As lagoas costeiras ocupam 13% da costa do planeta. No Brasil, ocorrem ao longo de toda a costa, com destaque para os Estados do Rio de Janeiro e Rio Grande do Sul. Em função de sua localização geográfica, as lagoas costeiras estão sujeitas a diversos impactos antrópicos. Ações multidisciplinares mitigadoras desses impactos são imprescindíveis para a mudança das condições atuais das lagoas costeiras do litoral brasileiro. Para isso, é necessário um maior conhecimento dos impactos causados e suas consequências para o funcionamento desses ecossistemas. O aporte de esgoto é um dos impactos ambientais e está diretamente relacionado ao aumento de produtividade do ecossistema. Por sua vez, quanto maior a produtividade aquática em águas lênticas, maior a emissão de metano para a atmosfera. Em um esforço para entender melhor a influência da eutrofização sobre o ciclo do metano, nós analisamos a concentração de metano no sedimento em quatro regiões da Lagoa Imboassica que apresentam diferentes características ambientais. Em cada região, foram coletados testemunhos de sedimento de 10 cm, que foram subdivididos em cinco perfis de 2 cm. Nós analisamos a concentração de metano na água instersticial do sedimento em cada perfil. Nós observamos que as regiões da lagoa influenciadas pelo aporte de esgoto apresentaram as maiores concentrações de metano no sedimento. Concluímos que o tratamento de esgoto é fundamental para a mitigação da eutrofização e, consequentemente, da produção de metano no ecossistema.

Coastal lagoons occupy 13% of the planet’s coast. In Brazil, they occur along the entire coast, with emphasis on the states of Rio de Janeiro and Rio Grande do Sul. Due to their geographic location, coastal lagoons are subject to several anthropic impacts. Multidisciplinary actions to mitigate these impacts are essential for changing the current conditions of coastal lagoons on the Brazilian coast. For this, it is necessary to have a better knowledge of the impacts caused and their consequences for the functioning of these ecosystems. Sewage input is one of the environmental impacts and is directly related to the increase in ecosystem productivity. In turn, the higher the aquatic productivity in lentic water, the greater the emission of methane into the atmosphere. In an effort to better understand the influence of eutrophication on the methane cycle, we analyzed the concentration of methane in the sediment in four regions of the Imboassica lagoon that have different environmental characteristics. In each region, 10 cm sediment cores were collected, which were subdivided into five 2 cm profiles. We analyzed the methane concentration in the sediment’s interstitial water in each profile. We observed that the lagoon regions influenced by the sewage supply had the highest concentrations of methane in the sediment. We conclude that sewage treatment is essential to mitigate eutrophication and, consequently, methane production in the ecosystem.

Coastal lagoons occupy 13% of the planet’s coast. In Brazil, they occur along the entire coast, with emphasis on the states of Rio de Janeiro and Rio Grande do Sul. Due to their geographic location, coastal lagoons are subject to several anthropic impacts. Multidisciplinary actions to mitigate these impacts are essential for changing the current conditions of coastal lagoons on the Brazilian coast. For this, it is necessary to have a better knowledge of the impacts caused and their consequences for the functioning of these ecosystems. Sewage input is one of the environmental impacts and is directly related to the increase in ecosystem productivity. In turn, the higher the aquatic productivity in lentic water, the greater the emission of methane into the atmosphere. In an effort to better understand the influence of eutrophication on the methane cycle, we analyzed the concentration of methane in the sediment in four regions of the Imboassica lagoon that have different environmental characteristics. In each region, 10 cm sediment cores were collected, which were subdivided into five 2 cm profiles. We analyzed the methane concentration in the sediment’s interstitial water in each profile. We observed that the lagoon regions influenced by the sewage supply had the highest concentrations of methane in the sediment. We conclude that sewage treatment is essential to mitigate eutrophication and, consequently, methane production in the ecosystem.