Hostname: page-component-848d4c4894-p2v8j Total loading time: 0.001 Render date: 2024-05-14T14:04:29.085Z Has data issue: false hasContentIssue false
  • English
  • Français

Constraints or Cooperation? Determinants of Secondary Forest Cover Under Shifting Cultivation

Published online by Cambridge University Press:  15 September 2016

Heather Klemick
Heather Klemick*
Affiliation:
National Center for Environmental Economics, U.S. Environmental Protection Agency, in Washington, D.C.
Get access

Abstract

This study examines the drivers of land use in a shifting cultivation system with forest fallow. Forest fallow provides on-farm soil quality benefits, local hydrological regulation, and global public goods. An optimal control model demonstrates that farmers have an incentive to fallow less than is socially optimal, though market failures limiting crop production can have a countervailing effect by encouraging fallow. An econometric model estimated using data from the Brazilian Amazon suggests that fallowing does not result from internalization of local fallow services but instead is associated with poor market access and labor and liquidity constraints.

Keywords

forestfarmsfallowecosystem servicesland usespatial econometricsBrazilcredit
Type
Contributed Papers
Information
Agricultural and Resource Economics Review , Volume 40 , Issue 3 , December 2011 , pp. 471 - 487
Copyright
Copyright © 2011 Northeastern Agricultural and Resource Economics Association 

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

Alix-Garcia, A. 2007. “A Spatial Analysis of Common Property Deforestation.” Journal of Environmental Economics and Management 53(2): 141157.Google Scholar
Alix-Garcia, A. de Janvry, A. and Sadoulet, E. 2005. “A Tale of Two Communities: Explaining Deforestation in Mexico.” World Development 33(2): 219235.Google Scholar
Alston, L. Libecap, G. and Mueller, B. 2000. “Land Reform Policies, the Sources of Violent Conflict, and Implications for Deforestation in the Brazilian Amazon.” Journal of Environmental Economics and Management 39(2): 162188.Google Scholar
Andrae, S. and Pingel, K. 2001. “A Rain Forest Financial System: The Directed Credit Paradigm in the Brazilian Amazon and Its Alternative.” Unpublished paper, Institute of Latin American Studies, Free University of Berlin, Berlin, Germany.Google Scholar
Angelsen, A. 2001. “Playing Games in the Forest: State-Local Conflicts of Land Appropriation.” Land Economics 77(2): 285299.Google Scholar
Angelsen, A. and Kaimowitz, D. 1999. “Rethinking the Causes of Deforestation: Lessons from Economic Models.” World Bank Research Observer 14(1): 7398.Google Scholar
Anselin, L. 1988. Spatial Econometrics: Methods and Models. Dordecht, the Netherlands: Kluwer Academic Publishers.Google Scholar
Barrett, S. 1991. “Optimal Soil Conservation and the Reform of Agricultural Pricing Policies.” Journal of Development Economics 36(2): 169187.Google Scholar
Blackman, A. Albers, H. Ávalos-Sartorio, B. and Murphy, L. 2008. “Land Cover in a Managed Forest Ecosystem: Mexican Shade Coffee.” American Journal of Agricultural Economics 90(1): 216231.Google Scholar
Borner, J. 2006. “A Bio-Economic Model of Small-Scale Farmers’ Land Use Decisions and Technology Choice in the Eastern Brazilian Amazon.” Ph.D. dissertation, Center for Development Research (ZEF), University of Bonn, Bonn, Germany.Google Scholar
Borner, J. Mendoza, A. and Vosti, S. 2007. “Ecosystem Services, Agriculture, and Rural Poverty in the Eastern Brazilian Amazon: Interrelationships and Policy Prescriptives.” Ecological Economics 64(2): 356373.Google Scholar
Boucher, S. Barham, B. and Carter, M. 2005. “The Impact of ‘Market-Friendly’ Reforms on Credit and Land Markets in Honduras and Nicaragua.” World Development 33(1): 107128.Google Scholar
Caldas, M. Walker, R. Arima, E. Perz, S. Aldrich, S. and Simmons, C. 2007. “Theorizing Land Cover and Land Use Change: The Peasant Economy of Amazonian Deforestation.” Annals of the Association of American Geographers 97(1): 86110.Google Scholar
Cattaneo, A. 2001. “Deforestation in the Brazilian Amazon: Comparing the Impacts of Macroeconomic Shocks, Land Tenure, and Technological Change.” Land Economics 77(2): 219240.Google Scholar
Caviglia-Harris, J. 2004. “Household Production and Forest Clearing: The Role of Farming in the Development of the Amazon.” Environment and Development Economics 9(2): 181202.Google Scholar
Chomitz, K.M. and Gray, D.A. 1996. “Roads, Land Use, and Deforestation: A Spatial Model Applied to Belize.” World Bank Economic Review 10(1): 487512.Google Scholar
Chomitz, K.M. and Thomas, T.S. 2003. “Determinants of Land Use in Amazonia: A Fine-Scale Spatial Analysis.” American Journal of Agricultural Economics 85(4): 10161028.Google Scholar
Coomes, O. Grimard, F. and Burt, G. 2000. “Tropical Forests and Shifting Cultivation: Secondary Forest Fallow Dynamics Among Traditional Farmers of the Peruvian Amazon.” Ecological Economics 32(1): 109124.Google Scholar
Cropper, M. Puri, J. and Griffiths, C. 2001. “Predicting the Location of Deforestation: The Role of Roads and Protected Areas in North Thailand.” Land Economics 77(2): 172186.Google Scholar
Deacon, R. 1999. “Deforestation and Ownership: Evidence from Historical Accounts and Contemporary Data.” Land Economics 75(3): 341359.CrossRefGoogle Scholar
Deininger, K. and Minten, B. 2002. “Determinants of Deforestation and the Economics of Protection: An Application to Mexico.” American Journal of Agricultural Economics 84(4): 943960.Google Scholar
Gitter, S. and Barham, B. 2007. “Credit, Natural Disasters, Coffee, and Educational Attainment in Rural Honduras.” World Development 35(3): 498511.Google Scholar
Godoy, R. Jacobson, M. De Castro, J. Aliaga, V. Romero, J. and Davis, A. 1998. “The Role of Tenure Security and Private Time Preference in Neotropical Deforestation.” Land Economics 74(2): 162170.Google Scholar
Goldstein, M. and Udry, C. 2008. “The Profits of Power: Land Rights and Agricultural Investment in Ghana.” Journal of Political Economy 116(6): 9811022.Google Scholar
Hall, A. 2008. “Better RED Than Dead: Paying the People for Environmental Services in Amazonia.” Philosophical Transactions of the Royal Society B 363(1498): 19251932.Google Scholar
Hansen, M. DeFries, R. Townshend, J.R. Carroll, M. Dimiceli, C. and Sohlberg, R. 2006. “Vegetation Continuous Fields MOD44B, 2001 Percent Tree Cover, Collection 4” (dataset). Global Land Cover Facility, Department of Geography, University of Maryland, College Park, MD. Google Scholar
Heckman, J. 1979. “Sample Selection Bias as a Specification Error.” Econometrica 47(1): 153161.Google Scholar
Holscher, D. Ludwig, B. Moller, R.F. and Folster, H. 1997. “Dynamic of Soil Chemical Parameters in Shifting Cultivation Agriculture in the Eastern Amazon.” Agriculture, Ecosystems and Environment 66(2): 153163.Google Scholar
Houghton, R.A. Skole, D.L. Nobre, C.A. Hackler, J.L. Lawrence, K.T. and Chomentowski, W.H. 2000. “Annual Fluxes of Carbon from Deforestation and Regrowth in the Brazilian Amazon.” Nature 403(6767): 301304.Google Scholar
Kato, M.S.A. Kato, O.R. Denich, M. and Vlek, P.L.G. 1999. “Fire-Free Alternatives to Slash-and-Burn for Shifting Cultivation in the Eastern Amazon Region: The Role of Fertilizers.” Field Crops Research 62(2/3): 225237.Google Scholar
Klemick, H. 2011. “Forest Fallow Ecosystem Services: Evidence from the Eastern Amazon.” Journal of Environmental Economics and Management 61(1): 95106.Google Scholar
Krautkraemer, J.A. 1994. “Population Growth, Soil Fertility, and Agricultural Intensification.” Journal of Development Economics 44(2): 403428.CrossRefGoogle Scholar
Larson, B. and Bromley, D. 1990. “Property Rights, Externalities, and Resource Degradation: Locating the Tragedy.” Journal of Development Economics 33(2): 235262.Google Scholar
LeSage, J.P. 1998. “Spatial Econometrics.” Available at www.spatial-econometrics.com (accessed May 8, 2008).Google Scholar
López, R. 1993. “Resource Degradation, Community Controls and Agricultural Productivity in Tropical Areas.” Working Paper No. 93-08, Department of Agricultural and Resource Economics, University of Maryland, College Park, MD.Google Scholar
López, R. 1997. “Environmental Externalities in Traditional Agriculture and the Impact of Trade Liberalization: The Case of Ghana.” Journal of Development Economics 53(1): 1739.CrossRefGoogle Scholar
López, R. 1998. “The Tragedy of the Commons in Côte d'Ivoire Agriculture: Empirical Evidence and Implications for Evaluating Trade Policies.” World Bank Economic Review 12(1): 105131.Google Scholar
López, R. and Romano, C. 2000. “Rural Poverty in Honduras: Asset Distribution and Liquidity Constraints.” In López, R. and Valdez, A. eds., Rural Poverty in Latin America. New York: St. Martin's Press.Google Scholar
López, R. and Valdéz, A. 2000. “Fighting Rural Poverty in Latin America: New Evidence and Policy.” In López, R. and Valdez, A. eds., Rural Poverty in Latin America. New York: St. Martin's Press.Google Scholar
Nelson, G. and Hellerstein, D. 1997. “Do Roads Cause Deforestation? Using Satellite Images in Econometric Analysis of Land Use.” American Journal of Agricultural Economics 79(1): 8088.Google Scholar
Ostrom, E. 1990. The Evolution of Institutions for Collective Action. New York: Cambridge University Press.Google Scholar
Pattanayak, S. and Butry, D. 2005. “Spatial Complementary of Forests and Farms: Accounting for Ecosystem Services.” American Journal of Agricultural Economics 87(4): 9951008.Google Scholar
Pattanayak, S. and Kramer, R.A. 2001. “Worth of Watersheds: A Producer Surplus Approach for Valuing Drought Mitigation in Eastern Indonesia.” Environment and Development Economics 6(1): 123146.Google Scholar
Perz, S. and Walker, R. 2002. “Household Life Cycles and Secondary Forest Cover Among Small Farm Colonists in the Amazon.” World Development 30(6): 10091027.Google Scholar
Pfaff, A. 1999. “What Drives Deforestation in the Brazilian Amazon: Evidence from Satellite and Socioeconomic Data.” Journal of Environmental Economics and Management 37(1): 2643.Google Scholar
Pinchon, F. 1997. “Colonist Land-Allocation Decisions, Land Use, and Deforestation in the Ecuadorian Amazon Frontier.” Economic Development and Cultural Change 45(4): 707744.Google Scholar
Robalino, J.A. Pfaff, A. and Sanchez-Azofeifa, A. 2007. “Estimating Spatial Interactions in Deforestation Decisions.” In Kontonleon, A. Pascual, U. and Swanson, T. eds., Biodiversity Economics. Cambridge, UK: Cambridge University Press.Google Scholar
Scatena, F.N. Walker, R.T. Homma, A.K.O. de Conto, A.J. Palheta Ferreira, C.A. Carvalho, R.A. Neves da Rocha, A.C.P. Moreira dos Santos, A.I. and Mourao de Oliveira, P. 1996. “Cropping and Fallowing Sequences of Small Farms in the ‘Terra Firme’ Landscape of the Brazilian Amazon: A Case Study from Santarem, Peru.Ecological Economics 18(1): 2940.Google Scholar
Singh, I. Squire, L. and Strauss, J. 1986. “A Survey of Agricultural Household Models: Recent Findings and Policy.” World Bank Economic Review 1(1): 149179.Google Scholar
Smith, J. van de Kop, P. Reategui, K. Lombardi, I. Sabogal, C. and Diaz, A. 1999. “Dynamics of Secondary Forests in Slash-and-Burn Farming: Interactions Among Land Use Types in the Peruvian Amazon.” Agriculture, Ecosystems, and Environment 76(2/3): 8598.CrossRefGoogle Scholar
Sommer, R. Denich, M. and Vlek, P.L.G. 2000. “Carbon Storage and Root Penetration in Deep Soils Under Small-Farmer Land-Use Systems in the Eastern Amazon Region, Brazil.Plant Soil 219(1/2): 231241.Google Scholar
Stokstad, E. 2009. “Debate Continues Over Rainforest Fate—With a Climate Twist.” Science 323(5913): 448.Google Scholar
Takasaki, Y. 2007. “Dynamic Household Models of Forest Clearing Under Distinct Land and Labor Market Institutions: Can Agricultural Policies Reduce Tropical Deforestation?Environment and Development Economics 12(2): 423443.Google Scholar
Toniolo, A. and Uhl, C. 1995. “Economic and Ecological Perspectives on Agriculture in the Eastern Amazon.” World Development 23(6): 959973.Google Scholar
Tucker, J.M. Brondizio, E.S. and Moran, E. 1998. “Rates of Forest Regrowth in Eastern Amazonia: A Comparison of Altamira and Bragantina Regions, Para State, Brazil. Interciencia 23(2): 6473.Google Scholar
U.S. Geological Survey. 1999. National Center for Earth Resources Observation & Science (EROS). HYDRO1k South America. Available at http://eros.usgs.gov/#/Find_DataProducts_and_Data_Available/gtopo30/hydro/samerica (accessed March 29, 2011).Google Scholar
Wooldridge, J. 2001. Econometric Analysis of Cross Section and Panel Data. Cambridge, MA: MIT Press.Google Scholar
Wright, S.J. and Muller-Landau, H.C. 2006. “The Future of Tropical Forest Species.” Biotropica 38(3): 287301.Google Scholar
Wunder, S. Engel, S. and Pagiola, S. 2008. “Taking Stock: A Comparative Analysis of Payments for Environmental Services Programs in Developed and Developing Countries.” Ecological Economics 65(4): 834852.Google Scholar