Hostname: page-component-cd9895bd7-dzt6s Total loading time: 0 Render date: 2024-12-23T15:31:29.717Z Has data issue: false hasContentIssue false

Spatial analysis of the participation in agri-environment measures for organic farming

Published online by Cambridge University Press:  07 September 2015

Fabio Boncinelli*
Affiliation:
Department of Agricultural, Food and Forestry Systems, University of Florence, Florence, Italy.
Fabio Bartolini
Affiliation:
Department of Agriculture, Food and Environment, University of Pisa, Pisa, Italy.
Gianluca Brunori
Affiliation:
Department of Agriculture, Food and Environment, University of Pisa, Pisa, Italy.
Leonardo Casini
Affiliation:
Department of Agricultural, Food and Forestry Systems, University of Florence, Florence, Italy.
*
* Corresponding author: [email protected]

Abstract

Support for organic farming is a key strategy of rural development policies in several countries. This paper studied the spatial pattern of participation in agro-environmnetal policy the policies designing to foster diffusion of organic farming. The ultimate goal is to investigate the impact of local factors for improving the policy targeting. Indicators of spatial association and a spatial econometrics model were performed for the analysis. The results show regional agglomeration effects of the rate of participants to the measures adopted to promote organic farming. In addition, a spatial relation among the farms that obtain public support is found, highlighting that the diffusion of participation is driven mainly by imitation process and external economies of scale.

Type
Research Papers
Copyright
Copyright © Cambridge University Press 2015 

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

Alló, M., Loureiro, M.L., and Iglesias, E. 2015. Farmers’ preferences and social capital regarding agri-environmental schemes to protect birds. Journal of Agricultural Economics: 118.Google Scholar
Anselin, L. 1988. Spatial Econometrics: Methods and Models. Springer Science & Business Media, New York.CrossRefGoogle Scholar
Anselin, L. 1995. Local indicators of spatial association-LISA. Geographical Analysis 27(2):93115.Google Scholar
Anselin, L. 2001. Spatial econometrics. In Baltagi, B. (ed.). A Companion to Theoretical Econometrics. Blackwell, Oxford. p. 310331.Google Scholar
Bandiera, O. and Rasul, I. 2006. Social networks and technology adoption in northern mozambique. The Economic Journal 116(514):869902.Google Scholar
Bartolini, F. and Brunori, G. 2014. Understanding linkages between common agricultural policy and High Nature Value (HNV) farmland provision: An empirical analysis in Tuscany Region. Agricultural and Food Economics 2(1):121.Google Scholar
Bartolini, F., Raggi, M., and Viaggi, D. (eds.) 2012. A spatial analysis of participation in RDP measures: A case study in Emilia Romagna region. In 1st AIEAA (Associazione Italiana Di Economia Agraria E Applicata) Conference ‘Towards a Sustainable Bio-economy: Economic Issues and Policy Challenges’, Italy, Trento. p. 1–13.Google Scholar
Baumgart-Getz, A., Prokopy, L.S., and Floress, K. 2012. Why farmers adopt best management practice in the United States: A meta-analysis of the adoption literature. Journal of Environmental Management 96(1):1725.Google Scholar
Bell, K.P. and Dalton, T.J. 2007. Spatial economic analysis in data-rich environments. Journal of Agricultural Economics 58(3):487501.Google Scholar
Blanc, J. and Kledal, P.R. 2012. The Brazilian organic food sector: Prospects and constraints of facilitating the inclusion of smallholders. Journal of Rural Studies 28(1):142154.Google Scholar
Boncinelli, F. and Casini, L. 2014. A comparison of the well-being of agricultural and non agricultural households using a multicriterial approach. Social Indicators Research 119(1):183195.Google Scholar
Brady, M. and Irwin, E. 2011. Accounting for spatial effects in economic models of land use: Recent developments and challenges ahead. Environmental and Resource Economics 48(3):487509.Google Scholar
Case, A. 1992. Neighborhood influence and technological change. Regional Science and Urban Economics 22(3):491508.CrossRefGoogle Scholar
Conley, T.G. and Udry, C.R. 2010. Learning about a new technology: Pineapple in Ghana. The American Economic Review 100:3569.Google Scholar
Defrancesco, E. et al. 2008. Factors affecting farmers’ participation in agri-environmental measures: A Northern Italian perspective. Journal of Agricultural Economics 59(1):114131.Google Scholar
Doring, T. and Schnellenbach, J. 2006. What do we know about geographical knowledge spillovers and regional growth?: A survey of the literature. Regional Studies 40:375395.Google Scholar
Ducos, G., Dupraz, P., and Bonnieux, F. 2009. Agri-environment contract adoption under fixed and variable compliance costs. Journal of Environmental Planning and Management 52(5):669687.Google Scholar
Espinosa-Goded, M., Barreiro-Hurlé, J., and Dupraz, P. 2013. Identifying additional barriers in the adoption of agri-environmental schemes: The role of fixed costs. Land Use Policy 31:526535.CrossRefGoogle Scholar
European Commission 2010. An Analysis of the EU Organic Sector. European Commission Directorate-General for Agriculture and Rural Development, Bruxelles.Google Scholar
Falconer, K. 2000. Farm-level constraints on agri-environmental scheme participation: A transactional perspective. Journal of Rural Studies 16(3):379394.Google Scholar
Fischer, M.M. and Getis, A. 2009. Handbook of Applied Spatial Analysis: Software Tools, Methods and Applications. Springer Science & Business Media, Dordrecht.Google Scholar
Fujita, M., Krugman, P.R., and Venables, A.J. 2001. The Spatial Economy: Cities, Regions, and International Trade. MIT Press, Cambridge, MA.Google Scholar
Gardebroek, C., Chavez, M.D., and Lansink, A.O. 2010. Analysing production technology and risk in organic and conventional Dutch arable farming using panel data. Journal of Agricultural Economics 61(1):6075.Google Scholar
Genius, M., Pantzios, C.J., and Tzouvelekas, V. 2006. Information acquisition and adoption of organic farming practices. Journal of Agricultural and Resource Economics 31:93113.Google Scholar
Getis, A. 2009. Spatial weights matrices. Geographical Analysis 41(4):404410.Google Scholar
Goulet, F. 2013. Narratives of experience and production of knowledge within farmers’ groups. Journal of Rural Studies 32:439447.Google Scholar
Henning, S.A., Zhong, Y., and Cardona, H. 2004. Ecological attitudes of farmers and adoption of best management practices. South-Western Economic Proceedings 31:5770.Google Scholar
Hübler, M. et al. 2012. An integrated assessment model with endogenous growth. Ecological Economics 83:118131.Google Scholar
Khaledi, M. et al. 2010. Factors influencing partial and complete adoption of organic farming practices in Saskatchewan, Canada. Canadian Journal of Agricultural Economics/Revue Canadienne D'agroeconomie 58(1):3756.Google Scholar
Kleemann, L. and Abdulai, A. 2013. Organic certification, agro-ecological practices and return on investment: Evidence from pineapple producers in Ghana. Ecological Economics 93:330341.Google Scholar
Kostandini, G., Mykerezi, E., and Tanellari, E. 2011. Viability of organic production in rural counties: county and state-level evidence from the United States. Journal of Agricultural and Applied Economics 43(3):443.CrossRefGoogle Scholar
Krugman, P.R. 1991. Geography and Trade. MIT Press, Cambridge, MA.Google Scholar
Läpple, D. 2013. Comparing attitudes and characteristics of organic, former organic and conventional farmers: Evidence from Ireland. Renewable Agriculture and Food Systems 28:329337.Google Scholar
Läpple, D. and Van Rensburg, T. 2011. Adoption of organic farming: Are there differences between early and late adoption? Ecological Economics 70(7):14061414.Google Scholar
Läpple, D. and Kelley, H. 2013. Understanding the uptake of organic farming: Accounting for heterogeneities among Irish farmers. Ecological Economics 88:1119.Google Scholar
Läpple, D. and Kelley, H. 2015. Spatial dependence in the adoption of organic drystock farming in Ireland. European Review of Agricultural Economics 42(2):315337.CrossRefGoogle Scholar
LeSage, J. and Pace, R.K. 2009. Introduction to Spatial Econometrics. CRC Press, New York.Google Scholar
Lewis, D.J., Barham, B.L., and Robinson, B. 2011. Are there spatial spillovers in the adoption of clean technology? The case of organic dairy farming. Land Economics 87(2):250267.CrossRefGoogle Scholar
Mettepenningen, E., Verspecht, A., and Van Huylenbroeck, G. 2009. Measuring private transaction costs of European agri-environmental schemes. Journal of Environmental Planning and Management 52(5):649667.Google Scholar
Michaud, C., Llerena, D., and Joly, I. 2012. Willingness to pay for environmental attributes of non-food agricultural products: A real choice experiment. European Review of Agricultural Economics 40:313329.Google Scholar
Morone, P., Sisto, R., and Taylor, R. 2006. Knowledge diffusion and networking in the organic production sector: A case study. EuroChoices 5(3):4046.Google Scholar
Mur, J. 2013. Causality, uncertainty and identification: Three issues on the spatial econometrics agenda. Italian Journal of Regional Science 12(1):528.Google Scholar
Mzoughi, N. 2011. Farmers adoption of integrated crop protection and organic farming: Do moral and social concerns matter? Ecological Economics 70(8):15361545.Google Scholar
Padel, S., Roecklinsberg, H., and Schmid, O. 2009. The implementation of organic principles and values in the European regulation for organic food. Food Policy 34(3):245251.Google Scholar
Parker, D.C. and Munroe, D.K. 2007. The geography of market failure: Edge-effect externalities and the location and production patterns of organic farming. Ecological Economics 60(4):821833.Google Scholar
Peigné, J. et al. 2015. How organic farmers practice conservation agriculture in Europe. Renewable Agriculture and Food Systems: 114.Google Scholar
Raggi, M. et al. 2015. The role of policy priorities and targeting in the spatial location of participation in agri-environmental schemes in Emilia-Romagna (Italy). Land Use Policy 47(6):7889.CrossRefGoogle Scholar
Renting, H., Marsden, T.K., and Banks, J. 2003. Understanding alternative food networks: Exploring the role of short food supply chains in rural development. Environment and Planning A 35(3):393411.Google Scholar
Rogers, E.M. 1995. Diffusion of Innovations. The Free Press, New York.Google Scholar
Rørstad, P.K., Vatn, A., and Kvakkestad, V. 2007. Why do transaction costs of agricultural policies vary? Agricultural Economics 36(1):111.CrossRefGoogle Scholar
Sanders, Jr, Stolze, M., and Padel, S. 2011. Use and Efficiency of Public Support Measures Addressing Organic Farming. Johann Heinrich von Thünen Institut (vTI). Scientific Report.Google Scholar
Schmidtner, E. et al. 2012. Spatial distribution of organic farming in Germany: Does neighbourhood matter? European Review of Agricultural Economics 39(4):661683.Google Scholar
Silva, E. et al. 2014. Impact of marketing channels on perceptions of quality of life and profitability for Wisconsin's organic vegetable farmers. Renewable Agriculture and Food Systems. Firstview.Google Scholar
Tobler, W.R. 1970. A computer movie simulating urban growth in the Detroit region. Economic Geography 46:234240.Google Scholar
van Leeuwen, E. and Dekkers, J. 2013. Determinants of off-farm income and its local patterns: A spatial microsimulation of Dutch farmers. Journal of Rural Studies 31:5566.Google Scholar
Venables, A.J. 2009. Rethinking economic growth in a globalizing world: An economic geography lens. African Development Review 21(2):331351.Google Scholar
Ward, M.D. and Gleditsch, K.S. 2008. Spatial Regression Models, Quantitative Applications in the Social Sciences, Series 155. Sage, London.Google Scholar
Wilson, G.A. and Hart, K. 2000. Financial imperative or conservation concern? EU farmers’ motivations for participation in voluntary agri-environmental schemes. Environment and Planning A 32:21612185.Google Scholar
Wollni, M. and Andersson, C. 2014. Spatial patterns of organic agriculture adoption: Evidence from Honduras. Ecological Economics 97:120128.CrossRefGoogle Scholar
Yang, A.L. et al. 2014. Spatial analysis of agri-environmental policy uptake and expenditure in Scotland. Journal of Environmental Management 133:104115.Google Scholar