Revista de Biología Tropical ISSN Impreso: 0034-7744 ISSN electrónico: 2215-2075

OAI: https://revistas.ucr.ac.cr/index.php/rbt/oai
Distribution and abundance of the lionfish Pterois volitans (Scorpaeniformes: Scorpaenidae) and associated native species in Parque Marino Cayos de San Felipe, Cuba
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Keywords

lionfish
invasive species
coral reef
Caribbean
size
density.
pez león
especie invasora
arrecifes de coral
Caribe
talla
densidad.

How to Cite

de la Guardia, E., Cobián Rojas, D., Espinosa, L., Hernández, Z., García, L., & Arias González, J. E. (2017). Distribution and abundance of the lionfish Pterois volitans (Scorpaeniformes: Scorpaenidae) and associated native species in Parque Marino Cayos de San Felipe, Cuba. Revista De Biología Tropical, 65(1), 117–125. https://doi.org/10.15517/rbt.v65i1.23345

Abstract

The first lionfish sighting at the National Park "Cayos de San Felipe" was in 2009 and could be a threat to its marine ecosystem diversity and their capacity to generate services. To analyze the incidence of the lionfish invasion in the area, an annual sampling was conducted between 2013 and 2015. Lionfish abundance and size was investigated on mangroves through visual census on ten transects of 30x2 m/station, and on coral reefs (15 and 25 m deep) with stereo video on six transects of 50x2 m/station. Additionally, incidence of potential native competitors and predators on coral reefs were also estimated. Over the three years, the average density of lionfish varied between 0.0-1.3 indiv./100 m2 per sample stations and it was not significantly different among habitats (mangroves with 0.6 indiv./100 m2, reefs at 15 m - 0.4 indiv./100 m2 and reef at 25 m with 0.3 indiv./100 m2). Lionfish’s density was equal to or lower than competitors’ density, and was equal to or higher than predator’s density in both depths. While lionfish density on mangroves and on reefs at 25 m remained temporally stable, it decreased on reefs at 15 m. Temporary increase in the competitor’s density was observed and the predator´s density did not change during the monitored time. Lionfish size varied between 5 and 39 cm; the average fish size from mangroves (12.6 cm) was consistently lower than from reefs (25.2 cm) and showed no variations among years. Lionfish size in reefs was higher than competitor’s size and lower than that of predator. Results showed that in the park: 1) mangroves represent lionfish nursery areas; 2) incidence of reef lionfish was not as high as in other areas of Cuba and the Caribbean; and 3) lionfish abundance in reefs tended to decrease over the years, without the intervention of extractive activities or high abundance of large size native groupers. In this sense, recommendations are made to continue monitoring and to investigate lionfish effects and factors that are regulating its incidence in the park.

https://doi.org/10.15517/rbt.v65i1.23345
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References

Arias-González, J. E., González-Gandara, C., Cabrera, J. L., & Christensen, V. (2011). Predicted impact of the invasive lionfish Pterois volitans on the food web of a Caribbean coral reef. Environmental Research, 111, 917-925.

Albins, M. A. (2013). Effects of invasive Pacific red lionfish Pterois volitans versus a native predator on Bahamian coral-reef fish communities. Biological Invasions, 15, 29-43.

Barbour, A. B., Montgomery, M. L., Adamson, A. A., Diaz-Ferguson, E., & Silliman, B. R. (2010). Mangrove use by the invasive lionfish Pterois volitans. Marine Ecology Progress Series, 40, 291-294.

Barbour, A. B., Allen, M. S., Frazer, T. K., & Sherman, K. D. (2011). Evaluating the potential efficacy of invasive lionfish (Pterois volitans) removals. PLoS ONE, 6, 1-7.

Bejarano, S., Lohr, K., Hamilton, S., & Manfrino, C. (2015). Relationships of invasive lionfish with topographic complexity, groupers, and native prey fishes in Little Cayman. Marine Biology, 162, 253-266.

Betancur, R., Hines, A., Acero, G. A., Orti, P., Wilbur, A. E., & Freshwater, D. W. (2011). Reconstructing the lionfish invasion: insights into Greater Caribbean biogeography. Journal of Biogeography, 38, 1281-1293.

Chevalier, P., Cabrera, E., Caballero, H., Corrada, R., Fernández, A., Cobián, D., & García, A. (2014). Distribución, abundancia y relaciones ecológicas del pez león (Pterois volitans/miles: Scorpaenidae) en Cuba. Gulf and Caribbean Fisheries Institute, 66, 178-179.

Claro, R. & Lindeman, K. C. (2003). Spawning aggregation sites of snapper and grouper species (Lutjanidae and Serranidae) on the insular shelf of Cuba. Gulf and Caribbean Research Supplement, 57, 1-15.

Claro, R., Baisre, J. A., Lindeman, K. C., & García-Arteaga, J. P. (2001). Cuban fisheries: Historical trends and current status. In R. Claro, K. C. Lindeman, & L. R. Parenti (Eds.), Ecology of Marine Fishes of Cuba (pp. 194-219). Washington, D. C.: Smithsonian Institution Press.

Cruz, R., Díaz, E., Báez, M., & Adriano, R. (2001). Variability in recruitment of multiple life stages of the Caribbean spiny lobster, Panulirus argus, in the Gulf of Batabanó, Cuba. Marine and Freshwater Research, 52, 1263-1270.

Côté, I. M., & Green, S. J. (2012). Potential effects of climate change on a marine invasion: The importance of current context. Current Zoology, 58, 1-8.

Frazer, T. K., Jacoby, C. A., Edwards, M. A., Barry, S. C., & Manfrino, C. M. (2012). Coping with the Lionfish Invasion: Can Targeted Removals Yield Beneficial Effects? Reviews in Fisheries Science, 20, 185-191.

García-Rodríguez, A., Chevalier, P., Cabrera E., Caballero H., & Hernández, J. (2015). Densidad y biomasa de Pterois volitans/miles (Teleostei: Scorpaenidae) en arrecifes del litoral oeste de la Habana, Cuba. Revista de Investigaciones Marinas, 35, 21-36.

Gardner, P. G., Frazer, T. K., Jacoby, C. A., & Yanong, R. P. (2015). Reproductive biology of invasive lionfish (Pterois spp.). Frontiers in Marine Science, 2, 1-10.

Green, S. J. (2013). El monitoreo: una actividad fundamental. En J. A. Morris Jr. (Ed.), El pez león invasor : guía para su control y manejo (pp.59-982). Marathon, Florida, USA: Gulf and Caribbean Fisheries Institute Special Publication Series 2.

Green, S. J., & Cote, I. M. (2009). Record densities of Indo-Pacific lionfish on Bahamian coral reefs. Coral Reefs, 28, 107-107.

Harvey, E., Fletcher, D., Shortis, M. R., & Kendrick, G. A. (2004). A comparison of underwater visual distance estimates made by SCUBA divers and a stereo-video system: implications for underwater visual census of reef fish abundance. Marine and Freshwater Research, 55, 573-580.

Morris, Jr., & Akins, L. (2009). Feeding ecology of invasive lionfish (Pterois volitans) in the Bahamian archipelago. Environmental Biology of Fishes, 86, 389-398.

Morris, J. A., Shertzer, K. W., & Rice, J. A. (2011). A stage-based matrix population model of invasive lionfish with implications for control. Invasion Note, Biological Invasions, 13, 7-12.

Mumby, P. J., Harborne, A. R., & Brumbaugh, D. R. (2011). Grouper as a natural biocontrol of invasive lionfish. PLoS ONE, 6:e21510.

Pina-Amargós, F., González-Sansón, G., Martín-Blanco, F., & Valdivia, A. (2014). Evidence for protection of targeted reef fish on the largest marine reserve in the Caribbean. PeerJ 2:e274; DOI 10.7717.

Underwood, A. J. (1997). Experiments in ecology. Their logical design and interpretation using analysis of variance. Cambridge: Cambridge University Press.

Sabido-Itzá1, M. M., Medina-Quej, A., Jesús-Navarrete, A., Gómez-Poot, J. M., & García-Rivas, M. C. (2016). La estructura de tallas como evidencia del establecimiento de Pterois volitans (Scorpaeniformes: Scorpaenidae) en el sur del Caribe mexicano. Revista de Biología Tropical, 64, 353-362.

SeaGIS. (2011). Retrieved 2011-06-27 from www.seagis.com.au

Valdez-Moreno, M., Quintal-Lizama, C., Gómez-Lozano, R., & García-Rivas, M. C. (2012). Monitoring an alien invasion: DNA barcoding and the identification of lionfish and their prey on coral reefs of the Mexican Caribbean. PloS One, 7, 1-8.

Valdivia, A., Bruno, J. F., Cox, E. C., Hackerott, S., & Green, S. J. (2014). Re-examining the relationship between invasive lionfish and native grouper in the Caribbean. PeerJ 2:e348; DOI 10.7717.

Whitfield, E. P., Hare, A. J., Andrew, W. D., Harter, L. S., Muñoz, C. R., & Addisson, M. C. (2007). Abundance estimates of the Indo-Pacific lionfish Pterois volitans/miles complex in the Western North Atlantic. Biological Invasions, 9, 53-64.

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