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Strategies of plankton occupation by polychaete assemblages in a subtropical estuary (south Brazil)

Published online by Cambridge University Press:  31 August 2016

Miodeli Nogueira Júnior*
Affiliation:
Departamento de Sistemática e Ecologia, Universidade Federal da Paraíba, Cidade Universitária, João Pessoa, Paraíba, 58051-900, Brasil
Verônica Maria de Oliveira
Affiliation:
Departamento de Química e Biologia, Universidade Estadual do Maranhão – Curso de Mestrado em Recursos Aquáticos e Pesca. Cidade Universitária Paulo VI – Cx, Postal 09 – São Luís, Maranhão, Brasil
*
Correspondence should be addressed to: M. Nogueira Júnior, Departamento de Sistemática e Ecologia, Universidade Federal da Paraíba, Cidade Universitária, João Pessoa, Paraíba, 58051-900, Brasil email: [email protected]

Abstract

Polychaete abundance and assemblage structure were analysed from 144 zooplankton samples taken in eight seasonal campaigns between October 2007 and November 2008 on Babitonga Bay estuary (south Brazil). A total of 16 taxa were found, classified in three categories: (i) larvae (five taxa) dominated by Loimia sp. (Terebellidae) (up to 59 ind 100 m−3); (ii) syllid epitokes (three taxa) dominated by Procerastea sp.2 (up to 11 ind 100 m−3) and Myrianida sp. (up to 6 ind 100 m−3); and (iii) adults of typically benthic species (eight taxa) which were only occasionally sampled in low densities (<1 ind 100m−3). Larvae dominated mostly during spring and summer in the outer sector of the estuary, while syllid epitokes peaked during winter with higher abundances in the inner sector. The assemblage dynamics match the seasonal and spatial changes in the environmental conditions of the estuary. Descriptive variables explained 49.5% of the polychaetes variance according to Redundancy Analysis. Rainfall, temperature and salinity were the variables most influencing the assemblage, with rainfall and temperature regulating seasonal, and mostly salinity regulating spatial patterns, similar to meroplanktonic populations from both temperate and tropical latitudes. Dominant species had different hydrographic preferences, Loimia sp. was more abundant in warmer (>23°C) and saltier (>25) waters, Magelona papillicornis larvae were more abundant in saltier waters with intermediate temperatures (22–23°C), and the syllids were more common and abundant on lower temperatures (<20°C). In addition we highlight the occurrence of several benthic taxa suspended in the water column, probably due to bottom disturbance.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2016 

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References

REFERENCES

Abe, H., Sato-Okoshi, W. and Endo, Y. (2011) Seasonal changes of planktonic polychaete larvae and chlorophyll a concentration in Onagawa Bay, northeastern Japan. Italian Journal of Zoology 78, 255266.Google Scholar
Alldredge, A.L. and King, J.M. (1977) Distribution, abundance, and substrate preferences of demersal reef zooplankton at Lizard Island Lagoon, Great Barrier Reef. Marine Biology 41, 317333.Google Scholar
Alldredge, A.L. and King, J.M. (1980) Effects of moonlight on the vertical migration patterns of demersal zooplankton. Journal of Marine Biology and Ecology 44, 133156.CrossRefGoogle Scholar
Amaral, A.C.Z., Nallin, S.A.H. and Steiner, T.M. (2012) Catálogo das espécies dos Annelida Polychaeta do Brasil. Available at http://www.ib.unicamp.br/destaque/jbiota/bentos_marinho/prod_cient/texto_poli.pdf (accessed 15 March 2015).Google Scholar
Anderson, M.J. (2001) A new method for non-parametric multivariate analysis of variance. Austral Ecology 26, 3246.Google Scholar
Anderson, M.J., Gorley, R.N. and Clarke, K.R. (2008) PERMANOVA + for PRIMER: guide to software and statistical methods. Plymouth: PRIMER-E.Google Scholar
Anokhina, L.L. (2006) Influence of moonlight on the vertical migrations of benthopelagic organisms in the near-shore area of the Black Sea. Oceanology 46, 385395.Google Scholar
Belgrano, A., Vincx, M., Dewarumez, J.M., Richard, A., Craeymeersch, J. and Heip, C. (1990) Recruitment of meroplanktonic larvae in the southern bight of the North Sea. Oceanis 16, 225243.Google Scholar
Blake, J.A. (1975) The larval development of Polychaeta from Northern California coast. III eighteen species of errantia. Ophelia 14, 2384.Google Scholar
Bochert, R., Fritzsche, D. and Burckhardt, R. (1996) Influence of salinity and temperature on growth and survival of the planktonic larvae of Marenzelleria viridis (Polychaeta, Spionidae). Journal of Plankton Research 18, 12391251.CrossRefGoogle Scholar
Branco, C.W.C., Kozlowsky-Suzuki, B. and Esteves, F.A. (2007) Environmental changes and zooplankton temporal and spatial variation in a disturbed Brazilian coastal lagoon. Brazilian Journal of Biology 67, 251262.Google Scholar
Cabral, A.C., Nogueira Júnior, M., Nagata, R.M. and Brandini, F.P. (2015) Are free-floating planktonic hydroids (Cnidaria, Hydrozoa) common components of the pelagic fauna of the South Brazilian Bight? Journal of the Marine Biological Association of the United Kingdom 95, 16451652.Google Scholar
Camacho, F.P. and Souza-Conceição, J.M. (2007) Distribuição espaço-temporal da clorofila-a e das variáveis ambientais em praias estuarinas da ilha de São Francisco do Sul (Baía da Babitonga, Sul do Brasil). Boletim Técnico-Científico do CEPENE 15, 916.Google Scholar
Cañete, J.I., Cárdenas, C.A., Palacios, M. and Barría, R. (2013) Presencia de agregaciones reproductivas pelágicas del poliqueto Platynereis australis (Schmarda, 1861) (Nereididae) en aguas someras subantárticas de Magallanes, Chile. Latin American Journal of Aquatic Research 41, 170176.Google Scholar
Costa, M.D.P. and Souza-Conceição, J.M. (2009) Composição e abundância de ovos e larvas de peixes na Baía da Babitonga, Santa Catarina, Brasil. Pan-American Journal of Aquatic Sciences 4, 372382.Google Scholar
Cremer, M.J., Morales, P.R. and Oliveira, T.M.N. (2006) Diagnóstico Ambiental da Baía da Babitonga. Joinville: Editora da Univille.Google Scholar
Crumrine, L. (2001) Polychaeta. In Shanks, A. (ed.) Identification guide to larval marine invertebrates of the Pacific Northwest. Corvallis: Oregon State University Press, pp. 3977.Google Scholar
Curtis, M.A. (1977) Life cycles and population dynamics of marine benthic polychaetes from the Disko bay area of West Greenland. Ophelia 16, 958.Google Scholar
Dales, R.P. and Peter, G. (1972) A synopsis of the pelagic Polychaeta. Journal of Natural History, 6, 5592.Google Scholar
Daly, J.M. (1975) Reversible epitoky in the life history of the polychaete Odontosyllis polycera (Schmarda 1861). Journal of the Marine Biological Association of the United Kingdom 55, 327334.Google Scholar
DNIT-IME (2004) Estudos ambientais da Baía da Babitonga – Canal do Linguado. Relatório Final dos Estudos da Baía da Babitonga/Canal do Linguado; Convênio DNIT/IME.Google Scholar
Fernández-Álamo, M.A. and Thuesen, E.V. (1999) Polychaeta. In Boltovskoy, D. (ed.) South zooplankton. Leiden: Backhuys Publishers, pp. 595620.Google Scholar
Franke, H.-D. (1983) Endocrine mechanisms mediating light-temperature effects on male reproductive activity in Typosyllis prolifera (Polychaeta, Syllidae). Roux's Archives of Developmental Biology 192, 95102.Google Scholar
Franke, H.-D. (1986) The role of light and endogenous factors in the timing of the reproductive cycle of Typosyllis prolifera and some other polychates. American Zoologist 26, 433445.Google Scholar
Franke, H.-D. (1999) Reproduction of the Syllidae (Annelida: Polychaeta). Hydrobiologia 402, 3955.Google Scholar
Garraffoni, A.R.S. and Lana, P.C. (2010) A critical review of ontogenetic development in Terebellidae (Polychaeta). Acta Zoologica 91, 390401.Google Scholar
Gaston, G.R. and Hall, J. (2000) Lunar periodicity and bioluminescence of swarming Odontosyllis luminosa (Polychaeta: Syllidae) in Belize. Gulf and Caribbean Research 12, 4751.Google Scholar
Giangrande, A. (1997) Polychaete reproductive patterns, life cycles and life histories: an overview. Oceanography and Marine Biology 35, 323386.Google Scholar
Heacox, A. E. (1980) Reproduction and development of Typosyllis pulchra (Berkeley and Berkeley) (Polychaeta: Syllidae). Pacific Science 34, 245259.Google Scholar
Kulikova, V.A. and Omelyanenko, V.A. (2009) Summer meroplankton of the Northern Part of Amurskii Bay (Peter the Great Bay, Sea of Japan). In Lutaenko K.A. and Vaschenko M.A. (eds) Ecological studies and the state of the ecosystem of Amursky Bay and the estuarine zone of the Razdolnaya River (Sea of Japan). Vladivostok: Dalnauka, Volume 2, pp. 205228.Google Scholar
Lacalli, T. (1981) Annual spawning cycles and planktonic larvae of benthic invertebrates from Passamaquoddy Bay, New Brunswick. Canadian Journal of Zoology 99, 433440.Google Scholar
Legendre, P. and Legendre, L. (1998) Numerical ecology, 2nd edition. Amsterdam: Elsevier Science.Google Scholar
Lepš, J. and Šmilauer, P. (2003) Multivariate analysis of ecological data using CANOCO. Cambridge: Cambridge University Press.Google Scholar
Levin, L.A. (1984) Life history and dispersal patterns in a dense infaunal polychaete assemblage: community structure and response to disturbance. Ecology 65, 11851200.Google Scholar
Lopes, R.M. (2007) Marine zooplankton studies in Brazil – a brief evaluation and perspectives. Anais da Academia Brasileira de Ciências 79, 369379.Google Scholar
Magris, R.A. and Loureiro-Fernandes, L. (2005) Variação espaço-temporal do meroplâncton no estuário do Rio Piraquê-Açú, Aracruz, Espírito Santo. Brazilian Journal of Aquatic Sciences and Technology 9, 5560.CrossRefGoogle Scholar
Martin, D., Pinedo, S. and Sardá, R. (1996) Grazing by meroplanktonic polychaete larvae may help to control nanoplankton in the NW Mediterranean littoral: in situ experimental evidence. Marine Ecology Progress Series 143, 239246.Google Scholar
Mileikovsky, S.A. (1970) Seasonal and daily dynamics in pelagic larvae of marine shelf bottom invertebrates in nearshore waters of Kandalaksha Bay (White Sea). Marine Biology 5, 180194.Google Scholar
MMA (2007) Áreas Prioritárias para a Conservação, Uso Sustentável e Repartição de Benefícios da Biodiversidade Brasileira: Atualização, Portaria No. 09, 23 janeiro 2007. Diário Oficial da União 17, 55.Google Scholar
Neumann-Leitão, S. (1995) Resenha literária sobre o zooplâncton estuarino no Brasil. Trabalhos Oceanográficos da Universidade Federal de Pernambuco 23, 2553.Google Scholar
Nogueira Júnior, M. (2012) Gelatinous zooplankton fauna (Cnidaria, Ctenophora and Thaliacea) from Baía da Babitonga (southern Brazil). Zootaxa 3398, 121.Google Scholar
Nogueira Júnior, M., Pukanski, L.E.M. and Souza-Conceição, J.M. (2015) Mesh size effects on assessments of planktonic hydrozoan abundance and assemblage structure. Journal of Marine Systems 144, 117126.Google Scholar
Nygren, A. (2004) Revision of Autolytinae (Syllidae: Polychaeta). Zootaxa 680, 1314.CrossRefGoogle Scholar
Olive, P.J.W. (1995) Annual breeding cycles in marine invertebrates and environmental temperature: probing the proximate and ultimate causes of reproductive synchrony. Journal of Thermal Biology 20, 7990.Google Scholar
Olive, P.J.W., Porter, J.S., Sandeman, N.J., Wright, N.H. and Bentley, M.G. (1997) Variable spawning success of Nephtys hombergi (Annelida: Polychaeta) in response to environmental variation, a life history homeostasis? Journal of Experimental Marine Biology and Ecology 215, 247268.Google Scholar
Omeĺyanenko, V.A. and Kulikova, V.A. (2002) Composition, seasonal dynamics, and long-term fluctuations in the density of pelagic polychaetes in Amurskii Bay, Sea of Japan. Russian Journal of Marine Biology 28, 308316.Google Scholar
Omeĺyanenko, V.A. and Kulikova, V.A. (2011) Pelagic larvae of benthic invertebrates of the Vostok Bay, Peter the Great Bay, Sea of Japan: composition, phenology, and population dynamics. Russian Journal of Marine Biology 37, 722.Google Scholar
Omeĺyanenko, V.A., Kulikova, V.A. and Pogodin, A.G. (2004) The meroplankton of Amurskii Bay (Peter the Great Bay, Sea of Japan). Russian Journal of Marine Biology 30, 159174.Google Scholar
Omori, M. and Ikeda, T. (1992) Methods in marine zooplankton ecology. Malabar: Krieger Publishing.Google Scholar
Pacheco, A.S., Goméz, G.E. and Riascos, J.M. (2013) First record of emerging benthic invertebrates at a sublittoral soft-bottom habitat in northern Chile. Revista de Biologia Marina y Oceanografía 48, 387392.Google Scholar
Pagliosa, P.R. (2006) Distribuição da macrofauna bêntica do entremarés ao sublitoral em uma praia estuarina da Baía da Babitonga, Sul do Brasil. Biotemas 19, 2533.Google Scholar
Pagliosa, P.R., Doria, J.G., Alves, G.F., Almeida, T.C.M., Lorenzi, L., Netto, S.A. and Lana, P.C. (2012) Polychaetes from Santa Catarina State (southern Brazil): checklist and remarks on species distribution. Zootaxa 3486, 149.Google Scholar
Pettibone, M. (1963) Marine Polychaete worm of the New England Region. 1. Families Aphroditidae through Trocochaetidae. U.S. Bulletin of the Natural Museum 227, 1356.Google Scholar
Pieper, W.W. (2010) A variabilidade espacial dos índices ambi e m-ambi em ambientes estuarinos da costa sul e sudeste do Brasil . Master's Dissertation. Universidade Federal do Paraná, Pontal do Sul.Google Scholar
Pilskaln, C.H., Churchill, J.H. and Mayer, L.M. (1998) Resuspension of sediment by bottom trawling in the Gulf of Maine and potential geochemical consequences. Conservation Biology 12, 12231229.Google Scholar
Porto Neto, F.F., Neumann-Leitão, S., Gusmão, L.M.O., Vieira, D.A.N., Silva, A.P. and Silva, T.A. (1999) Variação sazonal e nictemeral do zooplâncton no Canal de Santa Cruz, Itamaracá, PE, Brasil. Trabalhos Oceanográficos da Universidade Federal de Pernambuco 27, 4358.Google Scholar
Qian, P.Y. and Dahms, H.U. (2006) Larval ecology of the Annelida. In Rouse, G.W. and Pleijel, F. (eds) Reproductive biology and phylogeny of Annelida. Enfield, NH: Science Publishers, pp. 179232.Google Scholar
Rouse, G.W. and Pleijel, P. (2001) Polychaetes. London: Oxford University Press.Google Scholar
Sardá, R., Gil, J., Taboada, S. and Gili, J-M. (2009) Polychaete species captured in sediment traps moored in northwestern Mediterranean submarine canyons. Zoological Journal of the Linnean Society 155, 121.Google Scholar
Schlitzer, R. (2015) Ocean data view. Available at http://www.odv.awi.de (accessed 9 August 2015).Google Scholar
Seitz, R.D. and Schaffner, L.C. (1995) Population ecology and secondary production of the polychaete Loimia medusa (Terebellidae). Marine Biology 121, 701711.Google Scholar
Thomas, M.C. and Lana, P.C. (2011) A new look into the small-scale dispersal of free-living marine nematodes. Zoologia 28, 449456.Google Scholar
Tovar-Faro, B., Leocádio, M. and Paiva, P.C. (2013) Distribution of Iospilidae (Annelida) along the eastern Brazilian coast (from Bahia to Rio de Janeiro). Latin American Journal of Aquatic Research 41, 323334.Google Scholar
Tsuji, F.I. and Hill, E. (1983) Repetitive cycles of bioluminescence and spawning in the polychaete, Odontosyllis phosphorea . Biological Bulletin 165, 444449.Google Scholar
Turner, J.T. and Anderson, D.M. (1983) Zooplankton grazing during dinoflagellate blooms in a Cape Cod embayment, with observations of predation upon tintinnids by copepods. Marine Ecology 4, 359374.Google Scholar
Vannucci, M. (1960) Catalogue of marine larvae. n. 2 – Introduction to the Polychaete larvae. São Paulo: Instituto Oceanográfico Universidade de São Paulo.Google Scholar
Vannucci, M. (1968) Catalogue of marine larvae. São Paulo: Instituto Oceanográfico Universidade de São Paulo.Google Scholar
Vilar, C., Spach, H.L. and Santos, L.O. (2011) Fish fauna of Baía da Babitonga (southern Brazil), with remarks on species abundance, ontogenic stage and conservation status. Zootaxa 2734, 4052.Google Scholar
Westheide, W. (2003) A temporarily planktonic terebellid polychaete. Journal of the Marine Biological Association of the United Kingdom 83, 771774.Google Scholar
Wilson, W.H. (1991) Sexual reproductive modes in polychaetes: classification and diversity. Bulletin of Marine Science 48, 500516.Google Scholar