia: An empirical analysis of the environmental Kuznets curve. Energy Policy, 38(2), 1150–1156. Link, PDF
  • Gangadharan, L., & Valenzuela, Ma. R. (2001). Interrelationships between income, health and the environment: extending the Environmental Kuznets Curve hypothesis. Ecological Economics, 36(3), 513–531. Link, PDF
  • Haberl, H., Wiedenhofer, D., Virág, D., Kalt, G., Plank, B., Brockway, P., Fishman, T., Hausknost, D., Krausmann, F., Leon-Gruchalski, B., Mayer, A., Pichler, M., Schaffartzik, A., Sousa, T., Streeck, J., & Creutzig, F. (2020). A systematic review of the evidence on decoupling of GDP, resource use and GHG emissions, part II: synthesizing the insights. Environmental Research Letters, 15(6), 065003. Link, PDF
  • Harbaugh, W. T., Levinson, A., & Wilson, D. M. (2002). Reexamining the Empirical Evidence for an Environmental Kuznets Curve. Review of Economics and Statistics, 84(3), 541–551. Link, PDF
  • He, J., & Richard, P. (2010). Environmental Kuznets curve for CO2 in Canada. Ecological Economics, 69(5), 1083–1093. Link, PDF
  • Holtz-Eakin, D., & Selden, T. M. (1995). Stoking the fires? CO2 emissions and economic growth. Journal of Public Economics, 57(1), 85–101.
  • Iwata, H., Okada, K., & Samreth, S. (2010). Empirical study on the environmental Kuznets curve for CO2 in France: The role of nuclear energy. Energy Policy, 38(8), 4057–4063. Link, PDF
  • Jalil, A., & Mahmud, S. F. (2009). Environment Kuznets curve for CO2 emissions: A cointegration analysis for China. Energy Policy, 37(12), 5167–5172. Link, PDF
  • Kijima, M., Nishide, K., & Ohyama, A. (2010). Economic models for the environmental Kuznets curve: A survey. Journal of Economic Dynamics and Control, 34(7), 1187–1201. Link, PDF
  • Kjaer, L. L., Pigosso, D. C. A., Niero, M., Bech, N. M., & McAloone, T. C. (2019). Product/Service‐Systems for a Circular Economy: The Route to Decoupling Economic Growth from Resource Consumption? Journal of Industrial Ecology, 23(1), 22–35. Link, PDF
  • Knight, K., & Schor, J. (2014). Economic Growth and Climate Change: A Cross-National Analysis of Territorial and Consumption-Based Carbon Emissions in High-Income Countries. Sustainability, 6(6), 3722–3731. Link, PDF
  • Li, T., Wang, Y., & Zhao, D. (2016). Environmental Kuznets Curve in China: New evidence from dynamic panel analysis. Energy Policy, 91, 138–147. Link, PDF
  • Lu, I. J., Lin, S. J., & Lewis, C. (2007). Decomposition and decoupling effects of carbon dioxide emission from highway transportation in Taiwan, Germany, Japan and South Korea. Energy Policy, 35(6), 3226–3235. Link, PDF
  • Luzzati, T., & Orsini, M. (2009). Investigating the energy-environmental Kuznets curve. Energy, 34(3), 291–300. Link, PDF
  • Maddison, D. (2006). Environmental Kuznets curves: A spatial econometric approach. Journal of Environmental Economics and Management, 51(2), 218–230. Link, PDF
  • Martı́nez-Zarzoso, I., & Bengochea-Morancho, A. (2004). Pooled mean group estimation of an environmental Kuznets curve for CO2. Economics Letters, 82(1), 121–126. Link, PDF
  • Millimet, D. L., List, J. A., & Stengos, T. (2003). The Environmental Kuznets Curve: Real Progress or Misspecified Models? Review of Economics and Statistics, 85(4), 1038–1047. Link, PDF
  • Moreau, V., & Vuille, F. (2018). Decoupling energy use and economic growth: Counter evidence from structural effects and embodied energy in trade. Applied Energy, 215, 54–62. Link, PDF
  • Nasir, M., & Ur Rehman, F. (2011). Environmental Kuznets Curve for carbon emissions in Pakistan: An empirical investigation. Energy Policy, 39(3), 1857–1864. Link, PDF
  • Özokcu, S., & Özdemir, Ö. (2017). Economic growth, energy, and environmental Kuznets curve. Renewable and Sustainable Energy Reviews, 72, 639–647. Link, PDF
  • Ozturk, I., & Al-Mulali, U. (2015). Investigating the validity of the environmental Kuznets curve hypothesis in Cambodia. Ecological Indicators, 57, 324–330. Link, PDF
  • Pao, H.-T., & Chen, C.-C. (2019). Decoupling strategies: CO2 emissions, energy resources, and economic growth in the Group of Twenty. Journal of Cleaner Production, 206, 907–919. Link, PDF
  • Roca, J., Padilla, E., Farré, M., & Galletto, V. (2001). Economic growth and atmospheric pollution in Spain: discussing the environmental Kuznets curve hypothesis. Ecological Economics, 39(1), 85–99. Link, PDF
  • Roinioti, A., & Koroneos, C. (2017). The decomposition of CO2 emissions from energy use in Greece before and during the economic crisis and their decoupling from economic growth. Renewable and Sustainable Energy Reviews, 76, 448–459. Link, PDF
  • Schandl, H., Hatfield-Dodds, S., Wiedmann, T., Geschke, A., Cai, Y., West, J., Newth, D., Baynes, T., Lenzen, M., & Owen, A. (2016). Decoupling global environmental pressure and economic growth: scenarios for energy use, materials use and carbon emissions. Journal of Cleaner Production, 132, 45–56. Link, PDF
  • Schmalensee, R., Stoker, T. M., & Judson, R. A. (1998). World Carbon Dioxide Emissions: 1950–2050. Review of Economics and Statistics, 80(1), 15–27. Link, PDF
  • Shahbaz, M., Ozturk, I., Afza, T., & Ali, A. (2013). Revisiting the environmental Kuznets curve in a global economy. Renewable and Sustainable Energy Reviews, 25, 494–502. Link, PDF
  • Shahbaz, M., Mutascu, M., & Azim, P. (2013). Environmental Kuznets curve in Romania and the role of energy consumption. Renewable and Sustainable Energy Reviews, 18, 165–173. Link, PDF
  • Sjöström, M., & Östblom, G. (2010). Decoupling waste generation from economic growth — A CGE analysis of the Swedish case. Ecological Economics, 69(7), 1545–1552. Link, PDF
  • Stern, D. I. (2004). The Rise and Fall of the Environmental Kuznets Curve. World Development, 32(8), 1419–1439. Link, PDF
  • Stern, D. I. (2017). The environmental Kuznets curve after 25 years. Journal of Bioeconomics, 19(1), 7–28. Link, PDF
  • Sugiawan, Y., & Managi, S. (2016). The environmental Kuznets curve in Indonesia: Exploring the potential of renewable energy. Energy Policy, 98, 187–198. Link, PDF
  • Tapio, P. (2005). Towards a theory of decoupling: degrees of decoupling in the EU and the case of road traffic in Finland between 1970 and 2001. Transport Policy, 12(2), 137–151. Link, PDF
  • Tisdell, C. (2001). Globalisation and sustainability: environmental Kuznets curve and the WTO. Ecological Economics, 39(2), 185–196. Link, PDF
  • Vadén, T., Lähde, V., Majava, A., Järvensivu, P., Toivanen, T., Hakala, E., & Eronen, J. T. (2020). Decoupling for ecological sustainability: A categorisation and review of research literature. Environmental Science & Policy, 112, 236–244. Link, PDF
  • Wälti, S. (2012). The myth of decoupling. Applied Economics, 44(26), 3407–3419. Link, PDF
  • Wang, Q., & Zhang, F. (2021). The effects of trade openness on decoupling carbon emissions from economic growth – Evidence from 182 countries. Journal of Cleaner Production, 279, 123838. Link, PDF
  • Wang, Q., & Zhang, F. (2020). Does increasing investment in research and development promote economic growth decoupling from carbon emission growth? An empirical analysis of BRICS countries. Journal of Cleaner Production, 252, 119853. Link, PDF
  • Wang, Q., Su, M., & Li, R. (2018). Toward to economic growth without emission growth: The role of urbanization and industrialization in China and India. Journal of Cleaner Production, 205, 499–511. Link, PDF
  • Ward, J. D., Sutton, P. C., Werner, A. D., Costanza, R., Mohr, S. H., & Simmons, C. T. (2016). Is Decoupling GDP Growth from Environmental Impact Possible? PLOS ONE, 11(10), e0164733. Link, PDF
  • Wiedenhofer, D., Virág, D., Kalt, G., Plank, B., Streeck, J., Pichler, M., Mayer, A., Krausmann, F., Brockway, P., Schaffartzik, A., Fishman, T., Hausknost, D., Leon-Gruchalski, B., Sousa, T., Creutzig, F., & Haberl, H. (2020). A systematic review of the evidence on decoupling of GDP, resource use and GHG emissions, part I: bibliometric and conceptual mapping. Environmental Research Letters, 15(6), 063002. Link, PDF
  • Wu, Y., Zhu, Q., & Zhu, B. (2018). Decoupling analysis of world economic growth and CO2 emissions: A study comparing developed and developing countries. Journal of Cleaner Production, 190, 94–103. Link, PDF
  • Zhang, Y.-J., & Da, Y.-B. (2015). The decomposition of energy-related carbon emission and its decoupling with economic growth in China. Renewable and Sustainable Energy Reviews, 41, 1255–1266. Link, PDF

carbon leakage and Boarder adjustment tariffs

  • Aichele, R., & Felbermayr, G. (2015). Kyoto and Carbon Leakage: An Empirical Analysis of the Carbon Content of Bilateral Trade. Review of Economics and Statistics, 97(1), 104–115. Link, PDF
  • Antimiani, A., Costantini, V., Martini, C., Salvatici, L., & Tommasino, M. C. (2013). Assessing alternative solutions to carbon leakage. Energy Economics, 36, 299–311. Link, PDF
  • Babiker, M. H. (2005). Climate change policy, market structure, and carbon leakage. Journal of International Economics, 65(2), 421–445. Link, PDF
  • Böhringer, C., Rosendahl, K. E., & Storrøsten, H. B. (2017). Robust policies to mitigate carbon leakage. Journal of Public Economics, 149, 35–46. Link, PDF
  • Branger, F., & Quirion, P. (2014). Would border carbon adjustments prevent carbon leakage and heavy industry competitiveness losses? Insights from a meta-analysis of recent economic studies. Ecological Economics, 99, 29–39. Link, PDF
  • Cavallo, A., Gopinath, G., Neiman, B., & Tang, J. (2021). Tariff Pass-Through at the Border and at the Store: Evidence from US Trade Policy. American Economic Review: Insights, 3(1), 19–34. Link, PDF
  • Eichner, T., & Pethig, R. (2011). CARBON LEAKAGE, THE GREEN PARADOX, AND PERFECT FUTURE MARKETS*. International Economic Review, 52(3), 767–805. Link, PDF
  • Fischer, C., & Fox, A. K. (2012). Comparing policies to combat emissions leakage: Border carbon adjustments versus rebates. Journal of Environmental Economics and Management, 64(2), 199–216. Link, PDF
  • Franzen, A., & Mader, S. (2018). Consumption-based versus production-based accounting of CO2 emissions: Is there evidence for carbon leakage? Environmental Science & Policy, 84, 34–40. Link, PDF
  • Gerlagh, R., & Kuik, O. (2007). Carbon Leakage With International Technology Spillovers. SSRN Electronic Journal. Link, PDF
  • Jakob, M. (2021). Why carbon leakage matters and what can be done against it. One Earth, 4(5), 609–614. Link, PDF
  • Kuik, O., & Gerlagh, R. (2003). Trade Liberalization and Carbon Leakage. The Energy Journal, 24(3). Link, PDF
  • Kuik, O., & Hofkes, M. (2010). Border adjustment for European emissions trading: Competitiveness and carbon leakage. Energy Policy, 38(4), 1741–1748. Link, PDF
  • Lindé, J., & Pescatori, A. (2019). The macroeconomic effects of trade tariffs: Revisiting the Lerner symmetry result. Journal of International Money and Finance, 95, 52–69. Link, PDF
  • Naegele, H., & Zaklan, A. (2019). Does the EU ETS cause carbon leakage in European manufacturing? Journal of Environmental Economics and Management, 93, 125–147. Link, PDF
  • Nielsen, T., Baumert, N., Kander, A., Jiborn, M., & Kulionis, V. (2021). The risk of carbon leakage in global climate agreements. International Environmental Agreements: Politics, Law and Economics, 21(2), 147–163. Link, PDF
  • Paltsev, S. v. (2001). The Kyoto Protocol: Regional and Sectoral Contributions to the Carbon Leakage. The Energy Journal, 22(4). Link, PDF
  • Schmidt, R. C., & Heitzig, J. (2014). Carbon leakage: Grandfathering as an incentive device to avert firm relocation. Journal of Environmental Economics and Management, 67(2), 209–223. Link, PDF
  • Sun, Y., Xue, J., Shi, X., Wang, K., Qi, S., Wang, L., & Wang, C. (2019). A dynamic and continuous allowances allocation methodology for the prevention of carbon leakage: Emission control coefficients. Applied Energy, 236, 220–230. Link, PDF
  • Verde, S. F. (2020). THE IMPACT OF THE EU EMISSIONS TRADING SYSTEM ON COMPETITIVENESS AND CARBON LEAKAGE: THE ECONOMETRIC EVIDENCE. Journal of Economic Surveys, 34(2), 320–343. Link, PDF
  • Zhou, B., Zhang, C., Wang, Q., & Zhou, D. (2020). Does emission trading lead to carbon leakage in China? Direction and channel identifications. Renewable and Sustainable Energy Reviews, 132, 110090. Link, PDF

Climate Change Challenge

  • Butzer, K. W. (2012). Collapse, environment, and society. Proceedings of the National Academy of Sciences, 109(10), 3632–3639. Link, PDF
  • Deschênes, O., & Greenstone, M. (2011). Climate Change, Mortality, and Adaptation: Evidence from Annual Fluctuations in Weather in the US. American Economic Journal: Applied Economics, 3(4), 152–185. Link, PDF
  • Grimm, N. B., Faeth, S. H., Golubiewski, N. E., Redman, C. L., Wu, J., Bai, X., & Briggs, J. M. (2008). Global Change and the Ecology of Cities. Science, 319(5864), 756–760. Link, PDF
  • Hsiang, S., & Kopp, R. E. (2018). An Economist’s Guide to Climate Change Science. Journal of Economic Perspectives, 32(4), 3–32. Link, PDF
  • Kates, R. W., Travis, W. R., & Wilbanks, T. J. (2012). Transformational adaptation when incremental adaptations to climate change are insufficient. Proceedings of the National Academy of Sciences, 109(19), 7156–7161. Link, PDF
  • Kim, Y.-H., Min, S.-K., Zhang, X., Sillmann, J., & Sandstad, M. (2020). Evaluation of the CMIP6 multi-model ensemble for climate extreme indices. Weather and Climate Extremes, 29, 100269. Link, PDF
  • Krusell, P., & Smith, A. (2022). Climate Change Around the World. Link, PDF
  • Lenton, T. M. (2011). Early warning of climate tipping points. Nature Climate Change, 1(4), 201–209. Link, PDF
  • Nordhaus, W. (2019). Climate Change: The Ultimate Challenge for Economics. American Economic Review, 109(6), 1991–2014. Link, PDF
  • Otto, I. M., Donges, J. F., Cremades, R., Bhowmik, A., Hewitt, R. J., Lucht, W., Rockström, J., Allerberger, F., McCaffrey, M., Doe, S. S. P., Lenferna, A., Morán, N., van Vuuren, D. P., & Schellnhuber, H. J. (2020). Social tipping dynamics for stabilizing Earth’s climate by 2050. Proceedings of the National Academy of Sciences, 117(5), 2354–2365. Link, PDF
  • Parmesan, C., & Yohe, G. (2003). A globally coherent fingerprint of climate change impacts across natural systems. Nature, 421(6918), 37–42. Link, PDF
  • Peters, G. P., Andrew, R. M., Boden, T., Canadell, J. G., Ciais, P., le Quéré, C., Marland, G., Raupach, M. R., & Wilson, C. (2013). The challenge to keep global warming below 2 °C. Nature Climate Change, 3(1), 4–6. Link, PDF
  • Rockström, J., Steffen, W., Noone, K., Persson, Å., Chapin, F. S., Lambin, E. F., Lenton, T. M., Scheffer, M., Folke, C., Schellnhuber, H. J., Nykvist, B., de Wit, C. A., Hughes, T., van der Leeuw, S., Rodhe, H., Sörlin, S., Snyder, P. K., Costanza, R., Svedin, U., … Foley, J. A. (2009). A safe operating space for humanity. Nature, 461(7263), 472–475. Link, PDF
  • Rogelj, J., Meinshausen, M., & Knutti, R. (2012). Global warming under old and new scenarios using IPCC climate sensitivity range estimates. Nature Climate Change, 2(4), 248–253. Link, PDF
  • Rogelj, J., Popp, A., Calvin, K. v., Luderer, G., Emmerling, J., Gernaat, D., Fujimori, S., Strefler, J., Hasegawa, T., Marangoni, G., Krey, V., Kriegler, E., Riahi, K., van Vuuren, D. P., Doelman, J., Drouet, L., Edmonds, J., Fricko, O., Harmsen, M., … Tavoni, M. (2018). Scenarios towards limiting global mean temperature increase below 1.5 °C. Nature Climate Change, 8(4), 325–332. Link, PDF
  • Schröter, D., Cramer, W., Leemans, R., Prentice, I. C., Araújo, M. B., Arnell, N. W., Bondeau, A., Bugmann, H., Carter, T. R., Gracia, C. A., de la Vega-Leinert, A. C., Erhard, M., Ewert, F., Glendining, M., House, J. I., Kankaanpää, S., Klein, R. J. T., Lavorel, S., Lindner, M., … Zierl, B. (2005). Ecosystem Service Supply and Vulnerability to Global Change in Europe. Science, 310(5752), 1333–1337. Link, PDF
  • Stern, N. (2008). The Economics of Climate Change. American Economic Review, 98(2), 1–37. Link, PDF
  • Thomas, C. D., Cameron, A., Green, R. E., Bakkenes, M., Beaumont, L. J., Collingham, Y. C., Erasmus, B. F. N., de Siqueira, M. F., Grainger, A., Hannah, L., Hughes, L., Huntley, B., van Jaarsveld, A. S., Midgley, G. F., Miles, L., Ortega-Huerta, M. A., Townsend Peterson, A., Phillips, O. L., & Williams, S. E. (2004). Extinction risk from climate change. Nature, 427(6970), 145–148. Link, PDF
  • Tol, R. S. J. (2002). Estimates of the Damage Costs of Climate Change. Part 1: Benchmark Estimates. Environmental and Resource Economics, 21(1), 47–73. Link, PDF
  • Tol, R. S. J. (2014). Correction and Update: The Economic Effects of Climate Change. Journal of Economic Perspectives, 28(2), 221–226. Link, PDF
  • Tol, R. S. J. (2018). The Economic Impacts of Climate Change. Review of Environmental Economics and Policy, 12(1), 4–25. Link, PDF
  • Wackernagel, M., Schulz, N. B., Deumling, D., Linares, A. C., Jenkins, M., Kapos, V., Monfreda, C., Loh, J., Myers, N., Norgaard, R., & Randers, J. (2002). Tracking the ecological overshoot of the human economy. Proceedings of the National Academy of Sciences, 99(14), 9266–9271. Link, PDF
  • Walther, G.-R., Post, E., Convey, P., Menzel, A., Parmesan, C., Beebee, T. J. C., Fromentin, J.-M., Hoegh-Guldberg, O., & Bairlein, F. (2002). Ecological responses to recent climate change. Nature, 416(6879), 389–395. Link, PDF

Climate shocks

  • Anttila-Hughes, J. K., & Hsiang, S. M. (2013). Destruction, Disinvestment, and Death: Economic and Human Losses Following Environmental Disaster. SSRN Electronic Journal. Link, PDF
  • Auffhammer, M., Hsiang, S. M., Schlenker, W., & Sobel, A. (2013). Using Weather Data and Climate Model Output in Economic Analyses of Climate Change. Review of Environmental Economics and Policy, 7(2), 181–198. Link, PDF
  • Auh, J. K., Choi, J., Deryugina, T., & Park, T. (2022). Natural Disasters and Municipal Bonds. Link, PDF
  • Bai, Y., & Kung, J. K. (2011). Climate Shocks and Sino-nomadic Conflict. Review of Economics and Statistics, 93(3), 970–981. Link, PDF
  • Borsky, S., & Unterberger, C. (2019). Bad weather and flight delays: The impact of sudden and slow onset weather events. Economics of Transportation, 18, 10–26. Link, PDF
  • Botzen, W. J. 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. Link, PDF
  • Burgess, R., Deschenes, O., Donalson, D., & Greenstone, M. (2017). Weather, Climate Change and Death in India.
  • Cai, W., Borlace, S., Lengaigne, M., van Rensch, P., Collins, M., Vecchi, G., Timmermann, A., Santoso, A., McPhaden, M. J., Wu, L., England, M. H., Wang, G., Guilyardi, E., & Jin, F.-F. (2014). Increasing frequency of extreme El Niño events due to greenhouse warming. Nature Climate Change, 4(2), 111–116. Link, PDF
  • Coumou, D., & Rahmstorf, S. (2012). A decade of weather extremes. Nature Climate Change, 2(7), 491–496. Link, PDF
  • Dai, A. (2013). Increasing drought under global warming in observations and models. Nature Climate Change, 3(1), 52–58. Link, PDF
  • Dell, M., Jones, B. F., & Olken, B. A. (2012). Temperature Shocks and Economic Growth: Evidence from the Last Half Century. American Economic Journal: Macroeconomics, 4(3), 66–95. Link, PDF
  • Deschênes, O., & Greenstone, M. (2007). The Economic Impacts of Climate Change: Evidence from Agricultural Output and Random Fluctuations in Weather. American Economic Review, 97(1), 354–385. Link, PDF
  • Fischer, E. M., & Knutti, R. (2015). Anthropogenic contribution to global occurrence of heavy-precipitation and high-temperature extremes. Nature Climate Change, 5(6), 560–564. Link, PDF
  • Guiteras, R. (2008). The Impact of Climate Change on Indian Agriculture.
  • Letta, M., Montalbano, P., & Pierre, G. (2022). Weather shocks, traders’ expectations, and food prices. American Journal of Agricultural Economics, 104(3), 1100–1119. Link, PDF
  • Mora, C., Dousset, B., Caldwell, I. R., Powell, F. E., Geronimo, R. C., Bielecki, C. R., Counsell, C. W. W., Dietrich, B. S., Johnston, E. T., Louis, L. v., Lucas, M. P., McKenzie, M. M., Shea, A. G., Tseng, H., Giambelluca, T. W., Leon, L. R., Hawkins, E., & Trauernicht, C. (2017). Global risk of deadly heat. Nature Climate Change, 7(7), 501–506. Link, PDF
  • Scheffer, M., Carpenter, S., Foley, J. A., Folke, C., & Walker, B. (2001). Catastrophic shifts in ecosystems. Nature, 413(6856), 591–596. Link, PDF
  • Scheidel, A., del Bene, D., Liu, J., Navas, G., Mingorría, S., Demaria, F., Avila, S., Roy, B., Ertör, I., Temper, L., & Martínez-Alier, J. (2020). Environmental conflicts and defenders: A global overview. Global Environmental Change, 63, 102104. Link, PDF
  • Strobl, E. (2011). The Economic Growth Impact of Hurricanes: Evidence from U.S. Coastal Counties. Review of Economics and Statistics, 93(2), 575–589. Link, PDF
  • Trenberth, K. E., Dai, A., van der Schrier, G., Jones, P. D., Barichivich, J., Briffa, K. R., & Sheffield, J. (2014). Global warming and changes in drought. Nature Climate Change, 4(1), 17–22. Link, PDF
  • Turner, A. G., & Annamalai, H. (2012). Climate change and the South Asian summer monsoon. Nature Climate Change, 2(8), 587–595. Link, PDF
  • Vicente-Serrano, S. M., Quiring, S. M., Peña-Gallardo, M., Yuan, S., & Domínguez-Castro, F. (2020). A review of environmental droughts: Increased risk under global warming? Earth-Science Reviews, 201, 102953. Link, PDF
  • Wernberg, T., Smale, D. A., Tuya, F., Thomsen, M. S., Langlois, T. J., de Bettignies, T., Bennett, S., & Rousseaux, C. S. (2013). An extreme climatic event alters marine ecosystem structure in a global biodiversity hotspot. Nature Climate Change, 3(1), 78–82. Link, PDF
  • Zscheischler, J., Westra, S., van den Hurk, B. J. J. M., Seneviratne, S. I., Ward, P. J., Pitman, A., AghaKouchak, A., Bresch, D. N., Leonard, M., Wahl, T., & Zhang, X. (2018). Future climate risk from compound events. Nature Climate Change, 8(6), 469–477. Link, PDF

sustainability

  • Ahmed, Z., Asghar, M. M., Malik, M. N., & Nawaz, K. (2020). Moving towards a sustainable environment: The dynamic linkage between natural resources, human capital, urbanization, economic growth, and ecological footprint in China. Resources Policy, 67, 101677. Link, PDF
  • Akbulut, B., Demaria, F., Gerber, J.-F., & Martínez-Alier, J. (2019). Who promotes sustainability? Five theses on the relationships between the degrowth and the environmental justice movements. Ecological Economics, 165, 106418. Link, PDF
  • Arrow, K. J., Dasgupta, P., & Mäler, K.-G. (2003). Evaluating Projects and Assessing Sustainable Development in Imperfect Economies. Environmental and Resource Economics, 26(4), 647–685. Link, PDF
  • Asara, V., Otero, I., Demaria, F., & Corbera, E. (2015). Socially sustainable degrowth as a social–ecological transformation: repoliticizing sustainability. Sustainability Science, 10(3), 375–384. Link, PDF
  • Barth, M., & Michelsen, G. (2013). Learning for change: an educational contribution to sustainability science. Sustainability Science, 8(1), 103–119. Link, PDF
  • Beddoe, R., Costanza, R., Farley, J., Garza, E., Kent, J., Kubiszewski, I., Martinez, L., McCowen, T., Murphy, K., Myers, N., Ogden, Z., Stapleton, K., & Woodward, J. (2009). Overcoming systemic roadblocks to sustainability: The evolutionary redesign of worldviews, institutions, and technologies. Proceedings of the National Academy of Sciences, 106(8), 2483–2489. Link, PDF
  • Bekun, F. V., Alola, A. A., & Sarkodie, S. A. (2019). Toward a sustainable environment: Nexus between CO2 emissions, resource rent, renewable and nonrenewable energy in 16-EU countries. Science of The Total Environment, 657, 1023–1029. Link, PDF
  • Béné, C., Oosterveer, P., Lamotte, L., Brouwer, I. D., de Haan, S., Prager, S. D., Talsma, E. F., & Khoury, C. K. (2019). When food systems meet sustainability – Current narratives and implications for actions. World Development, 113, 116–130. Link, PDF
  • Cash, D. W., Clark, W. C., Alcock, F., Dickson, N. M., Eckley, N., Guston, D. H., Jäger, J., & Mitchell, R. B. (2003). Knowledge systems for sustainable development. Proceedings of the National Academy of Sciences, 100(14), 8086–8091. Link, PDF
  • Cramer, W., Guiot, J., Fader, M., Garrabou, J., Gattuso, J.-P., Iglesias, A., Lange, M. A., Lionello, P., Llasat, M. C., Paz, S., Peñuelas, J., Snoussi, M., Toreti, A., Tsimplis, M. N., & Xoplaki, E. (2018). Climate change and interconnected risks to sustainable development in the Mediterranean. Nature Climate Change, 8(11), 972–980. Link, PDF
  • Danish, Ulucak, R., & Khan, S. U.-D. (2020). Determinants of the ecological footprint: Role of renewable energy, natural resources, and urbanization. Sustainable Cities and Society, 54, 101996. Link, PDF
  • Dorninger, C., Hornborg, A., Abson, D. J., von Wehrden, H., Schaffartzik, A., Giljum, S., Engler, J.-O., Feller, R. L., Hubacek, K., & Wieland, H. (2021). Global patterns of ecologically unequal exchange: Implications for sustainability in the 21st century. Ecological Economics, 179, 106824. Link, PDF
  • Eichholtz, P., Kok, N., & Quigley, J. M. (2013). The Economics of Green Building. Review of Economics and Statistics, 95(1), 50–63. Link, PDF
  • Fedele, G., Donatti, C. I., Harvey, C. A., Hannah, L., & Hole, D. G. (2019). Transformative adaptation to climate change for sustainable social-ecological systems. Environmental Science & Policy, 101, 116–125. Link, PDF
  • Frantzeskaki, N. (2019). Seven lessons for planning nature-based solutions in cities. Environmental Science & Policy, 93, 101–111. Link, PDF
  • Ghobakhloo, M. (2020). Industry 4.0, digitization, and opportunities for sustainability. Journal of Cleaner Production, 252, 119869. Link, PDF
  • Gómez-Baggethun, E., & Naredo, J. M. (2015). In search of lost time: the rise and fall of limits to growth in international sustainability policy. Sustainability Science, 10(3), 385–395. Link, PDF
  • Hagens, N. J. (2020). Economics for the future – Beyond the superorganism. Ecological Economics, 169, 106520. Link, PDF
  • Hametner, M. (2022). Economics without ecology: How the SDGs fail to align socioeconomic development with environmental sustainability. Ecological Economics, 199, 107490. Link, PDF
  • Hickel, J. (2020). The sustainable development index: Measuring the ecological efficiency of human development in the anthropocene. Ecological Economics, 167, 106331. Link, PDF
  • Ives, C. D., Abson, D. J., von Wehrden, H., Dorninger, C., Klaniecki, K., & Fischer, J. (2018). Reconnecting with nature for sustainability. Sustainability Science, 13(5), 1389–1397. Link, PDF
  • Jansen, L., & Keesman, K. J. (2022). Exploration of efficient water, energy and nutrient use in aquaponics systems in northern latitudes. Cleaner and Circular Bioeconomy, 2, 100012. Link, PDF
  • Kremer, M., & Miguel, E. (2007). The Illusion of Sustainability. The Quarterly Journal of Economics, 122(3), 1007–1065. Link, PDF
  • Laurent, A., Olsen, S. I., & Hauschild, M. Z. (2012). Limitations of Carbon Footprint as Indicator of Environmental Sustainability. Environmental Science & Technology, 46(7), 4100–4108. Link, PDF
  • Liu, J., & Yang, W. (2012). Water Sustainability for China and Beyond. Science, 337(6095), 649–650. Link, PDF
  • Miller, C. A., & Wyborn, C. (2020). Co-production in global sustainability: Histories and theories. Environmental Science & Policy, 113, 88–95. Link, PDF
  • Moore, J. E., Mascarenhas, A., Bain, J., & Straus, S. E. (2017). Developing a comprehensive definition of sustainability. Implementation Science, 12(1), 110. Link, PDF
  • Pingali, P. L. (2012). Green Revolution: Impacts, limits, and the path ahead. Proceedings of the National Academy of Sciences, 109(31), 12302–12308. Link, PDF
  • Purvis, B., Mao, Y., & Robinson, D. (2019). Three pillars of sustainability: in search of conceptual origins. Sustainability Science, 14(3), 681–695. Link, PDF
  • Rasul, G. (2016). Managing the food, water, and energy nexus for achieving the Sustainable Development Goals in South Asia. Environmental Development, 18, 14–25. Link, PDF
  • Rees, W. (2010). What’s blocking sustainability? Human nature, cognition, and denial. Sustainability: Science, Practice and Policy, 6(2), 13–25. Link, PDF
  • Sala, S., Ciuffo, B., & Nijkamp, P. (2015). A systemic framework for sustainability assessment. Ecological Economics, 119, 314–325. Link, PDF
  • Smith, M. D., Roheim, C. A., Crowder, L. B., Halpern, B. S., Turnipseed, M., Anderson, J. L., Asche, F., Bourillón, L., Guttormsen, A. G., Khan, A., Liguori, L. A., McNevin, A., O’Connor, M. I., Squires, D., Tyedmers, P., Brownstein, C., Carden, K., Klinger, D. H., Sagarin, R., & Selkoe, K. A. (2010). Sustainability and Global Seafood. Science, 327(5967), 784–786. Link, PDF
  • Turner, B. L., Kasperson, R. E., Matson, P. A., McCarthy, J. J., Corell, R. W., Christensen, L., Eckley, N., Kasperson, J. X., Luers, A., Martello, M. L., Polsky, C., Pulsipher, A., & Schiller, A. (2003). A framework for vulnerability analysis in sustainability science. Proceedings of the National Academy of Sciences, 100(14), 8074–8079. Link, PDF
  • Wiek, A., Ness, B., Schweizer-Ries, P., Brand, F. S., & Farioli, F. (2012). From complex systems analysis to transformational change: a comparative appraisal of sustainability science projects. Sustainability Science, 7(S1), 5–24. Link, PDF
  • Zafar, M. W., Zaidi, S. A. H., Khan, N. R., Mirza, F. M., Hou, F., & Kirmani, S. A. A. (2019). The impact of natural resources, human capital, and foreign direct investment on the ecological footprint: The case of the United States. Resources Policy, 63, 101428. Link, PDF

Greening private and public finance

Central banks and green investments

  • Breitenfellner, A., Pointner, W., & Schuberth, H. (2019). The potential contribution of central banks to green finance. Vierteljahrshefte Zur Wirtschaftsforschung, 88(2), 55–71. Link, PDF
  • Danmarks Nationalbank. (2021). Climate change and the role of central banks.(https://www.nationalbanken.dk/en/publications/Documents/2021/07/ANALYSIS_No.%2019_Climate%20change%20and%20the%20role%20of%20central%20banks.pdf)
  • Demena, B. A., & Afesorgbor, S. K. (2020). The effect of FDI on environmental emissions: Evidence from a meta-analysis. Energy Policy, 138, 111192. Link, PDF
  • Dikau, S., & Volz, U. (2021). Central bank mandates, sustainability objectives and the promotion of green finance. Ecological Economics, 184, 107022. Link, PDF
  • Lan, J., Kakinaka, M., & Huang, X. (2012). Foreign Direct Investment, Human Capital and Environmental Pollution in China. Environmental and Resource Economics, 51(2), 255–275. Link, PDF
  • Li, Z.-Z., Li, R. Y. M., Malik, M. Y., Murshed, M., Khan, Z., & Umar, M. (2021). Determinants of Carbon Emission in China: How Good is Green Investment? Sustainable Production and Consumption, 27, 392–401. Link, PDF
  • Nasir, M. A., Duc Huynh, T. L., & Xuan Tram, H. T. (2019). Role of financial development, economic growth & foreign direct investment in driving climate change: A case of emerging ASEAN. Journal of Environmental Management, 242, 131–141. Link, PDF
  • Wagner, U. J., & Timmins, C. D. (2009). Agglomeration Effects in Foreign Direct Investment and the Pollution Haven Hypothesis. Environmental and Resource Economics, 43(2), 231–256. Link, PDF
  • Xing, Y., & Kolstad, C. D. (2002). Do Lax Environmental Regulations Attract Foreign Investment? Environmental and Resource Economics, 21(1), 1–22. Link, PDF
  • Zhang, D., Mohsin, M., Rasheed, A. K., Chang, Y., & Taghizadeh-Hesary, F. (2021). Public spending and green economic growth in BRI region: Mediating role of green finance. Energy Policy, 153, 112256. Link, PDF
  • Zugravu-Soilita, N. (2017). How does Foreign Direct Investment Affect Pollution? Toward a Better Understanding of the Direct and Conditional Effects. Environmental and Resource Economics, 66(2), 293–338. Link, PDF
    • Central banks should not mandate 'green' investments: Raghuram Rajan (https://www.reuters.com/world/india/central-banks-should-not-mandate-green-investments-raghuram-rajan-2021-08-26/)

Innovation and industrial development

energy

  • Abrell, J., Rausch, S., & Streitberger, C. (2019). The economics of renewable energy support. Journal of Public Economics, 176, 94–117. Link, PDF
  • Adetutu, M. O., Odusanya, K. A., & Weyman-Jones, T. G. (2020). Carbon Tax and Energy Intensity: Assessing the Channels of Impact using UK Microdata. The Energy Journal, 41(2). Link, PDF
  • Alimujiang, A., & Jiang, P. (2020). Synergy and co-benefits of reducing CO2 and air pollutant emissions by promoting electric vehicles—A case of Shanghai. Energy for Sustainable Development, 55, 181–189. Link, PDF
  • Allcott, H., Mullainathan, S., & Taubinsky, D. (2014). Energy policy with externalities and internalities. Journal of Public Economics, 112, 72–88. Link, PDF
  • Arto, I., Capellán-Pérez, I., Lago, R., Bueno, G., & Bermejo, R. (2016). The energy requirements of a developed world. Energy for Sustainable Development, 33, 1–13. Link, PDF
  • Bahn, O., de Bruin, K., & Fertel, C. (2019). Will Adaptation Delay the Transition to Clean Energy Systems? An Analysis with AD-MERGE. The Energy Journal, 40(4). Link, PDF
  • Cherp, A., & Jewell, J. (2014). The concept of energy security: Beyond the four As. Energy Policy, 75, 415–421. Link, PDF
  • Chu, S., & Majumdar, A. (2012). Opportunities and challenges for a sustainable energy future. Nature, 488(7411), 294–303. Link, PDF
  • de Oliveira, G., & Lima, G. T. (2022). Economic growth as a double-edged sword: The pollution-adjusted Kaldor-Verdoorn effect. Ecological Economics, 199, 107449. Link, PDF
  • Destek, M. A., & Sinha, A. (2020). Renewable, non-renewable energy consumption, economic growth, trade openness and ecological footprint: Evidence from organisation for economic Co-operation and development countries. Journal of Cleaner Production, 242, 118537. Link, PDF
  • Du, K., & Li, J. (2019). Towards a green world: How do green technology innovations affect total-factor carbon productivity. Energy Policy, 131, 240–250. Link, PDF
  • Fowlie, M., Greenstone, M., & Wolfram, C. (2018). Do Energy Efficiency Investments Deliver? Evidence from the Weatherization Assistance Program*. The Quarterly Journal of Economics, 133(3), 1597–1644. Link, PDF
  • Gerbens-Leenes, W., Hoekstra, A. Y., & van der Meer, T. H. (2009). The water footprint of bioenergy. Proceedings of the National Academy of Sciences, 106(25), 10219–10223. Link, PDF
  • Gillingham, K., Rapson, D., & Wagner, G. (2016). The Rebound Effect and Energy Efficiency Policy. Review of Environmental Economics and Policy, 10(1), 68–88. Link, PDF
  • Golub, A., Govorukha, K., Mayer, P., & Rübbelke, D. (2022). Climate Change and the Vulnerability of Germany’s Power Sector to Heat and Drought. The Energy Journal, 43(3). Link, PDF
  • Hall, C. A. S., Lambert, J. G., & Balogh, S. B. (2014). EROI of different fuels and the implications for society. Energy Policy, 64, 141–152. Link, PDF
  • Harjanne, A., & Korhonen, J. M. (2019). Abandoning the concept of renewable energy. Energy Policy, 127, 330–340. Link, PDF
  • Holland, S. P., & Mansur, E. T. (2008). Is Real-Time Pricing Green? The Environmental Impacts of Electricity Demand Variance. Review of Economics and Statistics, 90(3), 550–561. Link, PDF
  • Inês, C., Guilherme, P. L., Esther, M.-G., Swantje, G., Stephen, H., & Lars, H. (2020). Regulatory challenges and opportunities for collective renewable energy prosumers in the EU. Energy Policy, 138, 111212. Link, PDF
  • Kammen, D. M., & Sunter, D. A. (2016). City-integrated renewable energy for urban sustainability. Science, 352(6288), 922–928. Link, PDF
  • Kunze, C., & Becker, S. (2015). Collective ownership in renewable energy and opportunities for sustainable degrowth. Sustainability Science, 10(3), 425–437. Link, PDF
  • Lacey-Barnacle, M., Robison, R., & Foulds, C. (2020). Energy justice in the developing world: a review of theoretical frameworks, key research themes and policy implications. Energy for Sustainable Development, 55, 122–138. Link, PDF
  • Lange, S., Pohl, J., & Santarius, T. (2020). Digitalization and energy consumption. Does ICT reduce energy demand? Ecological Economics, 176, 106760. Link, PDF
  • Lovering, J. R., Yip, A., & Nordhaus, T. (2016). Historical construction costs of global nuclear power reactors. Energy Policy, 91, 371–382. Link, PDF
  • Millward-Hopkins, J., Steinberger, J. K., Rao, N. D., & Oswald, Y. (2020). Providing decent living with minimum energy: A global scenario. Global Environmental Change, 65, 102168. Link, PDF
  • Nesta, L., Vona, F., & Nicolli, F. (2014). Environmental policies, competition and innovation in renewable energy. Journal of Environmental Economics and Management, 67(3), 396–411. Link, PDF
  • Nykvist, B., & Nilsson, M. (2015). Rapidly falling costs of battery packs for electric vehicles. Nature Climate Change, 5(4), 329–332. Link, PDF
  • Parag, Y., & Ainspan, M. (2019). Sustainable microgrids: Economic, environmental and social costs and benefits of microgrid deployment. Energy for Sustainable Development, 52, 72–81. Link, PDF
  • Pliousis, A., Andriosopoulos, K., Doumpos, M., & Galariotis, E. (2019). A Multicriteria Assessment Approach to the Energy Trilemma. The Energy Journal, 40(01). Link, PDF
  • Ramanan P, Kalidasa Murugavel K, & Karthick A. (2019). Performance analysis and energy metrics of grid-connected photovoltaic systems. Energy for Sustainable Development, 52, 104–115. Link, PDF
  • Richmond, A. K., & Kaufmann, R. K. (2006). Energy Prices and Turning Points: The Relationship between Income and Energy Use/Carbon Emissions. The Energy Journal, 27(4). Link, PDF
  • Rivers, N., & Shaffer, B. (2020). Stretching the Duck: How Rising Temperatures will Change the Level and Shape of Future Electricity Consumption. The Energy Journal, 41(01). Link, PDF
  • Rogelj, J., Luderer, G., Pietzcker, R. C., Kriegler, E., Schaeffer, M., Krey, V., & Riahi, K. (2015). Energy system transformations for limiting end-of-century warming to below 1.5 °C. Nature Climate Change, 5(6), 519–527. Link, PDF
  • saint Akadiri, S., Alola, A. A., Akadiri, A. C., & Alola, U. V. (2019). Renewable energy consumption in EU-28 countries: Policy toward pollution mitigation and economic sustainability. Energy Policy, 132, 803–810. Link, PDF
  • Schmalensee, R. (2012). Evaluating Policies to Increase Electricity Generation from Renewable Energy. Review of Environmental Economics and Policy, 6(1), 45–64. Link, PDF
  • Sharif, A., Baris-Tuzemen, O., Uzuner, G., Ozturk, I., & Sinha, A. (2020). Revisiting the role of renewable and non-renewable energy consumption on Turkey’s ecological footprint: Evidence from Quantile ARDL approach. Sustainable Cities and Society, 57, 102138. Link, PDF
  • Söderholm, P., & Klaassen, G. (2007). Wind Power in Europe: A Simultaneous Innovation–Diffusion Model. Environmental and Resource Economics, 36(2), 163–190. Link, PDF
  • Steckel, J. C., & Jakob, M. (2022). To end coal, adapt to regional realities. Nature, 607(7917), 29–31. Link, PDF
  • Sun, H., Edziah, B. K., Sun, C., & Kporsu, A. K. (2019). Institutional quality, green innovation and energy efficiency. Energy Policy, 135, 111002. Link, PDF
  • Uddin, K., Dubarry, M., & Glick, M. B. (2018). The viability of vehicle-to-grid operations from a battery technology and policy perspective. Energy Policy, 113, 342–347. Link, PDF
  • van Benthem, A. A., Crooks, E., Giglio, S., Schwob, E., & Stroebel, J. (2022). The effect of climate risks on the interactions between financial markets and energy companies. Nature Energy. Link, PDF
  • van den Bergh, J. C. J. M. (2011). Energy Conservation More Effective With Rebound Policy. Environmental and Resource Economics, 48(1), 43–58. Link, PDF
  • Xu, X., Wei, Z., Ji, Q., Wang, C., & Gao, G. (2019). Global renewable energy development: Influencing factors, trend predictions and countermeasures. Resources Policy, 63, 101470. Link, PDF
  • Yin, D., & Chang, Y. (2020). Energy R&D Investments and Emissions Abatement Policy. The Energy Journal, 41(01). Link, PDF

Stranded assets

  • Ansari, D., & Holz, F. (2020). Between stranded assets and green transformation: Fossil-fuel-producing developing countries towards 2055. World Development, 130, 104947. Link, PDF
  • Bos, K., & Gupta, J. (2019). Stranded assets and stranded resources: Implications for climate change mitigation and global sustainable development. Energy Research & Social Science, 56, 101215. Link, PDF
  • Cahen-Fourot, L., Campiglio, E., Godin, A., Kemp-Benedict, E., & Trsek, S. (2021). Capital stranding cascades: The impact of decarbonisation on productive asset utilisation. Energy Economics, 103, 105581. Link, PDF
  • Caldecott, B., Harnett, E., Cojoianu, T., Kok, I., & Pfeiffer, A. (2016). Stranded Assets: A Climate Risk Challenge.
  • Caldecott, B. (2017). Introduction to special issue: stranded assets and the environment. Journal of Sustainable Finance & Investment, 7(1), 1–13. Link, PDF
  • Caldecott, B., Kruitwagen, L., Dericks, G., Tulloch, D. J., Kok, I., & Mitchell, J. (2016). Stranded Assets and Thermal Coal: An Analysis of Environment-Related Risk Exposure. SSRN Electronic Journal. Link, PDF
  • Curtin, J., McInerney, C., Ó Gallachóir, B., Hickey, C., Deane, P., & Deeney, P. (2019). Quantifying stranding risk for fossil fuel assets and implications for renewable energy investment: A review of the literature. Renewable and Sustainable Energy Reviews, 116, 109402. Link, PDF
  • Farfan, J., & Breyer, C. (2017). Structural changes of global power generation capacity towards sustainability and the risk of stranded investments supported by a sustainability indicator. Journal of Cleaner Production, 141, 370–384. Link, PDF
  • Green, J., & Newman, P. (2017). Disruptive innovation, stranded assets and forecasting: the rise and rise of renewable energy. Journal of Sustainable Finance & Investment, 7(2), 169–187. Link, PDF
  • Löffler, K., Burandt, T., Hainsch, K., & Oei, P.-Y. (2019). Modeling the low-carbon transition of the European energy system - A quantitative assessment of the stranded assets problem. Energy Strategy Reviews, 26, 100422. Link, PDF
  • Mercure, J.-F., Pollitt, H., Viñuales, J. E., Edwards, N. R., Holden, P. B., Chewpreecha, U., Salas, P., Sognnaes, I., Lam, A., & Knobloch, F. (2018). Macroeconomic impact of stranded fossil fuel assets. Nature Climate Change, 8(7), 588–593. Link, PDF
  • Rozenberg, J., Vogt-Schilb, A., & Hallegatte, S. (2020). Instrument choice and stranded assets in the transition to clean capital. Journal of Environmental Economics and Management, 100, 102183. Link, PDF
  • Silver, N. (2017). Blindness to risk: why institutional investors ignore the risk of stranded assets. Journal of Sustainable Finance & Investment, 7(1), 99–113. Link, PDF
  • Sovacool, B. K., & Scarpaci, J. (2016). Energy justice and the contested petroleum politics of stranded assets: Policy insights from the Yasuní-ITT Initiative in Ecuador. Energy Policy, 95, 158–171. Link, PDF
  • van der Ploeg, F., & Rezai, A. (2020). Stranded Assets in the Transition to a Carbon-Free Economy. Annual Review of Resource Economics, 12(1), 281–298. Link, PDF
  • van der Ploeg, F., & Rezai, A. (2020). The risk of policy tipping and stranded carbon assets. Journal of Environmental Economics and Management, 100, 102258. Link, PDF

technology

  • Acemoglu, D., Aghion, P., Bursztyn, L., & Hemous, D. (2012). The Environment and Directed Technical Change. American Economic Review, 102(1), 131–166. Link, PDF
  • Anderson, S. T., Parry, I. W. H., Sallee, J. M., & Fischer, C. (2011). Automobile Fuel Economy Standards: Impacts, Efficiency, and Alternatives. Review of Environmental Economics and Policy, 5(1), 89–108. Link, PDF
  • Carrión-Flores, C. E., & Innes, R. (2010). Environmental innovation and environmental performance. Journal of Environmental Economics and Management, 59(1), 27–42. Link, PDF
  • Chen, Y., Cheng, L., & Lee, C.-C. (2022). How does the use of industrial robots affect the ecological footprint? International evidence. Ecological Economics, 198, 107483. Link, PDF
  • Dechezleprêtre, A., Glachant, M., Haščič, I., Johnstone, N., & Ménière, Y. (2011). Invention and Transfer of Climate Change–Mitigation Technologies: A Global Analysis. Review of Environmental Economics and Policy, 5(1), 109–130. Link, PDF
  • Dionne, G., & Spaeter, S. (2003). Environmental risk and extended liability: The case of green technologies. Journal of Public Economics, 87(5–6), 1025–1060. Link, PDF
  • Islam, G. M. S., Rahman, M. H., & Kazi, N. (2017). Waste glass powder as partial replacement of cement for sustainable concrete practice. International Journal of Sustainable Built Environment, 6(1), 37–44. Link, PDF
  • Popp, D. (2006). International innovation and diffusion of air pollution control technologies: the effects of NOX and SO2 regulation in the US, Japan, and Germany. Journal of Environmental Economics and Management, 51(1), 46–71. Link, PDF

Macro-criticality of climate change

discounting and uncertainty

  • Ackerman, F., DeCanio, S. J., Howarth, R. B., & Sheeran, K. (2009). Limitations of integrated assessment models of climate change. Climatic Change, 95(3–4), 297–315. Link, PDF
  • Almansa, C., & Martínez-Paz, J. M. (2011). What weight should be assigned to future environmental impacts? A probabilistic cost benefit analysis using recent advances on discounting. Science of The Total Environment, 409(7), 1305–1314. Link, PDF
  • Arrow, K., Cropper, M., Gollier, C., Groom, B., Heal, G., Newell, R., Nordhaus, W., Pindyck, R., Pizer, W., Portney, P., Sterner, T., Tol, R. S. J., & Weitzman, M. (2013). Determining Benefits and Costs for Future Generations. Science, 341(6144), 349–350. Link, PDF
  • Arrow, K. J., Cropper, M. L., Gollier, C., Groom, B., Heal, G. M., Newell, R. G., Nordhaus, W. D., Pindyck, R. S., Pizer, W. A., Portney, P. R., Sterner, T., Tol, R. S. J., & Weitzman, M. L. (2014). Should Governments Use a Declining Discount Rate in Project Analysis? Review of Environmental Economics and Policy, 8(2), 145–163. Link, PDF
  • Campiglio, E., Daumas, L., Monnin, P., & von Jagow, A. (2022). Climate‐related risks in financial assets. Journal of Economic Surveys. Link, PDF
  • Dasgupta, P. (2008). Discounting climate change. Journal of Risk and Uncertainty, 37(2–3), 141–169. Link, PDF
  • Gollier, C. (2002). Discounting an uncertain future. Journal of Public Economics, 85(2), 149–166. Link, PDF
  • Gollier, C., & Weitzman, M. L. (2010). How should the distant future be discounted when discount rates are uncertain? Economics Letters, 107(3), 350–353. Link, PDF
  • Hardisty, D. J., & Weber, E. U. (2009). Discounting future green: Money versus the environment. Journal of Experimental Psychology: General, 138(3), 329–340. Link, PDF
  • Howden, W., Levin, R., Jacobsen, M., Boomhower, J., Carson, R., Graff Zivin, J., Shrader, J., & Lemoine, D. (2022). The Global Impacts of Climate Change on Risk Preferences.
  • Keller, K., Bolker, B. M., & Bradford, D. F. (2004). Uncertain climate thresholds and optimal economic growth. Journal of Environmental Economics and Management, 48(1), 723–741. Link, PDF
  • Knutti, R., & Sedláček, J. (2013). Robustness and uncertainties in the new CMIP5 climate model projections. Nature Climate Change, 3(4), 369–373. Link, PDF
  • Lemoine, D., & Traeger, C. P. (2016). Ambiguous tipping points. Journal of Economic Behavior & Organization, 132, 5–18. Link, PDF
  • Moilanen, A., van Teeffelen, A. J. A., Ben-Haim, Y., & Ferrier, S. (2009). How Much Compensation is Enough? A Framework for Incorporating Uncertainty and Time Discounting When Calculating Offset Ratios for Impacted Habitat. Restoration Ecology, 17(4), 470–478. Link, PDF
  • Moore, M. A., Boardman, A. E., Vining, A. R., Weimer, D. L., & Greenberg, D. H. (2004). “Just give me a number!” Practical values for the social discount rate. Journal of Policy Analysis and Management , 23(4), 789–812.
  • Newell, R. G., & Pizer, W. A. (2003). Discounting the distant future: how much do uncertain rates increase valuations? Journal of Environmental Economics and Management, 46(1), 52–71. Link, PDF
  • Newell, R. G., & Pizer, W. A. (2003). Regulating stock externalities under uncertainty. Journal of Environmental Economics and Management, 45(2), 416–432. Link, PDF
  • Nordhaus, W. D. (2007). A Review of the Stern Review on the Economics of Climate Change. Journal of Economic Literature, 45(3), 686–702. Link, PDF
  • Pindyck, R. S. (2007). Uncertainty in Environmental Economics. Review of Environmental Economics and Policy, 1(1), 45–65. Link, PDF
  • Preston, B. L., Yuen, E. J., & Westaway, R. M. (2011). Putting vulnerability to climate change on the map: a review of approaches, benefits, and risks. Sustainability Science, 6(2), 177–202. Link, PDF
  • Stern, N. (2008). The Economics of Climate Change. American Economic Review, 98(2), 1–37. Link, PDF
  • Sterner, T., & Persson, U. M. (2008). An Even Sterner Review: Introducing Relative Prices into the Discounting Debate. Review of Environmental Economics and Policy, 2(1), 61–76. Link, PDF
  • Sumaila, U. R., & Walters, C. (2005). Intergenerational discounting: a new intuitive approach. Ecological Economics, 52(2), 135–142. Link, PDF
  • Tol, R. S. J. (2005). The marginal damage costs of carbon dioxide emissions: an assessment of the uncertainties. Energy Policy, 33(16), 2064–2074. Link, PDF
  • United States Environmental Protection Agency (EPA). (2010). Guidelines for Preparing Economic Analyses: Discounting Future Benefits and Costs (Chapter 6).
  • Wagner, G., & Weitzman, M. L. (2013, October 10). Inconvenient Uncertainties. New York Times. (update to recent work)
  • Wang, M., Rieger, M. O., & Hens, T. (2016). How time preferences differ: Evidence from 53 countries. Journal of Economic Psychology, 52, 115–135. Link, PDF
  • Weitzman, M. L. (2013). Tail-Hedge Discounting and the Social Cost of Carbon. Journal of Economic Literature, 51(3), 873–882. Link, PDF

Externalities

  • Akey, P., & Appel, I. (2019). Environmental Externalities of Activism. SSRN Electronic Journal. Link, PDF
  • Allcott, H., Mullainathan, S., & Taubinsky, D. (2014). Energy policy with externalities and internalities. Journal of Public Economics, 112, 72–88. Link, PDF
  • Bellver-Domingo, A., Hernández-Sancho, F., & Molinos-Senante, M. (2016). A review of Payment for Ecosystem Services for the economic internalization of environmental externalities: A water perspective. Geoforum, 70, 115–118. Link, PDF
  • Bithas, K. (2011). Sustainability and externalities: Is the internalization of externalities a sufficient condition for sustainability? Ecological Economics, 70(10), 1703–1706. Link, PDF
  • Chava, S. (2014). Environmental Externalities and Cost of Capital. Management Science, 60(9), 2223–2247. Link, PDF
  • Chen, W. Y. (2017). Environmental externalities of urban river pollution and restoration: A hedonic analysis in Guangzhou (China). Landscape and Urban Planning, 157, 170–179. Link, PDF
  • Chowdhury, R. B., Khan, A., Mahiat, T., Dutta, H., Tasmeea, T., Binth Arman, A. B., Fardu, F., Roy, B. B., Hossain, M. M., Khan, N. A., Amin, A. T. M. N., & Sujauddin, M. (2021). Environmental externalities of the COVID-19 lockdown: Insights for sustainability planning in the Anthropocene. Science of The Total Environment, 783, 147015. Link, PDF
  • del Giudice, V., de Paola, P., Manganelli, B., & Forte, F. (2017). The Monetary Valuation of Environmental Externalities through the Analysis of Real Estate Prices. Sustainability, 9(2), 229. Link, PDF
  • Hsiang, S., Oliva, P., & Walker, R. (2019). The Distribution of Environmental Damages. Review of Environmental Economics and Policy, 13(1), 83–103. Link, PDF
  • Klenow, P. J., & Rodríguez-Clare, A. (2005). Chapter 11 Externalities and Growth (pp. 817–861). Link, PDF
  • Lankoski, J. (2003). Agri-environmental externalities: a framework for designing targeted policies. European Review of Agriculture Economics, 30(1), 51–75. Link, PDF
  • National Research Council. (2010). Hidden Costs of Energy. National Academies Press. Link, PDF
  • Newell, R. G., & Pizer, W. A. (2003). Regulating stock externalities under uncertainty. Journal of Environmental Economics and Management, 45(2), 416–432. Link, PDF
  • Nguyen, T. L. T., Laratte, B., Guillaume, B., & Hua, A. (2016). Quantifying environmental externalities with a view to internalizing them in the price of products, using different monetization models. Resources, Conservation and Recycling, 109, 13–23. Link, PDF
  • Parry, I. W. H., Walls, M., & Harrington, W. (2007). Automobile Externalities and Policies. Journal of Economic Literature, 45(2), 373–399. Link, PDF
  • Picazo-Tadeo, A. J., & Prior, D. (2009). Environmental externalities and efficiency measurement. Journal of Environmental Management, 90(11), 3332–3339. Link, PDF
  • Rossi‐Hansberg, E., Sarte, P., & Owens, R. (2010). Housing Externalities. Journal of Political Economy, 118(3), 485–535. Link, PDF
  • Santos, G., Behrendt, H., Maconi, L., Shirvani, T., & Teytelboym, A. (2010). Part I: Externalities and economic policies in road transport. Research in Transportation Economics, 28(1), 2–45. Link, PDF
  • Stavins, R. N. (2011). The Problem of the Commons: Still Unsettled after 100 Years. American Economic Review, 101(1), 81–108. Link, PDF
  • Unerman, J., Bebbington, J., & O’dwyer, B. (2018). Corporate reporting and accounting for externalities. Accounting and Business Research, 48(5), 497–522. Link, PDF
  • Verhoef, E. T., & Nijkamp, P. (2002). Externalities in urban sustainability. Ecological Economics, 40(2), 157–179. Link, PDF

fat tails

  • Kelly, D. L., & Tan, Z. (2015). Learning and climate feedbacks: Optimal climate insurance and fat tails. Journal of Environmental Economics and Management, 72, 98–122. Link, PDF
  • Nordhaus, W. D. (2011). The Economics of Tail Events with an Application to Climate Change. Review of Environmental Economics and Policy, 5(2), 240–257. Link, PDF
  • Nordhaus, W. D. (2015). A Question of Balance. Weighing the Options on Global Warming Policies. Yale University Press.
  • Pindyck, R. S. (2011). Fat Tails, Thin Tails, and Climate Change Policy. Review of Environmental Economics and Policy, 5(2), 258–274. Link, PDF
  • Thurner, S., Farmer, J. D., & Geanakoplos, J. (2012). Leverage causes fat tails and clustered volatility. Quantitative Finance, 12(5), 695–707. Link, PDF
  • Weitzman, M. L. (2011). Fat-Tailed Uncertainty in the Economics of Catastrophic Climate Change. Review of Environmental Economics and Policy, 5(2), 275–292. Link, PDF
  • Weitzman, M. L. (2009). On Modeling and Interpreting the Economics of Catastrophic Climate Change. Review of Economics and Statistics, 91(1), 1–19. Link, PDF
  • Weitzman, M. L. (2014). Fat Tails and the Social Cost of Carbon. American Economic Review, 104(5), 544–546. Link, PDF

Social change, equity and just transition

Circular economy

  • Bongers, A., & Casas, P. (2022). The circular economy and the optimal recycling rate: A macroeconomic approach. Ecological Economics, 199, 107504. Link, PDF
  • Giampietro, M. (2019). On the Circular Bioeconomy and Decoupling: Implications for Sustainable Growth. Ecological Economics, 162, 143–156. Link, PDF
  • Korhonen, J., Honkasalo, A., & Seppälä, J. (2018). Circular Economy: The Concept and its Limitations. Ecological Economics, 143, 37–46. Link, PDF
  • Moraga, G., Huysveld, S., Mathieux, F., Blengini, G. A., Alaerts, L., van Acker, K., de Meester, S., & Dewulf, J. (2019). Circular economy indicators: What do they measure? Resources, Conservation and Recycling, 146, 452–461. Link, PDF
  • Morseletto, P. (2020). Targets for a circular economy. Resources, Conservation and Recycling, 153, 104553. Link, PDF
  • Mossali, E., Picone, N., Gentilini, L., Rodrìguez, O., Pérez, J. M., & Colledani, M. (2020). Lithium-ion batteries towards circular economy: A literature review of opportunities and issues of recycling treatments. Journal of Environmental Management, 264, 110500. Link, PDF
  • Sauvé, S., Bernard, S., & Sloan, P. (2016). Environmental sciences, sustainable development and circular economy: Alternative concepts for trans-disciplinary research. Environmental Development, 17, 48–56. Link, PDF

Society

  • Adger, W. N., Barnett, J., Brown, K., Marshall, N., & O’Brien, K. (2013). Cultural dimensions of climate change impacts and adaptation. Nature Climate Change, 3(2), 112–117. Link, PDF
  • Ahmed, Z., Zafar, M. W., Ali, S., & Danish. (2020). Linking urbanization, human capital, and the ecological footprint in G7 countries: An empirical analysis. Sustainable Cities and Society, 55, 102064. Link, PDF
  • al horr, Y., Arif, M., Katafygiotou, M., Mazroei, A., Kaushik, A., & Elsarrag, E. (2016). Impact of indoor environmental quality on occupant well-being and comfort: A review of the literature. International Journal of Sustainable Built Environment, 5(1), 1–11. Link, PDF
  • Alberini, A., & Segerson, K. (2002). Assessing Voluntary Programs to Improve Environmental Quality. Environmental and Resource Economics, 22(1/2), 157–184. Link, PDF
  • Banzhaf, S., Ma, L., & Timmins, C. (2019). Environmental Justice: The Economics of Race, Place, and Pollution. Journal of Economic Perspectives, 33(1), 185–208. Link, PDF
  • Barreca, A. I. (2012). Climate change, humidity, and mortality in the United States. Journal of Environmental Economics and Management, 63(1), 19–34. Link, PDF
  • Berki-Kiss, D., & Menrad, K. (2022). Ethical consumption: Influencing factors of consumer´s intention to purchase Fairtrade roses. Cleaner and Circular Bioeconomy, 2, 100008. Link, PDF
  • Blom, S., Ortiz-Bobea, A., & Hoddinott, J. (2022). Heat exposure and child nutrition: Evidence from West Africa. Journal of Environmental Economics and Management, 115, 102698. Link, PDF
  • Bouman, T., Verschoor, M., Albers, C. J., Böhm, G., Fisher, S. D., Poortinga, W., Whitmarsh, L., & Steg, L. (2020). When worry about climate change leads to climate action: How values, worry and personal responsibility relate to various climate actions. Global Environmental Change, 62, 102061. Link, PDF
  • Cai, R., Feng, S., Oppenheimer, M., & Pytlikova, M. (2016). Climate variability and international migration: The importance of the agricultural linkage. Journal of Environmental Economics and Management, 79, 135–151. Link, PDF
  • Carlsson, F., & Martinsson, P. (2001). Do Hypothetical and Actual Marginal Willingness to Pay Differ in Choice Experiments? Journal of Environmental Economics and Management, 41(2), 179–192. Link, PDF
  • Cattaneo, C., & Foreman, T. (2021). Climate Change, International Migration, and Interstate Conflict.
  • Conrad, K. (2005). Price Competition and Product Differentiation When Consumers Care for the Environment. Environmental & Resource Economics, 31(1), 1–19. Link, PDF
  • Croson, R., & Treich, N. (2014). Behavioral Environmental Economics: Promises and Challenges. Environmental and Resource Economics, 58(3), 335–351. Link, PDF
  • Enssle, F., & Kabisch, N. (2020). Urban green spaces for the social interaction, health and well-being of older people— An integrated view of urban ecosystem services and socio-environmental justice. Environmental Science & Policy, 109, 36–44. Link, PDF
  • Ferreira, S., & Moro, M. (2010). On the Use of Subjective Well-Being Data for Environmental Valuation. Environmental and Resource Economics, 46(3), 249–273. Link, PDF
  • Gallagher, K. S., & Muehlegger, E. (2011). Giving green to get green? Incentives and consumer adoption of hybrid vehicle technology. Journal of Environmental Economics and Management, 61(1), 1–15. Link, PDF
  • Hagedorn, G., Kalmus, P., Mann, M., Vicca, S., van den Berge, J., van Ypersele, J.-P., Bourg, D., Rotmans, J., Kaaronen, R., Rahmstorf, S., Kromp-Kolb, H., Kirchengast, G., Knutti, R., Seneviratne, S. I., Thalmann, P., Cretney, R., Green, A., Anderson, K., Hedberg, M., … Hayhoe, K. (2019). Concerns of young protesters are justified. Science, 364(6436), 139–140. Link, PDF
  • Hörcher, D., & Graham, D. J. (2020). MaaS economics: Should we fight car ownership with subscriptions to alternative modes? Economics of Transportation, 22, 100167. Link, PDF
  • Hornsey, M. J., Harris, E. A., Bain, P. G., & Fielding, K. S. (2016). Meta-analyses of the determinants and outcomes of belief in climate change. Nature Climate Change, 6(6), 622–626. Link, PDF
  • Iacovidou, E., & Zorpas, A. A. (2022). Exploratory research on the adoption of composting for the management of biowaste in the Mediterranean island of Cyprus. Cleaner and Circular Bioeconomy, 1, 100007. Link, PDF
  • Jenkins, R. R., Martinez, S. A., Palmer, K., & Podolsky, M. J. (2003). The determinants of household recycling: a material-specific analysis of recycling program features and unit pricing. Journal of Environmental Economics and Management, 45(2), 294–318. Link, PDF
  • Kahan, D. M., Peters, E., Wittlin, M., Slovic, P., Ouellette, L. L., Braman, D., & Mandel, G. (2012). The polarizing impact of science literacy and numeracy on perceived climate change risks. Nature Climate Change, 2(10), 732–735. Link, PDF
  • Kahn, M. E. (2007). Do greens drive Hummers or hybrids? Environmental ideology as a determinant of consumer choice. Journal of Environmental Economics and Management, 54(2), 129–145. Link, PDF
  • Kim, B. F., Santo, R. E., Scatterday, A. P., Fry, J. P., Synk, C. M., Cebron, S. R., Mekonnen, M. M., Hoekstra, A. Y., de Pee, S., Bloem, M. W., Neff, R. A., & Nachman, K. E. (2020). Country-specific dietary shifts to mitigate climate and water crises. Global Environmental Change, 62, 101926. Link, PDF
  • Klenert, D., Mattauch, L., Combet, E., Edenhofer, O., Hepburn, C., Rafaty, R., & Stern, N. (2018). Making carbon pricing work for citizens. Nature Climate Change, 8(8), 669–677. Link, PDF
  • Lee, T. M., Markowitz, E. M., Howe, P. D., Ko, C.-Y., & Leiserowitz, A. A. (2015). Predictors of public climate change awareness and risk perception around the world. Nature Climate Change, 5(11), 1014–1020. Link, PDF
  • Lemos, M. C., Kirchhoff, C. J., & Ramprasad, V. (2012). Narrowing the climate information usability gap. Nature Climate Change, 2(11), 789–794. Link, PDF
  • Llavador, H., Roemer, J. E., & Silvestre, J. (2011). “A dynamic analysis of human welfare in a warming planet.” Journal of Public Economics, 95(11–12), 1607–1620. Link, PDF
  • Marchiori, L., Maystadt, J.-F., & Schumacher, I. (2012). The impact of weather anomalies on migration in sub-Saharan Africa. Journal of Environmental Economics and Management, 63(3), 355–374. Link, PDF
  • Myers, N., & Kent, J. (2003). New consumers: The influence of affluence on the environment. Proceedings of the National Academy of Sciences, 100(8), 4963–4968. Link, PDF
  • Pagiola, S., Arcenas, A., & Platais, G. (2005). Can Payments for Environmental Services Help Reduce Poverty? An Exploration of the Issues and the Evidence to Date from Latin America. World Development, 33(2), 237–253. Link, PDF
  • Rai, P. K., Lee, S. S., Zhang, M., Tsang, Y. F., & Kim, K.-H. (2019). Heavy metals in food crops: Health risks, fate, mechanisms, and management. Environment International, 125, 365–385. Link, PDF
  • Ranson, M. (2014). Crime, weather, and climate change. Journal of Environmental Economics and Management, 67(3), 274–302. Link, PDF
  • Schanes, K., Dobernig, K., & Gözet, B. (2018). Food waste matters - A systematic review of household food waste practices and their policy implications. Journal of Cleaner Production, 182, 978–991. Link, PDF
  • Stoll-Kleemann, S., & O’Riordan, T. (2015). The Sustainability Challenges of Our Meat and Dairy Diets. Environment: Science and Policy for Sustainable Development, 57(3), 34–48. Link, PDF
  • Teisl, M. F., Roe, B., & Hicks, R. L. (2002). Can Eco-Labels Tune a Market? Evidence from Dolphin-Safe Labeling. Journal of Environmental Economics and Management, 43(3), 339–359. Link, PDF
  • Temper, L., Demaria, F., Scheidel, A., del Bene, D., & Martinez-Alier, J. (2018). The Global Environmental Justice Atlas (EJAtlas): ecological distribution conflicts as forces for sustainability. Sustainability Science, 13(3), 573–584. Link, PDF
  • Thiri, M. A., Villamayor-Tomás, S., Scheidel, A., & Demaria, F. (2022). How social movements contribute to staying within the global carbon budget: Evidence from a qualitative meta-analysis of case studies. Ecological Economics, 195, 107356. Link, PDF
  • van Asselt, J., Nian, Y., Soh, M., Morgan, S., & Gao, Z. (2022). Do plastic warning labels reduce consumers’ willingness to pay for plastic egg packaging? – Evidence from a choice experiment. Ecological Economics, 198, 107460. Link, PDF
  • Wilson, C., Hargreaves, T., & Hauxwell-Baldwin, R. (2017). Benefits and risks of smart home technologies. Energy Policy, 103, 72–83. Link, PDF
  • Wolch, J. R., Byrne, J., & Newell, J. P. (2014). Urban green space, public health, and environmental justice: The challenge of making cities ‘just green enough.’ Landscape and Urban Planning, 125, 234–244. Link, PDF
  • Wu, X., Lu, Y., Zhou, S., Chen, L., & Xu, B. (2016). Impact of climate change on human infectious diseases: Empirical evidence and human adaptation. Environment International, 86, 14–23. Link, PDF
  • Xu, C., Kohler, T. A., Lenton, T. M., Svenning, J.-C., & Scheffer, M. (2020). Future of the human climate niche. Proceedings of the National Academy of Sciences, 117(21), 11350–11355. Link, PDF
  • Yu, Z., Yang, G., Zuo, S., Jørgensen, G., Koga, M., & Vejre, H. (2020). Critical review on the cooling effect of urban blue-green space: A threshold-size perspective. Urban Forestry & Urban Greening, 49, 126630. Link, PDF
  • Zaval, L., Markowitz, E. M., & Weber, E. U. (2015). How Will I Be Remembered? Conserving the Environment for the Sake of One’s Legacy. Psychological Science, 26(2), 231–236. Link, PDF
  • Zhang, X., Zhang, X., & Chen, X. (2017). Happiness in the air: How does a dirty sky affect mental health and subjective well-being? Journal of Environmental Economics and Management, 85, 81–94. Link, PDF

Well-being and GDP

  • Amit, K., & Bibek, D. (2019). GDP Is Not a Measure of Human Well-Being. Harvard Business Review.
  • Bartolini, S., & Bilancini, E. (2010). If not only GDP, what else? Using relational goods to predict the trends of subjective well-being. International Review of Economics, 57(2), 199–213. Link, PDF
  • Decancq, K., & Schokkaert, E. (2016). Beyond GDP: Using Equivalent Incomes to Measure Well-Being in Europe. Social Indicators Research, 126(1), 21–55. Link, PDF
  • Quick, A. (2020, October 10). Well-being and GDP: Explained. The New Economics Zine.
  • Stiglitz, J. E. (2020). GDP Is the Wrong Tool for Measuring What Matters. Scientific American, 323(2).
  • Stiglitz, J. E., Sen, A., & Fitoussi, J.-P. (2009). Report by the Commission on the Measurement of Economic Performance and Social Progress. www.stiglitz-sen-fitoussi.frs

trade policy

Emissions and pollution

  • Ali, R., Bakhsh, K., & Yasin, M. A. (2019). Impact of urbanization on CO2 emissions in emerging economy: Evidence from Pakistan. Sustainable Cities and Society, 48, 101553. Link, PDF
  • Auffhammer, M., & Kellogg, R. (2011). Clearing the Air? The Effects of Gasoline Content Regulation on Air Quality. American Economic Review, 101(6), 2687–2722. Link, PDF
  • Baccini, A., Goetz, S. J., Walker, W. S., Laporte, N. T., Sun, M., Sulla-Menashe, D., Hackler, J., Beck, P. S. A., Dubayah, R., Friedl, M. A., Samanta, S., & Houghton, R. A. (2012). Estimated carbon dioxide emissions from tropical deforestation improved by carbon-density maps. Nature Climate Change, 2(3), 182–185. Link, PDF
  • Blackman, A. (2010). Alternative Pollution Control Policies in Developing Countries. Review of Environmental Economics and Policy, 4(2), 234–253. Link, PDF
  • Caldeira, K., & Brown, P. T. (2019). Reduced emissions through climate damage to the economy. Proceedings of the National Academy of Sciences, 116(3), 714–716. Link, PDF
  • Chen, D., Cheng, Y., Zhou, N., Chen, P., Wang, Y., Li, K., Huo, S., Cheng, P., Peng, P., Zhang, R., Wang, L., Liu, H., Liu, Y., & Ruan, R. (2020). Photocatalytic degradation of organic pollutants using TiO2-based photocatalysts: A review. Journal of Cleaner Production, 268, 121725. Link, PDF
  • Chen, Y., & Whalley, A. (2012). Green Infrastructure: The Effects of Urban Rail Transit on Air Quality. American Economic Journal: Economic Policy, 4(1), 58–97. Link, PDF
  • Cole, M. A., Elliott, R. J. R., & Shimamoto, K. (2005). Industrial characteristics, environmental regulations and air pollution: an analysis of the UK manufacturing sector. Journal of Environmental Economics and Management, 50(1), 121–143. Link, PDF
  • Colmer, J., Voorheis, J., & Williams, B. (n.d.). Air Pollution and Economic Opportunity in the United States *.
  • Covert, T., Greenstone, M., & Knittel, C. R. (2016). Will We Ever Stop Using Fossil Fuels? Journal of Economic Perspectives, 30(1), 117–138. Link, PDF
  • Dasgupta, S., Laplante, B., & Mamingi, N. (2001). Pollution and Capital Markets in Developing Countries. Journal of Environmental Economics and Management, 42(3), 310–335. Link, PDF
  • Dietzenbacher, E., & Mukhopadhyay, K. (2007). An Empirical Examination of the Pollution Haven Hypothesis for India: Towards a Green Leontief Paradox? Environmental and Resource Economics, 36(4), 427–449. Link, PDF
  • Djoundourian, S., Marrouch, W., & Sayour, N. (2022). Adaptation Funding and Greenhouse Gas Emissions: Halo Effect or Complacency? The Energy Journal, 43(4). Link, PDF
  • Ebenstein, A. (2012). The Consequences of Industrialization: Evidence from Water Pollution and Digestive Cancers in China. Review of Economics and Statistics, 94(1), 186–201. Link, PDF
  • Fasihi, M., Efimova, O., & Breyer, C. (2019). Techno-economic assessment of CO2 direct air capture plants. Journal of Cleaner Production, 224, 957–980. Link, PDF
  • Feng, K., Davis, S. J., Sun, L., Li, X., Guan, D., Liu, W., Liu, Z., & Hubacek, K. (2013). Outsourcing CO2 within China. Proceedings of the National Academy of Sciences, 110(28), 11654–11659. Link, PDF
  • Fowlie, M. L. (2009). Incomplete Environmental Regulation, Imperfect Competition, and Emissions Leakage. American Economic Journal: Economic Policy, 1(2), 72–112. Link, PDF
  • Fuss, S., Canadell, J. G., Peters, G. P., Tavoni, M., Andrew, R. M., Ciais, P., Jackson, R. B., Jones, C. D., Kraxner, F., Nakicenovic, N., le Quéré, C., Raupach, M. R., Sharifi, A., Smith, P., & Yamagata, Y. (2014). Betting on negative emissions. Nature Climate Change, 4(10), 850–853. Link, PDF
  • Georgescu, M., Morefield, P. E., Bierwagen, B. G., & Weaver, C. P. (2014). Urban adaptation can roll back warming of emerging megapolitan regions. Proceedings of the National Academy of Sciences, 111(8), 2909–2914. Link, PDF
  • Gerlagh, R., & van der Zwaan, B. (2006). Options and Instruments for a Deep Cut in CO2 Emissions: Carbon Dioxide Capture or Renewables, Taxes or Subsidies? The Energy Journal, 27(3). Link, PDF
  • Gillingham, K., & Stock, J. H. (2018). The Cost of Reducing Greenhouse Gas Emissions. Journal of Economic Perspectives, 32(4), 53–72. Link, PDF
  • Greenstone, M., Pande, R., Sudarshan, A., & Ryan, N. (2022). The Benefits and Costs of Emissions Trading: Experimental Evidence from a New Market for Industrial Particulate Emissions *.
  • Gu, B., Ju, X., Chang, J., Ge, Y., & Vitousek, P. M. (2015). Integrated reactive nitrogen budgets and future trends in China. Proceedings of the National Academy of Sciences, 112(28), 8792–8797. Link, PDF
  • Hanna, R., & Oliva, P. (2015). The effect of pollution on labor supply: Evidence from a natural experiment in Mexico City. Journal of Public Economics, 122, 68–79. Link, PDF
  • Hitam, C. N. C., & Jalil, A. A. (2020). A review on exploration of Fe2O3 photocatalyst towards degradation of dyes and organic contaminants. Journal of Environmental Management, 258, 110050. Link, PDF
  • Holland, S. P., & Yates, A. J. (2015). Optimal trading ratios for pollution permit markets. Journal of Public Economics, 125, 16–27. Link, PDF
  • Holland, S. P., Hughes, J. E., & Knittel, C. R. (2009). Greenhouse Gas Reductions under Low Carbon Fuel Standards? American Economic Journal: Economic Policy, 1(1), 106–146. Link, PDF
  • Jung, S., Park, Y.-K., & Kwon, E. E. (2019). Strategic use of biochar for CO2 capture and sequestration. Journal of CO2 Utilization, 32, 128–139. Link, PDF
  • Kampa, M., & Castanas, E. (2008). Human health effects of air pollution. Environmental Pollution, 151(2), 362–367. Link, PDF
  • Keller, W., & Levinson, A. (2002). Pollution Abatement Costs and Foreign Direct Investment Inflows to U.S. States. Review of Economics and Statistics, 84(4), 691–703. Link, PDF
  • Lenzen, M., Sun, Y.-Y., Faturay, F., Ting, Y.-P., Geschke, A., & Malik, A. (2018). The carbon footprint of global tourism. Nature Climate Change, 8(6), 522–528. Link, PDF
  • Levinson, A. (2009). Technology, International Trade, and Pollution from US Manufacturing. American Economic Review, 99(5), 2177–2192. Link, PDF
  • Levinson, A. (2010). Offshoring Pollution: Is the United States Increasingly Importing Polluting Goods? Review of Environmental Economics and Policy, 4(1), 63–83. Link, PDF
  • Li, S., Liu, Y., Purevjav, A.-O., & Yang, L. (2019). Does subway expansion improve air quality? Journal of Environmental Economics and Management, 96, 213–235. Link, PDF
  • Lilliestam, J., Patt, A., & Bersalli, G. (2022). On the quality of emission reductions: observed effects of carbon pricing on investments, innovation, and operational shifts. A response to van den Bergh and Savin (2021). Environmental and Resource Economics. Link, PDF
  • Martínez-Zarzoso, I., Bengochea-Morancho, A., & Morales-Lage, R. (2007). The impact of population on CO2 emissions: evidence from European countries. Environmental and Resource Economics, 38(4), 497–512. Link, PDF
  • Muller, N. Z., & Mendelsohn, R. (2007). Measuring the damages of air pollution in the United States. Journal of Environmental Economics and Management, 54(1), 1–14. Link, PDF
  • Muller, N. Z., Mendelsohn, R., & Nordhaus, W. (2011). Environmental Accounting for Pollution in the United States Economy. American Economic Review, 101(5), 1649–1675. Link, PDF
  • Muller, N. Z., & Mendelsohn, R. (2009). Efficient Pollution Regulation: Getting the Prices Right. American Economic Review, 99(5), 1714–1739. Link, PDF
  • Murty, S., Robert Russell, R., & Levkoff, S. B. (2012). On modeling pollution-generating technologies. Journal of Environmental Economics and Management, 64(1), 117–135. Link, PDF
  • Nunn, R., O’Donnell, J., Shambaugh, J., Goulder, L. H., Kolstad, C. D., & Long, X. (2019). Ten facts about the economics of climate change and climate policy.
  • Peters, G. P., Marland, G., le Quéré, C., Boden, T., Canadell, J. G., & Raupach, M. R. (2012). Rapid growth in CO2 emissions after the 2008–2009 global financial crisis. Nature Climate Change, 2(1), 2–4. Link, PDF
  • Rao, S., & Riahi, K. (2006). The Role of Non-CO2 Greenhouse Gases in Climate Change Mitigation: Long-term Scenarios for the 21st Century. The Energy Journal, SI2006(01). Link, PDF
  • Sager, L. (2019). Estimating the effect of air pollution on road safety using atmospheric temperature inversions. Journal of Environmental Economics and Management, 98, 102250. Link, PDF
  • Schmalensee, R., & Stavins, R. N. (2019). Policy Evolution under the Clean Air Act. Journal of Economic Perspectives, 33(4), 27–50. Link, PDF
  • Smith, P., Davis, S. J., Creutzig, F., Fuss, S., Minx, J., Gabrielle, B., Kato, E., Jackson, R. B., Cowie, A., Kriegler, E., van Vuuren, D. P., Rogelj, J., Ciais, P., Milne, J., Canadell, J. G., McCollum, D., Peters, G., Andrew, R., Krey, V., … Yongsung, C. (2016). Biophysical and economic limits to negative CO2 emissions. Nature Climate Change, 6(1), 42–50. Link, PDF
  • Tang, J., Zhang, J., Ren, L., Zhou, Y., Gao, J., Luo, L., Yang, Y., Peng, Q., Huang, H., & Chen, A. (2019). Diagnosis of soil contamination using microbiological indices: A review on heavy metal pollution. Journal of Environmental Management, 242, 121–130. Link, PDF
  • Vareda, J. P., Valente, A. J. M., & Durães, L. (2019). Assessment of heavy metal pollution from anthropogenic activities and remediation strategies: A review. Journal of Environmental Management, 246, 101–118. Link, PDF
  • Wang, P., Chen, K., Zhu, S., Wang, P., & Zhang, H. (2020). Severe air pollution events not avoided by reduced anthropogenic activities during COVID-19 outbreak. Resources, Conservation and Recycling, 158, 104814. Link, PDF
  • Wei, J., Huang, W., Li, Z., Xue, W., Peng, Y., Sun, L., & Cribb, M. (2019). Estimating 1-km-resolution PM2.5 concentrations across China using the space-time random forest approach. Remote Sensing of Environment, 231, 111221. Link, PDF
  • Yaashikaa, P. R., Senthil Kumar, P., Varjani, S. J., & Saravanan, A. (2019). A review on photochemical, biochemical and electrochemical transformation of CO2 into value-added products. Journal of CO2 Utilization, 33, 131–147. Link, PDF
  • Yang, Y., Zhang, J., & Wang, C. (2018). Forecasting China’s Carbon Intensity -- Is China on Track to Comply with Its Copenhagen Commitment? The Energy Journal, 39(2). Link, PDF
  • Yao, Y., Zhang, L., Salim, R., & Rafiq, S. (2021). The Effect of Human Capital on CO2 Emissions: Macro Evidence from China. The Energy Journal, 42(01). Link, PDF
  • Zhang, J., & Mu, Q. (2018). Air pollution and defensive expenditures: Evidence from particulate-filtering facemasks. Journal of Environmental Economics and Management, 92, 517–536. Link, PDF
  • Zheng, S., & Kahn, M. E. (2017). A New Era of Pollution Progress in Urban China? Journal of Economic Perspectives, 31(1), 71–92. Link, PDF
  • Zwickl, K., Ash, M., & Boyce, J. K. (2014). Regional variation in environmental inequality: Industrial air toxics exposure in U.S. cities. Ecological Economics, 107, 494–509. Link, PDF

firm perspective

  • Amacher, G. S., Koskela, E., & Ollikainen, M. (2004). Environmental quality competition and eco-labeling. Journal of Environmental Economics and Management, 47(2), 284–306. Link, PDF
  • Amore, M. D., & Bennedsen, M. (2016). Corporate governance and green innovation. Journal of Environmental Economics and Management, 75, 54–72. Link, PDF
  • Anton, W. R. Q., Deltas, G., & Khanna, M. (2004). Incentives for environmental self-regulation and implications for environmental performance. Journal of Environmental Economics and Management, 48(1), 632–654. Link, PDF
  • Brunnermeier, S. B., & Cohen, M. A. (2003). Determinants of environmental innovation in US manufacturing industries. Journal of Environmental Economics and Management, 45(2), 278–293. Link, PDF
  • Currie, J., Davis, L., Greenstone, M., & Walker, R. (2015). Environmental Health Risks and Housing Values: Evidence from 1,600 Toxic Plant Openings and Closings. American Economic Review, 105(2), 678–709. Link, PDF
  • Duflo, E., Greenstone, M., Pande, R., & Ryan, N. (2013). Truth-telling by Third-party Auditors and the Response of Polluting Firms: Experimental Evidence from India*. The Quarterly Journal of Economics, 128(4), 1499–1545. Link, PDF
  • Earnhart, D. H., Khanna, M., & Lyon, T. P. (2014). Corporate Environmental Strategies in Emerging Economies. Review of Environmental Economics and Policy, 8(2), 164–185. Link, PDF
  • Eccles, R. G., Ioannou, I., & Serafeim, G. (2014). The Impact of Corporate Sustainability on Organizational Processes and Performance. Management Science, 60(11), 2835–2857. Link, PDF
  • Farrell, J. (2016). Corporate funding and ideological polarization about climate change. Proceedings of the National Academy of Sciences, 113(1), 92–97. Link, PDF
  • Fisher-Vanden, K., & Thorburn, K. S. (2011). Voluntary corporate environmental initiatives and shareholder wealth. Journal of Environmental Economics and Management, 62(3), 430–445. Link, PDF
  • Franks, D. M., Davis, R., Bebbington, A. J., Ali, S. H., Kemp, D., & Scurrah, M. (2014). Conflict translates environmental and social risk into business costs. Proceedings of the National Academy of Sciences, 111(21), 7576–7581. Link, PDF
  • Gössling, S., & Humpe, A. (2020). The global scale, distribution and growth of aviation: Implications for climate change. Global Environmental Change, 65, 102194. Link, PDF
  • Lyon, T. P., & Maxwell, J. W. (2008). Corporate Social Responsibility and the Environment: A Theoretical Perspective. Review of Environmental Economics and Policy, 2(2), 240–260. Link, PDF
  • Martin, R., Muûls, M., & Wagner, U. J. (2016). The Impact of the European Union Emissions Trading Scheme on Regulated Firms: What Is the Evidence after Ten Years? Review of Environmental Economics and Policy, 10(1), 129–148. Link, PDF
  • Reinhardt, F. L., Stavins, R. N., & Vietor, R. H. K. (2008). Corporate Social Responsibility Through an Economic Lens. Review of Environmental Economics and Policy, 2(2), 219–239. Link, PDF
  • Rexhäuser, S., & Rammer, C. (2014). Environmental Innovations and Firm Profitability: Unmasking the Porter Hypothesis. Environmental and Resource Economics, 57(1), 145–167. Link, PDF
  • Shi, X., & Xu, Z. (2018). Environmental regulation and firm exports: Evidence from the eleventh Five-Year Plan in China. Journal of Environmental Economics and Management, 89, 187–200. Link, PDF
  • Telle, K. (2006). “It Pays to be Green” – A Premature Conclusion? Environmental and Resource Economics, 35(3), 195–220. Link, PDF
  • Ziegler, A., Schröder, M., & Rennings, K. (2007). The effect of environmental and social performance on the stock performance of european corporations. Environmental and Resource Economics, 37(4), 661–680. Link, PDF

IAMs: SCC

  • Adler, M., Anthoff, D., Bosetti, V., Garner, G., Keller, K., & Treich, N. (2017). Priority for the worse-off and the social cost of carbon. Nature Climate Change, 7(6), 443–449. Link, PDF
  • Foley, D. K., Rezai, A., & Taylor, L. (2013). The social cost of carbon emissions: Seven propositions. Economics Letters, 121(1), 90–97. Link, PDF
  • Greenstone, M., Kopits, E., & Wolverton, A. (2013). Developing a Social Cost of Carbon for US Regulatory Analysis: A Methodology and Interpretation. Review of Environmental Economics and Policy, 7(1), 23–46. Link, PDF
  • Havranek, T., Irsova, Z., Janda, K., & Zilberman, D. (2015). Selective reporting and the social cost of carbon. Energy Economics, 51, 394–406. Link, PDF
  • Kaufman, N., Barron, A. R., Krawczyk, W., Marsters, P., & McJeon, H. (2020). A near-term to net zero alternative to the social cost of carbon for setting carbon prices. Nature Climate Change, 10(11), 1010–1014. Link, PDF
  • Moore, F. C., Baldos, U., Hertel, T., & Diaz, D. (2017). New science of climate change impacts on agriculture implies higher social cost of carbon. Nature Communications, 8(1), 1607. Link, PDF
  • Moss, R. H., Edmonds, J. A., Hibbard, K. A., Manning, M. R., Rose, S. K., van Vuuren, D. P., Carter, T. R., Emori, S., Kainuma, M., Kram, T., Meehl, G. A., Mitchell, J. F. B., Nakicenovic, N., Riahi, K., Smith, S. J., Stouffer, R. J., Thomson, A. M., Weyant, J. P., & Wilbanks, T. J. (2010). The next generation of scenarios for climate change research and assessment. Nature, 463(7282), 747–756. Link, PDF
  • Moyer, E. J., Woolley, M. D., Matteson, N. J., Glotter, M. J., & Weisbach, D. A. (2014). Climate Impacts on Economic Growth as Drivers of Uncertainty in the Social Cost of Carbon. The Journal of Legal Studies, 43(2), 401–425. Link, PDF
  • Nordhaus, W. D. (2017). Revisiting the social cost of carbon. Proceedings of the National Academy of Sciences, 114(7), 1518–1523. Link, PDF
  • Pearce, D. (2003). The Social Cost of Carbon and its Policy Implications. Oxford Review of Economic Policy, 19(3), 362–384. Link, PDF
  • Pindyck, R. S. (2019). The social cost of carbon revisited. Journal of Environmental Economics and Management, 94, 140–160. Link, PDF
  • Pizer, W., Adler, M., Aldy, J., Anthoff, D., Cropper, M., Gillingham, K., Greenstone, M., Murray, B., Newell, R., Richels, R., Rowell, A., Waldhoff, S., & Wiener, J. (2014). Using and improving the social cost of carbon. Science, 346(6214), 1189–1190. Link, PDF
  • Ricke, K., Drouet, L., Caldeira, K., & Tavoni, M. (2018). Country-level social cost of carbon. Nature Climate Change, 8(10), 895–900. Link, PDF
  • ROSE, S. K., DIAZ, D. B., & BLANFORD, G. J. (2017). UNDERSTANDING THE SOCIAL COST OF CARBON: A MODEL DIAGNOSTIC AND INTER-COMPARISON STUDY. Climate Change Economics, 08(02), 1750009. Link, PDF
  • Tol, R. S. J. (2009). The Economic Effects of Climate Change. Journal of Economic Perspectives, 23(2), 29–51. Link, PDF
  • Tol, R. S. J. (2005). The marginal damage costs of carbon dioxide emissions: an assessment of the uncertainties. Energy Policy, 33(16), 2064–2074. Link, PDF
  • Tol, R. S., Fankhauser, S., Richels, R. G., & Smith, J. B. (2000). “How Much Damage Will Climate Change Do? Recent Estimates,.”
  • Tol, R. S. J. (2011). The Social Cost of Carbon. Annual Review of Resource Economics, 3(1), 419–443. Link, PDF
  • Tol, R. S. J. (2008). The Social Cost of Carbon: Trends, Outliers and Catastrophes. Economics, 2(1). Link, PDF
  • van der Ploeg, F. (2014). Abrupt positive feedback and the social cost of carbon. European Economic Review, 67, 28–41. Link, PDF

Supply chain & trade

  • Arimura, T. H., Darnall, N., & Katayama, H. (2011). Is ISO 14001 a gateway to more advanced voluntary action? The case of green supply chain management. Journal of Environmental Economics and Management, 61(2), 170–182. Link, PDF
  • Bag, S., Wood, L. C., Xu, L., Dhamija, P., & Kayikci, Y. (2020). Big data analytics as an operational excellence approach to enhance sustainable supply chain performance. Resources, Conservation and Recycling, 153, 104559. Link, PDF
  • Carvalho, V. M., Nirei, M., Saito, Y. U., & Tahbaz-Salehi, A. (2021). Supply Chain Disruptions: Evidence from the Great East Japan Earthquake*. The Quarterly Journal of Economics, 136(2), 1255–1321. Link, PDF
  • Cole, M. A., & Elliott, R. J. R. (2003). Determining the trade–environment composition effect: the role of capital, labor and environmental regulations. Journal of Environmental Economics and Management, 46(3), 363–383. Link, PDF
  • Copeland, B. R., & Taylor, M. S. (2005). Free trade and global warming: a trade theory view of the Kyoto protocol. Journal of Environmental Economics and Management, 49(2), 205–234. Link, PDF
  • Damania, R., Fredriksson, P. G., & List, J. A. (2003). Trade liberalization, corruption, and environmental policy formation: theory and evidence. Journal of Environmental Economics and Management, 46(3), 490–512. Link, PDF
  • Davis, L. W., & Kahn, M. E. (2010). International Trade in Used Vehicles: The Environmental Consequences of NAFTA. American Economic Journal: Economic Policy, 2(4), 58–82. Link, PDF
  • Felbermayr, G., Peterson, S., Wanner, J., Bourcieu, E., & Schmitz, J. (n.d.). Special External Author Edition STRUCTURED LITERATURE REVIEW AND MODELLING SUGGESTIONS ON THE IMPACT OF TRADE AND TRADE POLICY ON THE ENVIRONMENT AND THE CLIMATE.
  • Frankel, J. A., & Rose, A. K. (2005). Is Trade Good or Bad for the Environment? Sorting Out the Causality. Review of Economics and Statistics, 87(1), 85–91. Link, PDF
  • Gardner, T. A., Benzie, M., Börner, J., Dawkins, E., Fick, S., Garrett, R., Godar, J., Grimard, A., Lake, S., Larsen, R. K., Mardas, N., McDermott, C. L., Meyfroidt, P., Osbeck, M., Persson, M., Sembres, T., Suavet, C., Strassburg, B., Trevisan, A., … Wolvekamp, P. (2019). Transparency and sustainability in global commodity supply chains. World Development, 121, 163–177. Link, PDF
  • Hedlund, J., Fick, S., Carlsen, H., & Benzie, M. (2018). Quantifying transnational climate impact exposure: New perspectives on the global distribution of climate risk. Global Environmental Change, 52, 75–85. Link, PDF
  • Jira, C. (Fern), & Toffel, M. W. (2013). Engaging Supply Chains in Climate Change. Manufacturing & Service Operations Management, 15(4), 559–577. Link, PDF
  • Karmaker, C. L., Ahmed, T., Ahmed, S., Ali, S. M., Moktadir, Md. A., & Kabir, G. (2021). Improving supply chain sustainability in the context of COVID-19 pandemic in an emerging economy: Exploring drivers using an integrated model. Sustainable Production and Consumption, 26, 411–427. Link, PDF
  • Konar, S., & Cohen, M. A. (2001). Does the Market Value Environmental Performance? Review of Economics and Statistics, 83(2), 281–289. Link, PDF
  • Levermann, A. (2014). Climate economics: Make supply chains climate-smart. Nature, 506(7486), 27–29. Link, PDF
  • Managi, S., Hibiki, A., & Tsurumi, T. (2009). Does trade openness improve environmental quality? Journal of Environmental Economics and Management, 58(3), 346–363. Link, PDF
  • Nandi, S., Sarkis, J., Hervani, A. A., & Helms, M. M. (2021). Redesigning Supply Chains using Blockchain-Enabled Circular Economy and COVID-19 Experiences. Sustainable Production and Consumption, 27, 10–22. Link, PDF
  • O’Rourke, D. (2014). The science of sustainable supply chains. Science, 344(6188), 1124–1127. Link, PDF
  • Papadopoulos, T., Gunasekaran, A., Dubey, R., Altay, N., Childe, S. J., & Fosso-Wamba, S. (2017). The role of Big Data in explaining disaster resilience in supply chains for sustainability. Journal of Cleaner Production, 142, 1108–1118. Link, PDF
  • Sarc, R., Curtis, A., Kandlbauer, L., Khodier, K., Lorber, K. E., & Pomberger, R. (2019). Digitalisation and intelligent robotics in value chain of circular economy oriented waste management – A review. Waste Management, 95, 476–492. Link, PDF
  • Shapiro, J. S. (2016). Trade Costs, CO2 , and the Environment. American Economic Journal: Economic Policy, 8(4), 220–254. Link, PDF
  • Shapiro, J. S. (2021). The Environmental Bias of Trade Policy*. The Quarterly Journal of Economics, 136(2), 831–886. Link, PDF
  • Zhang, H., Wang, X., Tang, J., & Guo, Y. (2022). The impact of international rare earth trade competition on global value chain upgrading from the industrial chain perspective. Ecological Economics, 198, 107472. Link, PDF

other

COVID

  • Barbier, E. B. (2020). Greening the Post-pandemic Recovery in the G20. Environmental and Resource Economics, 76(4), 685–703. Link, PDF
  • Barbier, E. B., & Burgess, J. C. (2020). Sustainability and development after COVID-19. World Development, 135, 105082. Link, PDF
  • Drews, S., Savin, I., van den Bergh, J. C. J. M., & Villamayor-Tomás, S. (2022). Climate concern and policy acceptance before and after COVID-19. Ecological Economics, 199, 107507. Link, PDF
  • Dutheil, F., Baker, J. S., & Navel, V. (2020). COVID-19 as a factor influencing air pollution? Environmental Pollution, 263, 114466. Link, PDF
  • Fattorini, D., & Regoli, F. (2020). Role of the chronic air pollution levels in the Covid-19 outbreak risk in Italy. Environmental Pollution, 264, 114732. Link, PDF
  • Forster, P. M., Forster, H. I., Evans, M. J., Gidden, M. J., Jones, C. D., Keller, C. A., Lamboll, R. D., Quéré, C. le, Rogelj, J., Rosen, D., Schleussner, C.-F., Richardson, T. B., Smith, C. J., & Turnock, S. T. (2020). Current and future global climate impacts resulting from COVID-19. Nature Climate Change, 10(10), 913–919. Link, PDF
  • Helm, D. (2020). The Environmental Impacts of the Coronavirus. Environmental and Resource Economics, 76(1), 21–38. Link, PDF
  • Ibn-Mohammed, T., Mustapha, K. B., Godsell, J., Adamu, Z., Babatunde, K. A., Akintade, D. D., Acquaye, A., Fujii, H., Ndiaye, M. M., Yamoah, F. A., & Koh, S. C. L. (2021). A critical analysis of the impacts of COVID-19 on the global economy and ecosystems and opportunities for circular economy strategies. Resources, Conservation and Recycling, 164, 105169. Link, PDF
  • Klenert, D., Funke, F., Mattauch, L., & O’Callaghan, B. (2020). Five Lessons from COVID-19 for Advancing Climate Change Mitigation. Environmental and Resource Economics, 76(4), 751–778. Link, PDF
  • le Quéré, C., Jackson, R. B., Jones, M. W., Smith, A. J. P., Abernethy, S., Andrew, R. M., De-Gol, A. J., Willis, D. R., Shan, Y., Canadell, J. G., Friedlingstein, P., Creutzig, F., & Peters, G. P. (2020). Temporary reduction in daily global CO2 emissions during the COVID-19 forced confinement. Nature Climate Change, 10(7), 647–653. Link, PDF
  • Rousseau, S., & Deschacht, N. (2020). Public Awareness of Nature and the Environment During the COVID-19 Crisis. Environmental and Resource Economics, 76(4), 1149–1159. Link, PDF
  • Sarkis, J., Cohen, M. J., Dewick, P., & Schröder, P. (2020). A brave new world: Lessons from the COVID-19 pandemic for transitioning to sustainable supply and production. Resources, Conservation and Recycling, 159, 104894. Link, PDF
  • Shams, M., Alam, I., & Mahbub, M. S. (2021). Plastic pollution during COVID-19: Plastic waste directives and its long-term impact on the environment. Environmental Advances, 5, 100119. Link, PDF
  • Sharma, H. B., Vanapalli, K. R., Cheela, V. S., Ranjan, V. P., Jaglan, A. K., Dubey, B., Goel, S., & Bhattacharya, J. (2020). Challenges, opportunities, and innovations for effective solid waste management during and post COVID-19 pandemic. Resources, Conservation and Recycling, 162, 105052. Link, PDF

(micro)plastics

  • Botterell, Z. L. R., Beaumont, N., Dorrington, T., Steinke, M., Thompson, R. C., & Lindeque, P. K. (2019). Bioavailability and effects of microplastics on marine zooplankton: A review. Environmental Pollution, 245, 98–110. Link, PDF
  • Faraca, G., & Astrup, T. (2019). Plastic waste from recycling centres: Characterisation and evaluation of plastic recyclability. Waste Management, 95, 388–398. Link, PDF
  • Grainger, C. A., & Kolstad, C. D. (2010). Who Pays a Price on Carbon? Environmental and Resource Economics, 46(3), 359–376. Link, PDF
  • Guo, J.-J., Huang, X.-P., Xiang, L., Wang, Y.-Z., Li, Y.-W., Li, H., Cai, Q.-Y., Mo, C.-H., & Wong, M.-H. (2020). Source, migration and toxicology of microplastics in soil. Environment International, 137, 105263. Link, PDF
  • Jiang, X., Chen, H., Liao, Y., Ye, Z., Li, M., & Klobučar, G. (2019). Ecotoxicity and genotoxicity of polystyrene microplastics on higher plant Vicia faba. Environmental Pollution, 250, 831–838. Link, PDF
  • Napper, I. E., Davies, B. F. R., Clifford, H., Elvin, S., Koldewey, H. J., Mayewski, P. A., Miner, K. R., Potocki, M., Elmore, A. C., Gajurel, A. P., & Thompson, R. C. (2020). Reaching New Heights in Plastic Pollution—Preliminary Findings of Microplastics on Mount Everest. One Earth, 3(5), 621–630. Link, PDF
  • Saliu, F., Veronelli, M., Raguso, C., Barana, D., Galli, P., & Lasagni, M. (2021). The release process of microfibers: from surgical face masks into the marine environment. Environmental Advances, 4, 100042. Link, PDF
  • Schmaltz, E., Melvin, E. C., Diana, Z., Gunady, E. F., Rittschof, D., Somarelli, J. A., Virdin, J., & Dunphy-Daly, M. M. (2020). Plastic pollution solutions: emerging technologies to prevent and collect marine plastic pollution. Environment International, 144, 106067. Link, PDF
  • Selvaranjan, K., Navaratnam, S., Rajeev, P., & Ravintherakumaran, N. (2021). Environmental challenges induced by extensive use of face masks during COVID-19: A review and potential solutions. Environmental Challenges, 3, 100039. Link, PDF
  • Wang, C., Zhao, J., & Xing, B. (2021). Environmental source, fate, and toxicity of microplastics. Journal of Hazardous Materials, 407, 124357. Link, PDF
  • Wright, S. L., Ulke, J., Font, A., Chan, K. L. A., & Kelly, F. J. (2020). Atmospheric microplastic deposition in an urban environment and an evaluation of transport. Environment International, 136, 105411. Link, PDF
  • Wright, S. L., Thompson, R. C., & Galloway, T. S. (2013). The physical impacts of microplastics on marine organisms: A review. Environmental Pollution, 178, 483–492. Link, PDF
  • Zhang, Y., Kang, S., Allen, S., Allen, D., Gao, T., & Sillanpää, M. (2020). Atmospheric microplastics: A review on current status and perspectives. Earth-Science Reviews, 203, 103118. Link, PDF
  • Zheng, J., & Suh, S. (2019). Strategies to reduce the global carbon footprint of plastics. Nature Climate Change, 9(5), 374–378. Link, PDF

biodiversity

  • Antão, L. H., Weigel, B., Strona, G., Hällfors, M., Kaarlejärvi, E., Dallas, T., Opedal, Ø. H., Heliölä, J., Henttonen, H., Huitu, O., Korpimäki, E., Kuussaari, M., Lehikoinen, A., Leinonen, R., Lindén, A., Merilä, P., Pietiäinen, H., Pöyry, J., Salemaa, M., … Laine, A.-L. (2022). Climate change reshuffles northern species within their niches. Nature Climate Change, 12(6), 587–592. Link, PDF
  • Balmford, A., Fisher, B., Green, R. E., Naidoo, R., Strassburg, B., Kerry Turner, R., & Rodrigues, A. S. L. (2011). Bringing Ecosystem Services into the Real World: An Operational Framework for Assessing the Economic Consequences of Losing Wild Nature. Environmental and Resource Economics, 48(2), 161–175. Link, PDF
  • Cardinale, B. J., Duffy, J. E., Gonzalez, A., Hooper, D. U., Perrings, C., Venail, P., Narwani, A., Mace, G. M., Tilman, D., Wardle, D. A., Kinzig, A. P., Daily, G. C., Loreau, M., Grace, J. B., Larigauderie, A., Srivastava, D. S., & Naeem, S. (2012). Biodiversity loss and its impact on humanity. Nature, 486(7401), 59–67. Link, PDF
  • le Saout, S., Hoffmann, M., Shi, Y., Hughes, A., Bernard, C., Brooks, T. M., Bertzky, B., Butchart, S. H. M., Stuart, S. N., Badman, T., & Rodrigues, A. S. L. (2013). Protected Areas and Effective Biodiversity Conservation. Science, 342(6160), 803–805. Link, PDF
  • Methorst, J., Rehdanz, K., Mueller, T., Hansjürgens, B., Bonn, A., & Böhning-Gaese, K. (2021). The importance of species diversity for human well-being in Europe. Ecological Economics, 181, 106917. Link, PDF
  • Miller, W., Schuster, S. C., Welch, A. J., Ratan, A., Bedoya-Reina, O. C., Zhao, F., Kim, H. L., Burhans, R. C., Drautz, D. I., Wittekindt, N. E., Tomsho, L. P., Ibarra-Laclette, E., Herrera-Estrella, L., Peacock, E., Farley, S., Sage, G. K., Rode, K., Obbard, M., Montiel, R., … Lindqvist, C. (2012). Polar and brown bear genomes reveal ancient admixture and demographic footprints of past climate change. Proceedings of the National Academy of Sciences, 109(36). Link, PDF
  • Nardone, A., Ronchi, B., Lacetera, N., Ranieri, M. S., & Bernabucci, U. (2010). Effects of climate changes on animal production and sustainability of livestock systems. Livestock Science, 130(1–3), 57–69. Link, PDF
  • Pacifici, M., Foden, W. B., Visconti, P., Watson, J. E. M., Butchart, S. H. M., Kovacs, K. M., Scheffers, B. R., Hole, D. G., Martin, T. G., Akçakaya, H. R., Corlett, R. T., Huntley, B., Bickford, D., Carr, J. A., Hoffmann, A. A., Midgley, G. F., Pearce-Kelly, P., Pearson, R. G., Williams, S. E., … Rondinini, C. (2015). Assessing species vulnerability to climate change. Nature Climate Change, 5(3), 215–224. Link, PDF
  • Rook, G. A. (2013). Regulation of the immune system by biodiversity from the natural environment: An ecosystem service essential to health. Proceedings of the National Academy of Sciences, 110(46), 18360–18367. Link, PDF
  • Root, T. L., Price, J. T., Hall, K. R., Schneider, S. H., Rosenzweig, C., & Pounds, J. A. (2003). Fingerprints of global warming on wild animals and plants. Nature, 421(6918), 57–60. Link, PDF
  • Schuster, R., Germain, R. R., Bennett, J. R., Reo, N. J., & Arcese, P. (2019). Vertebrate biodiversity on indigenous-managed lands in Australia, Brazil, and Canada equals that in protected areas. Environmental Science & Policy, 101, 1–6. Link, PDF
  • Sheridan, J. A., & Bickford, D. (2011). Shrinking body size as an ecological response to climate change. Nature Climate Change, 1(8), 401–406. Link, PDF
  • Sunday, J. M., Bates, A. E., & Dulvy, N. K. (2012). Thermal tolerance and the global redistribution of animals. Nature Climate Change, 2(9), 686–690. Link, PDF

Resources

agriculture

  • Altman, G. H., & Farrell, B. D. (2022). Sericulture as a sustainable agroindustry. Cleaner and Circular Bioeconomy, 2, 100011. Link, PDF
  • Asseng, S., Ewert, F., Martre, P., Rötter, R. P., Lobell, D. B., Cammarano, D., Kimball, B. A., Ottman, M. J., Wall, G. W., White, J. W., Reynolds, M. P., Alderman, P. D., Prasad, P. V. v., Aggarwal, P. K., Anothai, J., Basso, B., Biernath, C., Challinor, A. J., de Sanctis, G., … Zhu, Y. (2015). Rising temperatures reduce global wheat production. Nature Climate Change, 5(2), 143–147. Link, PDF
  • Asseng, S., Ewert, F., Rosenzweig, C., Jones, J. W., Hatfield, J. L., Ruane, A. C., Boote, K. J., Thorburn, P. J., Rötter, R. P., Cammarano, D., Brisson, N., Basso, B., Martre, P., Aggarwal, P. K., Angulo, C., Bertuzzi, P., Biernath, C., Challinor, A. J., Doltra, J., … Wolf, J. (2013). Uncertainty in simulating wheat yields under climate change. Nature Climate Change, 3(9), 827–832. Link, PDF
  • Bebber, D. P., Ramotowski, M. A. T., & Gurr, S. J. (2013). Crop pests and pathogens move polewards in a warming world. Nature Climate Change, 3(11), 985–988. Link, PDF
  • Bren d’Amour, C., Reitsma, F., Baiocchi, G., Barthel, S., Güneralp, B., Erb, K.-H., Haberl, H., Creutzig, F., & Seto, K. C. (2017). Future urban land expansion and implications for global croplands. Proceedings of the National Academy of Sciences, 114(34), 8939–8944. Link, PDF
  • Challinor, A. J., Watson, J., Lobell, D. B., Howden, S. M., Smith, D. R., & Chhetri, N. (2014). A meta-analysis of crop yield under climate change and adaptation. Nature Climate Change, 4(4), 287–291. Link, PDF
  • Lipper, L., Thornton, P., Campbell, B. M., Baedeker, T., Braimoh, A., Bwalya, M., Caron, P., Cattaneo, A., Garrity, D., Henry, K., Hottle, R., Jackson, L., Jarvis, A., Kossam, F., Mann, W., McCarthy, N., Meybeck, A., Neufeldt, H., Remington, T., … Torquebiau, E. F. (2014). Climate-smart agriculture for food security. Nature Climate Change, 4(12), 1068–1072. Link, PDF
  • Lobell, D. B., Bänziger, M., Magorokosho, C., & Vivek, B. (2011). Nonlinear heat effects on African maize as evidenced by historical yield trials. Nature Climate Change, 1(1), 42–45. Link, PDF
  • Lobell, D. B., Hammer, G. L., McLean, G., Messina, C., Roberts, M. J., & Schlenker, W. (2013). The critical role of extreme heat for maize production in the United States. Nature Climate Change, 3(5), 497–501. Link, PDF
  • Lobell, D. B., Sibley, A., & Ivan Ortiz-Monasterio, J. (2012). Extreme heat effects on wheat senescence in India. Nature Climate Change, 2(3), 186–189. Link, PDF
  • Palansooriya, K. N., Shaheen, S. M., Chen, S. S., Tsang, D. C. W., Hashimoto, Y., Hou, D., Bolan, N. S., Rinklebe, J., & Ok, Y. S. (2020). Soil amendments for immobilization of potentially toxic elements in contaminated soils: A critical review. Environment International, 134, 105046. Link, PDF
  • Reay, D. S., Davidson, E. A., Smith, K. A., Smith, P., Melillo, J. M., Dentener, F., & Crutzen, P. J. (2012). Global agriculture and nitrous oxide emissions. Nature Climate Change, 2(6), 410–416. Link, PDF
  • Rosenzweig, C., Elliott, J., Deryng, D., Ruane, A. C., Müller, C., Arneth, A., Boote, K. J., Folberth, C., Glotter, M., Khabarov, N., Neumann, K., Piontek, F., Pugh, T. A. M., Schmid, E., Stehfest, E., Yang, H., & Jones, J. W. (2014). Assessing agricultural risks of climate change in the 21st century in a global gridded crop model intercomparison. Proceedings of the National Academy of Sciences, 111(9), 3268–3273. Link, PDF
  • Tilman, D., Balzer, C., Hill, J., & Befort, B. L. (2011). Global food demand and the sustainable intensification of agriculture. Proceedings of the National Academy of Sciences, 108(50), 20260–20264. Link, PDF
  • Zhang, Q. (2007). Strategies for developing Green Super Rice. Proceedings of the National Academy of Sciences, 104(42), 16402–16409. Link, PDF

forests

  • Alkama, R., & Cescatti, A. (2016). Biophysical climate impacts of recent changes in global forest cover. Science, 351(6273), 600–604. Link, PDF
  • Anderegg, W. R. L., Kane, J. M., & Anderegg, L. D. L. (2013). Consequences of widespread tree mortality triggered by drought and temperature stress. Nature Climate Change, 3(1), 30–36. Link, PDF
  • Angelsen, A., & Rudel, T. K. (2013). Designing and Implementing Effective REDD + Policies: A Forest Transition Approach. Review of Environmental Economics and Policy, 7(1), 91–113. Link, PDF
  • Boer, M. M., Resco de Dios, V., & Bradstock, R. A. (2020). Unprecedented burn area of Australian mega forest fires. Nature Climate Change, 10(3), 171–172. Link, PDF
  • Busch, J., & Ferretti-Gallon, K. (2017). What Drives Deforestation and What Stops It? A Meta-Analysis. Review of Environmental Economics and Policy, 11(1), 3–23. Link, PDF
  • Ferraro, P. J., Lawlor, K., Mullan, K. L., & Pattanayak, S. K. (2012). Forest Figures: Ecosystem Services Valuation and Policy Evaluation in Developing Countries. Review of Environmental Economics and Policy, 6(1), 20–44. Link, PDF
  • Gibbs, H. K., Ruesch, A. S., Achard, F., Clayton, M. K., Holmgren, P., Ramankutty, N., & Foley, J. A. (2010). Tropical forests were the primary sources of new agricultural land in the 1980s and 1990s. Proceedings of the National Academy of Sciences, 107(38), 16732–16737. Link, PDF
  • Gibson, C. C., Williams, J. T., & Ostrom, E. (2005). Local Enforcement and Better Forests. World Development, 33(2), 273–284. Link, PDF
  • Grieg-Gran, M., Porras, I., & Wunder, S. (2005). How can market mechanisms for forest environmental services help the poor? Preliminary lessons from Latin America. World Development, 33(9), 1511–1527. Link, PDF
  • Hanewinkel, M., Cullmann, D. A., Schelhaas, M.-J., Nabuurs, G.-J., & Zimmermann, N. E. (2013). Climate change may cause severe loss in the economic value of European forest land. Nature Climate Change, 3(3), 203–207. Link, PDF
  • Hargrave, J., & Kis-Katos, K. (2013). Economic Causes of Deforestation in the Brazilian Amazon: A Panel Data Analysis for the 2000s. Environmental and Resource Economics, 54(4), 471–494. Link, PDF
  • Lawrence, D., & Vandecar, K. (2015). Effects of tropical deforestation on climate and agriculture. Nature Climate Change, 5(1), 27–36. Link, PDF
  • Margono, B. A., Potapov, P. v., Turubanova, S., Stolle, F., & Hansen, M. C. (2014). Primary forest cover loss in Indonesia over 2000–2012. Nature Climate Change, 4(8), 730–735. Link, PDF
  • Park Williams, A., Allen, C. D., Macalady, A. K., Griffin, D., Woodhouse, C. A., Meko, D. M., Swetnam, T. W., Rauscher, S. A., Seager, R., Grissino-Mayer, H. D., Dean, J. S., Cook, E. R., Gangodagamage, C., Cai, M., & McDowell, N. G. (2013). Temperature as a potent driver of regional forest drought stress and tree mortality. Nature Climate Change, 3(3), 292–297. Link, PDF
  • Peng, C., Ma, Z., Lei, X., Zhu, Q., Chen, H., Wang, W., Liu, S., Li, W., Fang, X., & Zhou, X. (2011). A drought-induced pervasive increase in tree mortality across Canada’s boreal forests. Nature Climate Change, 1(9), 467–471. Link, PDF
  • Seidl, R., Thom, D., Kautz, M., Martin-Benito, D., Peltoniemi, M., Vacchiano, G., Wild, J., Ascoli, D., Petr, M., Honkaniemi, J., Lexer, M. J., Trotsiuk, V., Mairota, P., Svoboda, M., Fabrika, M., Nagel, T. A., & Reyer, C. P. O. (2017). Forest disturbances under climate change. Nature Climate Change, 7(6), 395–402. Link, PDF
  • Seidl, R., Schelhaas, M.-J., Rammer, W., & Verkerk, P. J. (2014). Increasing forest disturbances in Europe and their impact on carbon storage. Nature Climate Change, 4(9), 806–810. Link, PDF
  • Sohngen, B., & Sedjo, R. (2006). Carbon Sequestration in Global Forests Under Different Carbon Price Regimes. The Energy Journal, SI2006(01). Link, PDF
  • Sunderlin, W. D., Angelsen, A., Belcher, B., Burgers, P., Nasi, R., Santoso, L., & Wunder, S. (2005). Livelihoods, forests, and conservation in developing countries: An Overview. World Development, 33(9), 1383–1402. Link, PDF

water

  • Arkema, K. K., Guannel, G., Verutes, G., Wood, S. A., Guerry, A., Ruckelshaus, M., Kareiva, P., Lacayo, M., & Silver, J. M. (2013). Coastal habitats shield people and property from sea-level rise and storms. Nature Climate Change, 3(10), 913–918. Link, PDF
  • Barbier, E. B. (2012). Progress and Challenges in Valuing Coastal and Marine Ecosystem Services. Review of Environmental Economics and Policy, 6(1), 1–19. Link, PDF
  • Bosello, F., Roson, R., & Tol, R. S. J. (2007). Economy-wide Estimates of the Implications of Climate Change: Sea Level Rise. Environmental and Resource Economics, 37(3), 549–571. Link, PDF
  • Brander, L. M., Florax, R. J. G. M., & Vermaat, J. E. (2006). The Empirics of Wetland Valuation: A Comprehensive Summary and a Meta-Analysis of the Literature. Environmental & Resource Economics, 33(2), 223–250. Link, PDF
  • Cheung, W. W. L., Sarmiento, J. L., Dunne, J., Frölicher, T. L., Lam, V. W. Y., Deng Palomares, M. L., Watson, R., & Pauly, D. (2013). Shrinking of fishes exacerbates impacts of global ocean changes on marine ecosystems. Nature Climate Change, 3(3), 254–258. Link, PDF
  • Chown, S. L., Lee, J. E., Hughes, K. A., Barnes, J., Barrett, P. J., Bergstrom, D. M., Convey, P., Cowan, D. A., Crosbie, K., Dyer, G., Frenot, Y., Grant, S. M., Herr, D., Kennicutt, M. C., Lamers, M., Murray, A., Possingham, H. P., Reid, K., Riddle, M. J., … Wall, D. H. (2012). Challenges to the Future Conservation of the Antarctic. Science, 337(6091), 158–159. Link, PDF
  • Duarte, C. M., Losada, I. J., Hendriks, I. E., Mazarrasa, I., & Marbà, N. (2013). The role of coastal plant communities for climate change mitigation and adaptation. Nature Climate Change, 3(11), 961–968. Link, PDF
  • Elimelech, M., & Phillip, W. A. (2011). The Future of Seawater Desalination: Energy, Technology, and the Environment. Science, 333(6043), 712–717. Link, PDF
  • Elliott, J., Deryng, D., Müller, C., Frieler, K., Konzmann, M., Gerten, D., Glotter, M., Flörke, M., Wada, Y., Best, N., Eisner, S., Fekete, B. M., Folberth, C., Foster, I., Gosling, S. N., Haddeland, I., Khabarov, N., Ludwig, F., Masaki, Y., … Wisser, D. (2014). Constraints and potentials of future irrigation water availability on agricultural production under climate change. Proceedings of the National Academy of Sciences, 111(9), 3239–3244. Link, PDF
  • England, M. H., McGregor, S., Spence, P., Meehl, G. A., Timmermann, A., Cai, W., Gupta, A. sen, McPhaden, M. J., Purich, A., & Santoso, A. (2014). Recent intensification of wind-driven circulation in the Pacific and the ongoing warming hiatus. Nature Climate Change, 4(3), 222–227. Link, PDF
  • Fabricius, K. E., Langdon, C., Uthicke, S., Humphrey, C., Noonan, S., De’ath, G., Okazaki, R., Muehllehner, N., Glas, M. S., & Lough, J. M. (2011). Losers and winners in coral reefs acclimatized to elevated carbon dioxide concentrations. Nature Climate Change, 1(3), 165–169. Link, PDF
  • Famiglietti, J. S. (2014). The global groundwater crisis. Nature Climate Change, 4(11), 945–948. Link, PDF
  • Grant, S. B., Saphores, J.-D., Feldman, D. L., Hamilton, A. J., Fletcher, T. D., Cook, P. L. M., Stewardson, M., Sanders, B. F., Levin, L. A., Ambrose, R. F., Deletic, A., Brown, R., Jiang, S. C., Rosso, D., Cooper, W. J., & Marusic, I. (2012). Taking the “Waste” Out of “Wastewater” for Human Water Security and Ecosystem Sustainability. Science, 337(6095), 681–686. Link, PDF
  • Hallegatte, S., Green, C., Nicholls, R. J., & Corfee-Morlot, J. (2013). Future flood losses in major coastal cities. Nature Climate Change, 3(9), 802–806. Link, PDF
  • Hirabayashi, Y., Mahendran, R., Koirala, S., Konoshima, L., Yamazaki, D., Watanabe, S., Kim, H., & Kanae, S. (2013). Global flood risk under climate change. Nature Climate Change, 3(9), 816–821. Link, PDF
  • Hoekstra, A. Y., & Mekonnen, M. M. (2012). The water footprint of humanity. Proceedings of the National Academy of Sciences, 109(9), 3232–3237. Link, PDF
  • Jouffray, J.-B., Blasiak, R., Norström, A. v., Österblom, H., & Nyström, M. (2020). The Blue Acceleration: The Trajectory of Human Expansion into the Ocean. One Earth, 2(1), 43–54. Link, PDF
  • MacDonald, G. M. (2010). Water, climate change, and sustainability in the southwest. Proceedings of the National Academy of Sciences, 107(50), 21256–21262. Link, PDF
  • McDonald, R. I., Green, P., Balk, D., Fekete, B. M., Revenga, C., Todd, M., & Montgomery, M. (2011). Urban growth, climate change, and freshwater availability. Proceedings of the National Academy of Sciences, 108(15), 6312–6317. Link, PDF
  • Misra, A. K. (2014). Climate change and challenges of water and food security. International Journal of Sustainable Built Environment, 3(1), 153–165. Link, PDF
  • Olmstead, S. M. (2010). The Economics of Managing Scarce Water Resources. Review of Environmental Economics and Policy, 4(2), 179–198. Link, PDF
  • Pearson, R. G., Phillips, S. J., Loranty, M. M., Beck, P. S. A., Damoulas, T., Knight, S. J., & Goetz, S. J. (2013). Shifts in Arctic vegetation and associated feedbacks under climate change. Nature Climate Change, 3(7), 673–677. Link, PDF
  • Rahmstorf, S., Box, J. E., Feulner, G., Mann, M. E., Robinson, A., Rutherford, S., & Schaffernicht, E. J. (2015). Exceptional twentieth-century slowdown in Atlantic Ocean overturning circulation. Nature Climate Change, 5(5), 475–480. Link, PDF
  • Rockström, J., Lannerstad, M., & Falkenmark, M. (2007). Assessing the water challenge of a new green revolution in developing countries. Proceedings of the National Academy of Sciences, 104(15), 6253–6260. Link, PDF
  • Rueda-Marquez, J. J., Levchuk, I., Fernández Ibañez, P., & Sillanpää, M. (2020). A critical review on application of photocatalysis for toxicity reduction of real wastewaters. Journal of Cleaner Production, 258, 120694. Link, PDF
  • Rulli, M. C., Saviori, A., & D’Odorico, P. (2013). Global land and water grabbing. Proceedings of the National Academy of Sciences, 110(3), 892–897. Link, PDF
  • Samsami, S., Mohamadizaniani, M., Sarrafzadeh, M.-H., Rene, E. R., & Firoozbahr, M. (2020). Recent advances in the treatment of dye-containing wastewater from textile industries: Overview and perspectives. Process Safety and Environmental Protection, 143, 138–163. Link, PDF
  • Schewe, J., Heinke, J., Gerten, D., Haddeland, I., Arnell, N. W., Clark, D. B., Dankers, R., Eisner, S., Fekete, B. M., Colón-González, F. J., Gosling, S. N., Kim, H., Liu, X., Masaki, Y., Portmann, F. T., Satoh, Y., Stacke, T., Tang, Q., Wada, Y., … Kabat, P. (2014). Multimodel assessment of water scarcity under climate change. Proceedings of the National Academy of Sciences, 111(9), 3245–3250. Link, PDF
  • Smale, D. A., Wernberg, T., Oliver, E. C. J., Thomsen, M., Harvey, B. P., Straub, S. C., Burrows, M. T., Alexander, L. v., Benthuysen, J. A., Donat, M. G., Feng, M., Hobday, A. J., Holbrook, N. J., Perkins-Kirkpatrick, S. E., Scannell, H. A., sen Gupta, A., Payne, B. L., & Moore, P. J. (2019). Marine heatwaves threaten global biodiversity and the provision of ecosystem services. Nature Climate Change, 9(4), 306–312. Link, PDF
  • Taylor, R. G., Scanlon, B., Döll, P., Rodell, M., van Beek, R., Wada, Y., Longuevergne, L., Leblanc, M., Famiglietti, J. S., Edmunds, M., Konikow, L., Green, T. R., Chen, J., Taniguchi, M., Bierkens, M. F. P., MacDonald, A., Fan, Y., Maxwell, R. M., Yechieli, Y., … Treidel, H. (2013). Ground water and climate change. Nature Climate Change, 3(4), 322–329. Link, PDF
  • Vörösmarty, C. J., McIntyre, P. B., Gessner, M. O., Dudgeon, D., Prusevich, A., Green, P., Glidden, S., Bunn, S. E., Sullivan, C. A., Liermann, C. R., & Davies, P. M. (2010). Global threats to human water security and river biodiversity. Nature, 467(7315), 555–561. Link, PDF
  • Winsemius, H. C., Aerts, J. C. J. H., van Beek, L. P. H., Bierkens, M. F. P., Bouwman, A., Jongman, B., Kwadijk, J. C. J., Ligtvoet, W., Lucas, P. L., van Vuuren, D. P., & Ward, P. J. (2016). Global drivers of future river flood risk. Nature Climate Change, 6(4), 381–385. Link, PDF

resources in general

  • Agrawal, A. (2001). Common Property Institutions and Sustainable Governance of Resources. World Development, 29(10), 1649–1672. Link, PDF
  • Awual, Md. R., Hasan, Md. M., Iqbal, J., Islam, Md. A., Islam, A., Khandaker, S., Asiri, A. M., & Rahman, M. M. (2020). Ligand based sustainable composite material for sensitive nickel(II) capturing in aqueous media. Journal of Environmental Chemical Engineering, 8(1), 103591. Link, PDF
  • Bhattacharyya, S., & Hodler, R. (2010). Natural resources, democracy and corruption. European Economic Review, 54(4), 608–621. Link, PDF
  • Brunnschweiler, C. N., & Bulte, E. H. (2008). The resource curse revisited and revised: A tale of paradoxes and red herrings. Journal of Environmental Economics and Management, 55(3), 248–264. Link, PDF
  • Brunnschweiler, C. N. (2008). Cursing the Blessings? Natural Resource Abundance, Institutions, and Economic Growth. World Development, 36(3), 399–419. Link, PDF
  • Cohen-Shacham, E., Andrade, A., Dalton, J., Dudley, N., Jones, M., Kumar, C., Maginnis, S., Maynard, S., Nelson, C. R., Renaud, F. G., Welling, R., & Walters, G. (2019). Core principles for successfully implementing and upscaling Nature-based Solutions. Environmental Science & Policy, 98, 20–29. Link, PDF
  • Davidson, E. A., & Janssens, I. A. (2006). Temperature sensitivity of soil carbon decomposition and feedbacks to climate change. Nature, 440(7081), 165–173. Link, PDF
  • El-Naggar, A., El-Naggar, A. H., Shaheen, S. M., Sarkar, B., Chang, S. X., Tsang, D. C. W., Rinklebe, J., & Ok, Y. S. (2019). Biochar composition-dependent impacts on soil nutrient release, carbon mineralization, and potential environmental risk: A review. Journal of Environmental Management, 241, 458–467. Link, PDF
  • Foley, J. A., DeFries, R., Asner, G. P., Barford, C., Bonan, G., Carpenter, S. R., Chapin, F. S., Coe, M. T., Daily, G. C., Gibbs, H. K., Helkowski, J. H., Holloway, T., Howard, E. A., Kucharik, C. J., Monfreda, C., Patz, J. A., Prentice, I. C., Ramankutty, N., & Snyder, P. K. (2005). Global Consequences of Land Use. Science, 309(5734), 570–574. Link, PDF
  • Foley, J. A., Ramankutty, N., Brauman, K. A., Cassidy, E. S., Gerber, J. S., Johnston, M., Mueller, N. D., O’Connell, C., Ray, D. K., West, P. C., Balzer, C., Bennett, E. M., Carpenter, S. R., Hill, J., Monfreda, C., Polasky, S., Rockström, J., Sheehan, J., Siebert, S., … Zaks, D. P. M. (2011). Solutions for a cultivated planet. Nature, 478(7369), 337–342. Link, PDF
  • Gariano, S. L., & Guzzetti, F. (2016). Landslides in a changing climate. Earth-Science Reviews, 162, 227–252. Link, PDF
  • Gerlagh, R., & Keyzer, M. A. (2001). Sustainability and the intergenerational of natural resource entitlements. Journal of Public Economics, 79(2), 315–341. Link, PDF
  • Gill, J. C., & Malamud, B. D. (2017). Anthropogenic processes, natural hazards, and interactions in a multi-hazard framework. Earth-Science Reviews, 166, 246–269. Link, PDF
  • Gottfried, M., Pauli, H., Futschik, A., Akhalkatsi, M., Barančok, P., Benito Alonso, J. L., Coldea, G., Dick, J., Erschbamer, B., Fernández Calzado, M. R., Kazakis, G., Krajči, J., Larsson, P., Mallaun, M., Michelsen, O., Moiseev, D., Moiseev, P., Molau, U., Merzouki, A., … Grabherr, G. (2012). Continent-wide response of mountain vegetation to climate change. Nature Climate Change, 2(2), 111–115. Link, PDF
  • He, L., Zhong, H., Liu, G., Dai, Z., Brookes, P. C., & Xu, J. (2019). Remediation of heavy metal contaminated soils by biochar: Mechanisms, potential risks and applications in China. Environmental Pollution, 252, 846–855. Link, PDF
  • Huang, J., Yu, H., Guan, X., Wang, G., & Guo, R. (2016). Accelerated dryland expansion under climate change. Nature Climate Change, 6(2), 166–171. Link, PDF
  • Ikefuji, M., & Horii, R. (2012). Natural disasters in a two-sector model of endogenous growth. Journal of Public Economics, 96(9–10), 784–796. Link, PDF
  • Lambin, E. F., & Meyfroidt, P. (2011). Global land use change, economic globalization, and the looming land scarcity. Proceedings of the National Academy of Sciences, 108(9), 3465–3472. Link, PDF
  • Lubowski, R. N., Plantinga, A. J., & Stavins, R. N. (2006). Land-use change and carbon sinks: Econometric estimation of the carbon sequestration supply function. Journal of Environmental Economics and Management, 51(2), 135–152. Link, PDF
  • Polasky, S., Nelson, E., Pennington, D., & Johnson, K. A. (2011). The Impact of Land-Use Change on Ecosystem Services, Biodiversity and Returns to Landowners: A Case Study in the State of Minnesota. Environmental and Resource Economics, 48(2), 219–242. Link, PDF
  • Prusty, J. K., Patro, S. K., & Basarkar, S. S. (2016). Concrete using agro-waste as fine aggregate for sustainable built environment – A review. International Journal of Sustainable Built Environment, 5(2), 312–333. Link, PDF
  • Reed, M. S., Graves, A., Dandy, N., Posthumus, H., Hubacek, K., Morris, J., Prell, C., Quinn, C. H., & Stringer, L. C. (2009). Who’s in and why? A typology of stakeholder analysis methods for natural resource management. Journal of Environmental Management, 90(5), 1933–1949. Link, PDF
  • Sachs, J. D., & Warner, A. M. (2001). The curse of natural resources. European Economic Review, 45(4–6), 827–838. Link, PDF
  • Steinfeld, H., & Gerber, P. (2010). Livestock production and the global environment: Consume less or produce better? Proceedings of the National Academy of Sciences, 107(43), 18237–18238. Link, PDF
  • Turner, B. L., Lambin, E. F., & Reenberg, A. (2007). The emergence of land change science for global environmental change and sustainability. Proceedings of the National Academy of Sciences, 104(52), 20666–20671. Link, PDF
  • Zhu, Z., Piao, S., Myneni, R. B., Huang, M., Zeng, Z., Canadell, J. G., Ciais, P., Sitch, S., Friedlingstein, P., Arneth, A., Cao, C., Cheng, L., Kato, E., Koven, C., Li, Y., Lian, X., Liu, Y., Liu, R., Mao, J., … Zeng, N. (2016). Greening of the Earth and its drivers. Nature Climate Change, 6(8), 791–795. Link, PDF

相关课程

免费公开课

最新课程-直播课

专题 嘉宾 直播/回看视频
最新专题 文本分析、机器学习、效率专题、生存分析等
研究设计 连玉君 我的特斯拉-实证研究设计-幻灯片-
面板模型 连玉君 动态面板模型-幻灯片-
面板模型 连玉君 直击面板数据模型 [免费公开课,2小时]
  • Note: 部分课程的资料,PPT 等可以前往 连享会-直播课 主页查看,下载。

课程主页

课程主页

关于我们

  • Stata连享会 由中山大学连玉君老师团队创办,定期分享实证分析经验。
  • 连享会-主页知乎专栏,700+ 推文,实证分析不再抓狂。直播间 有很多视频课程,可以随时观看。
  • 公众号关键词搜索/回复 功能已经上线。大家可以在公众号左下角点击键盘图标,输入简要关键词,以便快速呈现历史推文,获取工具软件和数据下载。常见关键词:课程, 直播, 视频, 客服, 模型设定, 研究设计, stata, plus, 绘图, 编程, 面板, 论文重现, 可视化, RDD, DID, PSM, 合成控制法

连享会小程序:扫一扫,看推文,看视频……

扫码加入连享会微信群,提问交流更方便

✏ 连享会-常见问题解答:
https://gitee.com/lianxh/Course/wikis

New! lianxh 命令发布了:
随时搜索连享会推文、Stata 资源,安装命令如下:
. ssc install lianxh
使用详情参见帮助文件 (有惊喜):
. help lianxh