2015
DOI: 10.1590/1519-6984.05114
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Influence of antifouling paint on freshwater invertebrates (Mytilidae, Chironomidae and Naididae): density, richness and composition

Abstract: We conducted a study about invertebrates on artificial substrates with different antifouling paints in order to answer the following questions: 1) is there lower accumulation of organic matter on substrates with antifouling paints, 2) is invertebrate colonization influenced by the release of biocides from antifouling paints, 3) is the colonization of aquatic invertebrates positively influenced by the material accumulated upon the substrate surface and 4) is the assemblage composition of invertebrates similar a… Show more

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Cited by 7 publications
(7 citation statements)
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“…Distribution: São Paulo: in streams (City of São Paulo) and Rio Claro by Marcus (1943), associated with gastropods (Gorni & Alves, 2006), associated with submerged macrophytes ; associated with the sponge Metania spinata (Gorni, Alves, 2008a) and in urban impacted streams (Sanches et al 2016). Paraná: associated with the macrophytes Hydrilla verticillata and Egeria najas collected in the Paraná River and the Leopoldo Backwater (Behrend et al 2013), in the Iguaçu River (Behrend et al 2012) and the Paraná River in the Ilha Grande National Park, between the states of Mato Grosso do Sul and Paraná (Ragonha et al 2013); in different floodplain habitats of the Paraná River ; in tributaries of the Paraná River ; in Baía River in artificial substrates (Fujita et al 2015) and Ivinhema and Baía rivers (Behrend et al, 2009). Minas Gerais: associated with decomposing leaves of Eichhornia azurea in Manacás Lake (Martins et al 2011).…”
Section: Dero Sawayaimentioning
confidence: 99%
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“…Distribution: São Paulo: in streams (City of São Paulo) and Rio Claro by Marcus (1943), associated with gastropods (Gorni & Alves, 2006), associated with submerged macrophytes ; associated with the sponge Metania spinata (Gorni, Alves, 2008a) and in urban impacted streams (Sanches et al 2016). Paraná: associated with the macrophytes Hydrilla verticillata and Egeria najas collected in the Paraná River and the Leopoldo Backwater (Behrend et al 2013), in the Iguaçu River (Behrend et al 2012) and the Paraná River in the Ilha Grande National Park, between the states of Mato Grosso do Sul and Paraná (Ragonha et al 2013); in different floodplain habitats of the Paraná River ; in tributaries of the Paraná River ; in Baía River in artificial substrates (Fujita et al 2015) and Ivinhema and Baía rivers (Behrend et al, 2009). Minas Gerais: associated with decomposing leaves of Eichhornia azurea in Manacás Lake (Martins et al 2011).…”
Section: Dero Sawayaimentioning
confidence: 99%
“…Minas Gerais: detected in first order streams of preserved areas (Rodrigues et al 2013) and in an urban stream (Frizzera & Alves 2012). Paraná: Paraná River, in the Ilha Grande National Park, between the states of Mato Grosso do Sul and Paraná (Ragonha et al 2013), in the Iguaçu River (Behrend et al 2012); in different floodplain habitats of the Paraná River ; associated with the macrophytes Hydrilla verticillata and Egeria najas collected in the Paraná River and Leopoldo Backwater (Behrend et al 2013); in tributaries of the Paraná River ; Baía River, in artificial substrates (Fujita et al 2015) and Ivinhema and Baía rivers (Behrend et al 2009). Alagoas: was found by Marcus (1944) in the Paulo Afonso waterfall.…”
Section: Nais Communismentioning
confidence: 99%
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“…Sin embargo, todas estas estrategias no son eficientes o causan una alta mortalidad de larvas y deformación en los sobrevivientes (Breitig, 1965;Katsuyama, et al, 2005;Santos, et al, 2012). Otra estrategia es el control químico utilizando superficies pintadas con antiincrustantes (Fujita, et al, 2015). Aunque se han desarrollado diversas pinturas antiincrustantes para abordar el problema de la bioincrustación (Telegdi, et al, 2016), una alternativa antiincrustante ecológicamente segura y eficiente aún no está disponible en el mercado (Konstantinou y Albanis, 2004;Agostini, et al, 2018).…”
Section: Introductionunclassified
“…Biofouling is the accumulation or growth of unwanted organisms, plants, or animals on the surface of an object (natural or artificial) submerged in water such as bacteria, viruses, fungi, microalgae, protozoa, and meroplankton (Agostini et al, 2019;Fujita et al, 2015;Marhaeni, 2012). This occurs due to the adsorption of organic molecules on the surface of a hard substrate submerged in water, followed by bacterial colonization which produces Extracellular Polymer Substance (EPS) which forms biofilms (Agostini et al, 2019;Aykin et al, 2019).…”
Section: Introductionmentioning
confidence: 99%