DETERMINANT DRIVERS FOR THE COMMUNITY STRUCTURE OF BENTHIC MACROINVERTEBRATES IN COASTAL LAGOONS AT THE RESTINGA DE JURUBATIBA NATIONAL PARK, IN THE STATE OF RIO DE JANEIRO STATE (BRAZIL)

Autores

  • Maria Silvina Bevilacqua Laboratório Integrado de Ecologia Aquática, Instituto de Biodiversidade e Sustentabilidade, Universidade Federal do Rio de Janeiro, Macaé, Rio de Janeiro, Campus Macaé, Av. São José do Barreto, 764, São José d Barreto, Macaé, RJ, CEP 27965-045 https://orcid.org/0000-0001-7420-0089
  • Rodrigo Weber Felix Laboratório Integrado de Ecologia Aquática, Instituto de Biodiversidade e Sustentabilidade, Universidade Federal do Rio de Janeiro, Macaé, Rio de Janeiro, Campus Macaé, Av. São José do Barreto, 764, São José d Barreto, Macaé, RJ, CEP 27965-045
  • Marcos Paulo Figueiredo-Barros Laboratório Integrado de Ecologia Aquática, Instituto de Biodiversidade e Sustentabilidade, Universidade Federal do Rio de Janeiro, Macaé, Rio de Janeiro, Campus Macaé, Av. São José do Barreto, 764, São José d Barreto, Macaé, RJ, CEP 27965-045 https://orcid.org/0000-0003-1603-3395
  • Francisco de Assis Esteves Laboratório Integrado de Ecologia Aquática, Instituto de Biodiversidade e Sustentabilidade, Universidade Federal do Rio de Janeiro, Macaé, Rio de Janeiro, Campus Macaé, Av. São José do Barreto, 764, São José d Barreto, Macaé, RJ, CEP 27965-045

Palavras-chave:

benthic fauna, environmental factors, lentic environments, neotropical lagoons

Resumo

This study aimed to characterize and evaluate factors driving the structure of the benthic macroinvertebrate community in coastal lagoons at the Restinga de Jurubatiba National Park. Sixteen lagoons were sampled in July 2010 during the dry season. At each lagoon, three samples were taken in the central region and three samples were taken near the sandbar. At each point, the limnological variables and the benthic community were collected. Richness and abundance were calculated for each sample. The correlations among the environmental parameters were tested using Pearson's correlation. A Principal Component Analysis using environmental variables was performed to visualize the similarity among samples. Simple regressions were used to assess the correlation between macroinvertebrates' metrics and environmental parameters. A redundancy test was performed to link environmental parameters to the community structure of macroinvertebrates. A total of 1,719 macroinvertebrates were identified in 25 taxa groups that were classified as exclusive marine taxa, five as brackish/marine taxa, seven as freshwater taxa, and two taxa as groups with marine and freshwater representatives. The most abundant taxa were Leonereis sp., Heleobia australis, and Kalliapseudidae. Richness and abundance were negatively related to salinity. The redundancy test indicated pH, salinity, coarse grain size, and dissolved oxygen as the environmental variables explaining the macroinvertebrate community structure variation among the lagoons. Understanding the drives and dynamics which guide the macroinvertebrates communities' turnover in coastal lagoons is a relevant tool to subsidize environmental management decisions due to the increasing threats around the park.

Referências

Appiah, S. Y., Etilé, R. N., Kouamé, A. K. & Kouamélan, P. E. 2017. Benthic Macroinvertebrates Composition and Spatiotemporal Variation in Relationship with Environmental Parameters in a Coastal Tropical Lagoon (Ebrié Lagoon, Côte D’ivoire). Human Journals, 201, 4.

Attayde, J. L. & Bozelli, R.L. 1998. Assessing the indicator properties of zooplankton assemblages to disturbance gradients by canonical correspondence analysis. Canadian Journal of Fisheries and Aquatic Sciences, 55(8), 1789–1797. DOI: 10.1139/cjfas-55-8-1789

Barbosa, F.A.R., Scarano, F.R., Sabará, M.G. & Esteves, F. A. 2004. Brazilian LTER: Ecosystem and Biodiversity of Brazilian LTER. Environtal Monitoring and Assessment. 90(1-3), 121–133. DOI: 10.1023/b:emas.0000003571.10570.02

Caldas, L. H. D., De Oliveira, J. G. & De Medeiros, W.E. 2006. Geometry and evolution of Holocene transgressive and regressive barriers on the semi-arid coast of NE Brazil. Geo-Marine Letters, 26(5), 249–263. DOI: 10.1007/s00367-006-0034-2

Caliman, A., Carneiro, L. S., Santangelo, J. M., Guariento, R. D., Pires, A. F. P., Suhett, A. L., Quesado, L. B., Scofield, V., Fonte, E. S., Lopes, P. M., Sanches, L. F., Azevedo, F. D., Marinho, C. C., Bozelli, R. L., Esteves, F. A. & Farjalla, V. F. 2010. Temporal coherence among tropical coastal lagoons: a search for patterns and mechanisms. Brazilian Journal of Biology, 70(3), 803–814. DOI: 10.1590/S1519-69842010000400011

Callisto, M., Gonçalves Jr. J. F., Fonseca, J. J. L., & Petrucio, M. M. 1998. Macroinvertebrados bentônicos nas lagoas Imboassica, Cabiúnas e Comprida. In: Esteves, F.A. (Ed.), Ecologia de lagoas costeiras do Parque Nacional da Restinga de Jurubatiba e do município de Macaé (RJ). pp 283–298, NUPEM/UFRJ: Macaé.

Diegues, A. C. & Rosman, P. C. 1998. Caracterização dos ativos ambientais em áreas selecionadas da Zona Costeira Brasileira. Ministério do Meio Ambiente, dos Recursos Hídricos e da Amazônia Legal. Brasília. p. 136.

Esteves, F. A., Scarano, F. R., & Furtado, A. L. S. 2002. Restingas e lagoas costeiras do norte fluminense. In Seeliger, U., Cordazzo, C. and Barbosa, F. A. R. (Ed.) Os sites e o Programa Brasileiro de Pesquisas Ecológicas de Longa Duração. pp. 83–100, Belo Horizonte: Universidade Federal de Minas Gerais.

Esteves, F. A. 1998. Lagoas costeiras: origem, funcionamento e possibilidades de manejo. In Esteves, F. A. (Ed.). Ecologia das Lagoas Costeiras do Parque Nacional da Restinga de Jurubatiba e do Município de Macaé (RJ). pp. 63–90, Rio de Janeiro: Nupem/UFRJ.

Esteves, F. A. 2011. Fundamentos de Limnologia. Rio de Janeiro: Interciência/FINEP.

Figueiredo-Barros, M. P., Leal, J. J. F., Esteves, F. A., Rocha, A. M., & Bozelli, R. L. 2006. Life cycle, secondary production and nutrient stock in Heleobia australis (d’Orbigny 1835) (Gastropoda: Hydrobiidae) in a tropical coastal lagoon. Estuarine, Coastal and Shelf Science, 69, 87–95. DOI: 10.1016/j.ecss.2006.03.023

Folk, R. L. and Ward, W. C. 1957. Brazos River Bar: A Study in the Significance of Grain Size Parameters. Journal of Sedimentary Petrology, 27, 3–26.

https://doi.org/10.1306/74D70646-2B21-11D7-8648000102C1865D

Gonçalves, Jr. J. F., Fonseca, J. J. L, & Callisto, M. F. P. 1998. Population dynamics of Heleobia australis (Gastropoda) in a coastal lagoon (Rio de Janeiro, Brazil). Verhandlungen der Internationalen Vereinigung fur Limnologie, 26, 2056–2057. DOI: 10.1080/03680770.1995.11901104

Hollanda-Carvalho, P., Sánches-Botero, J. I., Pellegrini-Caramschi, E. & Bozelli, R. L. 2003. Temporal variation of fish community richness in coastal lagoons of the Restinga de Jurubatiba National Park, Rio de Janeiro, Brazil. Acta Limnologica Brasiliensia, 15(3), 31–40.

Kanaya, G. & Kikuchi, E. 2008. Spatial changes in a macrozoobenthic community along environmental gradients in shallow brackish lagoon facing Sendai Bay, Japan. Estuarine, Coastal and Shelf Science, 78, 674–684. DOI: 10.1016/j.ecss.2008.02.005

Kjerfve, B. 1994. Coastal lagoons. In: Kjerfve, B. (Ed.). Coastal lagoon processes. pp. 1–8, Elsevier: Amsterdam.

Kruk, M., Paturej, E., & Obolewski, K. 2021. Zooplankton predator–prey network relationships indicate the saline gradient of coastal lakes. Machine learning and meta-network approach. Ecological Indicators. 125, 107550. DOI: 10.1016/j.ecolind.2021.107550.

Leitão, A. 2014. Taxonomia, estrutura populacional e distribuição espaço-temporal de Polychaeta na lagoa Visgueiro do Parque Nacional da Restinga de Jurubatiba, RJ, Brasil. Master thesis. Ciências Ambientais e Conservação – Instituto de Biodiversidade e Sustentabilidade, Universidade Federal do Rio de Janeiro, Rio de Janeiro. p. 105.

Mclusky, D. S. & Elliott, M. 2007. Transitional waters: A new approach, semantics or just muddying the waters? Estuarine, Coastal and Shelf Science, 71, 359–363. DOI: 10.1016/j.ecss.2006.08.025

Mrozinska, N., Glinska-Lewczuk, K., & Obolewski, K. 2021. Salinity as a Key Factor on the Benthic Fauna Diversity in the Coastal Lakes, Animals, 11, 3039. DOI: 10.3390/ani11113039

Mugnai, R., Nessimian, J. L., & Baptista, D. F. 2010. Manual de identificação de macroinvertebrados aquáticos do Estado do Rio de Janeiro. Technical Books Editora. p. 174.

Netto, S. A. & Fonseca, G. 2017. Regime shifts in coastal lagoons: Evidence from free-living marine nematodes. PLoS ONE, 12, e0172366. DOI: 10.1371/journal.pone.0172366

Neves, R. A. F., Echeverria, C. A., & Pessoa, L. A. 2011. Resposta da espécie Heleobia australis (Gastropoda: Hydrobiidae) a variações de salinidade e exposição a hidrocarbonetos. Boletim do Laboratório de Hidrobiologia, 24(2), 19–25.

Obolewski, K., Glińska-Lewczuk, K., Szymańska, M., Mrozińska, N., Bąkowska, M. & Astel, A. 2018. Patterns of salinity regime in coastal lakes based on structure of benthic invertebrates. PLoS ONE, 13(11), e0207825. DOI: 10.1371/journal.pone.0207825

Pechenik, J. A., Berard, R., & Kerr, L. 2000. Effects of reduced salinity on survival, growth, reproductive success, and energetics of the euryhaline polychaete Capitella sp. Journal of Experimental Marine Biology and Ecology, 254(1), 19–35. DOI: 10.1016/S0022-0981(00)00261-6

Pinto, R. J., Patrício, J., Baeta, A., Fath, B. D., Neto, J. M. & Marques, J. C. 2009. Review and evaluation of estuarine biotic indices to assess benthic condition. Ecological Indicators, 9, 1–25. DOI: 10.1016/j.ecolind.2008.01.005

Piscart, R., Moreteau, J. C & Beisel, J.N. 2005. Biodiversity and structure of macroinvertebrate communities along a small permanent salinity gradient (Meurthe River, France). Hydrobiologia, 551, 227–236. DOI: 10.1007/s10750-005-4463-0.

Rosqvist, K., Mattila, J., Sandström, A., Snickars, M. & Westerbom, M. 2010. Regime shifts in vegetation composition of Baltic Sea coastal lagoons, 93(1), 0–46. DOI: 10.1016/j.aquabot.2010.03.002

Reizopoulou, S., Simboura, N., Barbone, E., Aleffi, F., Basset, A. & Nicolaidou, A. 2014. Biodiversity in transitional waters: steeper ecotone, lower diversity. Marine Ecology, 35, 78–84. DOI: 10.1111/maec.12121

Sanders, H. L., Mangelsdorf, Jr P. C., & Hampson, G. R. 1965. Salinity and faunal distribution in the Pocasset River, Massachusetts. Limnology and Oceanography, 10, 216–229. DOI: 10.4319/lo.1965.10.suppl2.r216

Teske, P.R. & Wooldridge, T. H. 2003. What limits the distribution of subtidal macrobenthos in permanently open and temporarily open/closed South African estuaries? Salinity vs. sediment particle size. Estuarine, Coastal and Shelf Science, 57, 225–238. DOI: 10.1016/S0272-7714(02)00347-5

Tagliapietra, D., Sigovini, M. & Magni, P. 2012. Saprobity: a unified view of benthic succession models for coastal lagoons. Hydrobiologia, 686, 15–28. DOI: 10.1007/s10750-012-1001-8

Tlg-zouari, S., Mami, T., & Maamouri, F. 2009. Structure of benthic macroinvertebrates and dynamics in the northern lagoon of Tunis. Journal of the Marine Biological Association of the United Kingdom, 89(7), 1305–1318. DOI: 10.1017/S0025315409000721

Trivinho-Strixino, S. 2019. Ordem Diptera. Família Chiromidae. Guia de identificação de larvas. In Hamada, N., Nessimian, J. L., & Querino, R. B. Insetos aquáticos na Amazônia brasileira: taxonomia, biologia e ecologia. Pp. 453-678. Manaus: Editora INPA.

Yamamuro, M. 2000. Abundance and size distribution of sublittoral meiobenthos along estuarine salinity gradients. Journal of Marine Systems, 26, 135–143. DOI: 10.1016/S0924-7963(00)00050-6

Zaldıvar, J. M., Viaroli, P., Newton, A., De Wit, R., Ibañez, C. & Reizopoulou, S. 2008. Eutrophication in transitional waters: an overview. Transitional Waters Monographs, 2(1), 1–78.

Downloads

Arquivos adicionais

Publicado

2022-07-08