Dataset of organic fertilisers' characteristics - French data
Collection of cured data on nutrients (N, P, K, C), trace elements (Cu, Zn, etc) and agronomic indicators (KeqN, ISMO) associated with French organic fertilisers, as described and modelled during the ACV-MAFOR project (Avadí 2020). Data representative of France, and to a lesser extent Europe, during the last 10 years.
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| Format: | Experimental data biblioteca |
| Language: | English |
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| Subjects: | Agricultural Sciences, Fertilizers, Nutrients, Trace elements, |
| Online Access: | http://dx.doi.org/10.18167/DVN1/OYD9WF |
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Agricultural Sciences Fertilizers Nutrients Trace elements Agricultural Sciences Fertilizers Nutrients Trace elements |
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Agricultural Sciences Fertilizers Nutrients Trace elements Agricultural Sciences Fertilizers Nutrients Trace elements Avadí, Angel Paillat, Jean-Marie Dataset of organic fertilisers' characteristics - French data |
| description |
Collection of cured data on nutrients (N, P, K, C), trace elements (Cu, Zn, etc) and agronomic indicators (KeqN, ISMO) associated with French organic fertilisers, as described and modelled during the ACV-MAFOR project (Avadí 2020). Data representative of France, and to a lesser extent Europe, during the last 10 years. |
| author2 |
Avadi Tapia, Angel Daniel |
| author_facet |
Avadi Tapia, Angel Daniel Avadí, Angel Paillat, Jean-Marie |
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Experimental data |
| topic_facet |
Agricultural Sciences Fertilizers Nutrients Trace elements |
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Avadí, Angel Paillat, Jean-Marie |
| author_sort |
Avadí, Angel |
| title |
Dataset of organic fertilisers' characteristics - French data |
| title_short |
Dataset of organic fertilisers' characteristics - French data |
| title_full |
Dataset of organic fertilisers' characteristics - French data |
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Dataset of organic fertilisers' characteristics - French data |
| title_full_unstemmed |
Dataset of organic fertilisers' characteristics - French data |
| title_sort |
dataset of organic fertilisers' characteristics - french data |
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CIRAD Dataverse |
| url |
http://dx.doi.org/10.18167/DVN1/OYD9WF |
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AT avadiangel datasetoforganicfertiliserscharacteristicsfrenchdata AT paillatjeanmarie datasetoforganicfertiliserscharacteristicsfrenchdata |
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1778475305969647616 |
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dat-cirad-10.18167DVN1OYD9WF2022-01-26T14:31:31ZDataset of organic fertilisers' characteristics - French datahttp://dx.doi.org/10.18167/DVN1/OYD9WFAvadí, AngelPaillat, Jean-MarieCIRAD DataverseCollection of cured data on nutrients (N, P, K, C), trace elements (Cu, Zn, etc) and agronomic indicators (KeqN, ISMO) associated with French organic fertilisers, as described and modelled during the ACV-MAFOR project (Avadí 2020). Data representative of France, and to a lesser extent Europe, during the last 10 years. Agricultural SciencesFertilizersNutrientsTrace elementsEnglishAvadi Tapia, Angel DanielPersonnes (Nom, Prénom) ou Organisation ayant participé à la production des données (préciser le type de contribution)Galland, Victor; Avadí, Angel; Bockstaller, Christian; Paillat, Jean-Marie, 2020, "Data to inform the modelling of direct nitrogen field emissions from global agriculture", https://doi.org/10.15454/RM6TYY, Portail Data INRAE, V1Experimental data Observational dataLevasseur, P., Soulier, A., Lagrange, H., Trochard, R., Foray, S., Charpiot, A., Ponchant, P., & Blazy, V. (2019). Valorisation agronomique des effluents d’élevages. In RMT « élevages et environnement ». "Benoît, P., Brugère, H., Casellas, M., Dabert, P., Fuchs, J., Giamberini, L., Patureau, D., Pons, M.-N., Pourcher, A.-M., & Topp, E. (2014). Chapitre 2. Caractéristiques physico-chimiques et biologiques des Mafor. In Rapport final de l’ESCo “Matières fertilisantes d’origine résiduaire.” https://www6.paris.inra.fr/depe/content/download/3807/36278/file/ESCoMafor rapport_Chap2_oct2014.pdf Fuchs, J., Génermont, S., Houot, S., Jardé, E., Ménasseri, S., Mollier, A., Morel, C., Parnaudeau, V., Pradel, M., & Vieublé, L. (2014). Chapitre 3. Effets agronomiques attendus de l’épandage des MAFOR sur les écosystèmes agricoles et forestiers. In Rapport final de l’ESCo “Matières fertilisantes d’origine résiduaire.” https://www6.paris.inra.fr/depe/content/download/3808/36281/file/ESCoMafor rapport_Chap3_oct2014.pdf COMIFER. (2013). Calcul de la fertilisation azotée - Cultures annuelles et prairies. Pradel, M. (2016). Guide pour la réalisation d’Analyses du Cycle de Vie pour les filières de traitement et de valorisation des boues d’épuration urbaine. Rapport final. In Eau en espace urbanisé, Action 52. ADEME. (2011). Qualité agronomique et sanitaire des digestats. https://www.ademe.fr/sites/default/files/assets/documents/79519_qualite_digestat_rf_octobre_2011.pdf Alburquerque, J. A., de la Fuente, C., & Bernal, M. P. (2012). Chemical properties of anaerobic digestates affecting C and N dynamics in amended soils. Agriculture, Ecosystems & Environment, 160, 15–22. https://doi.org/10.1016/j.agee.2011.03.007 Larney, F. J., Ellert, B. H., & Olson, A. F. (2005). Carbon, ash and organic matter relationships for feedlot manures and composts. Canadian Journal of Soil Science, 85(2), 261–264. https://doi.org/10.4141/S04-061 Pradel, M., & Aissani, L. (2019). Environmental impacts of phosphorus recovery from a “product” Life Cycle Assessment perspective: Allocating burdens of wastewater treatment in the production of sludge-based phosphate fertilizers. Science of the Total Environment, 656, 55–69. https://doi.org/10.1016/j.scitotenv.2018.11.356 Levasseur, P. (2005). Composition des effluents porcins et de leurs coproduits de traitement. Quantités produites. Loyon, L. (2015). Inventaire des quantités de fumier bovin stockable au champ en France. Inventory of solid cattle manure likely to be stored in temporary field heaps in France. Renc. Rech. Ruminants, 22, 2015. https://www.ciwf.fr/animaux-delevage/poulets-de-chair/ Constant, N. (2011). Catalogue des engrais et amendements utilisables en viticulture biologique en Languedoc-Roussillon. https://www.sud-et-bio.com/sites/default/files/Catalogue_Fertilisants en viti bio_Sud Vin Bio_2011.pdf Dhaouadi, A. K. (2014). Insertion des Produits Résiduaires Organiques dans les systèmes de culture : Cas des systèmes céréaliers de la Plaine de Versailles et du Plateau des Alluets. In PhD thesis. Sciences agricoles. AgroParisTech. Reibel, A., & Leclerc, B. (2018). Valorisation agricole des digestats: quel impact sur les cultures, le sol et l’environnement ? La Méthanisation En Provence-Aples-Côte d’Azur, 63. http://www.metha-paca.fr/ Bolzonella, D., Fatone, F., Gottardo, M., & Frison, N. (2018). Nutrients recovery from anaerobic digestate of agro-waste: Techno-economic assessment of full scale applications. Journal of Environmental Management, 216, 111–119. https://doi.org/10.1016/j.jenvman.2017.08.026 IDELE. (2013). Fiche Technique : Issue de séparation de phases du lisier de bovin. IDELE. (2017). Journée technique “Traite - Logement – Déjections”, Atelier 3 : Gérer les déjections. Rappels et solutions de diminution des volumes à stocker. Paillat, J.-M., Robin, P., Hassouna, M., & Leterme, P. (2005). Effet du compostage d’effluents porcins sur les émissions gazeuses et les teneurs en éléments polluants. Action 42c, Porcherie Verte, 1–106. Ilari, E., Daridan, D., Desbois, D., Fraysse, J.-L., & Fraysse, J. (2004). Les systèmes de production du porc en France : typologie des exploitations agricoles ayant des porcs. Journées Recherche Porcine, 36(1), 1–8. |