Subtidal soft-bottom macroinvertebrate communities of the Canary Islands. An ecological approach

Monterroso, Oscar; Riera, Rodrigo; Núñez, Jorge

Abstracts

The Canarian archipelago is characterized by a mosaic of soft-bottoms such as Cymodocea nodosa meadows, Caulerpa spp. meadows, mäerl bottoms, sabellid fields and bare sandy seabeds, including various macroinfaunal communities. Vegetated habitats (e.g. Cymodocea and Caulerpa) maintain more diverse communities than the non-vegetated seabeds. The results indicated that Caulerpa meadows and, to a lesser extent, Cymodocea nodosa and sabellid fields are the richest and most diverse ecosystems in the study area. Moreover, biodiversity differences among islands could be detected with maximum values on the eastern islands (Lanzarote and Gran Canaria) and lowest values on the western ones (La Palma).

Soft-bottoms; meadows; Cymodocea; Caulerpa; macrofauna; Canary Islands; Atlantic Ocean

O arquipélago das Canárias é caracterizado por um mosaico de fundos inconsolidados contendo bancos de Cymodocea nodosa, Caulerpa spp., fundos calcários, bancos de sabelídeos e sedimento não biogênico, que abrigam diferentes comunidades da macrofauna. Ambientes vegetados (Cymodocea e Caulerpa) possuem comunidades mais diversificadas quando comparados aos ambientes de fundos não vegetados. Os resultados do presente estudo indicaram que os bancos de Caulerpa, primeiramente, e em seguida os bancos de Cymodocea nodosa e de sabelídeos, formam os sistemas mais ricos e diversificados da área. Além disso, puderam também ser detectadas diferenças de biodiversidade entre as ilhas do arquipélago, sendo os valores mais altos localizados nas ilhas ao leste (Lanzarote e Gran Canaria) e os menores nas ilhas à oeste (La Palma).

Fundos inconsolidados; baixios vegetados; Cymodocea; Caulerpa; macrofauna; Ilhas Canárias; Oceano Atlântico

ARGYROU M.; DEMETROPOULOS, A.; HADJICHRISTOPHOROU, M. Expansion of the macroalga Caulerpa raemosa and changes in soft-bottom macrofaunal communities in Moni Bay, Cyprus. Oceanologica Acta, v. 22, n. 5, p. 517-528, 1999.
BARTON E. D.; ARÍSTEGUI, J.; TETT, P.; CANTÓN, M.; GARCÍA-BRAUN, J.; HERNÁNDEZ-LEÓN, S.; NYKJAER. L.; ALMEIDA, C.;ALMUNIA, J.; BALLESTEROS, S.; BASTERRETXEA, G.; ESCÁNEZ, J.; GARCÍA-WEILL, L.; HERNÁNDEZ-GUERRA, A.; LÓPEZ-LAATZEN, F.; MOLINA, R.; MONTERO, M. F.; NAVARRO-PÉREZ, E.; RODRÍGUEZ, J. M.; VAN LENNING, K.;VÉLEZ, ; WILD, K. The transition zone of the Canary Current upwelling region. Progr. Oceanogr., v. 41, p. 455-504, 1998.
BELLAN-SANTINI, D.; ARNAUD, P. M.; BELLAN, G.; VERLAQUE, M. The influence of the introduced tropical alga Caulerpa taxifolia, on the biodiversity of the Mediterranean marine biota. J. mar. biol. Ass. U. K., v. 76, p. 235-237, 1996.
BRITO, M. C.; NÚÑEZ, J.; MARTÍN, D. Polychaetes associated to a Cymodocea nodosa meadow in the Canary Islands: community structure, temporal variability and vertical distribution compared to other Mediterranean seagrass meadows. Mar. Biol., v.146, p. 467-481, 2005.
CLARKE, K. R. Non-parametric multivariate analyses of changes in community structure. Aust. J. Ecol., v. 18, p. 117-143, 1993.
CLARKE, K. R.; WARWICK, R. M. Changes in marine communities: an approach to statistical analysis and interpretation. Plymouth: Plymouth Marine Laboratory, U.K., 1994. 144 p.
GIANGRANDE, C.; GAMBI, M. C. Polychètes d'une pelouse de Cymodocea nodosa (Ucria) Aschers du Golfe du Salerno (Mer Tyrrhénienne). Vie Milieu, v. 36, p.185-190, 1986.
HERRANDO-PÉREZ, S.; SAN MARTÍN, G.; NÚÑEZ, J. Polychaete patterns from an oceanic island in the Eastern Central Atlantic: La Gomera (Canary archipelago). Cah. Biol. mar., v. 42, n. 3, p. 275-287, 2001.
LANERA, P.; GAMBI, M. C. Polychaete distribution in some Cymodocea nodosa meadows around the Island of Ischia (Gulf of Naples Italy). Oebalia, v. 19, p. 89-103, 1993.
LÓPEZ DE LA ROSA, I.; GARCÍA-RASO, J. E; RODRÍGUEZ, A. Evolution of a decapod community (Crustacea) of shallow soft bottoms with seaweeds from southern Europe. J. mar. biol. Ass U. K., v. 82, p. 85-95, 2002.
MONTERROSO, O.; NÚÑEZ, J.; RIERA, R. Macrofauna de fondos blandos en las concesiones de acuicultura de la bahía de Igueste de San Andrés, Tenerife. Revta Acad. Canaria Cienc., v. 15, n.3/4, p. 77-86, 2004.
PAVÓN-SALAS, N.; HERRERA, R.; HERNÁNDEZ-GUERRA, A.; HAROUN R.J. Distributional pattern of seagrasses in the Canary Islands (Central-East Atlantic Ocean). J. coast. Res, v. 16, p. 329-335, 2000.
REYES, J.; SANSÓN, M.; CARRILLO, A. Leaf phenology, growth and production of the seagrass Cymodocea nodosa at El Médano (South of Tenerife, Canary Islands). Botanica mar., v. 38, p. 457-465, 1995.
SÁNCHEZ-MOYANO, E. M.; GARCÍA-ADIEGO, F. J.; ESTACIO, F.; GARCÍA-GÓMEZ, J. C. Influence of the density of Caulerpa prolifera (Chlorophyta) on the composition o the macrofauna in a meadow in Algeciras bay (Southern Spain). Ciencias mar., v. 27, n. 1, p. 47-71, 2001.
SÁNCHEZ-MOYANO, E.; GARCÍA-ASENCIO, I.; GARCÍA-GÓMEZ, J. C. Effects of temporal variation of the seaweed Caulerpa prolifera cover on the associated crustacean community. Mar. Ecol,v. 28, p. 324-337. 2007.
SOMASCHINI, A.; GRAVINA, M. F; ARDIZZONE, G. D. Polychete depth distribution in a Posidonia oceanica bed (rhizome and mattestrata) and neighbouring soft and hard bottoms. Mar. Ecol., v. 15, p. 133-151, 1994.
UNDERWOOD, A. Experiments in ecology: their logical design and interpretation using analysis of variance. Cambridge: Cambridge University Press, 1997.

Publication Dates

Publication in this collection
15 May 2012
Date of issue
Mar 2012

History

Received
06 Dec 2011
Accepted
02 Mar 2012
Reviewed
25 Jan 2012

This work is licensed under a Creative Commons Attribution 4.0 International License.

[1] ARGYROU M.; DEMETROPOULOS, A.; HADJICHRISTOPHOROU, M. Expansion of the macroalga Caulerpa raemosa and changes in soft-bottom macrofaunal communities in Moni Bay, Cyprus. Oceanologica Acta, v. 22, n. 5, p. 517-528, 1999.

[2] BARTON E. D.; ARÍSTEGUI, J.; TETT, P.; CANTÓN, M.; GARCÍA-BRAUN, J.; HERNÁNDEZ-LEÓN, S.; NYKJAER. L.; ALMEIDA, C.;ALMUNIA, J.; BALLESTEROS, S.; BASTERRETXEA, G.; ESCÁNEZ, J.; GARCÍA-WEILL, L.; HERNÁNDEZ-GUERRA, A.; LÓPEZ-LAATZEN, F.; MOLINA, R.; MONTERO, M. F.; NAVARRO-PÉREZ, E.; RODRÍGUEZ, J. M.; VAN LENNING, K.;VÉLEZ, ; WILD, K. The transition zone of the Canary Current upwelling region. Progr. Oceanogr., v. 41, p. 455-504, 1998.

[3] BELLAN-SANTINI, D.; ARNAUD, P. M.; BELLAN, G.; VERLAQUE, M. The influence of the introduced tropical alga Caulerpa taxifolia, on the biodiversity of the Mediterranean marine biota. J. mar. biol. Ass. U. K., v. 76, p. 235-237, 1996.

[4] BRITO, M. C.; NÚÑEZ, J.; MARTÍN, D. Polychaetes associated to a Cymodocea nodosa meadow in the Canary Islands: community structure, temporal variability and vertical distribution compared to other Mediterranean seagrass meadows. Mar. Biol., v.146, p. 467-481, 2005.

[5] CLARKE, K. R. Non-parametric multivariate analyses of changes in community structure. Aust. J. Ecol., v. 18, p. 117-143, 1993.

[6] CLARKE, K. R.; WARWICK, R. M. Changes in marine communities: an approach to statistical analysis and interpretation. Plymouth: Plymouth Marine Laboratory, U.K., 1994. 144 p.

[7] GIANGRANDE, C.; GAMBI, M. C. Polychètes d'une pelouse de Cymodocea nodosa (Ucria) Aschers du Golfe du Salerno (Mer Tyrrhénienne). Vie Milieu, v. 36, p.185-190, 1986.

[8] HERRANDO-PÉREZ, S.; SAN MARTÍN, G.; NÚÑEZ, J. Polychaete patterns from an oceanic island in the Eastern Central Atlantic: La Gomera (Canary archipelago). Cah. Biol. mar., v. 42, n. 3, p. 275-287, 2001.

[9] LANERA, P.; GAMBI, M. C. Polychaete distribution in some Cymodocea nodosa meadows around the Island of Ischia (Gulf of Naples Italy). Oebalia, v. 19, p. 89-103, 1993.

[10] LÓPEZ DE LA ROSA, I.; GARCÍA-RASO, J. E; RODRÍGUEZ, A. Evolution of a decapod community (Crustacea) of shallow soft bottoms with seaweeds from southern Europe. J. mar. biol. Ass U. K., v. 82, p. 85-95, 2002.

[11] MONTERROSO, O.; NÚÑEZ, J.; RIERA, R. Macrofauna de fondos blandos en las concesiones de acuicultura de la bahía de Igueste de San Andrés, Tenerife. Revta Acad. Canaria Cienc., v. 15, n.3/4, p. 77-86, 2004.

[12] PAVÓN-SALAS, N.; HERRERA, R.; HERNÁNDEZ-GUERRA, A.; HAROUN R.J. Distributional pattern of seagrasses in the Canary Islands (Central-East Atlantic Ocean). J. coast. Res, v. 16, p. 329-335, 2000.

[13] REYES, J.; SANSÓN, M.; CARRILLO, A. Leaf phenology, growth and production of the seagrass Cymodocea nodosa at El Médano (South of Tenerife, Canary Islands). Botanica mar., v. 38, p. 457-465, 1995.

[14] SÁNCHEZ-MOYANO, E. M.; GARCÍA-ADIEGO, F. J.; ESTACIO, F.; GARCÍA-GÓMEZ, J. C. Influence of the density of Caulerpa prolifera (Chlorophyta) on the composition o the macrofauna in a meadow in Algeciras bay (Southern Spain). Ciencias mar., v. 27, n. 1, p. 47-71, 2001.

[15] SÁNCHEZ-MOYANO, E.; GARCÍA-ASENCIO, I.; GARCÍA-GÓMEZ, J. C. Effects of temporal variation of the seaweed Caulerpa prolifera cover on the associated crustacean community. Mar. Ecol,v. 28, p. 324-337. 2007.

[16] SOMASCHINI, A.; GRAVINA, M. F; ARDIZZONE, G. D. Polychete depth distribution in a Posidonia oceanica bed (rhizome and mattestrata) and neighbouring soft and hard bottoms. Mar. Ecol., v. 15, p. 133-151, 1994.

[17] UNDERWOOD, A. Experiments in ecology: their logical design and interpretation using analysis of variance. Cambridge: Cambridge University Press, 1997.

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Subtidal soft-bottom macroinvertebrate communities of the Canary Islands. An ecological approach

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