Community structure of coral reef zooplankton in Isla del Coco National Park, a natural World Heritage site in the Eastern Tropical Pacific

Introduction: Zooplankton is a major link between primary producers and the following trophic levels, and in coral reefs they represent an energy source for corals and involve complex assemblies integrating a wide variety of species form different functional groups. Objective: To define interannual...

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Published in:Revista de Biología Tropical
Main Authors: Esquivel-Garrote, Octavio, Morales-Ramírez, Álvaro
Format: Article in Journal/Newspaper
Language:English
Published: Universidad de Costa Rica 2020
Subjects:
Isla del Coco
oceanic island
plankton
environmental variables
abundance
diversity
biomass
isla oceánica
plancton
variables ambientales
abundancia
diversidad
biomasa
Cadena
Pacific
Arctic
Polar Biology
Copepods
Online Access:https://revistas.ucr.ac.cr/index.php/rbt/article/view/41188
https://doi.org/10.15517/rbt.v68iS1.41188
id ftucostaricaojs:oai:portal.ucr.ac.cr:article/41188
record_format openpolar
institution Open Polar
collection Portal de revistas académicas de la Universidad de Costa Rica
op_collection_id ftucostaricaojs
language English
topic Isla del Coco
oceanic island
plankton
environmental variables
abundance
diversity
biomass
isla oceánica
plancton
variables ambientales
abundancia
diversidad
biomasa
spellingShingle Isla del Coco
oceanic island
plankton
environmental variables
abundance
diversity
biomass
isla oceánica
plancton
variables ambientales
abundancia
diversidad
biomasa
Esquivel-Garrote, Octavio
Morales-Ramírez, Álvaro
Community structure of coral reef zooplankton in Isla del Coco National Park, a natural World Heritage site in the Eastern Tropical Pacific
topic_facet Isla del Coco
oceanic island
plankton
environmental variables
abundance
diversity
biomass
isla oceánica
plancton
variables ambientales
abundancia
diversidad
biomasa
description Introduction: Zooplankton is a major link between primary producers and the following trophic levels, and in coral reefs they represent an energy source for corals and involve complex assemblies integrating a wide variety of species form different functional groups. Objective: To define interannual changes in zooplankton assemblies in coral reefs of Isla del Coco. Methods: Three coral reefs system were sampled. Two or three samples were taken by surface horizontal trawls in each coral reef from 2009 to 2012, using conical zooplankton nets of 200 and 500 µm mesh sizes at different times of the day. Physical and chemical variables were measured before zooplankton sampling. Results: We identified 24 taxonomic groups of macrozooplankton and 22 of mesozooplankton. Copepods were the most abundant taxa (87.1%) of the total abundance of mesozooplankton and macrozooplakton (58.9%); however, chaetognaths (35.6%) exceeded copepods (35.4%) in abundance in macrozooplankton samples during 2011. Mesozooplankton samples showed higher abundance (68753.2±9123.2 ind m-3) and biomass (85.14±11.3 mg DW m-3) than macrozooplankton samples (4454.9±751.0 ind m-3, 22.8±3.8 mg DW m-3). The interannual macrozooplankton community structure did not change significantly (ANOVA, p=0.368), but did change for mesozooplankton (ANOVA, p=0.001). Variations in physical and chemical variables influenced the community structure for both meso and macrozooplankton, increasing or decreasing organism abundance. Conclusions: Coral reef zooplankton of Isla del Coco resembles that of other coral reefs under the influence of oceanic conditions, with a fauna formed mainly by calanoid copepods, chaetognaths and appendicularians, and depending on oceanographic conditions, the abundance of these groups can change. Introducción: El zooplancton es el principal enlace entre los productores primarios y los siguientes niveles de la cadena trófica, en los arrecifes de coral representa una importante fuente de alimento, en estos ambientes comprende una amplia variedad ...
format Article in Journal/Newspaper
author Esquivel-Garrote, Octavio
Morales-Ramírez, Álvaro
author_facet Esquivel-Garrote, Octavio
Morales-Ramírez, Álvaro
author_sort Esquivel-Garrote, Octavio
title Community structure of coral reef zooplankton in Isla del Coco National Park, a natural World Heritage site in the Eastern Tropical Pacific
title_short Community structure of coral reef zooplankton in Isla del Coco National Park, a natural World Heritage site in the Eastern Tropical Pacific
title_full Community structure of coral reef zooplankton in Isla del Coco National Park, a natural World Heritage site in the Eastern Tropical Pacific
title_fullStr Community structure of coral reef zooplankton in Isla del Coco National Park, a natural World Heritage site in the Eastern Tropical Pacific
title_full_unstemmed Community structure of coral reef zooplankton in Isla del Coco National Park, a natural World Heritage site in the Eastern Tropical Pacific
title_sort community structure of coral reef zooplankton in isla del coco national park, a natural world heritage site in the eastern tropical pacific
publisher Universidad de Costa Rica
publishDate 2020
url https://revistas.ucr.ac.cr/index.php/rbt/article/view/41188
https://doi.org/10.15517/rbt.v68iS1.41188
long_lat ENVELOPE(-67.600,-67.600,-67.450,-67.450)
geographic Cadena
Pacific
geographic_facet Cadena
Pacific
genre Arctic
Polar Biology
Copepods
genre_facet Arctic
Polar Biology
Copepods
op_source Revista Biología Tropical; v. 68 n. S1 (2020): Volumen 68 – Suplemento 1 – Marzo 2020: Investigaciones científicas en el Parque Nacional Isla del Coco y aguas adyacentes, Pacífico de Costa Rica; S248-S260
Revista de Biología Tropical; Vol 68 No S1 (2020): Volume 68 – Supplement 1 – March 2020: Scientific Research at Isla del Coco National Park and Adjacent Waters, Pacific Costa Rica; S248-S260
Revista de Biología Tropical; Vol. 68 Núm. S1 (2020): Volumen 68 – Suplemento 1 – Marzo 2020: Investigaciones científicas en el Parque Nacional Isla del Coco y aguas adyacentes, Pacífico de Costa Rica; S248-S260
2215-2075
0034-7744
10.15517/rbt.v68iS1
op_relation https://revistas.ucr.ac.cr/index.php/rbt/article/view/41188/41699
https://revistas.ucr.ac.cr/index.php/rbt/article/view/41188/41700
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Aravena, G., & Palma, S. (2002). Taxonomic identification of appendicularians collected in the epipelagic waters off northern Chile (Tunicata, Appendicularia). Revista Chilena de Historia Natural, 75, 307-325.
Auel, H., & Hagen, W. (2002). Mesozooplankton community structure, abundance and biomass in the central Arctic Ocean. Marine Biology, 140(5), 1013-1021.
Bednarski, M., & Morales-Ramírez, A. (2004). Composition, abundance and distribution of macrozooplankton in Culebra Bay, Gulf of Papagayo, Pacific coast of Costa Rica and its value as bioindicator of pollution. Revista de Biología Tropical, 52, 105-119.
Boltovskoy, D. (1981). Atlas del zooplancton marino del Atlántico Occidental y métodos de trabajo con el zooplancton marino. Buenos Aires, Argentina: Instituto Nacional de Investigación y Desarrollo Pesquero.
Buskey, E. J. (1993). Annual pattern of micro-and mesozooplankton abundance and biomass in a subtropical estuary. Journal of Plankton Research, 15(8), 907-924.
Castellanos, I., Hernández. R. M., Morales-Ramírez, A., & Corrales, M. (2012). Appendicularians (Urochordata) and chaetognaths (Chaetognatha) of Isla del Coco National Park, Revista de Biología Tropical, 60(Supplement 3), 243-255.
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Davis, C. S., & Wiebe, P. H. (1985). Macrozooplankton biomass in a Warm-Core Gulf Stream Ring: Time series changes in size structure, taxonomic composition and vertical distribution. Journal of Geophysics Research, 90, 8871-8884.
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Emery, A. R. (1968). Preliminary observations on coral reef plankton 1. Limnology and Oceanography, 13(2), 293-303.
Fleminger, A., & Clutter, R. I. (1965). Avoidance of Towed Nets by zooplankton. Limnology and Oceanography, 10(1), 96-104.
Froneman, P. W., & Pakhomov, E. A. (1998). Trophic importance of the chaetognaths Eukrohnia hamata and Sagitta gazellae in the pelagic system of the Prince Edward Islands (Southern Ocean). Polar Biology, 19(4), 242-249.
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Gasca, R., & Morales-Ramírez, A. (2012). Hyperiid amphipods (Crustacea: Peracarida) of the Parque Nacional Isla del Coco, Costa Rica, Eastern Tropical Pacific. Revista de Biología Tropical, 60(Supplement 3), 223-233.
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González, H. E., Sobarzo, M., Figueroa, D., & Nöthig, E-M. (2000). Composition, biomass and potential grazing impact of the crustacean and pelagic tunicates in the northern Humboldt Current area off Chile: differences between El Niño and non-El Niño years. Marine Ecology Progress Series, 195, 201-220.
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Hammer, Ø., Harper, D.A.T., & Ryan, P.D. (2001). PAST: Paleontological statistics software package for education and data analysis. Palaeontologia Electronica, 4(1), 1-9.
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spelling ftucostaricaojs:oai:portal.ucr.ac.cr:article/41188 2023-05-15T14:28:30+02:00 Community structure of coral reef zooplankton in Isla del Coco National Park, a natural World Heritage site in the Eastern Tropical Pacific Estructura de la comunidad de zooplancton en arrecifes coralinos del Parque Nacional Isla del Coco, sitio Patrimonio de la Humanidad en el Pacífico Tropical Oriental. Esquivel-Garrote, Octavio Morales-Ramírez, Álvaro 2020-03-24 application/pdf text/html https://revistas.ucr.ac.cr/index.php/rbt/article/view/41188 https://doi.org/10.15517/rbt.v68iS1.41188 eng eng Universidad de Costa Rica https://revistas.ucr.ac.cr/index.php/rbt/article/view/41188/41699 https://revistas.ucr.ac.cr/index.php/rbt/article/view/41188/41700 Alvarado, J. J., Beita-Jiménez, A., Mena, S., Fernández-García, C., Guzman-Mora, A. G., & Cortés, J. (2016). Ecosistemas coralinos del Parque Nacional Isla del Coco, Costa Rica: estructura y comparación 1987-2014. Revista de Biología Tropical, 64(Supplement 1), 153-175. Aravena, G., & Palma, S. (2002). Taxonomic identification of appendicularians collected in the epipelagic waters off northern Chile (Tunicata, Appendicularia). Revista Chilena de Historia Natural, 75, 307-325. Auel, H., & Hagen, W. (2002). Mesozooplankton community structure, abundance and biomass in the central Arctic Ocean. Marine Biology, 140(5), 1013-1021. Bednarski, M., & Morales-Ramírez, A. (2004). Composition, abundance and distribution of macrozooplankton in Culebra Bay, Gulf of Papagayo, Pacific coast of Costa Rica and its value as bioindicator of pollution. Revista de Biología Tropical, 52, 105-119. Boltovskoy, D. (1981). Atlas del zooplancton marino del Atlántico Occidental y métodos de trabajo con el zooplancton marino. Buenos Aires, Argentina: Instituto Nacional de Investigación y Desarrollo Pesquero. Buskey, E. J. (1993). Annual pattern of micro-and mesozooplankton abundance and biomass in a subtropical estuary. Journal of Plankton Research, 15(8), 907-924. Castellanos, I., Hernández. R. M., Morales-Ramírez, A., & Corrales, M. (2012). Appendicularians (Urochordata) and chaetognaths (Chaetognatha) of Isla del Coco National Park, Revista de Biología Tropical, 60(Supplement 3), 243-255. Clarke, K. R., & Gorley, R. N. (2006). PRIMER v6: User Manual/Tutorial (Plymouth Routines in Multivariate Ecological Research). PRIMER-E, Plymouth. Cortés, J. (2008). Historia de la investigación marina de la Isla del Coco, Costa Rica. Revista de Biología Tropical, 56(Supplement 2), 1-18. Davis, C. S. (1984). Predatory control of copepod seasonal cycles on George Bank. Marine Biology, 82, 31-40. Davis, C. S., & Wiebe, P. H. (1985). Macrozooplankton biomass in a Warm-Core Gulf Stream Ring: Time series changes in size structure, taxonomic composition and vertical distribution. Journal of Geophysics Research, 90, 8871-8884. de Puelles, M. F., Grás, D., & Hernández-León, S. (2003). Annual cycle of zooplankton biomass, abundance and species composition in the neritic area of the Balearic Sea, Western Mediterranean. Marine Ecology, 24(2), 123-139. Emery, A. R. (1968). Preliminary observations on coral reef plankton 1. Limnology and Oceanography, 13(2), 293-303. Fleminger, A., & Clutter, R. I. (1965). Avoidance of Towed Nets by zooplankton. Limnology and Oceanography, 10(1), 96-104. Froneman, P. W., & Pakhomov, E. A. (1998). Trophic importance of the chaetognaths Eukrohnia hamata and Sagitta gazellae in the pelagic system of the Prince Edward Islands (Southern Ocean). Polar Biology, 19(4), 242-249. Froneman, P. W., Pakhomov, E. A., Perissinotto, R., & Meaton, V. (1998). Feeding and predation impact of two chaetognath species, Eukrohnia hamata and Sagitta gazellae, in the vicinity of Marion Island (southern ocean). Marine Biology, 131(1), 95-101. Gallienne, C. P., & Robins, D. B. (2001). Is Oithona the most important copepod in the world’s oceans? Journal of Plankton Research, 23, 1421-1432. Gasca, R., & Morales-Ramírez, A. (2012). Hyperiid amphipods (Crustacea: Peracarida) of the Parque Nacional Isla del Coco, Costa Rica, Eastern Tropical Pacific. Revista de Biología Tropical, 60(Supplement 3), 223-233. Giesecke, R., & González, H. E. (2004). Feeding of Sagitta enflata and vertical distribution of chaetognaths in relation to low oxygen concentrations. Journal of Plankton Research, 26(4), 475-486. Gómez-Gutiérrez, J., Palomares-García, R., & Gendron, D. (1995). Community structure of the euphausiid populations along the west coast of Baja California, Mexico, during the weak ENSO 1986-1987. Marine Ecology Progress Series, 120, 41-51. González, H. E., Sobarzo, M., Figueroa, D., & Nöthig, E-M. (2000). Composition, biomass and potential grazing impact of the crustacean and pelagic tunicates in the northern Humboldt Current area off Chile: differences between El Niño and non-El Niño years. Marine Ecology Progress Series, 195, 201-220. Guzmán, H. M., & Obando, V. L. (1988). Diversidad y abundancia diaria y estacional del zooplancton marino de la Isla del Caño, Costa Rica. Revista de Biología Tropical, 36(1), 139-150. Hammer, Ø., Harper, D.A.T., & Ryan, P.D. (2001). PAST: Paleontological statistics software package for education and data analysis. Palaeontologia Electronica, 4(1), 1-9. Hamner, W. M., Colin, P. L., & Hamner, P. P. (2007). Export–import dynamics of zooplankton on a coral reef in Palau. Marine Ecology Progress Series, 334, 83-92. Hayward, T. L., & McGowan, J. A. (1979). Pattern and structure in an oceanic zooplankton community. American Zoologist, 19(4), 1045-1055. Heidelberg, K., Sebens, K., & Purcell, J. (2004). Composition and sources of near reef zooplankton on a Jamaican forereef along with implications for coral feeding. Coral Reefs, 23(2), 263-276. Heidelberg, K. B., O’Neil, K. L., Bythell, J. C., & Sebens, K. (2010). Vertical distribution and diel patterns of zooplankton abundance and biomass at Conch Reef, Florida Keys (USA). Journal of Plankton Research, 32(1), 75-91. Hernández-Trujillo, S., Esqueda-Escárcega, G., & Palomares-García, R. (2010). Variabilidad de la abundancia de zooplancton en Bahía Magdalena Baja California Sur, México (1997-2001). Latin american journal of aquatic research, 38(3), 438-446. Hobson, E. S., & Chess, J. R. (1978). The Lagoon at Enewetak atoll, Marshall Islands. Fishery Bulletin, 76(1). Jiménez-Cueto, S., Suárez-Morales, E., & Morales-Ramírez, A. (2012). Algunos poliquetos holoplanctónicos (Annelida: Polychaeta) del Parque Nacional Isla del Coco, Costa Rica, Revista de Biología Tropical, 60(Supplement 3), 207-222. Kozak, E. R., Franco-Gordo, C., Suárez-Morales, E., & Palomares-García, R. (2014). Seasonal and interannual variability of the calanoid copepod community structure in shelf waters of the Eastern Tropical Pacific. Marine Ecology Progress Series, 507, 95-110. Lie, A., Tse, P., & Wong, C. (2012). Diel vertical migration and feeding of three species of chaetognaths (Flaccisagitta enflata, Aidanosagitta delicata and Aidanosagitta neglecta) in two shallow, subtropical bays in Hong Kong. Journal of Plankton Research, 34(8), 670-684. Lizano, O. (2008). Dinámica de aguas alrededor de la Isla del Coco, Costa Rica. Revista de Biología Tropical, 56(Supplement 2), 31-48. Makabe, R., Nimura, A., & Fukuchi, M. (2012). Comparison of mesh size effects on mesozooplankton collection efficiency in the Southern Ocean. Journal of Plankton Research, 34, 432-436. McEwen, G. F., Johnson, M. W., & Folsom, T. R. (1954). A statistical analysis of the performance of the Folsom Plankton Sample Splitter, based upon the observations. Archives for Meteorology, Geophysics and Climatology, 7, 502-527. Melo, P., Silva, T., Neumann-Leitão, S., Schwamborn, R., Gusmão, L., & Neto, F. (2010). Demersal zooplankton communities from tropical habitats in the southwestern Atlantic, Marine Biology Research, 6(6), 530-541. Morales, E. S., & Arriaga, E. R. (1998). Zooplacton e hidrodinámica en zonas litorales y arrecifales de Quintana Roo, México. Hidrobiológica, 8(1), 19-32. Morales-Ramírez, A. (2008). Caracterización cualitativa del zooplancton del Área de Conservación Marina Isla del Coco (ACMIC), Océano Pacífico de Costa Rica. Revista de Biología Tropical, 56(Supplement 2), 159-169. Mujica, A. (1993). Zooplancton de las aguas circundantes a la Isla de Pascua (27° 08’ S - 109° 26’ W), Revista Ciencia Tecnología del Mar, 16, 55-61. Mujica, A. (2006a). Larvas de crustáceos decápodos y crustáceos holoplanctónicos en torno a la Isla de Pascua. Revista Ciencia Tecnología del Mar, 29(1),123-135. Mujica, A. (2006b). Larvas de crustáceos decápodos del archipiélago Juan Fernández (33° 40’ S - 78° 50’ W) e islas Desventuradas (26° 20’ S - 80° 05’ W). 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Observaciones sobre el zooplancton de la zona arrecifal de Mahahual, Quintana Roo (Mar Caribe Mexicano). Anales del Instituto de Biología. Serie Zoología, 68(2), 237-252. Peterson, W. T., Keister, J. E., & Feinberg, L. R. (2002). The effects of the 1997–99 El Niño/La Niña events on hydrography and zooplankton off the central Oregon coast. Progress in Oceanography, 54(1-4), 381-398. Quinn, G. P., & Keough, M. J. (2003). Experimental design and data analysis for biologists. Cambridge, United Kingdom: Cambridge University Press. Revista Biología Tropical; v. 68 n. S1 (2020): Volumen 68 – Suplemento 1 – Marzo 2020: Investigaciones científicas en el Parque Nacional Isla del Coco y aguas adyacentes, Pacífico de Costa Rica; S248-S260 Revista de Biología Tropical; Vol 68 No S1 (2020): Volume 68 – Supplement 1 – March 2020: Scientific Research at Isla del Coco National Park and Adjacent Waters, Pacific Costa Rica; S248-S260 Revista de Biología Tropical; Vol. 68 Núm. S1 (2020): Volumen 68 – Suplemento 1 – Marzo 2020: Investigaciones científicas en el Parque Nacional Isla del Coco y aguas adyacentes, Pacífico de Costa Rica; S248-S260 2215-2075 0034-7744 10.15517/rbt.v68iS1 Isla del Coco oceanic island plankton environmental variables abundance diversity biomass isla oceánica plancton variables ambientales abundancia diversidad biomasa info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2020 ftucostaricaojs https://doi.org/10.15517/rbt.v68iS1.41188 https://doi.org/10.15517/rbt.v68iS1 2022-07-06T23:30:40Z Introduction: Zooplankton is a major link between primary producers and the following trophic levels, and in coral reefs they represent an energy source for corals and involve complex assemblies integrating a wide variety of species form different functional groups. Objective: To define interannual changes in zooplankton assemblies in coral reefs of Isla del Coco. Methods: Three coral reefs system were sampled. Two or three samples were taken by surface horizontal trawls in each coral reef from 2009 to 2012, using conical zooplankton nets of 200 and 500 µm mesh sizes at different times of the day. Physical and chemical variables were measured before zooplankton sampling. Results: We identified 24 taxonomic groups of macrozooplankton and 22 of mesozooplankton. Copepods were the most abundant taxa (87.1%) of the total abundance of mesozooplankton and macrozooplakton (58.9%); however, chaetognaths (35.6%) exceeded copepods (35.4%) in abundance in macrozooplankton samples during 2011. Mesozooplankton samples showed higher abundance (68753.2±9123.2 ind m-3) and biomass (85.14±11.3 mg DW m-3) than macrozooplankton samples (4454.9±751.0 ind m-3, 22.8±3.8 mg DW m-3). The interannual macrozooplankton community structure did not change significantly (ANOVA, p=0.368), but did change for mesozooplankton (ANOVA, p=0.001). Variations in physical and chemical variables influenced the community structure for both meso and macrozooplankton, increasing or decreasing organism abundance. Conclusions: Coral reef zooplankton of Isla del Coco resembles that of other coral reefs under the influence of oceanic conditions, with a fauna formed mainly by calanoid copepods, chaetognaths and appendicularians, and depending on oceanographic conditions, the abundance of these groups can change. Introducción: El zooplancton es el principal enlace entre los productores primarios y los siguientes niveles de la cadena trófica, en los arrecifes de coral representa una importante fuente de alimento, en estos ambientes comprende una amplia variedad ... Article in Journal/Newspaper Arctic Polar Biology Copepods Portal de revistas académicas de la Universidad de Costa Rica Cadena ENVELOPE(-67.600,-67.600,-67.450,-67.450) Pacific Revista de Biología Tropical 68 S1 S248 S260

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