Reshaping boundaries between farming systems and the environment

Chapter

Abstract

In modern societies, farmers not only have to be efficient in food production, but also ensure that ecological services such as pollination, pest control or biodiversity conservation are effective. Therefore, the role of the environment needs to be reconsidered in redesigning or assessing farming systems. This chapter questions and redefines the usual boundaries between a farming system and its environment. It includes three sections. First, we examine the dynamics of literature related to environmental perspectives in farming systems analysis, encompassing several levels of organization. Then, we analyse the contribution of some proposals derived from ecological forms of agriculture (e.g. organic, integrated), in terms of system properties and boundaries, as well as the delineation of expected functions. Finally, by examining agroecology, we address how farming systems can integrate ecological issues, and identify research perspectives which may inform the further development of farming systems thinking and practices.

Keywords

Farming System Food Sovereignty Participatory Plant Breeding Cereal Plant Farming System Research 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Notes

Acknowledgements

We warmly thank Walter Rossing for his valuable input in the design of this paper and the fruitful discussions that we had during the early stages of the writing. We also thank the various colleagues who encouraged us in this enterprise, and those who shared ideas with us during International Summer Schools of Agroecology (ISSAE).

References

  1. Altieri, M. A. (1987). Agroecology: The scientific basis of alternative agriculture. Boulder: Westview Press.Google Scholar
  2. Altieri, M. A. (2000). Agroecology: Principles and strategies for designing sustainable farming systems. Berkeley: University of California. From http://nature.berkeley.edu/~agroeco3/principles_and_strategies.html
  3. Altieri, M. A. (2002). Agroecology: The science of natural resource management for poor farmers in marginal environments. Agriculture, Ecosystems and Environment, 93, 1–24.CrossRefGoogle Scholar
  4. Altieri, M. A., & Nicholls, C. I. (2003). Agroecology rescuing organic agriculture from a specialized industrial model of production and distribution. Ecology and Farming, 34, 24–26.Google Scholar
  5. Altieri, M. A., & Toledo, V. M. (2011). The agroecological revolution in Latin America: Rescuing nature, ensuring food sovereignty and empowering peasants. Journal of Peasant Studies, 38, 587–612.CrossRefGoogle Scholar
  6. Altieri, M. A., Funes-Monzote, F. R., & Petersen, P. (2011). Agroecologically efficient agricultural systems for smallholder farmers: Contributions to food sovereignty. Agronomy for Sustainable Development, 32, 1–13.CrossRefGoogle Scholar
  7. Astier, M., Speelman, E. N., López-Ridaura, S., Masera, O. R., & Gonzalez-Esquivel, C. E. (2011). Sustainability indicators, alternative strategies and trade-offs in peasant agroecosystems: Analysing 15 case studies from Latin America. International Journal of Agricultural Sustainability, 9, 409–422.CrossRefGoogle Scholar
  8. Aubry, C., Paillat, J. M., & Guerrin, F. (2006). A conceptual representation of animal waste management at the farm scale: The case of the Reunion Island. Agricultural System, 88, 294–315.CrossRefGoogle Scholar
  9. Barbier, M., Bompart, M., Garandel-Batifol, V., & Mogoutov, A. (2012). Textual analysis and scientometric mapping of the dynamic knowledge in and around the IFSA community. In I. Darnhofer, D. Gibbon, & B. Dedieu (Eds.), Farming Systems Research into the 21st century: The new dynamic (pp. 73–94). Dordrecht: Springer.Google Scholar
  10. Bawden, R. (2005). The Hawkesbury experience: Tales from a road less travelled. In J. N. Pretty (Ed.), The Earthscan reader in sustainable agriculture. London: Earthscan.Google Scholar
  11. Begon, M., Harper, J. L., & Townsend, C. R. (1996). Ecology. Individuals, populations and communities. Boston: Blackwell Science.Google Scholar
  12. Bellon, S., Bertuzzi, P., Musset, J., Vannier, S., Mirambeau, C., Laques, A.-E., & Derioz, P. (1999). Nitrate pollution of groundwater in a small Mediterranean region. In Proceedings of the 3rd European IFSA Symposium, Hohenheim, Germany (pp. 38–47). From www.ifsa-europe.org
  13. Bellon, S., Bockstaller, C., Fauriel, J., Geniaux, G., & Lamine, C. (2007). To design or to redesign: How can indicators contribute? In Farming Systems Design 2007, Catania, Italy, “Field-farm scale design and improvement” (pp. 132–133).Google Scholar
  14. Bland, W. L., & Bell, M. M. (2007). A holon approach to agroecology. International Journal of Agricultural Sustainability, 5, 280–294.Google Scholar
  15. Bockstaller, C., Guichard, L., Makowski, D., Aveline, A., Girardin, P., & Plantureux, S. (2008). Agri-environmental indicators to assess cropping and farming systems. A review. Agronomy for Sustainable Development, 28, 139–149.CrossRefGoogle Scholar
  16. Bohlen, P. J., & House, G. (Eds.). (2009). Sustainable agroecosystem management. Integrating ecology, economics and society. Boca Raton: CRC Press, Taylor and Francis Group.Google Scholar
  17. Boiffin, J., Malezieux, E., & Picard, D. (2001). Cropping systems for the future. In J. Nösberger, H. H. Geiger, & P. C. Struik (Eds.), Crop science: Progress and prospects (pp. 261–279). Oxon: CABI.Google Scholar
  18. Boller, E. F., Avilla, J., Jörg, E., Malavolta, C., Wijnands, F., & Esbjerg, P. (2004). Integrated production: Principles and technical guidelines (3rd ed., IOBC WPRS Bulletin Vol. 27(2), 50 pp).Google Scholar
  19. Bossel, H. (2002). Assessing viability and sustainability: A systems-based approach for deriving comprehensive indicator sets. Ecology and Society, 5(2), 12. From http://www.consecol.org/vol5/iss2/art12/
  20. Brossier, J., Contini, C., Omodei Zorini, L., & Cristóvão, A. (2012). The origins of the European IFSA: The first meetings and the agenda renewal. In I. Darnhofer, D. Gibbon, & B. Dedieu (Eds.), Farming Systems Research into the 21st century: The new dynamic (pp. 33–48). Dordrecht: Springer.Google Scholar
  21. Buttel, F. H. (2003). Envisioning the future development of farming in the USA: Agroecology between extinction and multifunctionality. From http://www.agroecology.wisc.edu/downloads/buttel.pdf
  22. Canuto, J. C. (2011). La investigación en agroecología, instituciones, métodos y escenarios futuros para la sustentabilidad rural. In J. Morales Hernández (coord.), La agroecología en la construcción de alternativas hacia la sustentabilidad rural (pp. 129–143). Guadalajara: ITESO Ed.Google Scholar
  23. Conway, G. R. (1985). Agroecosystem analysis. Agricultural Administration, 20, 31–55.CrossRefGoogle Scholar
  24. Cuéllar-Padilla, M., & Calle-Collado, A. (2011). Can we find solutions with people? Participatory action research with small organic producers in Andalusia. Journal of Rural Studies, 27, 372–383.CrossRefGoogle Scholar
  25. Dahlberg, K. (1970). After the green revolution. New York: Plenum Press.Google Scholar
  26. Dalgaard, T., Hutchings, N. J., & Porter, J. R. (2003). Agroecology, scaling and interdisciplinarity. Agriculture, Ecosystems and Environment, 100, 39–51.CrossRefGoogle Scholar
  27. Darnhofer, I., Lindenthal, T., Bartel-Kratochvil, R., & Zollitsch, W. (2010). Conventionalisation of organic farming practices: From structural criteria towards an assessment based on organic principles. A review. Agronomy for Sustainable Development, 30, 67–81.CrossRefGoogle Scholar
  28. De Schutter, O. (2011). Report submitted by the special rapporteur on the right to food. Geneva: United Nations.Google Scholar
  29. Denisson, R. F. (2012). Darwinian agriculture: How understanding evolution can improve agriculture. Princeton: Princeton University Press.Google Scholar
  30. Denisson, R. F., Kiers, E. T., & West, S. A. (2003). Darwinian agriculture: When can humans find solutions beyond the reach of natural selection? The Quarterly Review of Biology, 78, 145–168.CrossRefGoogle Scholar
  31. Dixon, A. F. G. (2000). Insect-predator-prey dynamics. Ladybird beetles and biological control. Cambridge: Cambridge University Press.Google Scholar
  32. Dixon, J., Gulliver, A., & Gibbon, D. (2001). Farming systems and poverty. Improving farmers livelihoods in a changing world. Rome/Washington, DC: FAO/World Bank.Google Scholar
  33. Doppler, W. (1999). Setting the frame: Environmental perspectives in farming and rural systems analyses. In Proceedings of the 3rd European IFSA Symposium, Hohenheim, Germany (pp. 1–10). From www.ifsa-europe.org
  34. Doré, T., Makowski, D., Malézieux, E., Munier-Jolain, N., Tchamitchian, M., & Tittonell, P. (2011). Facing up to the paradigm of ecological intensification in agronomy: Revisiting methods, concepts and knowledge. European Journal of Agronomy, 34, 197–210.CrossRefGoogle Scholar
  35. Elliott, E. T., & Cole, C. V. (1989). A perspective on agroecosystem science. Ecology, 70, 1597–1602.CrossRefGoogle Scholar
  36. Elzen, B., Barbier, M., Cerf, M., & Grin, J. (2012). Stimulating transitions towards sustainable farming systems. In I. Darnhofer, D. Gibbon, & B. Dedieu (Eds.), Farming Systems Research into the 21st century: The new dynamic (pp. 431–455). Dordrecht: Springer.Google Scholar
  37. Ferguson, B. G., & Morales, H. (2010). Latin American agroecologists build a powerful scientific and social movement. Journal of Sustainable Agriculture, 34, 339–341.CrossRefGoogle Scholar
  38. Fischer, J., Brosi, B., Daily, G. C., Ehrlich, P. R., Goldman, R., Goldstein, J., Lindenmayer, D. B., Manning, A. D., Mooney, H. A., Pejchar, L., Ranganathan, J., & Tallis, H. (2008). Should agricultural policies encourage land sparing or wildlife-friendly farming? Frontiers in Ecology and the Environment, 6, 380–387.CrossRefGoogle Scholar
  39. Francis C. (2009). Education in organic farming and food systems. In Francis, C. A. (Ed.) Organic farming: The ecological system (pp. 283–300). Madison, Wisconsin: American Society of Agronomy.Google Scholar
  40. Francis, C., Lieblein, G., Gliessman, S., Breland, T. A., Creamer, N., Harwood, L., Salomonsson, J., Helenius, D., Rickerl, R., Salvador, M., Wiedenhoeft, S., Simmons, P., Allen, M., Altieri, C. F., & Poincelot, R. (2003). Agroecology: The ecology of food systems. Journal of Sustainable Agriculture, 22, 99–118.CrossRefGoogle Scholar
  41. Fukuoka, M. (1985). The natural way of farming: The theory and practice of green philosophy. Tokyo/New York: Japan Publications.Google Scholar
  42. Giller, K. E., Beare, M. H., Lavelle, P., Izac, A., & Swift, M. J. (1997). Agricultural intensification, soil biodiversity and agroecosystem function. Applied Soil Ecology, 6, 3–16.CrossRefGoogle Scholar
  43. Girard, N., Bellon, S., Hubert, B., Lardon, S., Moulin, C. H., & Osty, P. L. (2001). Categorizing combinations of farmers’ land use practices: An approach based on examples of sheep farms in the South of France. Agronomie, 21, 435–459.CrossRefGoogle Scholar
  44. Gliessman, S. R. (2004). Agroecology and agroecosystems. In D. Rickerl & C. Francis (Eds.), Agroecosystems analysis (pp. 19–30). Madison: American Society of Agronomy.Google Scholar
  45. Gliessman, S. R. (2007). Agroecology. The ecology of sustainable food systems. Boca Raton: CRC Press, Taylor & Francis Group.Google Scholar
  46. Goulet, F., & Barbier, J.-M. (2011, March 16–18). Plus de nature, moins de technique. In Colloque“Ecologisation des politiques publiques et des pratiques agricoles”, Isle-sur-la-Sorgue, France (17 pp). Inra Ecodevelopment Unit Ed.Google Scholar
  47. Guthman, J. (2000). Raising organic: An agro-ecological assessment of grower practices in California. Agriculture and Human Values, 17, 257–266.CrossRefGoogle Scholar
  48. Habib, R., Bellon, S., Codron, J. M., Gendrier, J. P., Jacquet, F., Lescourret, F., Lauri, P. E., Lespinasse, Y., Navarrete, M., Plénet, D., Pluvinage, J., de Sainte-Marie, C., Sauphanor, B., Simon, S., Toubon, J. F., & Sterns, J. (2001). Integrated fruit production in France: A new challenge for horticultural research. In J. Avilla & F. Polesny (Eds.), Proceedings of the International Conference on Integrated Fruit Protection. Lleida (ESP); 22-26 Oct. 2000. Bulletin OILB SROP (FRA) Vol. 24(5), pp.13–19.Google Scholar
  49. Hansen, L., Noe, E., & Højring, K. (2006). Nature and nature values in organic agriculture. An analysis of contested concepts and values among different actors in organic farming. Journal of Agricultural and Environmental Ethics, 19, 147–168.CrossRefGoogle Scholar
  50. Hart, R. (2000). FSR’s expanding conceptual framework. In M. Collinson (Ed.), History of Farming Systems Research (pp. 41–50). Oxon: CABI.CrossRefGoogle Scholar
  51. Hassanein, N., & Kloppenburg, J. R. (1995). Where the grass grows again: Knowledge exchange in the sustainable agriculture movement. Rural Sociology, 60, 721–740.CrossRefGoogle Scholar
  52. Hendrikson, J. R., Liebig, M. A., & Sassenrath, G. F. (2008). Environment and integrated agricultural systems. Renewable Agriculture and Food Systems, 23, 304–313.CrossRefGoogle Scholar
  53. Hénin, S. (1967). Les acquisitions techniques en production végétale et leurs applications [Technical progress and its consequences in plant production]. Economie Rurale, 74, 37–44.CrossRefGoogle Scholar
  54. Hill, S. B. (1985). Redesigning the food system for sustainability. Alternatives, 12, 32–36.Google Scholar
  55. Hill, S. B. (1998). Redesigning agroecosystems for environmental sustainability: A deep systems approach. Systems Research and Behavioral Sciences, 15, 391–402.CrossRefGoogle Scholar
  56. Holmgren, D. (2002). Permaculture: Principles & pathways beyond sustainability. Hepburn: Holmgren Design Services.Google Scholar
  57. Hubert, B., & Ison, R. (2011). Institutionalising understandings: From resource sufficiency to functional integrity. In T. Kammili, B. Hubert, & J.-F. Tourrand (Eds.), A paradigm shift in livestock management: From resource sufficiency to functional integrity (pp. 11–16). Lirac: Cardère Ed.Google Scholar
  58. Hubert, B., Ison, R., Sriskandarajah, N., Blackmore, C., Cerf, M., Avelange, I., Barbier, M., & Steyaert, P. (2012). Learning in European agricultural and rural networks: Building a systemic research agenda. In I. Darnhofer, D. Gibbon, & B. Dedieu (Eds.), Farming Systems Research into the 21st century: The new dynamic (pp. 179–200). Dordrecht: Springer.Google Scholar
  59. Imhoff, D. (2003). Farming with the wild: Enhancing biodiversity on farms and ranches. San Francisco: Sierra Club Books/Watershed Media.Google Scholar
  60. Ison, R. (2012). Systems practice: Making the systems in Farming Systems Research effective. In I. Darnhofer, D. Gibbon, & B. Dedieu (Eds.), Farming Systems Research into the 21st century: The new dynamic (pp. 141–157). Dordrecht: Springer.Google Scholar
  61. Jackson, D. L., & Jackson, L. L. (Eds.). (2002). The farm as natural habitat: Reconnecting food systems with ecosystems. Washington, DC: Island Press.Google Scholar
  62. Jackson, L., van Noordwijk, M., Bengtsson, J., Foster, W., Lipper, L., Pulleman, M., Said, M., Snaddon, J., & Vodouhe, R. (2010). Biodiversity and agricultural sustainagility: From assessment to adaptive management. Current Opinion in Environmental Sustainability, 2, 80–87.CrossRefGoogle Scholar
  63. Janke, R. (2004). Whole-farm planning and analysis. In D. Rickerl & C. Francis (Eds.), Agroecosystems analysis (pp. 63–74). Madison: American Society of Agronomy.Google Scholar
  64. Jiggins, J., & Röling, N. (1999). Interactive valuation: The social construction of the value of ecological services. International Journal of Environment and Pollution, 12, 436–445.CrossRefGoogle Scholar
  65. Kidd, D., & Amarasekare, P. (2012). The role of transient dynamics in biological pest control: Insights from a host-parasitoid community. Journal of Animal Ecology, 81, 47–57.PubMedCrossRefGoogle Scholar
  66. Kindlmann, P., & Dixon, A. F. G. (1999). Generation time ratios: Determinants of prey abundance in insect predator-prey interactions. Biological Control, 16, 133–138.CrossRefGoogle Scholar
  67. Klerkx, L., van Mierlo, B., & Leeuwis, C. (2012). Evolution of systems approaches to agricultural innovation: Concepts, analysis and interventions. In I. Darnhofer, D. Gibbon, & B. Dedieu (Eds.), Farming Systems Research into the 21st century: The new dynamic (pp. 457–483). Dordrecht: Springer.Google Scholar
  68. Koohafkan, P., Altieri, M. A., & Gimenez, E. H. (2012). Green agriculture: Foundations for biodiverse, resilient and productive agricultural systems. International Journal of Agricultural Sustainability, 10, 61–75.CrossRefGoogle Scholar
  69. Lamine, C., & Bellon, S. (2009). Conversion to organic farming: A multidimensional research object at the crossroads of agricultural and social sciences. A review. Agronomy for Sustainable Development, 29, 97–112.CrossRefGoogle Scholar
  70. Lamine, C., Renting, H., Rossi, A., Wiskerke, H., & Brunori, G. (2012). Agri-food systems and territorial development: Innovations, new dynamics and changing governance mechanisms. In I. Darnhofer, D. Gibbon, & B. Dedieu (Eds.), Farming Systems Research into the 21st century: The new dynamic (pp. 229–256). Dordrecht: Springer.Google Scholar
  71. Larrère, R., & Vermersch, D. (2000). Agriculture et Environnement. L’économie rurale revisitée [Agriculture and environment. Revisiting rural economy]. Economie Rurale, 255–256, 104–113.CrossRefGoogle Scholar
  72. Lemon, M., Jeffrey, P., Longhurst, P., & Seaton, R. (1999) Towards research which is policy-relevant: Comments on a method for exploring the complexity of agro-environmental issues. In Proceedings of the 3rd European IFSA Symposium, Hohenheim, Germany, (pp. 63–71). From www.ifsa-europe.org
  73. Lichtfouse, E., Navarrete, M., Debaeke, P., Souchère, V., Alberola, C., & Ménassieu, J. (2009). Agronomy for sustainable agriculture. A review. Agronomy for Sustainable Development, 29, 1–6.CrossRefGoogle Scholar
  74. López-Ridaura, S., van Keulen, H., van Ittersum, M. K., & Leffelaar, P. A. (2005). Multi-scale sustainability evaluation of natural resource management systems: Quantifying indicators for different scales of analysis and their trade-offs using linear programming. International Journal of Sustainable Development and World Ecology, 12, 81–97.CrossRefGoogle Scholar
  75. Loucks, O. L. (1977). Emergence of research on agro-ecosystems. Annual Review of Ecology and Systematics, 8, 173–192.CrossRefGoogle Scholar
  76. Marriott, A., Fothergill, M., Jeangros, B., Scotton, M., & Louault, F. (2004). Long-term impacts of extensification of grassland management on biodiversity and productivity in upland areas. A review. Agronomie, 24, 447–462.CrossRefGoogle Scholar
  77. Marten, G. G. (1988). Productivity, stability, sustainability, equitability and autonomy as properties for agroecosystem assessment. Agricultural Systems, 26, 291–316.CrossRefGoogle Scholar
  78. McIntyre, B. D., Herren, H. R., Wakhungu, J., & Watson, R. T. (Eds.) (2009). Agriculture at a crossroads. International Assessment of Agricultural Knowledge, Science and Technology for Development (IAASTD) (Central and West Asia and North Africa (CWANA) report). Washington, DC: Island Press.Google Scholar
  79. Médiène, S., Valantin-Morison, M., Sarthou, J.-P., de Tourdonnet, S., Gosme, M., Bertrand, M., Roger-Estrade, J., Aubertot, J.-N., Rusch, A., Motisi, N., Pelosi, C., & Doré, T. (2011). Agroecosystem management and biotic interactions: A review. Agronomy for Sustainable Development, 31, 491–514.CrossRefGoogle Scholar
  80. Milestad, R., Dedieu, B., Darnhofer, I., & Bellon, S. (2012). Farms and farmers facing change. The adaptive approach. In I. Darnhofer, D. Gibbon, & B. Dedieu (Eds.), Farming Systems Research into the 21st century: The new dynamic (pp. 365–385). Dordrecht: Springer.Google Scholar
  81. Mills, N. J. (2012). Transient host-parasitoid dynamics illuminate the practice of biological pest control. Journal of Animal Ecology, 81, 1–3.PubMedCrossRefGoogle Scholar
  82. Murphy, D. J. (2007). People, plants and genes. Oxford: Oxford University Press.CrossRefGoogle Scholar
  83. Nesme, T., Bellon, S., Lescourret, F., & Habib, R. (2006). Survey-based analysis of irrigation and N fertilisation practices in apple orchards. Agronomy for Sustainable Development, 26, 215–225.CrossRefGoogle Scholar
  84. Nesme, T., Lescourret, F., Bellon, S., & Habib, R. (2010). Is the plot concept an obstacle in agricultural sciences? A review focussing on fruit production. Agriculture, Ecosystem and Environment, 138, 133–138.CrossRefGoogle Scholar
  85. Niggli, U., Slabe, A., Schmid, O., Halberg, N., & Schlüter, M. (2008). Vision for an organic food and farming research agenda 2025. Organic knowledge for the future. Technology platform organics. Brussels/Bonn: IFOAM EU Group/ISOFAR.Google Scholar
  86. Norman, D. W., & Malton, P. J. (2000). Agricultural systems research and technical change. In J. P. Colin & E. W. Crawford (Eds.), Research on agricultural systems. Accomplishments, perspectives and issues (pp. 17–47). Huntington: Nova.Google Scholar
  87. Northfield, T. D., Snyder, G. B., Ives, A. R., & Snyder, W. E. (2010). Niche saturation reveals resource partitioning among consumers. Ecology Letters, 13, 338–348.PubMedCrossRefGoogle Scholar
  88. NRC (National Research Council). (2010). Toward sustainable agricultural systems in the 21st century. Washington, DC: National Academies Press.Google Scholar
  89. O’Neill, R. V. (2001). Is it time to bury the ecosystem concept? (With full military honors, of course!). Ecology, 82, 3275–3284.Google Scholar
  90. Odum, E. P. (1971). Fundamentals of ecology. Philadelphia: W. B. Saunders Company.Google Scholar
  91. Odum, E. P. (1984). Properties of agroecosystems. In R. Lowrance, B. R. Stinner, & G. J. House (Eds.), Agricultural ecosystems unifying concepts (pp. 5–11). New York: Wiley.Google Scholar
  92. Okey, B. W. (1996). Systems approaches and properties, and agroecosystem health. Journal of Environmental Management, 48, 187–199.CrossRefGoogle Scholar
  93. Ollivier, G., & Bellon, S. (2011). Dynamiques des agricultures écologisées dans les communautés scientifiques internationales: une rupture paradigmatique à rebondissements. Paper presented at the Colloque ‘Ecologisation des politiques publiques et des pratiques agricoles’, held 16–18 March 2010 in Isle-sur-la-Sorgue, France (27 pp). INRA Ecodevelopment Unit.Google Scholar
  94. Ollivier, G., Bellon, S., & Penvern, S. (2011). Thematic and citation structure dynamics of organic food and farming research. In D. Neuhoff (Ed.), 3rd ISOFAR scientific conference at the 17th IFOAM organic world congress. Gyeonggi Paldang, Republic of Korea (4 pp).Google Scholar
  95. Pacini, C., Wossink, A., Giesen, G., Vazzana, C., & Huirne, R. (2003). Evaluation of sustainability of organic, integrated and conventional farming systems: A farm and field-scale analysis. Agriculture, Ecosystems and Environment, 95, 273–288.CrossRefGoogle Scholar
  96. Padel, S. (2001). Conversion to organic farming: A typical example of the diffusion of an innovation? Sociologia Ruralis, 41, 40–61.CrossRefGoogle Scholar
  97. Pelosi, C., Goulard, M., & Balent, G. (2010). The spatial scale mismatch between ecological processes and agricultural management: Do difficulties come from underlying theoretical frameworks? Agriculture, Ecosystems and Environment, 139, 455–462.CrossRefGoogle Scholar
  98. Pimentel, D., Hepperly, P., Hanson, J., Douds, D., & Seidel, R. (2005). Environmental, energetic, and economic comparisons of organic and conventional farming systems. BioScience, 55, 573–582.CrossRefGoogle Scholar
  99. Power, A. G. (2010). Ecosystem services and agriculture: Tradeoffs and synergies. Philosophical Transactions of the Royal Society B: Biological Sciences, 365, 2959–2971.CrossRefGoogle Scholar
  100. Reganold, J. P., Jackson-Smith, D., Batie, S., Harwood, R., Kornegay, J., Bucks, D., Flora, C., Hanson, J., Jury, W., Meyer, D., Schumacher, A., Sehmsdorf, H., Shennan, C., Thrupp, L., & Willis, P. (2011). Transforming U.S. agriculture. Science, 332(6030), 670–671.PubMedCrossRefGoogle Scholar
  101. Reijntjes, C. B., Haverkort, B., & Waters-Bayer, A. (1992). Farming for the future. London: MacMillan Press.Google Scholar
  102. Rickerl, D., & Francis, C. (2003). Multidimensional thinking: A prerequisite to agroecology. In D. Rickerl & C. Francis (Eds.), Agroecosystems analysis (pp. 1–18). Madison: American Society of Agronomy.Google Scholar
  103. Robertson, G. P., & Swinton, S. M. (2005). Reconciling agricultural productivity and environmental integrity: A grand challenge for agriculture. Frontiers in Ecology and the Environment, 3, 38–46.CrossRefGoogle Scholar
  104. Rodrigues, G. S., Rodrigues, I. A., de Almeida Buschinelli, C. C., & de Barros, I. (2010). Integrated farm sustainability assessment for the environmental management of farm activities. Environmental Impact Assessment Review, 30, 229–239.CrossRefGoogle Scholar
  105. Rosset, P. M., Sosa, B. M., Jaime, A. M., & Lozano, D. R. (2011). The Campesino-to-Campesino agroecology movement of ANAP in Cuba: Social process methodology in the construction of sustainable peasant agriculture and food sovereignty. Journal of Peasant Studies, 38, 161–191.PubMedCrossRefGoogle Scholar
  106. Scherr, S. J., & McNeely, J. (Eds.). (2007). Farming with nature. The science and practice of ecoagriculture. Washington, DC: Island Press.Google Scholar
  107. Sebillotte, M. (1990). Analysing farming and cropping systems and their effects. Some operative concepts. In J. Brossier, L. de Bonneval, & E. Landais (Eds.), System studies in agriculture and rural development (pp. 273–290). Paris: INRA Editions.Google Scholar
  108. Sevilla-Guzman, E., & Woodgate, G. (1998) Overview and discussion: From Farming Systems Research to agroecology. In Proceedings of the 2nd European IFSA Symposium, Granada, Spain (pp. 249–255). From www.ifsa-europe.org
  109. Soule, J., & Piper, J. (1991). Farming in nature’s image: An ecological approach to agriculture. Washington, DC: Island Press.Google Scholar
  110. Stassart, P., Baret, P., Grégoire, J.-C., Hance, T., Mormont, M., Reheul, D., Stilmant, D., Vanloqueren, G., & Visser, M. (2011). Qu’est que l’agroécologie ? [What is agroecology?] (19 pp). Positionnement pour un Cadre de référence du Groupe de Contact Agroécologie FNRS, Belgique.Google Scholar
  111. Stockdale, E. A., Lampkin, N. H., Hovi, M., Keatinge, R., Lennartsson, E. K. M., Macdonald, D. W., Padel, S., Tattersall, F. H., Wolfe, M. S., & Watson, C. A. (2001). Agronomic and environmental implications of organic farming systems. Advances in Agronomy, 70, 261–327.CrossRefGoogle Scholar
  112. Thenail, C., Joannon, A., Capitaine, M., Souchère, V., Mignolet, C., Schermann, N., Di Pietro, F., Pons, Y., Gaucherel, C., Viaud, V., & Baudry, J. (2009). The contribution of crop-rotation organization in farms to crop-mosaic patterning at local landscape scales. Agriculture, Ecosystems and Environment, 131, 207–219.CrossRefGoogle Scholar
  113. Tichit, M., Bellon, S., & Deconchat, M. (Eds.). (2010). Agroécologie pour l’Action (27 pp). Note de cadrage pour le département INRA-SAD.Google Scholar
  114. Tomich, T. P., Brodt, S., Ferris, H., Galt, R., Horwath, W. R., Kebreab, E., Leveau, J., Liptzin, D., Lubell, M., Merel, P., Michelmore, R., Rosenstock, T., Scow, K., Six, J., Williams, N., & Yang, J. (2011). Agroecology: A review from a global-change perspective. The Annual Review of Environment and Resources, 36, 193–222.CrossRefGoogle Scholar
  115. van der Ploeg, B. (1999). Social embedding of environmentally integrated farming on a regional scale: A case study about ecological modernisation in Waterland, The Netherlands, a target area for agri-environmental programs (regulation 1078/92). In Proceedings of the 3rd European IFSA Symposium, Hohenheim, Germany (pp. 222–237). From www.ifsa-europe.org
  116. van der Ploeg, J. D. (2010). The peasantries of the twenty-first century: The commoditisation debate revisited. Journal of Peasant Studies, 37, 1–30.CrossRefGoogle Scholar
  117. Vandermeer, J. H. (2011). The ecology of agroecosystems. Sudbury: Jones and Bartlett Publishers.Google Scholar
  118. Warner, K. D. (2007). Agroecology in action: Extending alternative agriculture through social networks. Cambridge: MIT Press.Google Scholar
  119. Warner, K. D. (2008). Agroecology as participatory science. Emerging alternatives to technology transfer extension practice. Science Technology and Human Values, 33, 753–777.CrossRefGoogle Scholar
  120. Weiner, J., Andersen, S. B., Wille, W. K., Griepentrog, H. W., & Olsen, J. M. (2010). Evolutionary agroecology: The potential for cooperative, high density, weed-suppressing cereals. Evolutionary Applications, 3, 473–479.CrossRefGoogle Scholar
  121. Wezel, A., Bellon, S., Doré, T., Francis, C., Vallod, D., & David, C. (2009). Agroecology as a science, a movement or a practice. A review. Agronomy for Sustainable Development, 29, 503–515.CrossRefGoogle Scholar

Copyright information

© Springer Science+Business Media Dordrecht 2012

Authors and Affiliations

  1. 1.Sciences for Action and Development, Ecodevelopment UnitINRA PACAAvignonFrance
  2. 2.UMR CNRS 5174 Evolution et Diversité BiologiqueUniversité de ToulouseCastanet-TolosanFrance

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