Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-22T08:26:33.791Z Has data issue: false hasContentIssue false
  • English
  • Français

Climate change, agriculture and economic effects on different regions of Brazil

Published online by Cambridge University Press:  25 April 2014

Joaquim Bento de Souza Ferreira Filho  and
Gustavo Inácio de Moraes
Joaquim Bento de Souza Ferreira Filho
Affiliation:
University of São Paulo, ‘Luiz de Queiroz’ College of Agriculture, Pádua Dias 11, Piracicaba, São Paulo, Brazil. Tel. 55-19-34294444. E-mail: [email protected]
Gustavo Inácio de Moraes
Affiliation:
Pontifical Catholic University, Economics and Business School, Graduate Program in Economics, Porto Alegre, Brazil. E-mail: [email protected]
Get access Rights & Permissions [Opens in a new window]

Abstract

In this paper we assess the potential economic effects of climate change on Brazilian agriculture scenarios in different regions in a general equilibrium framework, using a detailed regional economic database for the year 2005. Two different climate change impact scenarios are simulated. This paper extends the Brazilian literature in three different ways: by considering detailed shocks by product and region; by highlighting the connections between the potential impacts of climate change on agriculture and the labor market, with an inter-regional focus; and by specifying the links between climate change forecasts for agriculture and household expenditures. Results show that climate change impacts on Brazilian agriculture would have a relatively small economic effect on the Brazilian economy in aggregate terms, but with severe consequences at the regional level, making a strong case for losses that would be concentrated in the poorest regions and for the poorest workers and households in those regions.

Type
Research Article
Information
Environment and Development Economics , Volume 20 , Issue 1 , February 2015 , pp. 37 - 56
Copyright
Copyright © Cambridge University Press 2014 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Ahmed, S.A., Diffenbaugh, N.S., Hertel, T.W., Lobell, D.B., Ramankutty, N., Rios, A.R., and Rowhani, P. (2009), ‘Climate volatility and poverty vulnerability in Tanzania’, Policy Research Working Paper No. 5117, World Bank, Washington, DC.CrossRefGoogle Scholar
Assad, E.D., Pinto, H.S., and Zullo, J. Jr. (2007), ‘Impacts of global warming in the Brazilian agroclimatic risk zoning’, in Dias, P.S., Costa, W.R. and Nunes, L.H. (eds), A Contribution to Understanding the Regional Impacts Of Global Change in South America, São Paulo: Universidade de São Paulo, Instituto de Estudos Avançados, pp. 175184.Google Scholar
Bierbaum, R., Holdren, J., Maccracken, M., Moss, R., and Raven, P. (2007), ‘Confronting climate change: avoiding the unmanageable and managing the unavoidable’, Report prepared for the United Nations Commission on Sustainable Development, New York: United Nations Foundation.Google Scholar
Brown, M.E. and Funk, C.C. (2008), ‘Food security under climate change’, Science 319: 580581.CrossRefGoogle ScholarPubMed
Cline, W.R. (2007), ‘Global warming and agriculture: impact estimates by country’, Washington, DC: Center for Global Development/Peterson Institute for International Economics.Google Scholar
Darwin, R., Tsigas, M., Lewandrowski, J., and Raneses, A. (1995), ‘World agriculture and climate change’, Agricultural Economic Report No. 703, USDA, Washington, DC.Google Scholar
Deressa, T., Hassan, R., and Pooyonth, D. (2005), ‘Measuring the impact of climate change on South African agriculture: the case of sugarcane growing regions’, Agrekon 44(4): 524542.CrossRefGoogle Scholar
Domingues, E.P., Magalhães, A.S., and Ruiz, R.M. (2008), ‘Cenários de mudanças climáticas e agricultura no Brasil: impactos econômicos na região Nordeste’, Discussion Paper No. 340, UFMG – Cedeplar, Belo Horizonte, Brazil.Google Scholar
Domingues, E.P., Haddad, E.A., Perobelli, F.S., Azzoni, C.R., Guilhoto, J.J.M., Kanczuk, F., and Almeida, F.S. (2010), ‘Impactos Econômicos da Mudança do Clima no Brasil’, Paper presented at the 38th Brazilian Economy Association Meeting – ANPEC, December, Salvador, Brazil.Google Scholar
Eboli, F., Parrado, R., and Roson, R. (2010), ‘Climate-change feedback on economic growth: explorations with a dynamic general equilibrium model’, Environment and Development Economics 15(5): 515533.CrossRefGoogle Scholar
FAO (Food and Agriculture Organization of the United Nations) (2000), ‘Two essays on climate change and agriculture’, FAO Economic and Social Development Papers No. 145, FAO, Rome.Google Scholar
Ferreira Filho, J.B.S. and Horridge, M.J. (2006), ‘The Doha round, poverty and regional inequality in Brazil’, in Hertel, T.W. and Winters, L.A. (eds), Poverty & the WTO – Impacts of the Doha Development Agenda, volume 1, 1st edn Houndmills: Palgrave Macmillan, pp. 183218.Google Scholar
Ferreira Filho, J.B.S. and Horridge, M.J. (2008), ‘Would agricultural trade liberazation help the poor of Brazil?’, Paper presented at the Eleventh Annual Conference on Global Economic Analysis, June, Helsinki.Google Scholar
Ferreira Filho, J.B.S. and Horridge, M.J. (2010a), ‘Brazil’, in Anderson, K., Cockburn, J. and Martin, W. (eds) Agricultural Price Distortions, Inequality and Poverty, v. 1, 1st edn Washington, DC: World Bank, pp. 391422.Google Scholar
Ferreira Filho, J.B.S. and Horridge, M.J. (2010b), ‘Climate change impacts on agriculture and internal migrations in Brazil’, Paper presented at the Thirteenth Annual Conference on Global Economic Analysis, June, Penang.Google Scholar
Ferreira Filho, J.B.S., Santos, C.V., and Lima, S.M.P. (2010), ‘Tax reform, income distribution and poverty in Brazil: an applied general equilibrium analysis’, International Journal of Microsimulation 3: 114117.CrossRefGoogle Scholar
Fischer, G., Shah, M., and Van Velthuizen, H. (2002), ‘Climate change and agricultural vulnerability’, Special Report, International Institute for Applied Systems Analysis to World Summit on Sustainable Development, Johannesburg.Google Scholar
Hassan, R. (2010), ‘The double challenge of adapting to climate change while accelerating development in Sub-Saharan Africa’, Environment and Development Economics 15(6): 661685.CrossRefGoogle Scholar
Horridge, J.M., Madden, J.R., and Wittwer, G.R. (2005), ‘The impact of the 2002–03 drought on Australia’, Journal of Policy Modeling 27(3): 285308.CrossRefGoogle Scholar
IBGE (Brazilian Institute of Geography and Statistics) (2004), Brazilian Expenditure Household Survey 2002–2003: Microdata, Rio de Janeiro: IBGE.Google Scholar
IBGE (Brazilian Institute of Geography and Statistics) (2006a), Brazilian National Household Survey, 2005: Microdata, Rio de Janeiro: IBGE.Google Scholar
IBGE (Brazilian Institute of Geography and Statistics) (2006b), Municipality Agricultural Survey, Rio de Janeiro: IBGE.Google Scholar
IBGE (Brazilian Institute of Geography and Statistics) (2008), Input Output Table 2005, Rio de Janeiro: IBGE.Google Scholar
IBGE (Brazilian Institute of Geography and Statistics) (2009), Brazilian Territorial Division Map: Digital Municipality Boundaries, Rio de Janeiro: IBGE.Google Scholar
Lobell, D.B., Burke, M.B., Tebaldi, C., Mastrandrea, M.D., Falcon, W.P., and Naylor, R.L. (2008), ‘Prioritizing climate change adaptation needs for food security in 2030’, Science 319: 607610.CrossRefGoogle ScholarPubMed
Maddison, D. (2007), ‘The perception and adaptation to climate change in Africa’, Working Paper No. 4308, World Bank, Washington, DC.CrossRefGoogle Scholar
Marengo, J. (2007), ‘Use of regional climate models in impact assessments and adaptations studies from continental to regional and local scales’, Paper presented at the Brazilian symposium on global environmental change, March, Brazilian Sciences Academy, Rio de Janeiro.Google Scholar
Margulis, S. and Dubeux, C. (2010), ‘Economia da Mudança do Clima’, Boletim Regional, Urbano e Ambiental 4: 713, IPEA, Rio de Janeiro.Google Scholar
Mendelsohn, R. and Dinar, A. (1999), ‘Climate change, agricultural, and developing countries: does adaptation matter?’, World Bank Research Observer 14(2): 277293.CrossRefGoogle Scholar
Nobre, C. and Assad, E.D. (2005), O aquecimento global e o impacto na Amazônia e na agricultura brasileira, version 1, Cachoeira Paulista: INPE. [Available at] http://mtc-m18.sid.inpe.br/col/sid.inpe.br/ePrint@80/2005/09.12.12.51/doc/v1.pdf.Google Scholar
Pinto, H.S. and Assad, E.D. (2008), Aquecimento global e cenários futuros da agricultura brasileira, Campinas: Embrapa/Unicamp.Google Scholar
Quiroga, S. and Iglesias, A. (2007), ‘Projections of economic impacts of climate change in agriculture in Europe’, Economía Agraria y Recursos Naturales 7(14): 6582.CrossRefGoogle Scholar
Sanghi, A., Alves, D., Everson, R., and Mendelsohn, R. (1997), ‘Global warming impacts on Brazilian agriculture: estimates of the Ricardian Model’, Economia Aplicada 1(1): 733.Google Scholar
Stern, N. (2007), The Economics of Climate Change: the Stern Review, Cambridge: Cambridge University Press.CrossRefGoogle ScholarPubMed
Tourinho, O.A.F., Kume, H., and Pedroso, A.C. De S. (2003), ‘Elasticidades de Armington para o Brasil: 1986–2002 – novas estimativas’, Texto para Discussão No. 974, IPEA, Rio de Janeiro.Google Scholar