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Full-Text Articles in Pharmacology, Toxicology and Environmental Health
The History Of Mining In Cerro De Pasco And Heavy Metal Deposition In Lake Junin Peru, Erin M. Delman
The History Of Mining In Cerro De Pasco And Heavy Metal Deposition In Lake Junin Peru, Erin M. Delman
Honors Theses
Lake Junín covers 530-km2 and is located at 4,430-m in an intermontane basin between the eastern and western cordillera of the central Peruvian Andes. The lake sits between the large sulfide mining districts of La Oroya and Cerro de Pasco. Designated a National Reserve in 1974, Lake Junín drains northward to the Río San Juan, which joins the Río Mantaro within several kilometers of the lake. Dam construction by the Cerro de Pasco Copper Corporation on the Río Mantaro in 1932 caused the Río San Juan, the principal river draining Cerro de Pasco, to back up into the lake. Using …
Effects Of Sediment-Associated Copper To The Deposit-Feeding Snail, Potamopyrgus Antipodarum: A Comparison Of Cu Added In Aqueous Form Or As Nano- And Micro-Cuo Particles, Chengfang Pang, Henriette Selck, Superb Misra, Deborah Berhanu, Agnieszka Dybowska, Eugenia Valsami-Jones, Valery Forbes
Effects Of Sediment-Associated Copper To The Deposit-Feeding Snail, Potamopyrgus Antipodarum: A Comparison Of Cu Added In Aqueous Form Or As Nano- And Micro-Cuo Particles, Chengfang Pang, Henriette Selck, Superb Misra, Deborah Berhanu, Agnieszka Dybowska, Eugenia Valsami-Jones, Valery Forbes
Valery E Forbes
Increasing use of engineered nanoparticles (NPs) is likely to result in release of these particles to the aquatic environment where the NPs may eventually accumulate in sediment. However, little is known about the potential ecotoxicity of sediment-associated engineered NPs. We here consider the case of metal oxide NPs using CuO to understand if the effects of NPs differ from micron-sized particles of CuO and aqueous Cu (CuCl2). To address this issue, we compared effects of copper added to the sediment as aqueous Cu, nano- (6 nm) and micro- (<5 >μm) CuO particles on the deposit-feeding snail, Potamopyrgus antipodarum. Effects were …
Particle Mixing By The Polychaete Capitella Species 1: Coupling Fate And Effect Of A Particle-Bound Organic Contaminant (Fluoranthene) In A Marine Sediment, Susanne D. Madsen, Thomas L. Forbes, Valery E. Forbes
Particle Mixing By The Polychaete Capitella Species 1: Coupling Fate And Effect Of A Particle-Bound Organic Contaminant (Fluoranthene) In A Marine Sediment, Susanne D. Madsen, Thomas L. Forbes, Valery E. Forbes
Valery E Forbes
Particle mixing by the polychaete Capitella sp. 1 was investigated in a 22 d microcosm experiment in the presence and absence of the sediment-bound polycyclic aromatic hydrocarbon (PAH) fluoranthene. Mixing by Capitella sp. 1 (30000 ind. m–2) was examined using glass bead tracers (diam. = 30 to 100 μm) with and without a pulse introduction of fluoranthene to the sediment surface. Worms had a profound effect on the sediment appearance and reworked sediment in a conveyor-belt fashion. The predominant mode of mixing was bioadvective, and the worms created a subsurface maximum in the glass bead tracer profiles. Glass bead subduction …
Inducible Metabolism Of Fluoranthene By The Opportunistic Polychaete Capitella Sp. I, Valery E. Forbes, Thomas L. Forbes, Marianne Holmer
Inducible Metabolism Of Fluoranthene By The Opportunistic Polychaete Capitella Sp. I, Valery E. Forbes, Thomas L. Forbes, Marianne Holmer
Valery E Forbes
The polychaete Capitella sp. I has been described as an enrichment opportunist and is one of very few species able to thrive in highly organic sediments heavily contaminated with polycyclic aromatic hydrocarbons (PAH) and other organic pollutants. We examined 3 plausible explanations for the success of Capitella sp. 1: (1) worms prevent uptake of PAH across body surfaces, (2) worms take up PAH but metabolize them effectively to excretable forms, and (3) worms utilize PAH as a carbon source. We examined the uptake and depuration of sediment-associated fluoranthene by Capitella sp. 1 and measured the metabolic loss of ingested 3-[14C] …
Effects Of Sediment-Associated Copper To The Deposit-Feeding Snail, Potamopyrgus Antipodarum: A Comparison Of Cu Added In Aqueous Form Or As Nano- And Micro-Cuo Particles, Chengfang Pang, Henriette Selck, Superb K. Misra, Deborah Berhanu, Agnieszka Dybowska, Eugenia Valsami-Jones, Valery E. Forbes
Effects Of Sediment-Associated Copper To The Deposit-Feeding Snail, Potamopyrgus Antipodarum: A Comparison Of Cu Added In Aqueous Form Or As Nano- And Micro-Cuo Particles, Chengfang Pang, Henriette Selck, Superb K. Misra, Deborah Berhanu, Agnieszka Dybowska, Eugenia Valsami-Jones, Valery E. Forbes
Valery Forbes Publications
Increasing use of engineered nanoparticles (NPs) is likely to result in release of these particles to the aquatic environment where the NPs may eventually accumulate in sediment. However, little is known about the potential ecotoxicity of sediment-associated engineered NPs. We here consider the case of metal oxide NPs using CuO to understand if the effects of NPs differ from micron-sized particles of CuO and aqueous Cu (CuCl2). To address this issue, we compared effects of copper added to the sediment as aqueous Cu, nano- (6 nm) and micro- (μm) CuO particles on the deposit-feeding snail, Potamopyrgus antipodarum. …