Managing the Agri-Food System of Watersheds to Combat Coastal Eutrophication: A Land-to-Sea Modelling Approach to the French Coastal English Channel

Type Article
Date 2019-10
Language English
Author(s) Garnier Josette1, Riou Philippe2, Le Gendre RomainORCID3, Ramarson Antsiva1, Billen Gilles1, Cugier Philippe4, Schapira Mathilde5, Théry Sylvain6, Thieu Vincent1, Ménesguen Alain4
Affiliation(s) 1 : SU CNRS EPHE, Metis UMR 7619, 75005 Paris, France
2 : IFREMER, Ctr Bretagne, Département Océanographie et Dynamique Ecosystème, F-29280 Plouzané, France
3 : IFREMER, Ecosystèmes et Aquaculture Durable, Unité de Recherche Lagons, 98897 Noumea, New-Caledonia
4 : IFREMER, Ctr Bretagne, DYNECO-LEBCO, CS10070, F-29280 Plouzané, France
5 : IFREMER, Centre Atlantique, Laboratoire Environnement Ressources Morbihan-Pays de Loire, 44311 Nantes, France
6 : SU CNRS, FIRE FR 3020, Boite 105, 4 Place Jussieu, 75005 Paris, France
Source Geosciences (2076-3263) (MDPI AG), 2019-10 , Vol. 9 , N. 10 , P. 441 (26p.)
DOI 10.3390/geosciences9100441
WOS© Times Cited 2
Note This article belongs to the Special Issue Biogeochemical Functioning of Large Fluvial or Lacustrine Hydrosystems: Impacts of Human Activities
Keyword(s) toxic microalgae, Pseudo-nitzschia spp., river basins, nutrient flows, scenarios, coastal zone ecosystem, modelling
Abstract

The continental coastal waters of the Eastern Channel, from Normandy to Hauts-de-France, are subject to the major influence of unbalanced nutrient inputs from inflowing rivers. Several episodes of harmful algal blooms (HABs) compromising fishing and shellfish farming activities have been observed at the coast. For a better understanding of how the land-to-sea aquatic continuum functions, the GRAFS-RIVERSTRAHLER river biogeochemical model was implemented to cover the watersheds of 11 rivers flowing into this area (including the Seine) and chained with the ecological marine ECO-MARS3D model, applied to the French Northern coastal zone. Human activities strongly impact on the functioning of coastal ecosystems. Specifically, for these fertile soils of Northern France, intensive agricultural nitrogen (N) deliveries in excess over silica (Si) and phosphorus (P), essentially of diffuse origin, are potentially responsible for coastal eutrophication. Phosphorous is today equally supplied by diffuse and point sources, after a drastic reduction of inputs from wastewater treatment plants since the 2000s, and is better balanced regarding Si, as shown by the indicators of coastal eutrophication potential (P-ICEP versus N-ICEP). However, despite this drastic P reduction, HABs still appear repeatedly. Exploration of several scenarios of agro-food chain reorganization shows that (i) further progress in urban wastewater treatment to fully comply with current European regulations will not result in a significant reduction of nutrient fluxes to the sea, hence including HABs, and (ii) radical structural changes in agriculture, based on generalization of long and diversified organic crop rotations, reconnection of crop and livestock farming and changes in the human diet have the capacity to significantly reduce nutrient flows, coastal eutrophication and HABs

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Garnier Josette, Riou Philippe, Le Gendre Romain, Ramarson Antsiva, Billen Gilles, Cugier Philippe, Schapira Mathilde, Théry Sylvain, Thieu Vincent, Ménesguen Alain (2019). Managing the Agri-Food System of Watersheds to Combat Coastal Eutrophication: A Land-to-Sea Modelling Approach to the French Coastal English Channel. Geosciences, 9(10), 441 (26p.). Publisher's official version : https://doi.org/10.3390/geosciences9100441 , Open Access version : https://archimer.ifremer.fr/doc/00589/70076/