Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-20T06:24:13.411Z Has data issue: false hasContentIssue false

Biodiversity and spatio-temporal changes of benthic and demersal assemblages of circalittoral soft bottoms of the Bay of Málaga (northern Alboran Sea)

Published online by Cambridge University Press:  26 September 2019

Elena Moya-Urbano*
Affiliation:
Universidad de Málaga, Campus de Teatinos s/n, 29071 Málaga, Spain
Javier Urra
Affiliation:
Instituto Español de Oceanografía, C.O. Málaga. Muelle Pesquero s/n, 29640 Fuengirola, Málaga, Spain
Pablo Marina
Affiliation:
Instituto Español de Oceanografía, C.O. Málaga. Muelle Pesquero s/n, 29640 Fuengirola, Málaga, Spain
Marina Gallardo-núñez
Affiliation:
Instituto Español de Oceanografía, C.O. Málaga. Muelle Pesquero s/n, 29640 Fuengirola, Málaga, Spain
J. Enrique García Raso
Affiliation:
Universidad de Málaga, Campus de Teatinos s/n, 29071 Málaga, Spain
Patricia Bárcenas
Affiliation:
Instituto Español de Oceanografía, C.O. Málaga. Muelle Pesquero s/n, 29640 Fuengirola, Málaga, Spain
José M. Serna Quintero
Affiliation:
Instituto Español de Oceanografía, C.O. Málaga. Muelle Pesquero s/n, 29640 Fuengirola, Málaga, Spain
Ana Giráldez
Affiliation:
Instituto Español de Oceanografía, C.O. Málaga. Muelle Pesquero s/n, 29640 Fuengirola, Málaga, Spain
Teresa García
Affiliation:
Instituto Español de Oceanografía, C.O. Málaga. Muelle Pesquero s/n, 29640 Fuengirola, Málaga, Spain
Jorge Baro
Affiliation:
Instituto Español de Oceanografía, C.O. Málaga. Muelle Pesquero s/n, 29640 Fuengirola, Málaga, Spain
José L. Rueda
Affiliation:
Instituto Español de Oceanografía, C.O. Málaga. Muelle Pesquero s/n, 29640 Fuengirola, Málaga, Spain
*
Author for correspondence: Elena Moya-Urbano, E-mail: [email protected]

Abstract

The Bay of Málaga is located in a high biodiversity and productivity area that harbours a wide variety of commercial species exploited by different fishing fleets. Benthic and demersal fauna from circalittoral soft bottoms have been studied using a benthic dredge (BD) (8 sampling stations) and an otter trawl (OT) (8 sampling stations on a seasonal basis). Some sediment and water column variables, as well as the trawling activity, have also been studied and used for analysing their linkage with the fauna. A total of 287 species have been found in these bottoms and fish, molluscs and crustaceans represented the most diverse and abundant faunistic groups. A new record of the decapod Hippolyte leptometrae for Spanish waters is also included in this study. Some multivariate analyses using BD samples indicated the presence of three assemblages, but these seem to represent different facies of a single benthic community due to the absence of acute sediment changes and significant differences in the fauna. OT samples only displayed differences related to seasons but not to sediment types or depth. These seasonal differences seem to be linked to biological and ecological features of both dominant and/or commercial species. Mud and organic matter contents (%OM) in sediment, as well as the temperature, were the main variables linked to the spatial distribution of the benthic community identified with BD, whereas medium and coarse sand as well as gravel contents were the main variables linked to the changes of the epibenthic and demersal assemblage resulting from OT samples. The information of this study is of importance for improving the knowledge on the biodiversity of circalittoral soft bottoms of the Mediterranean and Alboran Sea as well as for the potential creation of a Marine Fisheries Reserve in the Bay of Málaga.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2019 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abad, R and Giráldez, A (1990) Descripción de la pesca de cerco surmediterránea. Informe Técnico del Instituto Español de Oceanografía, 86 pp.Google Scholar
Abad, E, Preciado, I, Serrano, A and Baro, J (2007) Demersal and epibenthic assemblages of trawlable grounds in the northern Alboran Sea (western Mediterranean). Scientia Marina 71, 513524.Google Scholar
Arévalo, L and García, J (1983) Corrientes de la costa de Málaga. Métodos y Resultados. Informe Técnico del Instituto Español de Oceanografía 13.Google Scholar
Baeta, M, Ramón, M and Galimany, E (2014) Decline of a Callista chione (Bivalvia: Veneridae) bed in the Maresme coast (northwestern Mediterranean Sea). Ocean & Coastal Management 93, 1525.Google Scholar
Baro, J, Serna-Quintero, JM, García, T, Giráldez, A, Marina, P, Rueda, JL, Gallardo-Núñez, M, Moya, E, Laiz-Carrión, R and García, A (2015) Distribución espacial de flotas pesqueras en una futura Reserva de pesca en la bahía de Málaga (Noroeste del Mar de Alborán). In Díaz del Río V, Bárcenas P, Fernández-Salas LM, López-González N, Palomino D, Rueda JL, Sánchez-Guillamón O and Vázquez JT (eds), Volumen de Comunicaciones presentadas en el VIII Simposio sobre el Margen Ibérico Atlántico, Málaga, 21–23 September 2015. Ediciones Sia Graf, pp. 333–336.Google Scholar
Bolam, SG, Eggleton, J, Smith, R, Mason, C, Vanstaen, K and Rees, H (2008) Spatial distribution of macrofaunal assemblages along the English Channel. Journal of the Marine Biological Association of the United Kingdom 88, 675687.Google Scholar
Bertrand, J, Gil de Sola, L, Papaconstantinou, C, Relini, G and Souplet, A (2002) The general specifications of the MEDITS surveys. Scientia Marina 66, 917.Google Scholar
Bray, JR and Curtis, JT (1957) An ordination of upland forest communities of southern Wisconsin. Ecological Monographs 27, 325349.Google Scholar
Camiñas, JA, Baro, J and Abad, R (2004) La pesca en el Mediterráneo andaluz. Málaga: Fundación UNICAJA.Google Scholar
Cano, N and García Lafuente, J (1991) Corrientes en el litoral malagueño. Baja frecuencia. Boletín del Instituto Español de Oceanografía 7, 5977.Google Scholar
Cano, J and García, MT (1982) Resultados preliminares del estudio del bentos en la bahía de Málaga. Oecologia Aquatica 6, 107117.Google Scholar
Carpine, C and Grasshoff, M (1975) Les gorgonaires de la Mediterranée. Bulletin de l'Institut Océanographique de Monaco 71, 1140.Google Scholar
Catalán, IA, Jiménez, MT, Alconchel, JI, Prieto, L and Muñoz, JL (2006) Spatial and temporal changes of coastal demersal assemblages in the Gulf of Cadiz (SW Spain) in relation to environmental conditions. Deep-Sea Research I 53, 14021419.Google Scholar
Clarke, KR and Warwick, RM (2001) Change in Marine Communities: An Approach to Statistical Analysis and Interpretation. Plymouth: Primer-E.Google Scholar
Collie, JS, Hall, SJ, Kaiser, MJ and Poiner, IR (2000) A quantitative analysis of fishing impacts on shelf-sea benthos. Journal of Animal Ecology 69, 785798.Google Scholar
Cortés, D, Gil, J and Garcia, A (1985) General distribution of chlorophyll, temperature and salinity in the northwest sector of the Alboran Sea (August, 1982). Rapport Commission Institute Mer Méditerranée 29, 135136.Google Scholar
Cosentino, A and Giacobbe, S (2008) Distribution and functional response of sublittoral soft bottom assemblages to sedimentary constraints. Estuarine, Coastal and Shelf Science 79, 263276.Google Scholar
Damalas, D, Maravelias, DC, Katsanevakis, S, Karageorgis, PA and Papaconstantinou, C (2010) Seasonal abundance of non-commercial demersal fish in the Eastern Mediterranean Sea in relation to hydrographic and sediment characteristics. Estuarine, Coastal and Shelf Science 89, 107118.Google Scholar
Dannheim, J, Brey, T, Schröder, A, Mintenbeck, K, Knust, R and Arntz, WE (2014) Trophic look at soft-bottom communities – short-term effects of trawling cessation on benthos. Journal of Sea Research 85, 1828.Google Scholar
De Juan, S and Demestre, M (2012) A Trawl Disturbance Indicator to quantify large scale fishing impact on benthic ecosystems. Ecological Indicators 18, 183190.Google Scholar
De la Cruz, JA, Hernández-Molina, FJ and Vázquez, JT (1992) La sedimentación reciente en el margen continental septentrional del mar de Alborán, entre Benalmádena y Benajarafe (Málaga). III Congreso Geológico de España y VIII Congreso Latinoamericano de Geología, Salamanca, Actas Tomo 2, pp. 141–145.Google Scholar
Ekman, S (1953) Zoogeography of the Sea. London: Sidgwick and Jackson.Google Scholar
Froglia, C, Gramito, ME, Martinelli, M and Betulla, ME (2017) Long term changes in the Decapod crustaceans assemblage in the western meso-Adriatic depression (Pomo pit). The Crustacean Society Mid-Year Meeting, 19–22 June, 2017. O-20.Google Scholar
Gaertner, JC, Mazouni, N, Sabatier, R and Millet, B (1999) Spatial structure and habitat associations of demersal assemblages in the Gulf of Lions: a multi-compartmental approach. Marine Biology 135, 199208.Google Scholar
García, A and Camiñas, JA (1985) Coastal variability of zooplankton biomass in the Northwestern sector of Alboran Sea. Rapport Commission Institute Mer Méditerranéenne 29, 135136.Google Scholar
García Muñoz, JE, Manjón-Cabeza, ME and García Raso, JE (2008) Decapod crustacean assemblages from littoral bottoms of the Alborán Sea (Spain, west Mediterranean Sea): spatial and temporal variability. Scientia Marina 72, 437449.Google Scholar
García Raso, JE, Gofas, S, Salas Casanova, C, Manjón-Cabeza, ME, Urra, J and García Muñoz, JE (2010 a) El mar más rico de Europa: Biodiversidad del litoral occidental de Málaga entre Calaburras y Calahonda. Sevilla: Consejería de Medio Ambiente.Google Scholar
García Raso, JE, Salas, C, García Muñóz, JE and Gofas, S (2010 b) Biodiversidad faunística en el litoral Malagueño. Jábega 102, 1830.Google Scholar
Gofas, S, Salas, C, Rueda, JL, Canoura, J, Farias, C and Gil, J (2014) Mollusca from a species-rich deep-water community in the Alboran Sea. Scientia Marina 78, 537553.Google Scholar
Goñi, R (1998) Ecosystem effects of marine fisheries: an overview. Ocean & Coastal Management 40, 3764.Google Scholar
Gray, JS (2002) Species richness of marine soft sediments. Marine Ecology Progress Series 244, 285297.Google Scholar
Hall, SJ (1999) The Effects of Fishing on Marine Ecosystems and Communities. Oxford: Blackwell Science.Google Scholar
IEO-MAGRAMA (2012) Estrategia Marina Demarcación Marina del Estrecho y Alborán. Parte 4: Descriptores del buen estado ambiental. Descriptor 1: Biodiversidad. Evaluación inicial y buen estado ambiental. Ministerio de Agricultura, Alimentación y Medio Ambiente, Secretaría General Técnica, Centro de Publicaciones, 615 pp. Available at http://www.magrama.gob.es/es/costas/temas/estrategias-marinas/.Google Scholar
Iglesias, M and Morales-Nin, B (2001) Life cycle of the pelagic goby Aphia minuta (Pisces: Gobiidae). Scientia Marina 65, 183192.Google Scholar
Jennings, S and Kaiser, MJ (1998) The effects of fishing on marine ecosystems. Advances in Marine Biology 34, 201352.Google Scholar
Junta de Andalucía (2001) Especies de interés pesquero en el litoral de Andalucía. Sevilla: Consejería de Agricultura y Pesca. Vol. I: 388 pp. Vol. II: 210 pp.Google Scholar
Kaiser, MJ, Clarke, RK, Hinz, H, Austen, MCV, Somerfield, PJ and Karakassis, I (2006) Global analysis of response and recovery of benthic biota to fishing. Marine Ecology Progress Series 311, 114.Google Scholar
Kordas, RL, Harley, CDG and O'Connor, MI (2011) Community ecology in a warming world: the influence of temperature on interspecific interactions in marine systems. Journal of Experimental Marine Biology and Ecology 400, 218226.Google Scholar
Koulori, P, Dounas, C, Arvanitidis, C, Koutsoubas, D and Eleftheriou, A (2006) Molluscan diversity along a Mediterranean soft bottom sublittoral ecotone. Scienta Marina 70, 573583.Google Scholar
Krebs, CJ (1989) Ecological Methodology. New York, NY: Harper & Row.Google Scholar
Labrune, C, Grémare, A, Amouroux, JM, Sardá, R, Gil, J and Taboada, S (2008) Structure and diversity of shallow soft bottom benthic macrofauna in the Gulf of Lions (NW Mediterranean). Helgoland Marine Research 62, 201214.Google Scholar
Ledoyer, M (1969) Remarques sur les Hippolytidae des côtes de Provence et description de Hippolyte leptometrae n. sp. Tethys 1, 341348.Google Scholar
Lopes, M, Murt, AG and Cabral, HN (2006) The ecological significance of the zooplanktivores, snipefish Macroramphosus spp. and boarfish Capros aper, in the food web of the south-east North Atlantic. Journal of Fish Biology 69, 363378.Google Scholar
Lourido, A, Gestoso, L and Troncoso, JS (2006) Assemblages of the molluscan fauna in subtidal soft bottoms of the Ría de Aldán (north-western Spain). Journal of the Marine Biological Association of the United Kingdom 86, 129140.Google Scholar
Luque, ÁA (1983) Contribución al conocimiento de los Gasterópodos de las costas de Málaga y Granada I, Opistobranquios. Iberus 3, 5174.Google Scholar
Luque, ÁA (1986) Contribución al conocimiento de los Gasterópodos de las costas de Málaga y Granada II, Prosobranquios. Iberus 6, 7994.Google Scholar
Marina, P, Tendero, G, Rodríguez, JM, Laiz, R, Serna-Quintero, JM, García, A and Baro, J (2014) Estudio de la comunidad ictioplanctónica durante la época de reproducción de la sardina (Sardina pilchardus) en la Bahía de Málaga (Sur de España). In Ríos P, Suárez LAand Cristobo J (eds). XVIII Simposio Ibérico de Estudios de Biología Marina, Gijón (Spain), 2–5 September 2014. Libro de resúmenes. Centro Oceanográfico de Gijón, pp. 96–97.Google Scholar
Marina, P, Rueda, JL, Urra, J, Salas, C, Gofas, S, García Raso, JE, Moya, F, García, T, López-González, N, Laiz-Carrión, R and Baro, J (2015) Sublittoral soft bottom assemblages within a Marine Protected Area of the northern Alboran Sea. Journal of the Marine Biological Association of the United Kingdom 95, 871884.Google Scholar
Martins, R, Quintino, V and Rodrigues, AM (2013) Diversity and spatial distribution patterns of the soft-bottom macrofauna communities on the Portuguese continental shelf. Journal of Sea Research 83, 173186.Google Scholar
Massutí, E and Reñones, O (2005) Demersal resource assemblages in the trawl fishing grounds off the Balearic Islands (Western Mediterranean). Scientia Marina 69, 167181.Google Scholar
Massutí, E, Reñones, O, Carbonell, A and Oliver, P (1996) Demersal fish communities exploited on the continental shelf and slope off Majorca (Balearic Islands, NW Mediterranean). Vie et Milieu 46, 4555.Google Scholar
Mastrototaro, F, Giove, A, D'Onghia, G, Tursi, A, Matarrese, A and Gadaleta, MV (2008) Benthic diversity of the soft bottoms in a semi-enclosed basin of the Mediterranean Sea. Journal of the Marine Biological Association of the United Kingdom 88, 247252.Google Scholar
Moreira, J, Quintas, P and Troncoso, JS (2005) Distribution of the molluscan fauna in subtidal soft bottoms of the Ensenada de Baiona (NW Spain). American Malacological Bulletin 20, 7586.Google Scholar
Muñóz, M, Reul, A, Plaza, F, Gómez-Moreno, ML, Vargas-Yañez, M, Rodríguez, V and Rodríguez, J (2015) Implication of regionalization and connectivity analysis for marine spatial planning and coastal management in the Gulf of Cadiz and Alboran Sea. Ocean & Coastal Management 118, 6074.Google Scholar
Parrilla, G and Kinder, TH (1987) Oceanografía física del mar de Alborán. Boletín del Instituto Español de Oceanografía 4, 133165.Google Scholar
Pérès, JM and Picard, J (1964) Nouveau manuel de bionomie benthique de la Mediterranée. Recueil des travaux de la Station Marine d’Éndoume 31, 1137.Google Scholar
Pielou, EC (1969) An Introduction to Mathematical Ecology. New York, NY: Wiley-Interscience.Google Scholar
Pierce, GJ, Allcock, L, Bruno, I, Bustamante, P, González, Á, Guerra, Á and Jereb, P (2010) Cephalopod Biology and Fisheries in Europe. ICES Cooperative Research Report 303, 175 pp.Google Scholar
Ramírez, T, Cortés, D, Mercado, JM, Vargas-Yañez, M, Sebastián, M and Liger, E (2005) Seasonal dynamics of inorganic nutrients and phytoplankton biomass in the NW Alboran Sea. Estuarine, Coastal and Shelf Science 65, 654670.Google Scholar
Reina-Hervás, JA and Serrano, P (1987 a) Ictiofauna infralitoral de la costa Mediterránea Andaluza: 11. Bahía de Fuengirola (Málaga, España). Miscelanea Zoologica 11, 233242.Google Scholar
Reina-Hervás, JA and Serrano, P (1987 b) Structural and seasonal variations of inshore fish populations in Málaga bay, southeastern Spain. Marine Biology 95, 501508.Google Scholar
Reul, A, Rodríguez, V, Jiménez-Gomez, F, Blanco, JM, Bautista, B, Sarhan, T, Guerrero, F, Ruíz, J and García-Lafuente, J (2005) Variability in the spatio-temporal distribution and size-structure of phytoplankton across an upwelling area in the NW-Alboran Sea (W-Mediterranean). Continental Shelf Research 25, 589608.Google Scholar
Robles, R (2010) Conservación y desarrollo sostenible del mar de Alborán/Conservation et développement durable de la mer d'Alboran. Gland and Málaga: IUCN.Google Scholar
Rodríguez, J, García, A and Rodríguez, V (1982) Zooplanktonic communities of the divergence zone in the Northwestern Alboran Sea. Marine Ecology 3, 133142.Google Scholar
Rueda, JL, Marina, P, Urra, J and Salas, C (2009) Changes in the composition and structure of a molluscan assemblage due to eelgrass loss in southern Spain (Alboran Sea). Journal of the Marine Biological Association of the United Kingdom 89, 13191330.Google Scholar
Rueda, JL, Urra, J, Marina, P, Mateo, A and Reina-Hervás, JA (2010) Especies africanas en las costas de Andalucía: un patrimonio natural único en el ámbito europeo. Quercus 293, 2430.Google Scholar
Ruiz-Pico, S, Serrano, A, Punzón, A, Altuna, A, Fernández-Zapico, O and Velasco, F (2017) Sea pen (Pennatulacea) aggregations on the northern Spanish shelf: distribution and faunal assemblages. Scientia Marina 81, 413423.Google Scholar
Salas, C (1996) Marine bivalves from off the Southern Iberian Peninsula collected by the Balgim and Fauna 1 expeditions. Haliotis 25, 33100.Google Scholar
Salas, C, García Raso, JE and López-Ibor, A (1984) Estudio del macrobentos infralitoral (Mollusca, Crustacea decapoda y Echinodermata) de la Bahía de Málaga (España). Proceedings of the IV Simposio Ibérico de Estudos do Bentos Marinho, Lisboa, 21–25 Mayo de 1984. Vol. 1, pp. 123–146.Google Scholar
Sarhan, T, García-Lafuente, J, Vargas, JM and Plaza, F (2000) Upwelling mechanisms in the northwestern Alboran Sea. Journal of Marine Systems 23, 317331.Google Scholar
Smyth, K and Elliott, M (2016) Effects of changing salinity on the ecology of the marine environment. In Solan, M and Whiteley, NM (eds), Stressors in the Marine Environment: physiological and ecological responses; societal implications. Oxford: Oxford University Press, pp. 161174.Google Scholar
Snelgrove, PVR (1998) The biodiversity of macrofaunal organisms in marine sediments. Biodiversity Conservation 7, 11231132.Google Scholar
Snelgrove, P (1999) Getting to the bottom of marine biodiversity: sedimentary habitats: ocean bottoms are the most widespread habitat on Earth and support high biodiversity and key ecosystem services. Bioscience 49, 129138.Google Scholar
Snelgrove, PV and Butman, CA (1994) Animal–sediment relationships revisited: causes vs effect. Oceanography and Marine Biology: An Annual Review 32, 111177.Google Scholar
Somaschini, A, Martini, N, Gravina, MF, Belluscio, A, Corsi, F and Ardizzone, GD (1998) Characterization and cartography of some Mediterranean soft-bottom communities (Ligurian Sea, Italy). Scientia Marina 62, 2736.Google Scholar
Templado, J (2011) La diversidad marina en España. In Viejo JL (ed.), Biodiversidad: aproximación a la diversidad botánica y zoológica en España. Memoria Real Sociedad Española de Historia Natural, Segunda época, Tomo IX, Madrid, pp. 343–362.Google Scholar
Templado, J, Guerra, A, Bedoya, J, Moreno, D, Remón, JM, Maldonado, M and Ramos, MA (1993) Fauna marina circalitoral del sur de la Península Ibérica. Resultados de la campaña Oceanográfica “Fauna I”. Museo Nacional de Ciencias Naturales – CSIC, pp. 1–135.Google Scholar
Tillin, HM, Hiddink, JG, Jennings, S and Kaiser, MJ (2006) Chronic bottom trawling alters the functional composition of benthic invertebrate communities on a sea-basin scale. Marine Ecology Progress Series 318, 3145.Google Scholar
Tudela, S (2004) Ecosystem effects of fishing in the Mediterranean: an analysis of the major threats of fishing gear and practices to biodiversity and marine habitats. General Fisheries Commission for the Mediterranean. Studies and Reviews, no. 74, 44 pp.Google Scholar
Udekem d'Acoz, Cd (1996) The genus Hippolyte Leach, 1814 (Crustacea: Decapoda: Caridea: Hippolytidae) in the East Atlantic Ocean and the Mediterranean Sea, with a checklist of all species in the genus. Zoologische Verhandelingen 303, 1133.Google Scholar
Udekem d'Acoz, Cd (2007) New records of Atlantic Hippolyte, with the description of two new species, and a key to all Atlantic and Mediterranean species (Crustacea, Decapoda, Caridea). Zoosystema 29, 183207.Google Scholar
Urra, J, Gofas, S, Rueda, JL and Marina, P (2011) Molluscan assemblages in littoral soft bottoms of the Alboran Sea (Western Mediterranean Sea). Marine Biology Research 7, 2742.Google Scholar
Urra, J, Marina, P, Salas, C, Gofas, S and Rueda, JL (2013) Seasonal dynamics of molluscan assemblages associated with littoral soft bottoms of the NW Alboran Sea (Western Mediterranean Sea). Marine Biology Research 9, 645660.Google Scholar
Urra, J, Gofas, S, Rueda, JL, Marina, P, Mateo-Ramírez, Á, Antit, M and Salas, C (2017) Biodiversity and biogeographical patterns of molluscan assemblages in vegetated and unvegetated habitats in the northern Alboran Sea (W Mediterranean Sea). Marine Biodiversity 47, 187201.Google Scholar
Van Hoey, G, Degraer, S and Vincx, M (2003) Macrobenthic community structure of soft-bottom sediments at the Belgian Continental Shelf. Estuarine, Coastal and Shelf Science 59, 599613.Google Scholar
Van Hoey, G, Borja, A, Birchenough, S, Buhl-Mortensen, L, Degraer, S, Fleischer, D, Kerckhof, F, Magni, P, Muxika, I, Reiss, H, Schröder, A and Zettler, ML (2010) The use of benthic indicators in Europe: from the Water Framework Directive to the Marine Strategy Framework Directive. Marine Pollution Bulletin 60, 21872196.Google Scholar
Vargas-Yáñez, M, García Martinez, MC, Moya, F, Tel, E, Parrilla, G, Plaza, F, Lavín, A, García, MJ, Salat, J, López-Jurado, JL, Pascual, J, García Lafuente, J, Gomis, D, Álvarez, E, García Sotillo, M, González Pola, C, Polvorinos, F, Fraile Nuez, E, Fernandez de Puelles, ML and Zunino, P (2010) Cambio climático en el Mediterráneo español, 2nd edition. Madrid: Instituto Español de Oceanografía.Google Scholar
Wentworth, CK (1922) A scale of grade and class terms for clastic sediments. Journal of Geology 30, 377392.Google Scholar
Wildish, DJ (1977) Factors controlling marine and estuarine sublittoral macrofauna. Helgoländer wissenschaftliche Meeresuntersuchungen 30, 445454.Google Scholar
Wilson, WH (1991) Competition and predation in marine soft-sediment communities. Annual Review of Ecology and Systematics 21, 221241.Google Scholar
Witman, JD, Cusson, M, Archambault, P, Pershing, AJ and Mieszkowska, N (2008) The relation between productivity and species diversity in temperate–arctic marine ecosystems. Ecology 89, 6680.Google Scholar
Zavodnik, D, Vidakovic, J and Amoureux, L (1985) Contribution to sediment macrofauna in the area of Rovinj (North Adriatic Sea). Cahiers de Biologie Marine 26, 431444.Google Scholar
Zenetos, A, Christianidis, S, Pancucci, MA, Simboura, N and Tziavos, C (1997) Oceanologic study of an open coastal area in the Ionian Sea with emphasis on its benthic fauna and some zoogeographical remarks. Oceanologica Acta 20, 437451.Google Scholar
Supplementary material: File

Moya-Urbano et al. supplementary material

Moya-Urbano et al. supplementary material

Download Moya-Urbano et al. supplementary material(File)
File 463.9 KB