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https://repositorio.inpa.gov.br/handle/1/16587
Título: | The Effects of Natural Suspended Solids on Copper Toxicity to the Cardinal Tetra in Amazonian River Waters |
Autor: | Crémazy, Anne Wood, Chris M. Smith, Donald Scott Val, Adalberto Luis |
Palavras-chave: | Ammonia Biochemistry Copper Fish Geochemistry Passive Filters Physiology Rivers Eco-toxicology Metal Bioavailability Rio Negro Speciation Toxic Effect Toxicity Ammonia Chloride Ion Copper Potassium Ion River Water Sodium Ion Ammonia Aqueous Solution Bioavailability Eco-toxicology Fish Geochemistry Metal Suspended Load Toxicity Tropical Environment Acute Toxicity Bioavailability Controlled Study Eco-toxicology Fish Geochemistry Ionic Strength Nonhuman Priority Journal Suspended Particulate Matter Water Analysis Amazon Basin Rio Negro [south America] Paracheirodon Axelrodi |
Data do documento: | 2019 |
Revista: | Environmental Toxicology and Chemistry |
É parte de: | Volume 38, Número 12, Pags. 2708-2718 |
Abstract: | The aim of the present study was to characterize the effects of particles on metal aquatic toxicity in a tropical system. To this end, we investigated the effects of natural suspended solids on copper (Cu) geochemistry and acute toxicity to the cardinal tetra (Paracheirodon axelrodi), in 2 Amazonian rivers with different total suspended solids (TSS) levels: the Rio Negro (low TSS ~ 8 mg L–1) and the Rio Solimões (high TSS ~ 70 mg L–1). The effect of particles on Cu aqueous geochemistry was assessed by measuring total, dissolved, and free ionic Cu concentrations in filtered (<0.45 μm) and unfiltered waters. Furthermore, acute Cu toxicity to fish was assessed in both filtered and unfiltered waters, by measuring physiological net fluxes of Na+, Cl–, K+, and total ammonia (in both river waters) and 96-h fish mortality (in Rio Solimões only). The particles in the Rio Negro were not abundant enough to play a significant role in our study. On the other hand, the Rio Solimões particles bound approximately 70% of total aqueous Cu in our tests. In agreement with bioavailability-based models, this decrease in dissolved (and free ionic) Cu concentration decreased Cu lethality in the 96-h toxicity tests. In the physiological measurements, the best evidence of particle protection was the total alleviation of Cu-induced Cl– losses. These flux tests also suggested that the particles themselves may negatively affect Na+ balance in the fish. Overall, the present study supports the use of bioavailability concepts to account for the role of natural suspended solids on metal biological effects in the Amazon River basin. Environ Toxicol Chem 2019;38:2708–2718. © 2019 SETAC. © 2019 SETAC |
DOI: | 10.1002/etc.4586 |
Aparece nas coleções: | Artigos |
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