Vincent R. Mattson scite author profile

The effects of various water chemistry parameters on the toxicity of copper to larval fathead minnows were investigated. Increased pH, hardness, sodium, dissolved organic matter, and suspended solids each caused toxicity to decrease on the basis of total copper concentrations. In contrast, added potassium resulted in increased toxicity. Alkalinity had no observed effect on total copper LC50s, but its effects might have been masked by those of the cations added with it. In most cases, the effects of water chemistry were found to be similar for different endpoints (growth, survival at different durations), but there were differences in the relative magnitude of some effects across these endpoints. Over all experimental treatments, 96-h total copper LC50s varied 60-fold. Every water chemistry parameter also caused toxicity to vary significantly when expressed on the basis of cupric ion selective electrode measurements, sometimes more so than on the basis of total copper. Therefore, this study does not support attributing to cupric ion a singular importance in regulating toxicity to this test organism. A variety of copper species might be contributing to toxicity and it is evident that toxicity is also affected by water chemistry in ways not related to copper speciation.

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Effects of light intensity on the phototoxicity of fluoranthene to a benthic macroinvertebrate

Ankley¹,

Erickson²,

Phipps³

et al. 1995

Environ. Sci. Technol.

116

145

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Use of the Aquatic Oligochaete Lumbriculus Variegatus for Assessing the Toxicity and Bioaccumulation of Sediment-Associated Contaminants

Phipps¹,

Ankley²,

Benoit³

et al. 1993

Environ Toxicol Chem

122

117

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In this paper we describe test methods utilizing the aquatic oligochaete Lumbriculus variegatus to assess the acute and chronic toxicity and the presence of bioaccumulatable compounds in contaminated sediments. Lurnbriculus variegatus was chosen as a test species because (a) it represents an ecologically relevant component of freshwater ecosystems (i.e., oligochaetes); (b) it is suitable for long-term testing and evaluation of chronic toxicity end points (e.g., growth, reproduction); (c) it is exposed via all important routes of concern, including ingestion of contaminated particles; and (d) it has sufficient biomass to assess bioaccumulation of contaminants. Also, Lumbriculus variegatus is easily cultured and handled. Described herein are culturing procedures and test protocols (e.g., test length, sample size, feeding, etc.) for Lumbriculus variegatus, as well as two examples of the types of experimental data generated when using the oligochaete in tests with contaminated sediments.

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Development and evaluation of test methods for benthic invertebrates and sediments: Effects of flow rate and feeding on water quality and exposure conditions

Ankley

Benoit

Hoke³

et al. 1993

Arch. Environ. Contam. Toxicol.

125

101

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Relative sensitivity of three freshwater benthic macroinvertebrates to ten contaminants

Phipps

Mattson

Ankley

1995

Arch. Environ. Contam. Toxicol.

146

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