Habitat structure and biological characteristics of a maerl bed off the northeastern coast of the Maltese Islands (central Mediterranean)

Abelson A, Loya Y (1995) Cross-scale patterns of particulate food acquisition in marine benthic environments. Am Nat 145:848–854

Agnesi S, Annunziatellis A, Casese ML, Di Nora T, La Mesa G, Mo G, Pergent-Martini C, Tunesi L (2009) Analysis on the coralligenous assemblages in the Mediterranean Sea: a review of the current state of knowledge in support of future investigations. In: Pergnt-Martini C, Brichet M (eds) UNEP-MAP-RAC/SPA (2009) Proceedings of the 1st Mediterranean symposium on the conservation of the coralligeous and other calcareous bio-concretions (Tabarka, 15–16 January 2009). RAC/SPA publication, Tunis

Airoldi L, Beck MW (2007) Loss, status and trends for coastal marine habitats of Europe. Oceanogr Mar Biol Annu Rev 45:345–405

Amado-Filho GM, Maneveldt G, Manso RCC et al (2007) Structure of rhodolith beds from 4 to 55 meters deep along the southern coast of Espírito Santo State, Brazil. Cienc Mar 33:399–410

Archambault P, Bourget E (1999) Influence of shoreline configuration on spatial variation of meroplanktonic larvae, recruitment and diversity of benthic subtidal communities. J Exp Mar Biol Ecol 238:161–184

Ballesteros E (2006) Mediterranean coralligenous assemblages: a synthesis of present knowledge. Oceanogr Mar Biol Annu Rev 44:123–195

Barberá C, Valle C, Bordehore C, Patiño JL, Martínez MC, Sánchez-Jérez P, Ramos-Esplà AA (1999) Caracterización de los fondos de maërl y macrofauna asociada de la Reserva Marina de Tabarca (Alicante, SE Península Ibérica). In: BIOMAERL Team. Final Report (in 2 vols.), BIOMAERL project (Co-ordinator: P.G. Moore, University Marine Biological Station Millport, Scotland) EC Contract No. MAS3-CT95-0020, pp 1–541, 542–973 + appendix

Barberá C, Bordehore C, Borg JA, Glemarec M, Grall J, Hall-Spencer J, De La Huz C, Lanfranco E, Lastra M, Moore PG, Mora J, Pita ME, Ramos-Espla AA, Rizzo M, Sanchez-Mata A, Seva A, Schembri PJ, Valle C (2003) Conservation and management of northeast Atlantic and Mediterranean maerl beds. Aquat Conserv Mar Freshw Ecosyst 13(S1):S65–S76

BIOMAERL Team (1998) Maerl grounds: habitats of high biodiversity in European seas. In: Third European Marine Science & Technology Conference (Lisbon, 23-27 May 1998); Project Synopses, Vol. I: Marine Systems. European Commission DG 12 Science, Research and Development, Luxembourg; pp 169–178

BIOMAERL Team (1999) Final Report, BIOMAERL project (Coordinator: P.G. Moore, University Marine Biological Station Millport, Scotland) EC Contract No. MAS3-CT95-0020, (in 2 vols.) pp 1–541, 542–973 + appendix

Birkett DA, Maggs CA, Dring MJ (1998) An overview of dynamic and sensitivity characteristics for conservation management of marine SACs, Vol 5, Maerl [UK Marine SACs Project] Scottish Association for Marine Science, Scotland, pp 116

Black KP, Moran PJ (1991) Influence of hydrodynamics on the passive dispersal and initial recruitment of larvae of Acanthaster planci (Echinodermata: Asteroidea) on the Great Barrier Reef. Mar Ecol Prog Ser 69:55–65

Blake C, Maggs CA (2003) Comparative growth rates and internal banding periodicity of maerl species (Corallinales, Rhodophyta) from northern Europe. Phycol 42:606–612

Blott SJ, Pye K (2001) GRADISTAT: a grain size distribution and statistics package for the analysis of unconsolidated sediment. Earth Surf Proc Land 26:1237–1248

Bordehore C, Ramos-Espla AA, Riosmena-Rodriduez R (2003) Comparative study of two maerl beds with different otter trawling history, southeast Iberian Peninsula. Aquat Conserv Mar Freshw Ecosyst 13:S43–S54

Borg JA, Schembri PJ (2000) Bathymetric distribution of decapods associated with a Posidonia oceanica meadow in Malta (Central Mediterranean). In: Von Vaupel Klein JC, Schram FR (eds) The biodiversity crisis and Crustacea. [Crustacean Issues 12]. A.A.Balkerna, Rotterdam, pp 119–130

Borg JA, Howege HM, Lanfranco E et al (1998) The macrobenthic species of the infralittoral to circalittoral transition zone off the northeastern coast of Malta (Central Mediterranean). Xjenza 3:16–24

Borg JA, Lanfranco E, Mifsud JR, Rizzo M, Schembri PJ (1999) Does fishing have an impact on Maltese maerl grounds? In: BIOMAERL team (1999) Final Report (in 2 vols), BIOMAERL project (Co-ordinator: P.G. Moore, University Marine Biological Station Millport, Scotland), EC Contract No. MAS3-CT95-0020, pp 1–541, 542–973 + appendix

Bosellini A, Ginsburg RN (1971) Form and internal structure of recent algal nodules (rhodolites) from Bermuda. J Geol 79:669–682

Bosence DWJ (1976) Ecological studies on two unattached coralline algae from western Ireland. Palaeontology 19:365–395

Bosence D, Wilson J (2003) Maerl growth, carbonate production rates and accumulation rates in the northeast Atlantic. Aquat Conserv Mar Freshw Ecosyst 13:S21–S31

Buchanan JB, Kain JM (1971) Measurement of the physical and chemical environment. In: Holme NA, McIntyre AD (eds) Methods for the study of marine benthos, 2nd edn. Blackwell, Oxford, pp 30–35

Clarke KR, Warwick RM (2001) Change in marine communities: An approach to statistical analysis and interpretation. Plymouth Marine Laboratory, UK

Cusson M, Bourget E (1997) Influence of topographical heterogeneity and spatial scales on the structure of the neighbouring intertidal endobenthic macrofaunal community. Mar Ecol Prog Ser 150:181–193

Day JH (1967) A monograph on the Polychaeta of Southern Africa, Part 1: Errantia; Part 2: Sedentaria. Trustees of the British Museum (Natural History) London, xvii + pp 878

De Grave S (1999) The influence of sedimentary heterogeneity on within maerl bed differences in infaunal crustacean community. Estuar Coast Shelf Sci 49:153–163

De Grave S, Fazakerley H, Kelly L, Guiry MD, Ryan M, Walshe J (2000) A study of selected maerl beds in Irish waters and their potential for sustainable extraction. [Marine Resources Series 10]. Marine Institute, Dublin

De O Figueiredo MA, Santos de Menezes K, Costa-Paiva EM et al (2007) Experimental evaluation of rhodoliths as living substrata for infauna at the Abrolhos Bank, Brazil. Cienc Mar 33:427–440

Di Geronimo R, Giaccone G (1994) Le alghe calcaree nel detritico costiero di Lampedusa (Isole Pelagie). Boll Acad Gioenia Sci Nat 27:5–25

Dimech M, Borg JA, Schembri PJ (2004) Report on a video survey of an offshore area off Zonqor Point (south-eastern coast of Malta), made in April 2004 as part of baseline ecological surveys in connection with the establishment of an ‘aquaculture zone’. Report I - Preliminary video characterization. [Survey commissioned by the Malta Environment and Planning Authority]. Msida, Malta: Malta University Services Ltd; pp 14 + Figs 1–4 + video [2 DVDs]

Drago AF (1995) Development of a capability in physical oceanography for the Maltese Islands, MPhil upgrading report, Dept. of Oceanography, University of Southampton, UK

Eckman JE (1983) Hydrodynamic processes affecting benthic recruitment. Limnol Oceanogr 22:241–257

Fischer W, Bauchot ML, Schneider M (eds) (1987a) Fisches FAO d’identification des espèces pour les besoins de la pêche (Révision 1). Mediterranée et mer Noire. Zone de pêche 37. Volume I. Végétaux et Invertébrés. Food and Agriculture Organisation of the United Nation (FAO), Rome, pp 760

Fischer W, Bauchot ML, Schneider M (eds) (1987b) Fisches FAO d’identification des espèces pour les besoins de la pêche (Révision 1). Mediterranée et mer Noire. Zone de pêche 37. Volume II. Vertébrés. Food and Agriculture Organisation of the United Nation (FAO), Rome, pp 761–1530

Foster MS (2001) Rhodoliths: between rocks and soft places. J Phycol 37:659–667

Foster MS, McConnico LM, Lundsten L et al (2007) Diversity and natural history of a Lithothamnion muelleri-Sargassum horridum community in the Gulf of California. Cienc Mar 33:367–384

Freiwald A (1995) Sedimentological and biological aspects in the formation of branched rhodoliths in northern Norway. Beitr Paläontol 20:7–19

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

Gambi MC, Giangrande A, Martinelli M et al (1985) Polychaetes of a Posidonia oceanica bed off Sardinia (Italy): spatio-temporal distribution and feeding guild analysis. Sci Mar 59:129–141

Geyer WR, Signell R (1990) Measurements of tidal flow around a headland with a shipboard acoustic Doppler current profiler. J Geophys Res 95:3169–3197

Giaccone G (1972–1973) Elementi di botanica marina I e II. [Pubblicazioni dell’Istituto Botanico di Trieste. Serie Didattica]. Trieste, Italy, pp 358

Graham A (1988) Molluscs: prosobranch and pyramidellid gastropods. [Synopses of the British Fauna (New Series) No. 2]. Brill, Leiden. pp 662

Grall J, Glemarec M (1997) Biodiversite des fonds de maerl en Bretagne: approache fonctionnelle et impacts anthropogeniques. Vie Milieu 47:339–349

Grall J, Hall-Spencer JM (2003) Problems facing maerl conservation in Brittany. Aquat Conserv Mar Freshw Ecosyst 13:S55–S64

Grall J, Le Loc'h F, Guyonnet B et al (2006) Community structure and food web based on stable isotopes (δ15N and δ13C) analysis of a North Eastern Atlantic maerl bed. J Exp Mar Biol Ecol 338:1–15

Guichard F, Bourget E (1998) Topographic heterogeneity, hydrodynamics, and benthic community structure: a scale-dependent cascade. Mar Ecol Prog Ser 171:59–70

Hall-Spencer J (1998) Conservation issues relating to maerl beds as habitats for molluscs. J Conchol 2:S271–S286

Hall-Spencer JM, Moore PG (2000) Scallop dredging has profound long-term impacts on maerl habitats. ICES J Mar Sci 57:1407–1415

Hamel G, Lemoine M (1953) Corallinacóes de France et d’Afrique du Nord. Archs Mus Hist Nat, Pris, Ser 7, 1:15–136, 23 pl

Harris PT, Tsuji Y, Marshall JF et al (1996) Sand and rhodolith-gravel entrainment on the mid- to outer-shelf under a western boundary current: Fraser Island continental shelf, eastern Australia. Mar Geol 129:313–330

Hinojosa-Arango G, Riosmena-Rodriguez R (2004) Influence of rhodolith-forming species and growth-form on associated fauna of rhodolith beds in the Central-West Gulf of California, Mexico. Mar Ecol 25:109–127

Howege HM (1998) The structure of the molluscan assemblages of sea-grass beds in the Maltese Islands. PhD thesis, University of Malta

Hughes RN (1986) A functional biology of marine gastropods. Croom Helm, London

Jackson CM, Kamenos NA, Moore PG, Young M (2004) Meiofaunal bivalves in maerl and other substrata: their diversity and community structure. Ophelia 58:49–60

Jones CG, Lawton JH, Shachak M (1994) Organisms as ecosystem engineers. Oikos 69:373–386

Kamenos NA, Moore PG, Hall-Spencer JM (2004a) Maerl grounds provide both refuge and high growth potential for juvenile queen scallops (Aequipecten opercularis L.). J Exp Mar Biol Ecol 313:241–254

Kamenos NA, Moore PG, Hall-Spencer JM (2004b) Small-scale distribution of juvenile gadoids in shallow inshore waters: what role does maerl play? ICES J Mar Sci 61:422–429

Keegan BF (1974) The macrofauna of maerl substrates on the west coast of Ireland. Cah Biol Mar 15:513–530

Kohn AJ (1983) Feeding biology of gastropods. In: Saleuddin ASM, Wilbur KM (eds) The mollusca Vol. 5. Physiology, part 2. Academic, New York, pp 1–63

Krumbein WC (1941) Measurement and geological significance of shape and roundness of sedimentary particles. J Sediment Petrol 11:64–72

Littler MM, Littler DS, Hanisak MD (1991) Deep-water rhodolith distribution, productivity, and growth history at sites of formation and subsequent degradation. J Exp Mar Biol Ecol 150:163–182

Marrack EC (1999) The relationship between water motion and living rhodolith beds in southwestern Gulf of California, Mexico. Palaios 14:159–171

Marshall SM, Orr AP (1960) Feeding and nutrition. In: Waterman T H (ed) The physiology of Crustacea, Volume I: Metabolism and growth. Academic, New York

Martin S, Clavier J, Chauvaud L, Thouzeau G (2007) Community metabolism in temperate maerl beds. II. Nutrient fluxes. Mar Ecol Prog Ser 335:31–41

Massutí E, Reñones O, Carbonell A et al (1996) Demersal fish communities exploited on the continental shelf and slope off Majorca (Balearic Islands, NW Mediterranean). Vie Milieu 46:45–55

Menge BA (1976) Organization of the New England rocky intertidal community: Role of predation, competition, and environmental heterogeneity. Ecol Monogr 46:355–393

Menge BA, Lubchenco J, Ashkenas LR (1985) Diversity, heterogeneity and consumer pressure in a tropical rocky intertidal community. Oecologia 65:394–405

Morton B (1983) Feeding and digestion in Bivalvia. In: Saleuddin ASM, Wilbur KM (eds) The mollusca Vol. 5. Physiology, part 2. Academic, New York, pp 65–147

Nicol JAC (1967) The biology of marine animals. Wiley, New York

Peña V, Bárbara I (2008a) Biological importance of an Atlantic European maerl bed off Benencia Island (northwest Iberian Peninsula). Bot Mar 51:493–505

Peña V, Bárbara I (2008b) Maerl community in the north-west Iberian Peninsula: a review of floristic studies and long-term changes. Aquat Conserv Mar Freshw Ecosyst 18:339–366

Pérès JM (1967) The Mediterranean benthos. Oceanogr Mar Biol Annu Rev 5:449–533

Pérès JM (1982) Structure and dynamics of assemblages in the benthal. In: Kinne O (ed) Marine ecology Vol. 5, part 1. Wiley, New York, pp 119–185

Prager EJ, Ginsburg RN (1989) Carbonate nodule growth on Florida’s outer shelf and its implications for fossil interpretations. Palaios 4:310–317

Preda A (1908) Floridae. In: Flora Italica Cryptogoma Part 2: Algae. Roveca S. Coscione

Riul P, Targino CH, Da Nobrega Farias J et al (2008) Decrease in Lithothamnion sp. (Rhodophyta) primary production due to the deposition of a thin sediment layer. J Mar Biol Assoc UK 88:17–19

Riul P, Lacouth P, Pagliosa PR et al (2009) Rhodolith beds at the easternmost extreme of South America: Community structure of an endangered environment. Aquat Bot 90:315–320

Rowe GA, Sheader M, Jensen AC (1990) The infauna of the Handfast Point maerl bed [Report No. SUDO/TEC/90/16C] Nature Conservancy Council, Peterborough, pp 57

Scipione MB (1999) Amphipod biodiversity in the foliar stratum of shallow-water Posidonia oceanica beds in the Mediterranean Sea. In: Schram F R, von Vupel Klein J C (eds) Crustaceans and the biodiversity crisis. Proceedings of the 4th International Crustacean Congress, Amsterdam, July 20–24, pp 649–662

Steller DL, Foster MS (1995) Environmental factors influencing distribution and morphology of rhodoliths in Bahía Concepción, B.C.S., México. J Exp Mar Biol Ecol 194:201–212

Steller DL, Riosmena-Rodríguez R, Foster MS et al (2003) Rhodolith bed diversity in the Gulf of California: the importance of rhodolith structure and consequences of anthropogenic disturbances. Aquat Conserv Mar Freshw Ecosyst 13:S5–S20

Steller DL, Hernández-Ayón JM, Riosmena-Rodríguez R et al (2007) Effect of temperature on photosynthesis, growth and calcification rates of the free-living coralline alga Lithophyllum margaritae. Cienc Mar 33:441–456

Steneck RS (1986) The ecology of coralline algal crusts: convergent patterns and adaptive strategies. Annu Rev Ecol Syst 17:273–303

Vidondo B, Duarte CM (1995) Seasonal growth of Codium bursa, a slow-growing Mediterranean macroalga: in situ experimental evidence of nutrient limitation. Mar Ecol Prog Ser 123:185–191

Wilson S, Blake C, Berges JA et al (2004) Environmental tolerances of free-living coralline algae (maerl): Implications for European marine conservation. Biol Conserv 120:279–289

Wolanski E, Hamner WM (1988) Topographically controlled fronts in the ocean and their biological influence. Science 241:177–181