Free Access
Issue
Aquat. Living Resour.
Volume 24, Number 1, January-March 2011
Page(s) 63 - 70
Section Regular Articles
DOI https://doi.org/10.1051/alr/2011008
Published online 17 March 2011
  • Afnor, 2000, Norme AFNOR NF T90-354 : L’Indice biologique Diatomées
  • Afnor, 2003, Norme AFNOR NF T90-395 : L’Indice biologique Macrophytes en rivière
  • Afnor, 2004, Norme AFNOR NF T90-344 : L’Indice Poissons en rivière
  • Afnor, 2004, Norme AFNOR NF T90-350 : L’Indice biologique global normalisé.
  • Assemblée Nationale & Sénat, 2006, Loi n°2006-1772 du 30 décembre 2006 sur l’eau et les milieux aquatiques. NOR : DEVX0400302L. J.Off. Rép. Fr. n°303, 31 décembre 2006, texte n°3, 20285.
  • Aubin J., Papatryphon E., Van der Werf H.M.G., Petit J., Morvan Y.M., 2006, Characterisation of the environmental impact of a turbot (Scophthalmus maximus) re-circulating production system using life cycle assessment. Aquaculture;61, 1259–1268. [CrossRef]
  • Axler R.P., Tikkanen C., Henneck J., Schuldt J., McDonald E.M., 1997, Characteristics of effluent and sludge from two commercial rainbow trout farms in Minnesota. Progress. Fish-Cult., 59, 161–172. [CrossRef]
  • Boujard T., Vallée F., Vachot C., 2002, Evaluation des rejets d’origine nutritionnelle par la méthode des bilans, comparaison avec les flux sortants. Proc. 4th workshop on fish nutrition INRA-IFREMER, 20 Sept. 2002, Bordeaux, pp. 24–27.
  • Bureau D.P., Gunther S., Cho C.Y., 2002, Chemical composition and preliminary theoretical estimates of waste outputs of rainbow trout reared in commercial cage culture operations in Ontario. N. Am. J. Aquac. 5, 33–38.
  • Bureau D.P., Cho C.Y., 1999, Phosphorus utilization by rainbow trout (Oncorhynchus mykiss): estimation of dissolved phosphorus waste output. Aquaculture 179, 127–140. [CrossRef]
  • CEMAGREF, 1984, Salmoniculture et environnement. Vol. 1, Evaluation de la pollution rejetée par les salmonicultures intensives. Etudes 16, 71 p.
  • Cho C.Y., Kaushik S.J., 1990, Nutritional energetics in fish: energy and protein utilization in rainbow trout (Salmo gairdneri). World Rev. Nutr. Dietetics;1, 132–172.
  • Cho C.Y., Hynes J.D., Wood K.R., Yoshida H.K., 1991, Quantification of fish culture wastes by biological (nutritional) and chemical (limnological) methods: the development of high nutrient dense (HND) diets. In: Cowey C.B., Cho C.Y. (Eds) Nutritional strategies and aquaculture waste. Proc. 1st Int. Symp. Nutritional Strategies in Management of Aquaculture Waste, University of Guelph, Guelph , Ontario, pp. 37–49.
  • Cowey C.B., Cho C.Y., 1991, Nutritional strategies and aquaculture waste. Proc. 1st Int. Symp. Nutritional strategies in management of aquaculture waste. Univ. Guelph, Guelph, Ontario.
  • Cripps S.J., 1995, Serial particle size fraction and characterisation of an aquacultural effluent. Aquaculture 133, 323–339. [CrossRef]
  • Cripps S.J., Bergheim A., 2000, Solids management and removal for intensive land-based aquaculture production systems. Aquac. Eng. 22, 33–56. [CrossRef]
  • European Community, 2000, Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for Community action in the field of water policy. OJL327, 22 Dec. 2000, pp. 1–73.
  • Hua K., Bureau D.P., 2006, Modelling digestible phosphorus content of salmonid fish feeds. Aquaculture 254, 455–465. [CrossRef]
  • Hua K., de Lange C.F.M., Niimi A.J., Cole G., Moccia R.D., Fan M.Z., Bureau D.P., 2008, A factorial model to predict phosphorus waste output of rainbow trout (Oncorhynchus mykiss). Aquac. Res. 39, 1059–1068. [CrossRef]
  • Jatteau P., 1999, Les apports trophiques : quantification des flux polluants. In: Petit J. (Ed.) Environnement et Aquaculture : aspects techniques et économiques (Tome 1), INRA Editions, Paris, pp. 74–92.
  • Kaushik S.J., 1980, Influence of the nutritional status on the daily patterns of nitrogen excretion in carp (Cyprinus carpio L.) and rainbow trout (Salmo gairdneri R.). Reprod. Nutr. Develop. 20, 1751–1765. [CrossRef]
  • Kaushik S.J., Cowey C.B., 1991, Dietary factors affecting nitrogen excretion by fish. In: Cowey C.B., Cho (Eds.) Nutritional strategies and aquaculture waste. Proc.1st Int. Symp. Nutritional Strategies in Management of Aquaculture Waste, University of Guelph, Guelph , Ontario.
  • Kaushik S.J., 1998, Nutritional bioenergetics and estimation of waste production in non salmonids. Aquat. Living Resour. 11, 211–217. [CrossRef] [EDP Sciences]
  • Lemarié G., Martin J.L., Dutto G., Garidou C., 1998, Nitrogenous and phosphorous waste production in a flow-through land-based farm of European seabass (Dicentrarchus labrax). Aquat. Living Resour. 11, 247–254. [CrossRef] [EDP Sciences]
  • Liao P., 1970, Pollution potential of salmonids fish hatcheries, Water Sewage Works 117, 291–297.
  • Liao P., Mayo R., 1974, Intensified fish culture combining water reconditioning with pollution abatement. Aquaculture 3, 61–85. [CrossRef]
  • Maillard V.M., Boardman G.D., Nyland J.E., Kuhn D.D., 2005, Water quality and sludge characterization at raceway-system trout farms. Aquac. Eng. 33, 271–284. [CrossRef]
  • MAAP (Ministère de l’Agriculture de l’Alimentation et de la Pêche), 2009, La salmoniculture française à l’étiage, Agreste Primeur 227, June 2009, Paris.
  • Millennium Ecosystem Assessment, 2005, Ecosystems and Human Well-being: Synthesis.
  • Island Press, Washington, DC, USA.
  • NF EN 1189, 1996, Qualité de l’eau, Dosage du phosphore, Dosage spectrométrique à l’aide du molybdate d’ammonium.
  • NF EN 872, 1996, Qualité de l’eau, Dosage des matières en suspension, méthode par filtration sur filtre en fibres de verre.
  • NF EN ISO 11905-1, 1997, Qualité de l’eau, Dosage de l’azote, Partie 1 : Méthode par minéralisation oxydante au peroxodisulfate.
  • NF EN ISO 11732, 1997, Détermination de l’azote ammoniacal par analyse en flux (CFA et FIA) et détection spectrométrique.
  • NF EN ISO 13395, 1996, Détermination de l’azote nitreux et de l’azote nitrique et de la somme des deux par analyse en flux (CFA et FIA) et détection spectrométrique.
  • NF EN ISO 748, 2009, Hydrométrie. Mesurage du débit des liquides dans les canaux découverts au moyen de moulinets ou de flotteurs.
  • Papatryphon E., Petit J., Van der Werf H.M.G., Kaushik S.J., Kanyarushoki C., 2005, Nutrient balance modeling as a tool for environmental management in aquaculture: the case of trout farming in France. Environ. Manage. 5, 161–174. [CrossRef]
  • Roque d’Orbcastel E., Blancheton J.P, Boujard T., Aubin J., Moutounet Y., Przybyla C., Belaud A., 2008, Comparison of two methods for evaluating waste of a flow through trout farm. Aquaculture 274, 72–79. [CrossRef]
  • Willoughby H., Larsen H., Bowen J., 1972, The pollution effect of fish hatcheries. American Fishes and US Trout News, Sept.-Oct. 1972, pp. 6–7 and 20–21.

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