Abstract
On a global scale agriculture and food will face key challenges of properly feeding a population of nine billion individuals in 2050, while preserving the ecosystems from which other services are also expected, such as bioenergy production, biodiversity use and conservation, carbon storage and climate regulation. To develop future sustainable agricultural production and food systems, agronomic, ecological, economic and social challenges have to simultaneously be taken into account. The framework of agroecology applied on the food system could be a useful concept to support this development. Although the scale and dimension of scientific research in agroecology has been enlarged in the last years towards the food system approach, it is still difficult to outline clear concepts, new models and new methods that specify it. In using two contrasted research case studies, we evaluate benefits and challenges using the framework of agroecology applied on the food system.
The first case study illustrates research questions around water quality and management of shallow lakes with fish production, biodiversity of the lakes, agricultural land use on the surrounding land, and local fish products and its marketing strategies. It shows that research was initiated by an ecologist working at the lake scale, but implementing quite quickly a systems approach in integrating the disciplines ecology, agronomy, geography, socio-economy and sociology with a food systems approach. The second case study illustrates research questions around organic wheat production and food chain. It shows the evolution of a research program where research objectives and methodology have been slowly turned from technical questions on nitrogen management of organic wheat, supported by agronomist, applied at field scale, to overall agroecological questions around organic grain producers, raised by economists, sociologists, agronomists and food technologists, focussing on the wheat-flour food chain, applied at farm and food system scales.
This chapter underlines the importance of the articulation between disciplines such as agronomy, ecology and social science. In using the food system approach, the indispensable interdisciplinary research is carried out automatically by integrating other disciplines such as sociology, socio-economy and geography supporting the disciplines of agronomy and ecology. This chapter also shows that in combining already existing research methods from different disciplines, and applying them to different scales, a concept for agroecological analyses of the food system already exists. In conclusion, we propose necessary prerequisites for agroecological research with the food system approach: ex-ante impact anticipation of expected results when starting research, multi-scale and interdisciplinary research as well as scale related impact assessment of proposed recommendations. In considering these prerequisites, quality of agricultural research will substantially improve in the future, and thus contributing in search for more sustainable food systems.
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References
Agence Bio (2008) L’agriculture biologique en France: Chiffres clés. http://www.agencebio.org/upload/pagesEdito/fichiers/chiffres2008_4P_final.pdf.Accessed Sep 2010
Agrimonde (2009) Scenarios and challenges for feeding the world in 2050. Summary report INRA-CIRAD, France, 30 p
Altieri MA (1989) Agroecology: a new research and development paradigm for world agriculture. Agr Ecosyst Environ 27:37–46
Altieri MA (1995) Agroecology: the science of sustainable agriculture. Westview Press, Boulder, 433 p
Altieri MA (2002) Agroecology: the science of natural resource management for poor farmers in marginal environments. Agr Ecosyst Environ 93(1–3):1–24
Altieri MA, Nicholls C (2008) Scaling up agroecological approaches for food sovereignty in Latin America. Development 51(4):472–480
Avocat C (1975) La Dombes: milieu naturel ou milieu en équilibre. Rev Géogr Lyon 50:35–58
Bell MM, Lyon A, Gratton C, Jackson R (2008) The productivity of variability: an agroecological hypothesis. Int J Agr Sust 6(4):233–235
Bernard A, Lebreton P (2007) Les oiseaux de la Dombes: une mise à jour. Académie de la Dombes, Fondation Pierre Vérots. N°27 de la revue “Dombes”, 168 p
Blanchet G (1993) Le climat de Lyon et de sa région. Bulletin Mensuel de la Société Linnéenne de Lyon 62:217–264
Bland WL, Bell MM (2007) A holon approach to agroecology. Int J Agr Sust 5(4):280–294
Brandenburg A (2008) Mouvement agroécologique au Brésil: trajectoire, contradictions et perspectives. Nat Sci Soc 16:142–147
Caporal FR, Costabeber JA (2000) Agroecologia e desenvolvimento rural sustentável: perspectivas par uma nova Exentsão Rural. Agroecologia e Desenvolviemento Rural Sustentável 1:16–37
Casagrande M, David C, Valentin-Morison M, Makowski D, Jeuffroy MH (2009) Factors limiting the grain protein content of organic winter wheat in south-eastern France: a mixed-model approach. Agron Sustain Dev 29(4):565–574
Conway GR (1987) The properties of agroecosystems. Agric Syst 24:95–117
Cruces JM (1996) Desarrollo, sustentabilidad y agroecologia: una vision desde America Latina. Ecotropicos 9(2):61–70
David C, Jeuffroy MH (2009) A sequential approach for improving Azodyn crop model under conventional and low-input conditions. Eur J Agron 31:177–182
David C, Joud S (2008) Etats des lieux de la collecte du blé biologique panifiable en France. Industries des Céréales 159:21–26
David C, Jeuffroy MH, Recous S, Dorsainvil F (2004) Adaptation and assessment of the Azodyn model managing the nitrogen fertilization of organic winter wheat. Eur J Agron 21:249–266
David C, Jeuffroy MH, Henning J, Meynard JM (2005a) Yield variation of organic winter wheat; a crop diagnosis on a field network in South-East of France. Agron Sustain Dev 25:1–11
David C, Jeuffroy MH, Laurent F, Mangin M, Meynard JM (2005b) The assessment of a decision making tool for managing the nitrogen fertilization of organic winter wheat. Eur J Agron 23:225–242
David C, Mundler P, Demarle O, Ingrand S (2010) Long-term strategy and flexibility of organic farmers in Southeastern France. Int J Agr Sust 8(4):305–318
Department of Crop Science, Section Agroecology, University of Göttingen (2008) Introduction. http://wwwuser.gwdg.de/∼uaoe/Agroecology.html. Accessed Jan 2008
FAO (2003) World agriculture: towards 2015–2030. Food and Agriculture Organisation, Rome, 97 p
Flora CB (ed) (2001) Interactions between agroecosystems and rural communities. CRC, Boca Raton, 273 p
Francis C, Rickerl D (2004) Ecology of food systems: visions for the future. In: Rickerl D, Francis C (eds) Agroecosystems analysis. Agronomy 43. American Society of Agronomy, Madison, pp 177–197
Francis C, Lieblein G, Gliessman S, Breland TA, Creamer N, Harwood R, Salomonsson L, Helenius J, Rickerl D, Salvador R, Wiedenhoeft M, Simmons S, Allen P, Altieri M, Flora C, Poincelot R (2003) Agroecology: the ecology of food systems. J Sustain Agr 22(3):99–118
Gliessman SR (2007) Agroecology: the ecology of sustainable food systems. CRC/Taylor & Francis, New York, 384 p
Haigis J, Wezel A, Rath T, Graef F, Muehlig-Versen B, Abele S, Frick T, Neef, A (1999) An interdisciplinary approach to evaluate technology options for small scale farming in Niger. In: Lawrence P, Renard G, von Oppen M (eds) Evaluation of technical and institutional options for small farmer in West Africa. Proceedings of the workshop at the University of Hohenheim, Germany, 21–22 April 1998, Margraf, Weikersheim, Germany, pp 23–40
Le Bail M, Meynard JM (2003) Yield and protein concentration of spring malting barley. The effects of cropping system in the Paris Basin (France). Agronomie 23:13–27
Lockeretz W, Stopes CE (1999) Issues in on-farm research. FAO conference research methodologies in organic farming: on-farm participatory research proceedings, Bari, Italy 5–7 September 1999
Pretty J (2008) Agricultural sustainability: concepts, principles and evidence. Phil Trans R Soc Lond B 363:447–465
Robertson GP, Broome JC, Chornesky E, Frankenberger JR, Johnson P, Lipson M, Miranowski JA, Owens E, Pimentel D, Thrupp LA (2004) Rethinking the vision for environmental research in US agriculture. Bioscience 54:61–65
Sceau R (1980) Les étangs de la Dombes, fondements socio-économiques d’un système hydraulique. Revue de géographie de Lyon 55:129–159
Sevilla Guzmán E (2002) A perspectiva sociológica em Agroecologia: uma sistematicação de sus méthodos et téchnicas. Agroecologia e Desenvolviemento Rural Sustentável 3:18–28
Vallod D, Fourrié L, Flandin M, Chavallard P, Sarrazin B (2008) Etude des facteurs de transfert des produits phytosanitaires vers des étangs piscicoles en Dombes, zone humide continentale associant prairies et cultures. Fourrages 193:51–63
Von Fragstein P, Schmidt H, Kalburtji K, Gautronneau Y, David C, Stopes CE (1997) On-farm development and evaluation of organic farming systems: the role of livestock and agroforestry. Final report EU project AIR3 CT93-0852
Wezel A, Arthaud F, Dufloux C, Renoud F, Vallod D, Robin J, Sarrazin B (submitted). Varied impact of land use on water and sediment parameters on nutrient rich shallow lakes with fish production of the Dombes agroecosystem, France
Wezel A, Jauneau JC (2011) Agroecology – interpretations, approaches and their links to nature conservation, rural development and ecotourism. In: Campbell WB, López Ortiz S (eds) Issues in agroecology: present status and future prospectus, vol 1. Springer, Dordrecht, pp 1–25
Wezel A, Soldat V (2009) A quantitative and qualitative historical analysis of the scientific discipline agroecology. Int J Agr Sust 7(1):3–18
Wezel A, Bellon S, Doré T, Francis C, Vallod D, David C (2009) Agroecology as a science, a movement or a practice. A review. Agron Sustain Dev 29:503–515
Williams DD (2006) The biology of temporary waters. Oxford University Press, New York, 337 p
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We highly acknowledge the comments and propositions of Eric Lichtfouse on an earlier draft of this paper.
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Wezel, A., David, C. (2012). Agroecology and the Food System. In: Lichtfouse, E. (eds) Agroecology and Strategies for Climate Change. Sustainable Agriculture Reviews, vol 8. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-1905-7_2
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