The contribution of migratory mesopelagic fishes to neuston fish assemblages across the Atlantic, Indian and Pacific Oceans
M. Pilar Olivar A G , J. Ignacio González-Gordillo B , Jordi Salat A , Guillem Chust C , Andrés Cózar B , Santiago Hernández-León D , M. Luz Fernández de Puelles E and Xabier Irigoien F
+ Author Affiliations
- Author Affiliations
A Institut de Ciències del Mar, Consejo Superior de Investigaciones Científicas, Passeig Marítim, 37-49, E-08003 Barcelona, Spain.
B Departamento de Biología, Facultad de Ciencias del Mar y Ambientales, Universidad de Cádiz, Campus de Excelencia Internacional del Mar (CEI MAR), E-11510 Puerto Real, Spain.
C AZTI-Tecnalia, Marine Research Division, Txatxarramendi ugartea z/g, E-48395 Sukarrieta, Bizkaia, Spain.
D Instituto de Oceanografía y Cambio Global, Universidad de Las Palmas de Gran Canaria, Campus Universitario de Tafira, E-35017 Las Palmas de Gran Canaria, Canary Islands, Spain.
E M.L. Fernández de Puelles, Centro Oceanográfico de Baleares, Instituto Español de Oceanografía, Muelle de Poniente s/n, E-07015 Palma de Mallorca, Spain.
F King Abdullah University of Science and Technology (KAUST), Red Sea Research Center, Thuwal 23955-6900, Saudi Arabia.
G Corresponding author. Email: polivar@icm.csic.es
Marine and Freshwater Research 67(8) 1114-1127 https://doi.org/10.1071/MF14391
Submitted: 2 December 2014 Accepted: 4 April 2015 Published: 27 August 2015
Abstract
Surface waters are an attractive foraging ground for small fish in the open ocean. This study aims to determine the importance of vertically migrating species in the neuston of oceanic waters across the Atlantic, Indian and Pacific Oceans and to ascertain the influence of environmental variables on their distribution patterns. Neustonic fish assemblages were primarily controlled by light. They were dominated by late-larvae and juveniles of Exocoetidae, Hemiramphidae and Scomberesocidae during the day. At night, the vertical migration of mesopelagic species changed the dominance pattern in favour of Myctophidae and Scomberesocidae. The neustonic families’ distribution was primarily related to sea surface temperatures, whereas environmental variables at deeper layers were related to mesopelagic migrating families. Canonical correspondence analysis showed a low but statistically significant contribution of several environmental variables to myctophid species composition (10%), with minimum oxygen concentrations ranking first in variance explanation followed by maximum fluorescence, sea surface temperature and 400-m temperature. Spatial autocorrelation also explained 17% of the variance, indicating the influence of other factors such as historical, demographic and dispersal constraints. The low number of myctophid species in the North Pacific Equatorial Countercurrent appears to be related to the low oxygen concentrations observed in this province.
Additional keywords: Ichthyoneuston, ichthyoplankton, micronekton, Myctophidae, oceanic realm, pelagic biogeography, vertical migration.
References
Ahlstrom, E. H. (1959). Vertical distribution of pelagic fish eggs and larvae off California and Baja California. Fishery Bulletin 161, 107–146.Angel, M. V. (1997). What is in the deep sea? In ‘Deep-Sea Fishes’ (Eds D. J. Randall and A. P. Farrell.) pp. 1–41. (Academic Press: London, UK.)
Backus, R. H., Craddock, J. E., Haedrich, R. L., and Robison, B. H. (1977). Atlantic mesopelagic zoogeography. Fishes of the Western North Atlantic. Sears Foundation for Marine Research 1, 266–287.
Badcock, J., and Merret, N. R. (1976). Midwater fishes in the eastern North Atlantic. I. Vertical distribution and associated biology in 30°N, 23°W, with developmental notes on certain myctophids. Progress in Oceanography 7, 3–58.
| Midwater fishes in the eastern North Atlantic. I. Vertical distribution and associated biology in 30°N, 23°W, with developmental notes on certain myctophids.Crossref | GoogleScholarGoogle Scholar |
Barnett, M. A. (1984). Mesopelagic fish zoogeography in the central tropical and subtropical Pacific Ocean: species composition and structure at representative locations in three ecosystems. Marine Biology 82, 199–208.
| Mesopelagic fish zoogeography in the central tropical and subtropical Pacific Ocean: species composition and structure at representative locations in three ecosystems.Crossref | GoogleScholarGoogle Scholar |
Bekker, V. E. (1983). ‘Myctophidae of the World Ocean.’ (Academy of Sciences USSR, Institute of Oceanology P.P. Shirshov: Moscow). [In Russian]
Briggs, J. C., and Bowen, B. W. (2012). A realignment of marine biogeographic provinces with particular reference to fish distributions. Journal of Biogeography 39, 12–30.
| A realignment of marine biogeographic provinces with particular reference to fish distributions.Crossref | GoogleScholarGoogle Scholar |
Cherel, Y., Verdon, C., and Ridoux, V. (1993). Seasonal importance of oceanic myctophids in king penguin diet at Crozet Islands. Polar Biology 13, 355–357.
| Seasonal importance of oceanic myctophids in king penguin diet at Crozet Islands.Crossref | GoogleScholarGoogle Scholar |
Chust, G., Irigoien, X., Chave, J., and Harris, R. P. (2013). Latitudinal phytoplankton distribution and the neutral theory of biodiversity. Global Ecology and Biogeography 22, 531–543.
| Latitudinal phytoplankton distribution and the neutral theory of biodiversity.Crossref | GoogleScholarGoogle Scholar |
Clarke, K. R., and Warwick, R. M. (2005). ‘Primer-6 Computer Program.’ (Natural Environment Research Council: Plymouth, UK.)
Collette, B. B. (2006). Order Belonifomes. In ‘Early Stages of Atlantic Fishes: an Identification Guide for the Western Central North Atlantic’. (Ed W. J. Richards.) p. 903. (Taylor and Francis: Boca Raton, FL, USA.)
Cózar, A., Echevarría, F., González-Gordillo, J. I., Irigoien, X., Ubeda, B., Hernández-León, S., Palma, A. T., Navarro, S., García-de-Lomas, J., Ruiz, A., Fernández-de-Puelles, M. L., and Duarte, C. M. (2014). Plastic debris in the open ocean. Proceedings of the National Academy of Sciences of the United States of America 111, 10239–10244.
| Plastic debris in the open ocean.Crossref | GoogleScholarGoogle Scholar | 24982135PubMed |
Davison, P. C., Checkley, D. M., Koslow, J. A., and Barlow, J. (2013). Carbon export mediated by mesopelagic fishes in the northeast Pacific Ocean. Progress in Oceanography 116, 14–30.
| Carbon export mediated by mesopelagic fishes in the northeast Pacific Ocean.Crossref | GoogleScholarGoogle Scholar |
Doyle, M. J. (1992). Neustonic ichthyoplankton in the northern region of the California current ecosystem. California Cooperative Oceanic Fisheries Investigations Reports 33, 141–161.
Doyle, M. J., Rugen, W. C., and Brodeur, R. D. (1995). Neustonic ichthyoplankton in the western Gulf of Alaska during spring. Fishery Bulletin 93, 231–253.
Ekau, W., Auel, H., Portner, H.-O., and Gilbert, D. (2010). Impacts of hypoxia on the structure and processes in pelagic communities (zooplankton, macro-invertebrates and fish). Biogeosciences 7, 1669–1699.
| Impacts of hypoxia on the structure and processes in pelagic communities (zooplankton, macro-invertebrates and fish).Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXhtV2rtLjO&md5=c026ae8c16cc7daa4b08835d17ef8df0CAS |
Fahay, M. P. (2007). ‘Early Stages of Fishes in the Western North Atlantic Ocean (Davis Strait, Southern Greenland and Flemish Cap to Cape Hatteras).’ (Northwest Atlantic Fisheries Organization: Dartmouth, NS, Canada.)
Flynn, A. J., and Marshall, N. J. (2013). Lanternfish (Myctophidae) zoogeography off Eastern Australia: a comparison with physicochemical biogeography. PLoS One 8, e80950.
| Lanternfish (Myctophidae) zoogeography off Eastern Australia: a comparison with physicochemical biogeography.Crossref | GoogleScholarGoogle Scholar | 24349024PubMed |
Flynn, A. J., and Paxton, J. R. (2012). Spawning aggregation of the lanternfish Diaphus danae (family Myctophidae) in the north-western Coral Sea and associations with tuna aggregations. Marine and Freshwater Research 63, 1255–1271.
| Spawning aggregation of the lanternfish Diaphus danae (family Myctophidae) in the north-western Coral Sea and associations with tuna aggregations.Crossref | GoogleScholarGoogle Scholar |
Flynn, A. J., and Williams, A. (2012). Lanternfish (Pisces: Myctophidae) biomass distribution and oceanographic-topographic associations at Macquarie Island, Southern Ocean. Marine and Freshwater Research 63, 251–263.
| Lanternfish (Pisces: Myctophidae) biomass distribution and oceanographic-topographic associations at Macquarie Island, Southern Ocean.Crossref | GoogleScholarGoogle Scholar |
Fock, H. O., and Ehrich, S. (2010). Deep-sea pelagic nekton biomass estimates in the North Atlantic: horizontal and vertical resolution of revised data from 1982 and 1983. Journal of Applied Ichthyology 26, 85–101.
| Deep-sea pelagic nekton biomass estimates in the North Atlantic: horizontal and vertical resolution of revised data from 1982 and 1983.Crossref | GoogleScholarGoogle Scholar |
Gartner, J. V., Hopkins, T. L., Baird, R. C., and Milliken, D. M. (1987). The lanternfishes (Pisces: Myctophidae) of the eastern Gulf of Mexico. Fishery Bulletin 85, 81–98.
Gartner, J. V., Steel, P., and Torres, J. J. (1989). Aspects of the distribution of lanternfishes (Pisces: Myctophidae) from the northern Sargasso Sea. Bulletin of Marine Science 45, 555–563.
Gartner, J. V., Crabtree, R. E., and Sulak, K. J. (1997). Feeding at depth. In ‘Deep-Sea Fishes’. (Eds D. J. Randall and A. P. Farrell.) pp. 115–194. (Academic Press: London, UK.)
Gjøsaeter, J., and Kawaguchi, K. (1980). A review of the world resources of mesopelagic fish. FAO Fisheries Technical Paper 13, 1–151.
Habtes, S., Muller-Karger, F. E., Roffer, M. A., Lamkin, J. T., and Muhling, B. A. (2014). A comparison of sampling methods for larvae of medium and large epipelagic fish species during spring SEAMAP ichthyoplankton surveys in the Gulf of Mexico. Limnology and Oceanography, Methods 12, 86–101.
| A comparison of sampling methods for larvae of medium and large epipelagic fish species during spring SEAMAP ichthyoplankton surveys in the Gulf of Mexico.Crossref | GoogleScholarGoogle Scholar |
Hulley, P. A. (1981). Results of the research cruises of FRV Herwig Walther to south-America. 58. Family Myctophidae (Osteichthyes, Myctophiformes). Archiv für Fischereiwissenschaft 31, 1–300.
Hulley, P. A. (1986a). Myctophidae. In ‘Smith's Sea Fishes’ (Eds M. M. Smith and P. C. Heemstra.) pp. 282–321. (Springer-Verlag: London, UK.)
Hulley, P. A. (1986b). Lanternfishes of the Southern Benguela region. Part 1. Faunal complexity and distribution. Annals of the South African Museum 97, 227–249.
Hulley, P. A., and Krefft, G. (1985). A zoogeographic analysis of the fishes of the family Myctophidae (Osteichthyes, Myctophiformes) from the 1979-Sargasso Sea Expedition of R.V. Anton Dohrn. Annals of the South African Museum 96, 19–53.
Hunte, W., Oxenford, H. A., and Mahonl, R. (1995). Distribution and relative abundance of flyingfish (Exocoetidae) in the eastern Caribbean. Spawning substrata, eggs and larvae. Marine Ecology Progress Series 117, 25–37.
| Distribution and relative abundance of flyingfish (Exocoetidae) in the eastern Caribbean. Spawning substrata, eggs and larvae.Crossref | GoogleScholarGoogle Scholar |
Iles, T. D., and Sinclair, M. (1982). Atlantic herring: stock discreteness and abundance. Science 215, 627–633.
| Atlantic herring: stock discreteness and abundance.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BC3cvmtFKntw%3D%3D&md5=8980e6c48de03a64e0daf64d9c70c8a4CAS | 17842372PubMed |
Irigoien, X., Klevjer, T. A., Røstad, A., Martinez, U., Boyra, G., Acuña, J. L., Bode, A., Echevarria, F., Gonzalez-Gordillo, J. I., Hernandez-Leon, S., Agusti, S., Aksnes, D. L., Duarte, C. M., and Kaartvedt, S. (2014). Large mesopelagic fishes biomass and trophic efficiency in the open ocean. Nature Communications 5, 3271.
| Large mesopelagic fishes biomass and trophic efficiency in the open ocean.Crossref | GoogleScholarGoogle Scholar | 24509953PubMed |
John, H.-C. (1977). Die Häufigkeit des Ichthyoplanktons an der Oberfläche des mittleren und südlichen Atlantischen Ozeans. Meeresforsch 25, 23–36.
Katsuragawa, M., and Matsuura, Y. (1990). Comparison of the diel and spatial distribution patterns of ichthyoplankton and ichthyoneuston in the Southeastern Brazilian Bight. Boletim do Instituto Oceanográfico, Sao Paulo 38, 133–146.
Kawaguchi, K., and Aioi, K. (1972). Myctophid fishes of the genus Myctophum (Myctophidae) in the Pacific and Indian Oceans. Journal of the Oceanographical Society of Japan 28, 161–175.
| Myctophid fishes of the genus Myctophum (Myctophidae) in the Pacific and Indian Oceans.Crossref | GoogleScholarGoogle Scholar |
Kawaguchi, K., Ikeda, H., Tamura, M., and Ueyanagi, S. (1972). Geographical distribution of surface-migrating myctophid fishes (Genus Myctophum) in the tropical and subtropical Pacific and Indian Oceans. Bulletin of the National Research Institute of Far Seas Fisheries 6, 23–37.
Koslow, J. A., Kloser, R. J., and Williams, A. (1997). Pelagic biomass and community structure over the mid-continental slope off southeastern Australia based upon acoustic and midwater trawl sampling. Marine Ecology Progress Series 146, 21–35.
| Pelagic biomass and community structure over the mid-continental slope off southeastern Australia based upon acoustic and midwater trawl sampling.Crossref | GoogleScholarGoogle Scholar |
Koslow, A., Davison, P., Lara-Lopez, A., and Ohman, M. D. (2014). Epipelagic and mesopelagic fishes in the southern California Current System: ecological interactions and oceanographic influences on their abundance. Journal of Marine Systems 138, 20–28.
| Epipelagic and mesopelagic fishes in the southern California Current System: ecological interactions and oceanographic influences on their abundance.Crossref | GoogleScholarGoogle Scholar |
Koubbi, P., Moteki, M., Duhamel, G., Goarant, A., Hulley, P. A., O’Driscoll, R., Ishimaru, T., Pruvost, P., Tavernier, E., and Hosie, G. (2011). Ecoregionalization of myctophid fish in the Indian sector of the Southern Ocean: results from generalized dissimilarity models. Deep-sea Research. Part II, Topical Studies in Oceanography 58, 170–180.
| Ecoregionalization of myctophid fish in the Indian sector of the Southern Ocean: results from generalized dissimilarity models.Crossref | GoogleScholarGoogle Scholar |
Legendre, P., and Legendre, L. (2012). ‘Numerical Ecology’, 2nd edn. (Elsevier: Amsterdam.)
Legendre, P., Borcard, D., and Peres-Neto, P. R. (2005). Analyzing beta diversity: partitioning the spatial variation of community composition data. Ecological Monographs 75, 435–450.
| Analyzing beta diversity: partitioning the spatial variation of community composition data.Crossref | GoogleScholarGoogle Scholar |
Longhurst, H. (1998). ‘Ecological Geography of the Sea.’ (Academic Press: San Diego.)
Longhurst, A. R., and Harrison, W. G. (1989). The biological pump—profiles of plankton production and consumption in the upper ocean. Progress in Oceanography 22, 47–123.
| The biological pump—profiles of plankton production and consumption in the upper ocean.Crossref | GoogleScholarGoogle Scholar |
Moser, H. G. (Ed.) (1996). ‘The Early Stages of Fishes in the California Current Region’, Calcofi Atlas number 33. (Allen Press: Lawrence, KS, USA.)
Nakamura, I., and Parin, N. V. (2001). Gempylidae, snake mackerels. In ‘The Living Marine Resources of the Western Central Pacific.’ (Eds. K. E. Carpenter and V. Niem.) FAO species identification guide for fishery purposes. 6. pp. 3698–3708. (FAO: Rome.)
Olivar, M. P., and Fortuño, J. M. (1991). Guide to ichthyoplankton of the Southeast Atlantic (Benguela Current Region). Scientia Marina 55, 1–383.
Olivar, M. P., Bernal, A., Molí, B., Peña, M., Balbín, R., Castellón, A., Miquel, J., and Massutí, E. (2012). Vertical distribution, diversity and assemblages of mesopelagic fishes in the western Mediterranean. Deep-sea Research. Part I, Oceanographic Research Papers 62, 53–69.
| Vertical distribution, diversity and assemblages of mesopelagic fishes in the western Mediterranean.Crossref | GoogleScholarGoogle Scholar |
Olivar, M. P., Sabatés, A., Alemany, F., Balbín, R., Fernández de Puelles, M. L., and Torres, A. P. (2014). Diel-depth distributions of fish larvae off the Balearic Islands (western Mediterranean) under two environmental scenarios. Journal of Marine Systems 138, 127–138.
| Diel-depth distributions of fish larvae off the Balearic Islands (western Mediterranean) under two environmental scenarios.Crossref | GoogleScholarGoogle Scholar |
Paxton, J. R. (1972). Osteology and relationships of the lanternfishes (Family Myctophidae). Bulletin of Los Angeles County Museum of Natural History of Sciences 13, 1–81.
Paxton, J. R., Lavenberg, R. J., and Sommer, C. (1995). Myctophidae, linternillas. In ‘Guia FAO para la identificación de especies para los fines de la pesca en el Pacífico centrooriental’. (Eds W. Fischer, F. Krupp, W. Schneider, C. Sommer, K. E. Carpenter and V. Niem.) pp. 1315–1321. (FAO: Rome.)
Pierrot-Bults, A. C., and van der Spoel, S. (2003). Macrozooplankton diversity: how much do we really know? Zoologische Verhandelingen Leiden 345, 297–312.
Poulsen, J., Byrkjedal, I., Willassen, E., Rees, D., Takeshima, H., Satoh, T., Shinohara, G., Nishida, M., and Miya, M. (2013). Mitogenomic sequences and evidence from unique gene rearrangements corroborate evolutionary relationships of myctophiformes (Neoteleostei). BMC Evolutionary Biology 13, 111.
| Mitogenomic sequences and evidence from unique gene rearrangements corroborate evolutionary relationships of myctophiformes (Neoteleostei).Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXhtVGqtbrJ&md5=84af38f347585c5974bc7aa28e464eecCAS | 23731841PubMed |
Richards, W. J. (2006). ‘Early Stages of Atlantic Fishes: an Identification Guide for the Western Central North Atlantic.’ (Taylor and Francis: Boca Raton, FL.)
Roe, H. S. J., and Badcock, J. (1984). The diel migrations and distributions within a mesopelagic community in the north-east Atlantic. 5. Vertical migrations and feeding of fish. Progress in Oceanography 13, 389–424.
| The diel migrations and distributions within a mesopelagic community in the north-east Atlantic. 5. Vertical migrations and feeding of fish.Crossref | GoogleScholarGoogle Scholar |
Sabatés, A. (2004). Diel variability of fish larvae distribution during the winter mixing period in the NW Mediterranean. ICES Journal of Marine Science 61, 1243–1252.
| Diel variability of fish larvae distribution during the winter mixing period in the NW Mediterranean.Crossref | GoogleScholarGoogle Scholar |
Sassa, C., Kawaguchi, K., Kinoshita, T., and Watanabe, C. (2002a). Assemblages of vertical migratory mesopelagic fish in the transitional region of the western North Pacific. Fisheries Oceanography 11, 193–204.
| Assemblages of vertical migratory mesopelagic fish in the transitional region of the western North Pacific.Crossref | GoogleScholarGoogle Scholar |
Sassa, C., Moser, H. G., and Kawaguchi, K. (2002b). Horizontal and vertical distribution patterns of larval myctophid fishes in the Kuroshio current region. Fisheries Oceanography 11, 1–10.
| Horizontal and vertical distribution patterns of larval myctophid fishes in the Kuroshio current region.Crossref | GoogleScholarGoogle Scholar |
Sinclair, M. (1988). ‘Marine Populations.’ (University of Washington Press: Seattle, WA, USA.)
Sutton, T. T., Wiebe, R. H., Madin, L., and Bucklin, A. (2010). Diversity and community structure of pelagic fishes to 5000 m depth in the Sargasso Sea. Deep-sea Research. Part II, Topical Studies in Oceanography 57, 2220–2233.
| Diversity and community structure of pelagic fishes to 5000 m depth in the Sargasso Sea.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXhsVKjt7%2FI&md5=1fadf7d1b9c5b0b437d6e94305dc0b01CAS |
Ter Braak, C. J. F., and Smilauer, P. (2002). ‘CANOCO Reference Manual and CanoDraw for Windows User’s Guide: Software for Canonical Community Ordination (version, 4.5).’ (Microcomputer Power: Ithaca, NY, USA.)
Tully, O., and ÓCéidigh, P. (1989). The ichthyoneuston of Galway Bay (Ireland). Marine Biology 101, 27–41.
| The ichthyoneuston of Galway Bay (Ireland).Crossref | GoogleScholarGoogle Scholar |
Valls, M., Olivar, M. P., Fernández de Puelles, M. L., Molí, B., Bernal, A., and Sweeting, C. J. (2014). Trophic structure of mesopelagic fishes in the western Mediterranean based on stable isotopes of carbon and nitrogen. Journal of Marine Systems 138, 160–170.
| Trophic structure of mesopelagic fishes in the western Mediterranean based on stable isotopes of carbon and nitrogen.Crossref | GoogleScholarGoogle Scholar |
van der Spoel, S. (1994). Response History, progress and future of theory in pelagic biogeography. Progress in Oceanography 34, 101–107.
| Response History, progress and future of theory in pelagic biogeography.Crossref | GoogleScholarGoogle Scholar |
van der Spoel, S., and Bleeker, J. (1991). Distribution of myctophidae pisces myctophiformes during the four seasons in the mid north atlantic. Bijdragen tot de Dierkunde 61, 89–106.
van der Spoel, S., and Heyman, R. P. (1983). ‘A Comparative Atlas of Zooplankton.’ (Springer-Verlag: Berlin, Germany.)
Watanabe, H., Moku, M., Kawaguchi, K., Ishimaru, K., and Ohno, A. (1999). Diel vertical migration of myctophid fishes (Family Myctophidae) in the transitional waters of the western North Pacific. Fisheries Oceanography 8, 115–127.
| Diel vertical migration of myctophid fishes (Family Myctophidae) in the transitional waters of the western North Pacific.Crossref | GoogleScholarGoogle Scholar |
Watanabe, H., Kawaguchi, K., and Hayashi, A. (2002). Feeding habits of juvenile surface-migratory myctophid fishes (family Myctophidae) in the Kuroshio region of the western North Pacific. Marine Ecology Progress Series 236, 263–272.
| Feeding habits of juvenile surface-migratory myctophid fishes (family Myctophidae) in the Kuroshio region of the western North Pacific.Crossref | GoogleScholarGoogle Scholar |
Wurl, O., and Holmes, M. (2008). The gelatinous nature of the seasurface microlayer. Marine Chemistry 110, 89–97.
| The gelatinous nature of the seasurface microlayer.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1cXls1Kqt7w%3D&md5=2c2394c2cdc4a5ba58aeadbab05a341cCAS |
