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International audience | Chapters: 1) Public goods and farming. 2) Pesticides and sustainable agriculture. 3) Nitrogen use efficiency by annual and perennial crops. 4) Microalgae for bioremediation of distillery effluent. 5) No-till direct seeding for energy-saving rice production in China. 6) Agricultural water poverty index for a sustainable world. 7) Participatory rural appraisal to solve irrigation issues. 8) Bioavailability of soil P for plant nutrition. 9) Animal manure for smallholder agriculture in South Africa. 10) Vermicompost and soil quality.

International audience | Abstract Water Footprint (WF, henceforth) is an indicator of water consumption and has taken ground to assess the impact of agricultural production processes over freshwater. The focus of this study was contrasting non-conventional, certified products with identical products obtained through conventional production schemes (REF, henceforth) using WF as a measure of their pressure on water resources. The aim was to the show whether products that are certified as Food Quality Schemes (FQS, henceforth) could also incorporate the lower impact on water among their quality features. To perform this comparison, we analysed 23 products selected among Organic, PDO and PGI as FQS, and their conventional counterparts. By restricting the domain of analysis to the on-farm phase of the production chain, we obtained that that no significant differences emerged between the FQS and REF products. However, if the impact is measured per unit area rather than per unit product, FQS showed a significant reduction in water demand.

Chapters: 1) Public goods and farming. 2) Pesticides and sustainable agriculture. 3) Nitrogen use efficiency by annual and perennial crops. 4) Microalgae for bioremediation of distillery effluent. 5) No-till direct seeding for energy-saving rice production in China. 6) Agricultural water poverty index for a sustainable world. 7) Participatory rural appraisal to solve irrigation issues. 8) Bioavailability of soil P for plant nutrition. 9) Animal manure for smallholder agriculture in South Africa. 10) Vermicompost and soil quality.

International audience | Many studies examine the correlation between the use of resources such as water, energy and land, and the production of food. These nexus studies focus predominantly on large scale systems, often considering the social dimensions only in terms of access to resources and participation in the decision-making process, rather than individual attitudes and behaviours with respect to resource use. Such a concept of the nexus is relevant to urban agriculture (UA), but it requires customisation to the particular characteristics of growing food in cities, which is practiced mainly at a small scale and produces not only food but also considerable social, economic, and environmental co-benefits. To this end, this paper proposes a new conceptual basis for a UA Nexus, together with an assessment methodology that explicitly includes social dimensions in addition to food, energy and water. The conceptual basis introduces People, together with Food, Energy and Water, as a fundamental factor of the UA Nexus. On this basis, a methodology is developed measuring not only resource efficiency and food production but also motivations and health benefits. It comprises a combination of methods such as diaries of everyday UA practices, a database of UA activities, life cycle assessment (LCA), and material flow analysis to connect investigations developed at a garden scale to the city scale. A case study shows an application of the methodology.

Cet article est la synthese thematique d'une enquete menee recemment aupres de professionnels (industriels, fabricants et chercheurs) des industries alimentaires sur le theme de la reduction de la consommation d'eau et de la production d'effluents polluants, liee a ces operations. Sont presentees dans un premier temps, secteur par secteur, des donnees de consommations d'eau et de volumes d'effluents produits. Il apparait que de nombreuses procedures de travail et procedes de fabrication peuvent etre ameliores. La tendance doit aller vers une gestion de l'eau comme matiere premiere ou solvant recyclable faisant partie integrante de la rationalisation des procedes (economie d'eau, d'energie, de matiere). Cette gestion passe par la minimisation des rejets apres epuration, en particulier dans le cas de traitement des effluents, et le recyclage des flux aqueux et de matieres, soit directement dans le processus classique de fabrication, soit de facon degradee dans les processus connexes. De nombreux points d'amelioration sont precises et des axes de recherche sont proposes

International audience | Concerns about the water-energy-food (WEF) nexus have motivated many discussions regarding new approaches for managing water, energy and food resources. Despite the progress in recent years, there remain many challenges in scientific research on the WEF nexus, while implementation as a management tool is just beginning. The scientific challenges are primarily related to data, information and knowledge gaps in our understanding of the WEF inter-linkages. Our ability to untangle the WEF nexus is also limited by the lack of systematic tools that could address all the trade-offs involved in the nexus. Future research needs to strengthen the pool of information. It is also important to develop integrated software platforms and tools for systematic analysis of the WEF nexus. The experience made in integrated water resources management in the hydrological community, especially in the framework of Panta Rhei, is particularly well suited to take a lead in these advances.