The influence of small-scale circum-neutral pH change on Cu-bioavailability and toxicity to an estuarine bivalve ( Austriella cf plicifera) in whole-sediment toxicity tests

In whole-sediment toxicity tests employing metal-spiked sediment, pH is a crucial determinant of sediment geochemistry, sediment–porewater metal partitioning and metal bioavailability to benthic organisms. Small pH changes in metal-spiked sediment may therefore have important implications for toxici...

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Bibliographic Details
Published in:The Science of the total environment 2008-11, Vol.405 (1), p.87-95
Main Authors: Hutchins, Colin M., Teasdale, Peter R., Yip Lee, Shing, Simpson, Stuart L.
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Animals
Applied ecology
Bioavailability
Biological and medical sciences
Bivalves
Bivalvia
Bivalvia - drug effects
Bivalvia - metabolism
Brackish
Brackish water ecosystems
Copper
Copper - metabolism
Copper - toxicity
Correlation
Determinants
Ecotoxicology, biological effects of pollution
Electrode potentials
Estuaries
Fundamental and applied biological sciences. Psychology
General aspects
Geochemistry
Geologic Sediments - chemistry
Hydrogen-Ion Concentration
Iron
Manganese
Marine
Metal-spiked sediment
Optimization
Organisms
Partitioning
Phases
Porewater
Sediment geochemistry
Sediments
Sulfides
Synecology
Toxicity
Toxicity Tests
Uptakes
Water Pollutants, Chemical - metabolism
Water Pollutants, Chemical - toxicity
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Summary:In whole-sediment toxicity tests employing metal-spiked sediment, pH is a crucial determinant of sediment geochemistry, sediment–porewater metal partitioning and metal bioavailability to benthic organisms. Small pH changes in metal-spiked sediment may therefore have important implications for toxicity to organisms. The present study evaluated the effect of small-scale pH changes (pH 6.6, 7.2, 7.6) in Cu-spiked sediment on metal bioavailability and subsequent organism response. Variation of pH produced distinct changes in sediment geochemistry. Increasing pH from 6.6 to 7.6 resulted in lower redox potential, greater acid volatile sulfide (AVS) formation, and lower partitioning of Cu, Fe and Mn to the porewater. The minor pH changes and associated variation in sediment geochemistry modified reburial rates and copper accumulation by the bivalve, Austriella cf plicifera. Bivalve reburial was slowest for the 1400 µg g − 1 Cu-spiked pH 6.6 sediment, in which porewater copper concentrations exceeded 50 µg L − 1 . Bivalve reburial was higher for pH 7.2 Cu-spiked sediments at all concentrations of copper investigated than in pH 6.6 and 7.6 sediments, where reburial rates were similar. Higher levels of bivalve activity suggest that A. cf plicifera may have an optimal pH range in the vicinity of pH 7.2. Tissue Cu concentrations varied with pH and appear dependent on spiked Cu concentration and organism activity. Strong linear correlations of tissue Cu concentration with all three Cu phases (overlying water, porewater and particulate phases), however, limited the ability to accurately determine the source of Cu uptake.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2008.06.039