ReportProcesses of bioaccumulation: the importance of chemical speciation
References (45)
- et al.
The effect of dissolved organic matter in seawater on the uptake of mixed individual hydrocarbons and Number 2 fuel oil by a marine filter-feeding bivalve (Mercenaria mercenaria)
Estuar. cstl mar. Sci.
(1976) - et al.
Biological monitoring of ambient water quality: The case for using bivalves as sentinel organisms for monitoring petroleum pollution in coastal waters
Estuar. cstl shelf Sci.
(1981) - et al.
Trace metals in the North Sea
Mar. Pollut. Bull.
(1973) - et al.
Evaluation of some physico chemical techniques for the determination of the fraction of dissolved copper toxic to the marine diatom
Nitzschia closterium, Anal. chim. Acta.
(1983) Subcellular accumulation and detoxication of metals in aquatic animals
- et al.
Predicting the bioaccumulation of organic compounds in marine organisms using octanol water partition coefficients
Mar. Pollut. Bull.
(1983) - et al.
Prediction of ecotoxicological behaviour of chemicals: relationship between physicochemical properties and bioaccumulation of organic chemicals in the mussel Mytilus edulis
Chemosphere
(1982) Cadmium and thallous ion permeabilities through lipid bilayer membranes
Biochim. biophys. Acta
(1983)- et al.
Conservative behaviour of riverine dissolved organic carbon in the Severn Estuary: chemical and geochemical implication
Geochim. cosmochim. Acta
(1983) - et al.
The complexation of metals with humic materials in natural waters
Estuar. cstl. mar. Sci.
(1978)
Voltammetry of copper species in estuarine waters. Part I. Electrochemistry of copper species in chloride media
J. electroanal. Chem.
Voltammetry of copper species in estuarine waters. Part II. Copper species reduction at the HMDE in estuarine waters
J. electroanal. Chem.
Voltammetry of copper species in estuarine waters. Part III. Use of gelatin to investigate adsorption of natural organic materaial on the HMDE during DPASV
J. electroanal. Chem.
The equilibrium speciation of dissolved components in freshwater and seawater at 25°C and 1 atm. pressure
Geochim. cosmochim. Acta
Factors influencing trace elements needs and tolerances in man
Mar. Pollut. Bull.
Determination of copper complexation with natural organic ligands in seawater by equilibration with MnO2. II. Experimental procedures and application to surface seawater
Mar. Chem.
Ultraviolet spectroscopic determination of the stability constants for copper carbonate and bicarbonate complexes up to the ionic strength of seawater
Mar. Chem.
Metal complexes present in seawater
Patterns of ionic and molecular adsorption at electrodes
Acc. Chem. Res.
Assessing effects of marine pollution
Nature, Lond.
Initial studies on the application of high performance liquid chromatography to determine organo copper speciation in soil-pore waters
Analyst
Heavy metal/polyacid interaction
Cited by (31)
A comprehensive assessment of environmental pollution by means of heavy metal analysis for oysters' reefs at Hab River Delta, Balochistan, Pakistan
2020, Marine Pollution BulletinCitation Excerpt :In oysters, the enhanced bioaccumulation that results in environments subjected to anthropogenic contamination is superimposed on this natural ability to concentrate metals (Roesijadi, 1996; Mok et al., 2015). Sediments are an ultimate reservoir of various pollutants in marine ecosystem, the presence of various chemical species, particulate forms or diverse complexes, exert profound consequence on toxicity and their bioavailability to marine organisms caused widespread concern (Nelson and Donkin, 1985; Sojka et al., 2019). Since, aqueous medium offers a mobile phase for metals (dissolved and particulate) circulation, transfer and uptake by means of chemical reactions from sediment to organisms and to aquatic environs is a common phenomenon (Violante et al., 2010).
Total concentration, speciation, source identification and associated health implications of trace metals in Lemna dumpsite soil, Calabar, Nigeria
2019, Journal of King Saud University - ScienceCitation Excerpt :Thus, assessing metal load in urban soils has become a necessary and routine task to forestall bioaccumulation of these metals and their associated health implications. Metals exist in soil in different chemical forms, which influence their reactivity and hence their mobility and bioavailability (Nelson and Donkin, 1985; Ratuzny et al., 2009). Nevertheless, previous studies within the study area concentrated mainly on the accumulation of total metals in soil without assessing metal species, influence of soil factors, associated health risks and source of these metals.
Heavy metal accumulation in surface sediments at the port of Cagliari (Sardinia, western Mediterranean): Environmental assessment using sequential extractions and benthic foraminifera
2016, Marine Pollution BulletinCitation Excerpt :The other forms (precipitated in carbonates; occluded in Fe, Mn, and Al oxides; or complexed with organic matter) could be considered relatively active or firmly bound depending on the actual combination of physical and chemical properties of the soil or sediment (Kersten, 2007). In terms of bioavailability, various species of metals are more biologically available than others (Nelson and Donkin, 1985; Zimmerman and Weindorf, 2010). However, the prediction of bio-effective or bioavailable concentrations from chemical data is poor (O'Connor and Paul, 2000).
Cycling and ecosystem impact of metals in contaminated calcareous dredged sediment-derived soils (Flanders, Belgium)
2008, Science of the Total Environment