Coral reef fish association with macroalgal beds on a tropical reef system in North-eastern Brazil
L. T. C. Chaves A C , P. H. C. Pereira A B and J. L. L. Feitosa AA Departamento de Oceanografia, CTG, Universidade Federal de Pernambuco (UFPE), Av. Arquitetura, s/n, Cidade Universitária, Recife, PE, 50670-901, Brazil.
B School of Marine and Tropical Biology, James Cook University (JCU), Townsville, Qld 4811, Australia.
C Corresponding author. Email: lctchaves@gmail.com
Marine and Freshwater Research 64(12) 1101-1111 https://doi.org/10.1071/MF13054
Submitted: 18 July 2012 Accepted: 11 May 2013 Published: 16 August 2013
Abstract
Macroalgal beds are recognised for their role as nursery and feeding grounds for several marine species. This study was conducted in the Tamandaré reef complex within the limits of the Costa dos Corais Marine Protected Area (MPA), North-eastern Brazil. The macroalgal bed studied is subjected to several disturbances, especially from tourism. The reef fish were assessed with free dives during the day and night using visual censuses within transects (20 × 2 m) and random swims. The percentage algal cover was estimated using quadrats (40 cm2). The behavioural traits of the fish also provided an understanding of their habitat use. In total, 68 fish species were recorded. The most abundant species were representatives of the families Labridae, Pomacentridae, Acanthuridae and Haemulidae. Sargassum polyceratium, Dictyopteris delicatula and Canistrocarpus cervicornis were the most abundant macroalgae. Because the most abundant fish trophic guild included primarily mobile invertebrate feeders (41.8%) and carnivores (28.4%), it is suggested that the high-canopy macroalgae harbour epiphytic invertebrates, which these fish use for food. Thereby, the study area would act as important nursery and feeding grounds. Tourism activity (e.g. laying chairs, trampling and anchoring) may disrupt fish behaviour and life- history traits and result in damage that would require mitigation through environmental awareness and law enforcement in the most affected areas.
Additional keywords: associated macrofauna, macroalgal beds, nursery areas, shelter.
References
Altmann, J. (1974). Observational study of behaviour: sampling methods. Behaviour 49, 227–265.| Observational study of behaviour: sampling methods.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaE2c7mtlWmsQ%3D%3D&md5=faad496eb1c794c9aad5e483d63487a6CAS | 4597405PubMed |
Anderson, T. W. (1994). Role of macroalgal structure in the distribution and abundance of a temperate reef fish. Marine Ecology Progress Series 113, 279–290.
| Role of macroalgal structure in the distribution and abundance of a temperate reef fish.Crossref | GoogleScholarGoogle Scholar |
Anderson, M. J., and Millar, R. B. (2004). Spatial variation and effects of habitat on temperate reef fish assemblages in north eastern New Zealand. Journal of Experimental Marine Biology and Ecology 305, 191–221.
| Spatial variation and effects of habitat on temperate reef fish assemblages in north eastern New Zealand.Crossref | GoogleScholarGoogle Scholar |
Baron, R. M., Jordan, L. K. B., and Spieler, R. E. (2004). Characterization of the marine fish assemblage associated with the nearshore hardbottom of Broward County Florida, USA. Estuarine, Coastal and Shelf Science 60, 431–443.
| Characterization of the marine fish assemblage associated with the nearshore hardbottom of Broward County Florida, USA.Crossref | GoogleScholarGoogle Scholar |
Beck, M. W., Heck, K. L., Able, K. W., Childers, D. L., Eggleston, D. B., Gillanders, B. M., Halpern, B., Hays, C. G., Hoshino, K., Minello, T. J., Orth, R. J., Sheridan, P. F., and Weinstein, M. P. (2001). The identification, conservation, and management of estuarine and marine nurseries for fish and invertebrates. Bioscience 51, 633–641.
| The identification, conservation, and management of estuarine and marine nurseries for fish and invertebrates.Crossref | GoogleScholarGoogle Scholar |
Brock, V. E. (1954). A preliminary report on a method of estimating reef fish populations. The Journal of Wildlife Management 18, 297–308.
| A preliminary report on a method of estimating reef fish populations.Crossref | GoogleScholarGoogle Scholar |
Ceccarelli, D. M., Jones, G. P., and McCook, L. J. (2005). Effects of territorial damselfish on an algal-dominated coastal coral reef. Coral Reefs 24, 606–620.
| Effects of territorial damselfish on an algal-dominated coastal coral reef.Crossref | GoogleScholarGoogle Scholar |
Clarke, K. R., and Gorley, R. N. (2001). PRIMER v5: user manual/ tutorial. PRIMER-E, Plymouth, U. K.
Cocheret de la Morinière, E., Pollux, B. J. A., Nagelkerken, I., and van der Velde, G. (2003). Diet shifts of Caribbean grunts (Haemulidae) and snappers (Lutjanidae) and the relation with nursery-to-coral reef migrations. Estuarine, Coastal and Shelf Science 57, 1079–1089.
| Diet shifts of Caribbean grunts (Haemulidae) and snappers (Lutjanidae) and the relation with nursery-to-coral reef migrations.Crossref | GoogleScholarGoogle Scholar |
Cocheret de la Morinière, E., Nagelkerken, I., van der Meij, H., and van der Velde, G. (2004). What attracts juvenile coral reef fish to mangroves: habitat complexity or shade? Marine Biology 144, 139–145.
| What attracts juvenile coral reef fish to mangroves: habitat complexity or shade?Crossref | GoogleScholarGoogle Scholar |
Epifanio, C. E., Dittel, A. I., Rodriquez, R. A., and Targett, T. E. (2003). The role of macroalgal beds as nursery habitat for juvenile blue crabs, Callinectes sapidus. Journal of Shellfish Research 22, 881–886.
Everett, R. A. (1994). Macroalgae in soft-sediment communities: effects on benthic faunal assemblages. Journal of Experimental Marine Biology and Ecology 175, 253–274.
| Macroalgae in soft-sediment communities: effects on benthic faunal assemblages.Crossref | GoogleScholarGoogle Scholar |
Feitosa, J. L. L., Cocentino, A. L. M., Teixeira, S. F., and Ferreira, B. P. (2012). Food resource use by two territorial damselfish (Pomacentridae, Stegastes) on South-Western Atlantic algal-dominated reefs. Journal of Sea Research 70, 42–49.
| Food resource use by two territorial damselfish (Pomacentridae, Stegastes) on South-Western Atlantic algal-dominated reefs.Crossref | GoogleScholarGoogle Scholar |
Ferreira, B. P., Maida, M., and Souza, A. E. T. (1995). Levantamento inicial das comunidades de peixes recifais da região de Tamandaré-PE. Boletim Técnico-Científico do CEPENE 3, 211–230.
Ferreira, C. E. L., Gonçalves, J. E. A., and Coutinho, R. (2001). Fish community structure and habitat complexity in a tropical rocky shore. Environmental Biology of Fishes 61, 353–369.
| Fish community structure and habitat complexity in a tropical rocky shore.Crossref | GoogleScholarGoogle Scholar |
Ferreira, C. E. L., Floeter, S. R., Gasparini, J. L., Ferreira, B. P., and Joyeux, J. C. (2004). Trophic structure patterns of Brazilian reef fishes: a latitudinal comparison. Journal of Biogeography 31, 1093–1106.
| Trophic structure patterns of Brazilian reef fishes: a latitudinal comparison.Crossref | GoogleScholarGoogle Scholar |
Ferreira, B. P., Feitosa, C. V., Rocha, L., and Moura, R. (2010). Doratonotus megalepis. In ‘IUCN 2012. IUCN Red List of Threatened Species (Version 2012.2)’. Available at http://www.iucnredlist.org [Accessed 16 February 2013]
Galst, C. J., and Anderson, T. W. (2008). Fish–habitat associations and the role of disturbance in surfgrass beds. Marine Ecology Progress Series 365, 177–186.
| Fish–habitat associations and the role of disturbance in surfgrass beds.Crossref | GoogleScholarGoogle Scholar |
Godoy, E. A. S., and Coutinho, R. (2002). Can artificial beds of plastic mimics compensate for seasonal absence of natural beds of Sargassum furcatum? ICES Journal of Marine Science 59, S111–S115.
| Can artificial beds of plastic mimics compensate for seasonal absence of natural beds of Sargassum furcatum?Crossref | GoogleScholarGoogle Scholar |
Gore, R. H., Gallaher, E. E., Scotto, L. E., and Wilson, K. A. (1981). Studies on decapod Crustacea from the Indian River region of Florida. XI. Community composition, structure, biomass and species-areal relationships of seagrass and drift algal associated macrocrustaceans. Estuarine, Coastal and Shelf Science 12, 485–508.
| Studies on decapod Crustacea from the Indian River region of Florida. XI. Community composition, structure, biomass and species-areal relationships of seagrass and drift algal associated macrocrustaceans.Crossref | GoogleScholarGoogle Scholar |
Guidetti, P. (2000). Differences among fish assemblages associated with nearshore Posidonia oceanica seagrass beds, rocky-algal reefs and unvegetated sand habitats in the Adriatic Sea. Estuarine, Coastal and Shelf Science 50, 515–529.
| Differences among fish assemblages associated with nearshore Posidonia oceanica seagrass beds, rocky-algal reefs and unvegetated sand habitats in the Adriatic Sea.Crossref | GoogleScholarGoogle Scholar |
Hixon, M. A., and Webster, M. S. (2002). Density dependence in reef fish populations. In ‘Coral Reef Fishes: Dynamics and Diversity in a Complex Ecosystem’. (Ed. P. F. Sale.) pp. 303–325. (Academic Press: San Diego, CA.)
Hoey, A. S., and Bellwood, D. R. (2010). Damselfish territories as a refuge for macroalgae on coral reefs. Coral Reefs 29, 107–118.
| Damselfish territories as a refuge for macroalgae on coral reefs.Crossref | GoogleScholarGoogle Scholar |
Hughes, T. P., Baird, A. H., Bellwood, D. R., Card, M., Connolly, S. R., Folke, C., Grosberg, R., Hoegh-Guldberg, O., Jackson, J. B. C., Kleypas, J., Lough, J. M., Marshall, P., Nyström, M., Palumbi, S. R., Pandolfi, J. M., Rosen, B., and Roughgarden, J. (2003). Climate change, human impacts, and the resilience of coral reefs. Science 301, 929–933.
| Climate change, human impacts, and the resilience of coral reefs.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3sXmt1elsb4%3D&md5=b85856db7c5b0613f25c4adc798d6810CAS | 12920289PubMed |
Jacobucci, G. B., Güth, A. Z., Turra, A., Magalhães, C. A., Denadai, M. R., Chaves, A. M. R., and Souza, E. C. F. (2006). Levantamento da macrofauna associada a Sargassum spp. na ilha da Queimada Pequena, Estação Ecológica dos Tupiniquins, litoral sul do Estado de São Paulo, Brasil. Biota Neotropica 6, 1–8.
| Levantamento da macrofauna associada a Sargassum spp. na ilha da Queimada Pequena, Estação Ecológica dos Tupiniquins, litoral sul do Estado de São Paulo, Brasil.Crossref | GoogleScholarGoogle Scholar |
Jones, G. P. (1988). Ecology of rocky reef fish of north-eastern New Zealand: a review. Marine and Freshwater Research 22, 445–462.
| Ecology of rocky reef fish of north-eastern New Zealand: a review.Crossref | GoogleScholarGoogle Scholar |
Kimirei, I. A., Nagelkerken, I., Griffioen, B., Wagner, C., and Mgaya, Y. D. (2011). Ontogenetic habitat use by mangrove/seagrass-associated coral reef fishes shows flexibility in time and space. Estuarine, Coastal and Shelf Science 92, 47–58.
| Ontogenetic habitat use by mangrove/seagrass-associated coral reef fishes shows flexibility in time and space.Crossref | GoogleScholarGoogle Scholar |
Levin, P., and Hay, M. E. (1996). Responses of temperate reef fishes to alterations in algal structure and species composition. Marine Ecology Progress Series 134, 37–47.
| Responses of temperate reef fishes to alterations in algal structure and species composition.Crossref | GoogleScholarGoogle Scholar |
Littler, M. M., and Littler, D. S. (1984). Relationships between macroalgal functional form groups and substrata stability in a subtropical rocky-intertidal system. Journal of Experimental Marine Biology and Ecology 74, 13–34.
| Relationships between macroalgal functional form groups and substrata stability in a subtropical rocky-intertidal system.Crossref | GoogleScholarGoogle Scholar |
Maida, M., and Ferreira, B. P. (1997). Coral Reefs of Brazil: an overview and field guide. In ‘Proceedings of the 8th International Coral Reef Symposium, Panama City, June 1996’. (Ed. H. A. Lessios and I. G. Macintyre.) pp. 263–274. (Smithsonian Tropical Research Institute, Universidad de Panamá.)
McCormick, M. I. (1995). Fish feeding on mobile benthic invertebrates: influence of spatial variability in habitat associations. Marine Biology 121, 627–637.
| Fish feeding on mobile benthic invertebrates: influence of spatial variability in habitat associations.Crossref | GoogleScholarGoogle Scholar |
McCormick, M. I., Moore, J. A. Y., and Munday, P. L. (2010). Influence of habitat degradation on fish replenishment. Coral Reefs 29, 537–546.
| Influence of habitat degradation on fish replenishment.Crossref | GoogleScholarGoogle Scholar |
Meekan, M. G., and Choat, J. H. (1997). Latitudinal variation in abundance of herbivorous fishes: a comparison of temperate and tropical reefs. Marine Biology 128, 373–383.
| Latitudinal variation in abundance of herbivorous fishes: a comparison of temperate and tropical reefs.Crossref | GoogleScholarGoogle Scholar |
Mumby, P. J., Edwards, A. J., Arias-Gonzalez, J. E., Lindeman, K. C., Blackwell, P. G., Gall, A., Gorczynska, M. I., Harborne, A. R., Pescod, C. L., Renken, H., Wabnitz, C. C. C., and Llewellyn, G. (2004). Mangroves enhance the biomass of coral reef fish communities in the Caribbean. Nature 427, 533–536.
| Mangroves enhance the biomass of coral reef fish communities in the Caribbean.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2cXpsFWgtw%3D%3D&md5=8f5cfb753ac042b63e56667635146021CAS | 14765193PubMed |
Nagelkerken, I., and Van der Velde, G. (2002). Do non-estuarine mangroves harbour higher densities of juvenile fish than adjacent shallow-water and coral reef habitats in Curaçao (Netherlands Antilles). Marine Ecology Progress Series 245, 191–204.
| Do non-estuarine mangroves harbour higher densities of juvenile fish than adjacent shallow-water and coral reef habitats in Curaçao (Netherlands Antilles).Crossref | GoogleScholarGoogle Scholar |
Nagelkerken, I., Dorenbosch, M., Verberk, W. C. E. P., Cocheret de la Morinière, E., and Van der Velde, G. (2000). Importance of shallow water biotopes of a Caribbean bay for juvenile coral reef fishes: patterns in biotope association, community structure and spatial distribution. Marine Ecology Progress Series 202, 175–192.
| Importance of shallow water biotopes of a Caribbean bay for juvenile coral reef fishes: patterns in biotope association, community structure and spatial distribution.Crossref | GoogleScholarGoogle Scholar |
Ornellas, A. B., and Coutinho, R. (1998). Spatial and temporal patterns of distribution and abundance of a tropical fish assemblage in a seasonal Sargassum bed, Cabo Frio Island, Brazil. Journal of Fish Biology 53, 198–208.
Parrish, J. D. (1989). Fish communities of interacting shallow-water habitats in tropical oceanic regions. Marine Ecology Progress Series 58, 143–160.
| Fish communities of interacting shallow-water habitats in tropical oceanic regions.Crossref | GoogleScholarGoogle Scholar |
Paula, E. J., and Eston, V. R. (1987). Are the other Sargassum species potentially as invasive as S. muticum? Botanica Marina 30, 405–410.
| Are the other Sargassum species potentially as invasive as S. muticum?Crossref | GoogleScholarGoogle Scholar |
Pereira, P. H. C., and Jacobucci, G. B. (2008). Dieta e comportamento alimentar de Malacoctenus delalandii (Perciformes:Labrisomidae). Biota Neotropica 8, 141–150.
| Dieta e comportamento alimentar de Malacoctenus delalandii (Perciformes:Labrisomidae).Crossref | GoogleScholarGoogle Scholar |
Pereira, P. H. C., Ferreira, B. P., and Rezende, S. M. (2010). Community structure of the ichthyofauna associated with seagrass beds (Halodule wrightii) in Formoso River estuary – Pernambuco, Brazil. Anais da Academia Brasileira de Ciencias 82, 617–628.
| Community structure of the ichthyofauna associated with seagrass beds (Halodule wrightii) in Formoso River estuary – Pernambuco, Brazil.Crossref | GoogleScholarGoogle Scholar |
Pereira, P. H. C., Feitosa, J. L. L., and Ferreira, B. P. (2011). Mixed-species schooling behavior and protective mimicry involving coral reef fish from the genus Haemulon. Neotropical Ichthyology 9, 741–746.
| Mixed-species schooling behavior and protective mimicry involving coral reef fish from the genus Haemulon.Crossref | GoogleScholarGoogle Scholar |
Pereira, P. H. C., Feitosa, J. L. L., Chaves, L. C. T., and Araújo, M. E. (2012). Reef fish foraging associations: “Nuclear-follower” behavior or an ephemeral interaction? In ‘Proceedings of the 12th International Coral Reef Symposium, Cairns, July 2012’. (Ed. D. Yellowlees and T. P. Hughes.) (ARC Centre of Excellence for Coral Reef Studies James Cook University, Townsville, Australia.)
Pratchett, M. S., Munday, P. L., Wilson, S. K., Graham, N. A. J., Cinner, J. E., Bellwood, D. R., Jones, G. P., Polunin, N. V. C., and McClanahan, T. R. (2008). Effects of climate-induced coral bleaching on coral-reef fishes: ecological and economic consequences. Oceanography and Marine Biology – an Annual Review 46, 251–296.
| Effects of climate-induced coral bleaching on coral-reef fishes: ecological and economic consequences.Crossref | GoogleScholarGoogle Scholar |
Randall, J. E. (1967). Food habits of reef fishes of the West Indies. Studies in Tropical Oceanography 5, 665–847.
Rooker, J. R., Holt, G. J., and Holt, S. A. (1998). Vulnerability of newly settled red drum (Sciaenops ocellatus) to predatory fish: is early life survival enhanced by seagrass meadows? Marine Biology 131, 145–151.
| Vulnerability of newly settled red drum (Sciaenops ocellatus) to predatory fish: is early life survival enhanced by seagrass meadows?Crossref | GoogleScholarGoogle Scholar |
Rossier, O., and Kulbicki, M. (2000). A comparison of fish assemblages from two types of algal beds and coral reefs in the south-west lagoon of New Caledonia. Cybium 24, 3–26.
Ruitton, S., Francour, P., and Boudouresque, C. F. (2000). Relationships between algae, benthic herbivorous invertebrates and fishes in rocky sublittoral communities of a temperate sea (Mediterranean). Estuarine, Coastal and Shelf Science 50, 217–230.
| Relationships between algae, benthic herbivorous invertebrates and fishes in rocky sublittoral communities of a temperate sea (Mediterranean).Crossref | GoogleScholarGoogle Scholar |
Sano, M. (2001). Short-term responses of fishes to macroalgal overgrowth on coral rubble on a degraded reef at Iriomote Island, Japan. Bulletin of Marine Science 68, 543–556.
Stoner, A. W. (1980). Feeding ecology of Lagodon rhomboides (Pisces: Sparidae): variation and functional responses. Fishery Bulletin 78, 337–352.
Thomsen, M. S. (2010). Experimental evidence for positive effects of invasive seaweed on native invertebrates via habitat-formation in a seagrass bed. Aquatic Invasions 5, 341–346.
| Experimental evidence for positive effects of invasive seaweed on native invertebrates via habitat-formation in a seagrass bed.Crossref | GoogleScholarGoogle Scholar |
Venekey, V., Fonsêca-Genevois, V. G., Rocha, C. M. C., and Santos, P. J. P. (2008). Distribuição espaço-temporal da meiofauna em sargassum Polyceratium montagne (fucales, sargassaceae) de um costão rochoso do nordeste do brasil. Atlantica 30, 53–67.
Werner, E. E., and Gilliam, J. F. (1984). The ontogenetic niche and species interactions in size-structured populations. Annual Review of Ecology and Systematics 15, 393–425.
| The ontogenetic niche and species interactions in size-structured populations.Crossref | GoogleScholarGoogle Scholar |
Wilson, S. K., Graham, N. A. J., Pratchett, M. S., Jones, G. P., and Polunin, N. V. C. (2006). Multiple disturbances and the global degradation of coral reefs: are reef fishes at risk or resilient? Global Change Biology 12, 2220–2234.
| Multiple disturbances and the global degradation of coral reefs: are reef fishes at risk or resilient?Crossref | GoogleScholarGoogle Scholar |
Win, R. E. (2010). The importance of macroalgae on rocky reefs: a critical aspect for fish and epifauna of the East Otago coastline. Master Thesis, University of Otago Dunedin, New Zealand.