, Atelier de réflexion prospective MERMED Adaptation aux changements globaux en mer Méditerranée, Références bibliographiques AGROPOLIS INTERNATIONAL, vol.156, 2014.

, Sciences marines et littorales en Occitanie, Dossier Agropolis International, vol.132, p.24, 2019.

. D. Ardizzone-g, M. F. Gravina, and . Belluscio-a, Temporal development of epibenthic communities on artificial Reefs in the central mediterranean sea, Bulletin of Marine Science, vol.44, pp.592-608, 1989.

. B. Azevedo-f, . G. Carloni-g, and L. V. Carvalheira, Colonization of benthic organisms on different artificial substratum in, vol.49, pp.263-275, 2006.

,

. Baine-m, Artificial reefs: a review of their design, application, management and performance, Ocean & Coastal Management, vol.44, pp.241-259, 2001.

, , pp.48-53

C. E. Blouet-s, . Dupuy-de-la, . Grandrive-r, and P. Lenfant, , 2014.

, Bilan de 30 ans d'immersions de recifs artificiels sur la cote agathoise, pp.1-8

. Bulleri-f, . G. Chapman-m, . Calvet-c, . Le-coent-p, C. Napoleone et al., Challenges of achieving biodiversity offset outcomes through agri-environmental schemes: evidence from an empirical study in Southern France, Journal of Applied Ecology, vol.47, pp.11-125, 2010.

. A. Coombes-m, . A. Naylor-l, H. A. Viles, and R. C. Thompson, , 2013.

, Bioprotection and disturbance: seaweed, microclimatic stability and conditions for mechanical weathering in the intertidal zone, Geomorphology, vol.202, pp.4-14

,

. A. Coombes-m, H. A. Viles, . A. Naylor-l, and . C. La-marca-e, Cool barnacles: do common biogenic structures enhance or retard rates of deterioration of intertidal rocks and concrete?, Science of the Total Environment, vol.580, pp.1034-1045, 2017.

A. Credoc, . Consultants, . Pareto, and . Biotope, Etude exploratoire pour une evaluation des services rendus par les ecosystemes en France Application du millennium ecosystem assessment, 2009.

P. Cresson, S. Ruitton, M. Ourgaud, and . M. Harmelin-vivien, , 2014.

, Contrasting perception of fish trophic level from stomach content and stable isotope analyses : A Mediterranean artificial reef experience, Journal of Experimental Marine Biology and Ecology, vol.452, pp.54-62

R. H. Cuadrado-, N. Sebaibi, M. Boutouil, and . Boudart-b, , 2015.

, Properties of ordinary concretes incorporating crushed queen scallop shells, Materials and Structures, vol.49, pp.1805-1816

H. De-vriend and . Van-koningsveld-m, Building with nature. Ecoshape Building with nature, vol.39, 2015.

K. De-weerdt, H. Justnes, and M. R. Geiker, Changes in the phase assemblage of concrete exposed to sea water, Cement and Concrete Composites, vol.47, pp.53-63, 2014.

P. Devillers, L. Clerc, C. Buisson, S. Pioch, and J. C. Souche, , 2009.

, Faisabilité technique d'un béton à base de déchets de coquillages. XXVII AUGC, Saint Malo 3-5 Juin, vol.12

C. Giraudel, . Garcia-n, and . Ledoux-s, Single-Layer breakwater armouring : feedback on the accropodetm technology from site experience, Coastal Engineering Proceedings, 2014.

. Harshada-k, . Desai-d, and . K. Gupta-a, Deterioration of concrete in marine structure, Imperial Journal of Interdisciplinary Research (IJIR), vol.3, 2017.

. Hilbertz-w, Electrodeposition of minerals in seawater. OCEANS 78, 1978.

. R. Hillier-s, C. M. Sangha, . A. Plunkett-b, . J. Walden-p, . Jacob-c et al., Vers une politique française de compensation des impacts sur la biodiversité plus efficace: défis et perspectives, Cement and Concrete Research, vol.29, pp.515-521, 1999.

J. C. , Approche géographique de la compensation écologique en milieu marin: analyse de l'émergence d'un système de gouvernance environnementale, 2017.

. Lacroix-d and . Pioch-s, The multi-use in wind farm projects: more conflicts or a win-win opportunity?, Aquatic Living Resources, vol.24, pp.129-135, 2011.

,

. Linger-l, E. Rozière, . Loukili-a, and . Cussigh-f, Concrete equivalent performance concept for durability -an operational guide for the comparative approach, Conference FIB, 2014.

L. E. Luckhurst-k, Analysis of the influence of substrate variables on coral reef fish communities, Marine Biology, vol.323, pp.317-323, 1978.

,

. Macura-b, P. Byström, L. Airoldi, . K. Eriksson-b, L. Rudstam et al., Impact of structural habitat modifications in coastal temperate systems on fish recruitment: a systematic review, Environmental Evidence, vol.8, issue.1, 2019.

. Manso-s, . De-muynck-w, . Segura-i, . Aguado-a, K. Steppe et al., Bioreceptivity evaluation of cementitious materials designed to stimulate biological growth, Science of the Total Environment, vol.481, pp.232-241, 2014.

,

, Site web : www.millenniumassessment.org/fr, MEA 2005

, Béton -Spécification, performance, Production et Conformité, 2014.

. H. Nguyen-d, M. Boutouil, N. Sebaibi, L. Leleyter, and . Baraud-f, , 2014.

S. I. Perkol-finkel-s, Ecologically active concrete for coastal and marine infrastructure: innovative matrices and designs, Construction & Building Materials, vol.73, pp.1139-1149, 2014.

. Pianc-wg, EnviCom 176. The World Association for Waterborne Transport Infrastructure, 2011.

P. S. , Les "habitats artificiels" : élément de stratégie pour une gestion intégrée des zones côtières ? Essai de méthodologie d'aménagement en récifs artificiels adaptés à la pêche artisanale côtière, 2008.

P. S. Monier-t, Procédé de fabrication d'un éco-granulat, d'un béton, et béton associé, Brevet FR, vol.2, pp.944-788, 2009.

P. S. Kilfoyle, K. Levrel, and H. Spieler-r, Green Marine Construction, Journal of Coastal Research, vol.61, pp.257-268, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01725554

,

P. S. Relini, G. Souche, J. J. Stive-m, . De-monbrison-d, S. Nassif et al., , 2018.

, Enhancing eco-engineering of coastal infrastructure with eco-design: Moving from mitigation to integration, Ecological Engineering, vol.120, pp.574-584

,

, Étude de valorisation des coproduits marins coquilliers sous forme d'additions et de granulats dans les matériaux cimentaires, RBNP, 2012.

. Safi-b, M. Saidi, . Daoui-a, . Bella-a, A. Mechekak et al., , 2015.

, The use of seashells as a fine aggregate (by sand substitution) in self-compacting mortar (SCM), Construction & Building Materials, vol.78, pp.430-438

,

. C. Seto-k, B. Güneralp, and L. R. Hutyra, Global forecasts of urban expansion to 2030 and direct impacts on biodiversity and carbon pools, Proc. Natl. Acad. Sci, vol.109, pp.16083-16088, 2012.

J. C. Souche, . Le-saout-g, M. Salgues, and . Pioch-s, Effets de bétons bioactifs sur la colonisation marine en environnement méditerranéen, Matériaux & Techniques, vol.104, 2016.

J. C. Souche, S. Pioch, M. Salgues, . De-weerdt-k, A. Agostini et al.,

M. , De la conception à l'éco-conception des ouvrages maritimes : intégrer la nature au projet d'aménagement maritime, Revue Paralia, vol.12, 2019.

. Vaz-pinto-f, O. Torrontegi, . C. Prestes-a, . V. Alvaro-n, . I. Neto-a et al., Invasion success and development of benthic assemblages: Effect of timing, duration of submersion and substrate type, Marine Environmental Research, vol.94, pp.72-79, 2014.

H. Y. Wang, . Y. Chen-p, and J. H. Chen, Effect of waste oyster shell resurgent on engineering properties of cement mortar, International Workshop on energy, environment & architecture engineering. Xian Ning, pp.16-18, 2011.

M. Weissgerber, S. Roturier, . Julliard-r, and . Guillet-f, Biodiversity offsetting: Certainty of the net loss but uncertainty of the net gain, Biological Conservation, vol.237, 2019.

Y. E. Kim-m, H. G. Park, and . T. Yi-s, Effect of partial replacement of sand with dry oyster shell on the long term performance of concrete, Construction & Building Materials, vol.24, pp.758-765, 2010.

H. Yoon, . Park-s, and . Lee-k, Oyster shell as substitute for aggregate in mortar, Waste Management & Research, vol.22, pp.158-170, 2004.