Toxicity, biotransformation, and mode of action of arsenic in two freshwater microalgae (Chlorella sp. and Monoraphidium arcuatum)

The toxicity of As(V) and As(III) to two axenic topical freshwater microalgae, Chlorella sp. and Monoraphidium arcuatum, was determined using 72‐h growth rate—inhibition bioassays. Both organisms were tolerant to As(III) (72‐h concentration to cause 50% inhibition of growth rate [IC50], of 25 and 15...

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Bibliographic Details
Published in:Environmental toxicology and chemistry 2005-10, Vol.24 (10), p.2630-2639
Main Authors: Levy, Jacqueline L., Stauber, Jennifer L., Adams, Merrin S., Maher, William A., Kirby, Jason K., Jolley, Dianne F.
Format: Article
Language:English
Subjects:
Algae
Animal, plant and microbial ecology
Applied ecology
Arsenic
Arsenic - metabolism
Arsenic - pharmacokinetics
Arsenic - toxicity
Asenic
Bioaccumulation
Bioassays
Biological and medical sciences
Biotransformation
Chlorella
Chlorophyta
Detoxification
Ecotoxicology, biological effects of pollution
Freshwater ecology
Fundamental and applied biological sciences. Psychology
General aspects
Methylation
Microalgae
Mode of action
Monoraphidium
Phosphate
Phosphates
Phosphates - metabolism
Tissue Distribution
Toxicity
Water Pollutants - metabolism
Water Pollutants - pharmacokinetics
Water Pollutants - toxicity
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Summary:The toxicity of As(V) and As(III) to two axenic topical freshwater microalgae, Chlorella sp. and Monoraphidium arcuatum, was determined using 72‐h growth rate—inhibition bioassays. Both organisms were tolerant to As(III) (72‐h concentration to cause 50% inhibition of growth rate [IC50], of 25 and 15 mg As[III]/L, respectively). Chlorella sp. also was tolerant to As(V) with no effect on growth rate over 72 h at concentrations up to 0.8 mg/L (72‐h IC50 of 25 mg As[V]/L). Monoraphidium arcuatum was more sensitive to As(V) (72‐h IC50 of 0.25 mg As[V]/L). An increase in phosphate in the growth medium (0.15–1.5 mg PO3‐4/L) decreased toxicity, i.e., the 72‐h IC50 value for M. arcuatum increased from 0.25 mg As(V)/L to 4.5 mg As(V)/L, while extracellular As and intracellular As decreased, indicating competition between arsenate and phosphate for cellular uptake. Both microalgae reduced As(V) to As(III) in the cell, with further biological transformation to methylated species (monomethyl arsonic acid and dimethyl arsinic acid) and phosphate arsenoriboside. Less than 0.01% of added As(V) was incorporated into algal cells, suggesting that bioaccumulation and subsequent methylation was not the primary mode of detoxification. When exposed to As(V), both species reduced As(V) to As(III); however, only M. arcuatum excreted As(III) into solution. Intracellular arsenic reduction may be coupled to thiol oxidation in both species. Arsenic toxicity most likely was due to arsenite accumulation in the cell, when the ability to excrete and/or methylate arsenite was overwhelmed at high arsenic concentrations. Arsenite may bind to intracellular thiols, such as glutathione, potentially disrupting the ratio of reduced to oxidized glutathione and, consequently, inhibiting cell division.
ISSN:0730-7268
1552-8618
DOI:10.1897/04-580R.1