Environmental Economy of India
Keywords:
environment, economy, GDP, pollution, India, measures, emission levels, health, imperative, climate
Abstract
One of the key environmental problems facing India is that of particle pollution from the combustion of fossil fuels. This has serious health consequences and with the rapid growth in the economy these impacts are increasing. At the same time, economic growth is an imperative and policy makers are concerned about the possibility that pollution reduction measures could reduce growth significantly. Here are the tradeoffs involved in controlling local pollutants such as particles. Using an established Computable General Equilibrium model, it evaluates the impacts of a tax on coal or on emissions of particles such that these instruments result in emission levels that are respectively 10 percent and 30 percent lower than they otherwise would be in 2030. The main findings are as follows: (i) A 10 percent particulate emission reduction results in a lower gross domestic product but the size of the reduction is modest; (ii) losses in gross domestic product from the tax are partly offset by the health gains from lower particle emissions; (iii) the taxes reduce emissions of carbon dioxide by about 590 million tons in 2030 in the case of the 10 percent reduction and 830 million tons in the case of the 30 percent reduction; and (iv) taken together, the carbon dioxide reduction and the health benefits are greater than the loss of gross domestic product in both cases.
References
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CrossRef
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CrossRef
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CrossRef
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CrossRef
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CrossRef
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CrossRef
2. Mekonnen, M.M. and Hoekstra, A.Y. Four billion people facing severe water scarcity. Science Advances, 2016; 2(2): e1500323. https://doi.org/10.1126/sciadv.1500323.
CrossRef
3. National Intelligence Council Special Report NIC 2009-03D. India: Impact of climate change to 2030 a commissioned research report, 2009. https://www.dni.gov/files/documents/climate2030_india.pdf.
4. Fogel, R.W. Capitalism & democracy in 2040: Forecast and speculations. NBER Working Paper 2007; 13184: 1-23. http://www.nber.org/papers/w13184.
CrossRef
5. Global Change Data Lab. Our world in data: cumulative CO2 emissions by world region. Online dataset, 2021. https://ourworldindata.org/grapher/cumulative-co2-emissions-region.
6. Phillip, P., Symons, W., Ibrahim, C., Hodges, C., McGrath, M. India’s Turning Point: How climate action can drive our economic future, 2021, 1-46. https://www2.deloitte.com/content/dam/Deloitte/in/Documents/about-deloitte/in-india-turning-point-noexp.pdf.
7. Dubash, N.K. An introduction to India’s evolving climate change debate: from diplomatic insulation to policy integration. India in a warming world: integrating climate change and development, Oxford Scholarship online, 2019. DOI: 10.1093/oso/9780199498734.001.0001.
CrossRef
8. Batten, S., Sowerbutts, R., Tanaka, M. “Let’s Talk About the Weather: The Impact of Climate Change on Central Banks”, Staff Working Paper No. 603, Bank of England, 2016; 1-38.
CrossRef
9. Krishnan, R., Sanjay, J., Gnanaseelan, C., Mujumdar, M., Kulkarni, A., Chakraborty, S. Assessment of Climate Change over the Indian Region: A Report of the Ministry of Earth Sciences (MoES), Government of India, 2020; ISBN: 978-981-15-4329-6, 1-243. https://link.springer.com/book/10.1007%2F978-981-15-4327-2.
10. Cruz, R.V., Harasawa, H., Lal, M., Wu, S., Anokhin, Y., Punsalmaa, B., Honda, Y., Jafari, M., Li, C., Huu Ninh, N. Asia. Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Parry, M.L., Canziani, O.F., Palutikof, J.P., van der Linden, P.J., Hanson, C.E. Eds., Cambridge University Press, Cambridge, UK, 2007; 469-506.
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CrossRef
12. Saikat, P., Sourav, S., Samiran, M. Time series analysis of observed maximum and minimum air temperature at four urban cities of India during 1951-2015. Mausam, 2021; 71 (1): 57-68. DOI: https://doi.org/10.54302/mausam.v71i1.6.
CrossRef
13. Sanjay, J., Revadekar, J.V., Ramarao, M.V.S, Borgaonkar, H., Sengupta, S., Kothawale, D.R., Patel, J., Mahesh, R., Ingle, S., Achuta Rao, K., Srivastava, A.K., Ratnam, J.V. Temperature Changes in India. Assessment of climate change over the Indian region, Springer, Singapore, 2020; pp 21-45. https://doi.org/10.1007/978-981-15-4327-2_2.
CrossRef
14. Roxy, M.K., Ghosh, S., Pathak, A., Athulya, R., Mujumdar, M., Murtugudde, R., Terray, P., Rajeevan, M. A threefold rise in widespread extreme rain events over central India. Nature Communications, 2017; 8(708): 1-11. DOI: 10.1038/s41467-017-00744-9.
CrossRef
15. All India Rainfall Time Series, India Meteorological department, Ministry of Earth Sciences, Government of India, 2021. https://mausam.imd.gov.in/imd_latest/contents/rainfall_time_series.php.
16. Mallya, G., Mishra, V., Niyogi, D., Tripathi, S., Govindaraju, R.S. Trends and variability of droughts over the Indian monsoon region. Weather Clim. Extremes 2016; 12: 43-68. https://doi.org/10.1016/j.wace. 2016.01.002.
CrossRef
17. Kahn, M.E., Mohaddes, K., Ryan, N.C., Ng, R.N., Pesaran, H., Raissi, M., Yang, J. Long-term macroeconomic effects of climate change: a cross-country analysis. IMF Working Paper, WP/19/215, 2019. https://www.imf.org/en/Publications/WP/Issues/2019/10/11/Long-Term-Macroeconomic-Effects-of-Climate-Change-A-Cross-Country-Analysis-48691.
CrossRef
18. Ruosteenoja, K., Carter, T.R., Jylhä, K., Tuomenvirta, H. Future climate in world regions: an intercomparison of model-based projections for the new IPCC emissions scenarios. The Finnish Environment 644, Finnish Environment Institute, 2003; 83pp. https://www.ipcc-data.org/documents/scatter_plot_report.pdf.
19. McLean, R.F., Sinha, S.K., Mirza, M.Q., Lal, M. Tropical Asia, in The Regional Impacts of Climate Change: An Assessment of Vulnerability. eds. Watson, R.T., Zinyowera, M.C., Moss, R.H. A Special Report of IPCC Working Group II, Published for the Intergovernmental Panel on Climate Change, Cambridge University Press. 530pp. 1998). https://www.ipcc.ch/site/assets/uploads/2020/11/The-Regional-Impact.pdf.
20. Whitman, S. World Poverty; 2006. http://www.fao.org/newsroom/en/news/2006/1000392/index.html.
21. Wilbanks, T.J., Lankao, P.R., Bao, M., Berkhout, F., Cairncross, S., Ceron, J.-P., Kapshe, M., Muir-Wood, R., Zapata-Marti, R. Industry, settlement and society. Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Parry, M.L., Canziani, O.F., Palutikof, J.P., van der Linden, P.J. Hanson, C.E. Eds., Cambridge University Press, Cambridge, UK, 2007; 357-390. https://www.alnap.org/help-library/industry-settlement-and-society.
22. Hallegatte, S., Rozenberg, J. Climate change through a poverty lens. Nature Climate Change, 2017; 7: 250–256. https://doi.org/10.1038/nclimate3253.
CrossRef
23. Nagchoudhary, S., Paul, R. Cyclone Amphan loss estimated at $13 billion in India, may rise in Bangladesh. Reuters, 23 May 2020. www.reuters.com/article/us-asia-stormindia/cyclone-amphan-loss-estimated-at-13-billion-in-india-may-rise-in-bangladeshidUSKBN22Z0HE.
24. Satterthwaite, D., Archer, D., Colenbrander, S., Dodman,D., Hardoy, J., Mitlin, D., Patel, S. Building Resilience to Climate Change in Informal Settlements. One Earth. 2020; 2 (2): 143-156. https://doi.org/10.1016/j.oneear.2020.02.002.
CrossRef
25. Jacoby, H., Rabassa, M., Skoufias, E. Distributional implications of climate change in India. Policy Research Working Paper 5623, 2011. Washington DC: World Bank. https://doi.org/10.1596/1813-9450-5623.
CrossRef
26. Skoufias, E., Rabassa, M., Olivieri, S. The poverty impacts of climate change: a review of the evidence. Policy Research Working Paper 5622. Washington DC: World Bank, 2011. https://doi.org/10.1596/1813-9450-5622.
CrossRef
27. IEA - International Energy Agency. World Energy Outlook: China and India Insights, IEA, Paris, 2007. https://www.iea.org/reports/world-energy-outlook-2007.
28. Organization for Economic Cooperation and Development, International Energy Agency, Statistics on the web, 2006. https://www.iea.org/data-and-statistics.
29. IEA – International Energy Agency. India energy outlook 2021. International Energy Agency, 2021. India Energy Outlook 2021 – Analysis - IEA.
30. Dubash, N.K. The politics of climate change in India: narratives of equity and cobenefits. WIREs Climate Change, 2013; 4: 191–201. https://doi.org/10.1002/wcc.210.
CrossRef
31. Colenbrander, S., Gouldson, A., Roy, J., Kerr, N., Sarkar, S., Hall, S., Sudmant, A., Ghatak, A., Chakravarty, D., Ganguly, D., Mcanulla, F. Can low-carbon urban development be pro-poor? The case of Kolkata, India. Environment and Urbanization. 2016; 29(1): 139–157. https://doi.org/10.1177%2F0956247816677775.
CrossRef
32. Tibrewal, K., Venkataraman, C. Climate co-benefits of air quality and clean energy policy in India. Nature Sustainability. 2020; 4: 305-313. https://doi.org/10.1038/s41893-020-00666-3.
CrossRef
33. Naswa, P., Garg, A. Managing climate-induced risks on Indian infrastructure assets. Current Science, 2011; 101(3): 395 - 404. https://www.jstor.org/stable/24078518.
34. Sadhukhan, B. FEATURE: Indian infrastructure must be climate-proofed to the core’. Cape Town: Climate & Development Knowledge Network, 2019. https://cdkn.org/2019/01/indianinfrastructure-must-be-climate-proofed-to-the-core/?loclang=en_gb.
Published
2023-03-27
How to Cite
Meena, K. L. (2023). Environmental Economy of India. International Journal on Economics, Finance and Sustainable Development, 5(3), 144-151. Retrieved from https://journals.researchparks.org/index.php/IJEFSD/article/view/4196
