Land disposal of dredged sediments from an urbanized tropical lagoon: toxicity to soil fauna

Urban tropical lagoons are commonly impacted by silting, domestic sewage and industrial wastes and the dredging of their sediments is often required to minimize environmental impacts. However, the ecological implications of land disposal of dredged sediments are still poorly investigated in the trop...

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Published in:Ecotoxicology (London) 2024-08, Vol.33 (6), p.590-607
Main Authors: Lourenço, Rodrigo, Cesar, Ricardo, Koifman, Gustavo, Teixeira, Matheus, Santos, Domynique, Polivanov, Helena, Alexandre, Katia, Carneiro, Manuel, da Silva, Lilian Irene Dias, Pereira, Mariana Mello Santos Cerveira, Castilhos, Zuleica
Format: Article
Language:English
Subjects:
Avoidance
Bio-assays
Bioaccumulation
Bioassays
Bottom trawling
Contaminants
Dredging
Dredging wastes
Earth and Environmental Science
Ecology
Ecotoxicology
Eisenia andrei
Environment
Environmental impact
Environmental Management
Heavy metals
Household wastes
Industrial wastes
Lagoons
Land disposal
Metal concentrations
Mortality
Mortality causes
Oligochaeta
Organic matter
Salts
Sandy soils
Sediment
Sediment samplers
Sediment samples
Sediments
Sewage
Siltation
Silting
Sodium
Soil
Soil analysis
Soil fauna
Soils
Toxic waste disposal
Toxic wastes
Toxicity
Toxicity tests
Tropical environments
Worms
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Summary:Urban tropical lagoons are commonly impacted by silting, domestic sewage and industrial wastes and the dredging of their sediments is often required to minimize environmental impacts. However, the ecological implications of land disposal of dredged sediments are still poorly investigated in the tropics. Aiming to contribute to filling this gap, an ecotoxicological evaluation was conducted with dredged sediments from Tijuca Lagoon (Rio de Janeiro, Brazil) using different lines of evidence, including soil and sediment characterization, metal determination, and acute and avoidance bioassays with Eisenia andrei . Two different dredged sediment samples, a sandy sediment and another muddy one, were obtained in two distinct and spatially representative sectors of the Tijuca Lagoon. The sediments were mixed with an artificial soil, Ferralsol and Spodosol to obtain doses between 0 (pure soil) and 12%. The sediment dose that caused mortality (LC 50 ) or avoidance responses (EC 50 ) to 50% of the organisms was estimated through PriProbit analysis. Metal concentrations and toxicity levels were higher in the muddy sediment (artificial soil LC 50  = 3.84%; Ferralsol LC 50  = 4.58%; Spodosol LC 50  = 2.85%) compared to the sandy one (artificial soil LC 50  = 10.94%; Ferralsol LC 50  = 14.36%; Spodosol LC 50  = 10.38%), since fine grains tend to adsorb more organic matter and contaminants. Mortality and avoidance responses were the highest in Spodosol due to its extremely sandy texture (98% of sand). Metal concentrations in surviving earthworms were generally low, except sodium whose bioaccumulation was high. Finally, the toxicity is probably linked to marine salts, and the earthworms seem to accumulate water in excess to maintain osmotic equilibrium, increasing their biomass.
ISSN:0963-9292
1573-3017
1573-3017
DOI:10.1007/s10646-024-02757-9