Assessing the Contribution of Marine Protected Areas to the Trophic Functioning of Ecosystems: A Model for the Banc d’Arguin and the Mauritanian Shelf

Most modelling studies addressed the effectiveness of marine protected areas (MPA) for fisheries sustainability through single species approach. Only a few models analysed the potential benefits of MPAs at the ecosystem level, estimating the potential export of fish biomass from the reserve or analysing the trophic relationships between organisms inside and outside the MPA. Here, we propose to use food web models to assess the contribution of a MPA to the trophic functioning of a larger ecosystem. This approach is applied to the Banc d’Arguin National Park, a large MPA located on the Mauritanian shelf. The ecosystem was modeled using Ecopath with Ecosim, a model that accounts for fisheries, food web structure, and some aspects of the spatial distribution of species, for the period 1991–2006. Gaps in knowledge and uncertainty were taken into account by building three different models. Results showed that the Banc d’Arguin contributes about 9 to 13% to the total consumption, is supporting about 23% of the total production and 18% of the total catch of the Mauritanian shelf ecosystem, and up to 50% for coastal fish. Of the 29 exploited groups, 15 depend on the Banc for more than 30% of their direct or indirect consumptions. Between 1991 and 2006, the fishing pressure increased leading to a decrease in biomass and the catch of high trophic levels, confirming their overall overexploitation. Ecosim simulations showed that adding a new fleet in the Banc d’Arguin would have large impacts on the species with a high reliance on the Banc for food, resulting in a 23% decrease in the current outside MPA catches. We conclude on the usefulness of food web models to assess MPAs contribution to larger ecosystem functioning.

[1]  C. Walters,et al.  An equilibrium model for predicting the efficacy of marine protected areas in coastal environments , 2007 .

[2]  S. Adlerstein,et al.  Spillover from six western Mediterranean marine protected areas: evidence from artisanal fisheries , 2008 .

[3]  P. Nienhuis,et al.  The functioning of the ecosystem of the Banc d'Arguin, Mauritania: a review , 2004, Hydrobiologia.

[4]  D. Pauly,et al.  EcoTroph (ET): a trophic level based software for assessing the impacts of fishing on aquatic ecosystems. , 2009 .

[5]  Didier Gascuel,et al.  Modeling trophic interactions to assess the effects of a marine protected area: case study in the NW Mediterranean Sea , 2012 .

[6]  D. Kaplan Fish life histories and marine protected areas: an odd couple? , 2009 .

[7]  Steven D. Gaines,et al.  PLUGGING A HOLE IN THE OCEAN: THE EMERGING SCIENCE OF MARINE RESERVES1 , 2003 .

[8]  P. Lenfant,et al.  Effects of habitat on spillover from marine protected areas to artisanal fisheries , 2009 .

[9]  C. Walters,et al.  Interactions of productivity, predation risk, and fishing effort in the efficacy of marine protected areas for the central Pacific , 2005 .

[10]  T. Essington,et al.  Fishing through marine food webs. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[11]  D. Hart When do marine reserves increase fishery yield , 2006 .

[12]  Villy Christensen,et al.  Ecospace: Prediction of Mesoscale Spatial Patterns in Trophic Relationships of Exploited Ecosystems, with Emphasis on the Impacts of Marine Protected Areas , 1999, Ecosystems.

[13]  W. Wolff,et al.  Biomass of macrobenthic tidal flat fauna of the Banc d'Arguin, Mauritania , 2004, Hydrobiologia.

[14]  T. McClanahan,et al.  SPILLOVER OF EXPLOITABLE FISHES FROM A MARINE PARK AND ITS EFFECT ON THE ADJACENT FISHERY , 2000 .

[15]  G. Russ,et al.  Spillover from marine reserves: the case of Naso vlamingii at Apo Island, the Philippines , 2003 .

[16]  Benjamin S. Halpern,et al.  THE IMPACT OF MARINE RESERVES: DO RESERVES WORK AND DOES RESERVE SIZE MATTER? , 2003 .

[17]  P. Nienhuis,et al.  The functioning of the ecosystem of the Banc d’Arguin, Mauritania: a review , 1993 .

[18]  Carl J. Walters,et al.  Ecopath with Ecosim: methods, capabilities and limitations , 2004 .

[19]  D. Gascuel,et al.  The trophic spectrum: theory and application as an ecosystem indicator , 2005 .

[20]  Marta Coll,et al.  Food-web traits of protected and exploited areas of the Adriatic Sea , 2010 .

[21]  Didier Gascuel,et al.  Global assessment of the fishing impacts on the Southern Benguela ecosystem using an EcoTroph modelling approach , 2012 .

[22]  B. Halpern,et al.  Biological Effects Within No-Take Marine Reserves: A global Synthesis , 2009 .

[23]  B. Stéquert,et al.  Cycle sexuel et migrations de Sardinella aurita sur le plateau continental ouest-africain, des Iles Bissagos à la Mauritanie , 1978 .

[24]  Carl J. Walters,et al.  Ecopath, Ecosim, and Ecospace as tools for evaluating ecosystem impact of fisheries , 2000 .

[25]  G. Duineveld,et al.  The benthic infauna and benthic respiration off the Banc d'Arguin (Mauritania, Northwest Africa) , 2004, Hydrobiologia.

[26]  D. Pauly,et al.  Fishing down marine food webs , 1998, Science.

[27]  V. Christensen,et al.  Trophic flow kinetics in marine ecosystems: Toward a theoretical approach to ecosystem functioning , 2008 .

[28]  L. Gerber,et al.  Ecosystem models clarify the trophic role of whales off Northwest Africa , 2010 .

[29]  D. Gascuel,et al.  Integrating Marine Protected Areas in fisheries management systems: some criteria for ecological efficiency , 2013 .

[30]  P. Labrosse,et al.  Evaluation des ressources et aménagement des pêcheries de la ZEE Mauritanienne , 2010 .

[31]  Applications: Estimating the Relative Density of Snapper in and around a Marine Reserve Using a Log‐Linear Mixed‐Effects Model , 1999 .

[32]  David Mouillot,et al.  Simulation of the combined effects of artisanal and recreational fisheries on a Mediterranean MPA ecosystem using a trophic model , 2010 .

[33]  S. Gerlach On the importance of marine meiofauna for benthos communities , 2004, Oecologia.

[34]  M. Harmelin-Vivien,et al.  Gradients of abundance and biomass across reserve boundaries in six Mediterranean marine protected areas : Evidence of fish spillover? , 2008 .

[35]  Thomas Brey,et al.  Population dynamics in benthic invertebrates. A virtual handbook , 2001 .

[36]  Michael J. Fogarty,et al.  Effort distribution and catch patterns adjacent to temperate MPAs , 2005 .

[37]  D. Gascuel,et al.  Assessing stocks in data-poor African fisheries: a case study on the white grouper Epinephelus aeneus of Mauritania , 2013 .

[38]  D. Pauly,et al.  Mass-Balance Models of Northeastern Pacific Ecosystems , 1996 .

[39]  J. M. Vakily,et al.  Trends in fish biomass off Northwest Africa, 1960-2000 , 2005 .

[40]  G. Duineveld,et al.  The benthic infauna and benthic respiration off the Banc d’Arguin (Mauritania, Northwest Africa) , 1993 .

[41]  Didier Gascuela,et al.  RECONSTRUCTED CATCHES IN THE MAURITANIAN EEZ 1 , 2010 .

[42]  Jonathan W. Pitchford,et al.  Uncertainty and sustainability in fisheries and the benefit of marine protected areas , 2007 .

[43]  D. Gascuel,et al.  Decline of demersal resources in North-West Africa: an analysis of Mauritanian trawl-survey data over the past 25 years , 2007 .

[44]  Pedro Afonso,et al.  Effects of no-take area size and age of marine protected areas on fisheries yields: a meta-analytical approach , 2011 .

[45]  Elizabeth A. Fulton,et al.  The Role of Pre-Existing Disturbances in the Effect of Marine Reserves on Coastal Ecosystems: A Modelling Approach , 2013, PloS one.

[46]  L. T. D. Morais,et al.  Modelling trophic flows in ecosystems to assess the efficiency of marine protected area (MPA), a case study on the coast of Sénégal , 2012 .

[47]  David M. Kaplan,et al.  Consequences of adult and juvenile movement for marine protected areas , 2011 .

[48]  E. Barbier,et al.  Impacts of Biodiversity Loss on Ocean Ecosystem Services , 2006, Science.