REFERENCES
- Adey, W.H. & McKibbin, D.L. (1970). Studies on the maerl species Phymatolithon calcareum (Pallas) nov. comb. and Lithothamnion corallioides Crouan in the Ria de Vigo. Botanica Marina, 13: 100–106.
- Ardhuin, F., Accensi, M., Roland, A., Girard, F., Filipot, J.-F., Leckler, F. & Le Roux, J.-F. (2014). Numerical wave modeling in PREVIMER: multi-scale and multi-parameter demonstrations. Mercator Ocean – Quarterly Newsletter, 49: 39–43.
- Barbera, C., Bordehore, C., Borg, J.A., Glémarec, M., Grall, J., Hall-Spencer, J.M., De la Huz, C., Lanfranco, E., Lastra, M. & Moore, P.G. (2003). Conservation and management of northeast Atlantic and Mediterranean maerl beds. Aquatic Conservation: Marine and Freshwater Ecosystems, 13: S65–S76.
- Birkett, D.A., Maggs, C.A. & Dring, M.J. (1998). Maerl (Volume V). An Overview of Dynamic and Sensitivity Characteristics for Conservation Management of Marine SACs. Scottish Association for Marine Science (UK Marine SACs Project).
- Bosence, D.W.J. (1983). The occurrence and ecology of recent rhodoliths – a review. In Coated Grains (Peryt, T.M., editor), 225–242. Springer-Verlag, Berlin.
- Clarke, K.R. & Ainsworth, M. (1993). A method of linking multivariate community structure to environmental variables. Marine Ecology Progress Series, 92: 205–219.
- Cugier, P. & Le Hir, P. (2002). Development of a 3D hydrodynamic model for coastal ecosystem modelling. Application to the plume of the Seine River (France). Estuarine, Coastal and Shelf Science, 55: 673–695.
- De Grave, S., Fazakerley, H., Kelly, L., Guiry, M.D., Ryan, M. & Walshe, J. (2000). A study of selected maerl beds in Irish waters and their potential for sustainable extraction. Marine Resource Series, No. 10. Marine Institute, Dublin.
- Dumas, F., Pineau-Guillou, L., Lecornu, F., Le Roux, J.-F. & Le Squère, B. (2014). General introduction: previmer, a French pre-operational coastal ocean forecasting capability. Mercator Ocean – Quarterly Newsletter, 49: 3–8.
- Dutertre, M., Hamon, D., Chevalier, C. & Ehrhold, A. (2013). The use of the relationships between environmental factors and benthic macrofaunal distribution in the establishment of a baseline for coastal management. ICES Journal of Marine Science, 70: 294–308.
- Ellis, J.T. & Schneider, D.C. (2008). Spatial and temporal scaling in benthic ecology. Journal of Experimental Marine Biology and Ecology, 366: 92–98.
- Foster, M.S. (2001). Rhodoliths: between rocks and soft places. Journal of Phycology, 37: 659–667.
- Freiwald, A. & Henrich, R. (1994). Reefal coralline algal build-ups within the Arctic Circle: morphology and sedimentary dynamics under extreme environmental seasonality. Sedimentology, 41: 963–984.
- Glémarec, M. (1969). Les peuplements benthiques du plateau continental nord-Gascogne. PhD thesis, Université de Paris.
- Gogina, M. & Zettler, M.L. (2010). Diversity and distribution of benthic macrofauna in the Baltic Sea. Data inventory and its use for species distribution modelling and prediction. Journal of Sea Research, 64: 313–321.
- Grall, J. & Hall-Spencer, J.M. (2003). Problems facing maerl conservation in Brittany. Aquatic Conservation: Marine and Freshwater Ecosystems, 13: S55–S64.
- Grall, J., Le Loc’h, F., Guyonnet, B. & Riera, P. (2006). Community structure and food web based on stable isotopes (δ15N and δ13C) analyses of a North Eastern Atlantic maerl bed. Journal of Experimental Marine Biology and Ecology, 338: 1–15.
- Grosbois, C., Négrel, P., Grimaud, D. & Fouillac, C. (2001). An overview of dissolved and suspended matter fluxes in the Loire River basin: natural and anthropogenic inputs. Aquatic Geochemistry, 7: 81–105.
- Hall-Spencer, J.M. (1998). Conservation issues concerning the molluscan fauna of maerl beds. Journal of Conchology Special Publication, 2: 271–286.
- Hall-Spencer, J.M. & Moore, P.G. (2000). Scallop dredging has profound, long-term impacts on maerl habitats. ICES Journal of Marine Science, 57: 1407–1415.
- Hall-Spencer, J.M., Grall, J., Moore, P.G. & Atkinson, R.J.A. (2003). Bivalve fishing and maerl-bed conservation in France and the UK – retrospect and prospect. Aquatic Conservation: Marine and Freshwater Ecosystems, 13: S33–S41.
- Hall-Spencer, J.M., Kelly, J. & Maggs, C.A. (2008). Assessment of maerl beds in the OSPAR area and the development of a monitoring program. Department of the Environment, Heritage & Local Government (DEHLG), Ireland.
- Ichiki, S., Mizuta, H. & Yamamoto, H. (2000). Effects of irradiance, water temperature and nutrients on the growth of sporelings of the crustose coralline alga Lithophyllum yessoense Foslie (Corallinales, Rhodophyceae). Phycological Research, 48: 115–120.
- Jacquotte, R. (1962). Étude des fonds de maërl de Méditerranée. Recueil des Travaux de la station marine d’Endoume, 26: 141–235.
- Joubin, L. (1910). Recherches sur la distribution océanographique des végétaux marins dans la région de Roscoff. Annales de l’Institut Océanographique de Monaco, 1: 1–17.
- Lazure, P. & Dumas, F. (2008). An external–internal mode coupling for a 3D hydrodynamical model for applications at regional scale (MARS). Advances in Water Resources, 31: 233–250.
- Lemoine, P. (1910). Répartition et mode de vie du maërl (Lithothamnium calcareum) aux environs de Concarneau (Finistère). Annales de l’Institut océanographique, Paris, 1: 1–29.
- Marrack, E.C. (1999). The relationship between water motion and living rhodolith beds in the southwestern Gulf of California, Mexico. Palaios, 14: 159–171.
- Martin, S., Castets, M.D. & Clavier, J. (2006). Primary production, respiration and calcification of the temperate free-living coralline alga Lithothamnion corallioides. Aquatic Botany, 85: 121–128.
- Martin, S., Clavier, J., Chauvaud, L. & Thouzeau, G. (2007a). Community metabolism in temperate maerl beds. I. Carbon and carbonate fluxes. Marine Ecology Progress Series, 335: 19–29.
- Martin, S., Clavier, J., Chauvaud, L. & Thouzeau, G. (2007b). Community metabolism in temperate maerl beds. II. Nutrient fluxes. Marine Ecology Progress Series, 335: 31–41.
- Meihoub Berlandi, R., Figueiredo, M.A.O. & Paiva, P.C. (2012). Rhodolith morphology and the diversity of polychaetes off the Southeastern Brazilian Coast. Journal of Coastal Research, 28: 280–287.
- Méléder, V., Populus, J., Guillaumont, B., Perrot, T. & Mouquet, P. (2010). Predictive modelling of seabed habitats: case study of subtidal kelp forests on the coast of Brittany, France. Marine Biology, 157: 1525–1541.
- Ménesguen, A., Cugier, P., Loyer, S., Vanhoutte-Brunier, A., Hoch, T., Guillaud, J.-F. & Gohin, F. (2007). Two- or three-layered box models versus fine 3D models for coastal ecological modelling? A comparative study in the English Channel (Western Europe). Journal of Marine Systems, 64: 47–65.
- Ménesguen, A., Dussauze, M., Lecornu, F., Dumas, F. & Thouvenin, B. (2014). Operational modelling of nutrients and phytoplankton in the bay of Biscay and English Channel. Mercator Ocean – Quarterly Newsletter, 49: 87–92.
- Peña, V. & Bárbara, I. (2008). Maërl community in the north-western Iberian Peninsula: a review of floristic studies and long-term changes. Aquatic Conservation: Marine and Freshwater Ecosystems, 18: 339–366.
- Peña, V. & Bárbara, I. (2010). Seasonal patterns in the maërl community of shallow European Atlantic beds and their use as a baseline for monitoring studies. European Journal of Phycology, 45: 327–342.
- Przeslawski, R., Currie, D.R., Sorokin, S.J., Ward, T.M., Althaus, F. & Williams, A. (2011). Utility of a spatial habitat classification system as a surrogate of marine benthic community structure for the Australian margin. ICES Journal of Marine Science, 68: 1954–1962.
- Riul, P., Targino, C.H., Farias, J.N., Visscher, P.T. & Horta, P.A. (2008). Decrease in Lithothamnion sp. (Rhodophyta) primary production due to the deposition of a thin sediment layer. Journal of the Marine Biological Association of the United Kingdom, 88: 17–19.
- Sciberras, M., Rizzo, M., Mifsud, J.R., Camilleri, K., Borg, J.A., Lanfranco, E. & Schembri, P.J. (2009). Habitat structure and biological characteristics of a maerl bed off the northeastern coast of the Maltese Islands (central Mediterranean). Marine Biodiversity, 39: 251–264.
- Scoffin, T.P., Stoddart, D.R., Tudhope, A.W. & Woodroffe, C. (1985). Rhodoliths and coralliths of Muri Lagoon, Rarotonga, Cook Islands. Coral Reefs, 4: 71–80.
- Steller, D.L., Foster, M.S. (1995). Environmental factors influencing distribution and morphology of rhodoliths in Bahίa Concepciόn, B.C.S., Mexico. Journal of Experimental Marine Biology and Ecology, 194: 201–212.
- Steller, D.L., Riosmena-Rodrίguez, R., Foster, M.S. & Roberts, C.A. (2003). Rhodolith bed diversity in the Gulf of California: the importance of rhodolith structure and consequences of anthropogenic disturbances. Aquatic Conservation: Marine and Freshwater Ecosystems, 13: S5–S20.
- Teichert, S., Woelkerling, W., Rüggeberg, A., Wisshak, M., Piepenburg, D., Meyerhofer, M., Form, A., Büdenbender, J. & Freiwald, A. (2012). Rhodolith beds (Corallinales, Rhodophyta) and their physical and biological environment at 80º31’N in Nordkappbukta (Nordaustlandet, Svalbard Archipelago, Norway). Phycologia, 51: 371–390.
- Tolman, H.L. (2002). Distributed-memory concepts in the wave model WAVEWATCH III. Parallel Computing, 28: 35–52.
- Warwick, R.M. & Uncles, R.J. (1980). Distribution of benthic macrofauna associations in the Bristol Channel in relation to tidal stress. Marine Ecology Progress Series, 3: 97–103.
- Wilson, S., Blake, C., Berges, J.A. & Maggs, C.A. (2004). Environmental tolerances of free-living coralline algae (maerl): implications for European maerl conservation. Biological Conservation, 120: 283–293.