Heavy metal inputs evolution to an urban hypertrophic coastal lagoon, Rodrigo De Freitas Lagoon, Rio De Janeiro, Brazil

Loureiro, Daniel Dias; Fernandez, Marcos Antônio; Herms, Friedrich Wilhelm; Lacerda, Luiz Drude de

doi:10.1007/s10661-008-0652-4

Cited by 24 publications

(12 citation statements)

References 18 publications

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“…This evidenced an association of trace metals with reactive Fe and Mn, without significant correlations with AVS, indicating that reactive Mn and Fe compounds are main geochemical carriers. Metal contaminant associations with Fe and Mn are frequently observed in coastal sediments, as reported for other parts of Rodrigo de Freitas Lagoon (Loureiro et al 2009). The correlations between trace metals can indicate similar geochemical behavior and metal source similarity, as previously found for Cu, Pb and Zn that are mostly affected by urban effluents inputs to Rodrigo de Freitas Lagoon (Loureiro et al 2009).…”

Section: Introductionsupporting

confidence: 52%

“…Details on this eutrophicated system contamination history are available elsewhere (Lacerda & Gonçalves 2001, Loureiro et al 2009). At least since nearly 2008, the government management policy to improve environmental and esthetical quality of the lagoon included the periodical removal of seagrass beds from its margins.…”

Section: Introductionmentioning

confidence: 99%

“…At least since nearly 2008, the government management policy to improve environmental and esthetical quality of the lagoon included the periodical removal of seagrass beds from its margins. We discuss here, based on preliminary analysis of seagrass bed sediments, the potential effects of the colonization by R. maritima on the sediment capacity to trap trace metal contaminants, such as Cu, Pb and Zn and possible implications of seagrass removal on this trapping (Loureiro et al 2009).…”

Section: Introductionmentioning

confidence: 99%

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Seagrass losses concerns: does sediment metal pollution matter?

et al. 2014

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Seagrass losses result in the lost of well-known environmental services (e.g. nutrient retention and habitat functions). A potential additional loss is the enhanced trace metal retention capacity of sediments colonized by seagrasses. A preliminary study within a coastal lagoon in SE Brazil showed that upper layers of sediments colonized by the seagrass Ruppia maritima presented significantly higher reactive concentrations of Fe, Mn, Cu, and Zn than sediments from an adjacent bare area. Decreasing metal trapping capacity due to R. maritima removal deserves attention, since this is a potential implication for water quality.

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Section: Introductionsupporting

confidence: 52%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Seagrass losses concerns: does sediment metal pollution matter?

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“…1 Introdução O despejo indiscriminado e sem pré-tratamento adequado de rejeitos industriais e de esgoto doméstico em sistemas aquáticos costeiros do Estado do Rio de Janeiro tem provocado a contaminação, eutrofização e assoreamento destes ambientes (Pereira et al, 2007;Loureiro et al, 2009;Araújo et al, 2017). Metais, hidrocarbonetos de petróleo, fármacos, hormônios, agroquímicos, dentre outras substâncias tóxicas, comumente ocorrem em amostras de água e de sedimentos destes ambientes (Stumpf et al, 1999;Stefens et al, 2007).…”

Section: Influência Da Salinidade Na Toxicidade De Sedimentos Dragadounclassified

“…Além disso, a dragagem é fundamental à viabilização de atividades de navegação (sobretudo em zonas portuárias), prática de esportes aquáticos e de pesca segura para consumo humano. No caso do Estado do Rio de Janeiro, há necessidade de dragagem de setores diversos da Baía de Guanabara, Baía de Sepetiba, sistemas fluviais e lagunares de Jacarepaguá e da Barra da Tijuca, canais fluviais da baixada fluminense, Lagoa Rodrigo de Freitas e sistemas lagunares da Região dos Lagos (Almeida et al, 2001;Loureiro et al, 2009;Cesar et al, 2014;Silveira et al, 2017) A disposição terrestre destes sedimentos dragados é relativamente comum no Estado do Rio de Janeiro (Almeida et al, 2001;Cesar et al, 2014;Silveira et al, 2017). Diversos autores sugerem que metais e outras substâncias tóxicas têm potencial de causar efeitos nocivos à saúde da fauna edáfica (Neuhauser et al, 1985;Sivakumar, 2015).…”

Section: Influência Da Salinidade Na Toxicidade De Sedimentos Dragadounclassified

Influence of Salinity on the Toxicity of Dredged Sediments from Estuarine Rodrigo de Freitas Lagoon and Guanabara Bay (RJ): Toxic Effects On Earthworms

et al. 2019

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ResumoA influência da salinidade na ecotoxicidade de sedimentos dragados de sistemas estuarinos, em cenário de disposição terrestre, foi estudada utilizando Eisenia andrei como bioindicador. Foram coletadas amostras de Latossolo e de Chernossolo e salinizadas com água do mar para realização de bioensaios agudo e de fuga. Dados de salinidade e CL 50 de sedimento (Lagoa Rodrigo de Freitas e Baía de Guanabara) foram compiladas da literatura, oriundos de bioensaios agudo com E. andrei. Quando a concentração de sal na mistura solo: sedimento é próxima à CL 50 de sal obtida experimentalmente com água do mar, considerou-se que o sal tem papel preponderante na toxicidade. As concentrações de sal ≥ 3 g/kg são significativamente letais aos organismos em ambos os tipos de solo. Respostas significativas de fuga foram constatadas a partir da dosagem de 2 g/kg. Os resultados indicam que para os sedimentos da APA de Guapimirim (inverno), Lagoa Rodrigo de Freitas (em Chernossolo), Porto do Rio (inverno), Porto de Niterói (verão) e foz do Rio Meriti (inverno), o sal marinho tem papel de suma relevância na toxicidade para as minhocas. Para as demais áreas estudadas, outros fatores, como as propriedades do sedimento, metais pesados e substâncias orgânicas, parecem desempenhar papel mais importante na toxicidade. AbstractThe role of salinity levels in the toxicity of dredged sediments from estuarine systems, in scenario of land disposal, was investigated by using Eisenia andrei as bioindicator. Samples of ferralsol and chernosol were collected and salinized with seawater (2 and 12 g/kg of salt) and submitted to acute and avoidance bioassays with E. andrei. Data of salinity and sediment LC 50 were extracted from the literature. These data consists of results from acute bioassays with E. andrei applied to dredged sediments from Rodrigo de Freitas Lagoon and Guanabara Bay. The concentration of salt (g/kg) in soil:sediment mixture that corresponded to the LC 50 was estimated by determining salt contents in pure soils and sediments. When such concentration is close to the LC 50 obtained in laboratory using seawater, the influence of the salt in the toxicity was considered preponderant. The results revealed that concentrations of salt ≥ 3g/kg are significantly lethal to the organisms in both soil types, but toxicity levels are higher in ferralsol (LC 50 = 3,51 g/kg) than those observed in chernosol (LC 50 = 4,03 g/kg). Concentrations of salt ≥ 2g/kg were able to cause significant avoidance responses, but again the value of EC 50 in ferralsol (2,77 g/kg) were lower than that obtained in chernosol (2,99 g/kg). These observations are due to the abundance of expansive clay minerals in chernosol, with high cationic exchange capacity and that are able to reduce toxicity levels. The sediments whose salt concentrations in the sediment LC 50 (soil:sediment mixture) are close to the salt LC 50 values determined in laboratory are the APA of Guapimirim (winter), Porto of Rio (winter), Port of Niterói (summer), Rodrigo de Freitas Lagoon (in chernosol)...

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Alterations in Morphometric and Organosomatic Indices and Histopathological Analyses Indicative of Environmental Contamination in Mullet, Mugil liza, from Southeastern Brazil

Hauser‐Davis

Lavandier

Bastos

et al. 2012

Bull Environ Contam Toxicol

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Mullet (Mugil liza) were sampled in five different areas along the Guanabara Bay, southeastern Brazil, classified as non-contaminated, moderately contaminated and contaminated. Morphometric (Fulton condition factor, relative condition factor and weight to length scaling coefficient) and organosomatic (hepatosomatic index) indices of environmental stress were analysed. Fish from the differentially contaminated areas show statistically different Fulton and relative condition factors and hepatosomatic indices, but not the weight to length scaling coefficient. The Kn and the FCF followed the same trend, with fish from São Gonçalo (1.07 ± 0.04 and 0.89 ± 0.03), Itaipu (0.84 ± 0.01 and 0.86 ± 0.01) and the Rodrigo de Freitas Lagoon (1.03 ± 0.01 and 0.87 ± 0.20) showing higher FCFs than fish from Magé (0.96 ± 0.01 and 0.81 ± 0.01). Fish from Itaipu showed significantly higher HSI values than the other sampling sites (1.68 ± 0.07), with fish from Olaria and Ipiranga showing the lowest (1.56 ± 0.12 and 1.60 ± 0.07, respectively).

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Heavy metal inputs evolution to an urban hypertrophic coastal lagoon, Rodrigo De Freitas Lagoon, Rio De Janeiro, Brazil

Cited by 24 publications

References 18 publications

Seagrass losses concerns: does sediment metal pollution matter?

Seagrass losses concerns: does sediment metal pollution matter?

Influence of Salinity on the Toxicity of Dredged Sediments from Estuarine Rodrigo de Freitas Lagoon and Guanabara Bay (RJ): Toxic Effects On Earthworms

Alterations in Morphometric and Organosomatic Indices and Histopathological Analyses Indicative of Environmental Contamination in Mullet, Mugil liza, from Southeastern Brazil

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