Metal bioavailability and toxicity in freshwaters

Metal bioavailability and toxicity in freshwaters

Many factors influence metal speciation in freshwaters. Metal species that are more soluble are considered more bioavailable and toxic. However, evaluation of metal speciation in waters is a complex task. Moreover, the quantification of total and dissolved metals is not sufficient to determine toxic...

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Bibliographic Details
Published in:Environmental chemistry letters Vol. 13; no. 1; pp. 69 - 87
Main Authors: de Paiva Magalhães, Danielly, da Costa Marques, Mônica Regina, Baptista, Darcilio Fernandes, Buss, Daniel Forsin
Format: Journal Article
Language:English
Published: Cham Springer-Verlag 01-03-2015
Springer International Publishing
Springer Nature B.V
Subjects:
Analytical Chemistry
Bioavailability
biomarkers
Biota
chemical analysis
Community structure
Earth and Environmental Science
ecosystems
Ecotoxicology
Environment
Environmental Chemistry
Environmental conditions
environmental factors
fish communities
Fresh water
freshwater
Geochemistry
Indicator species
Macroinvertebrates
Mathematical models
Metal concentrations
Metals
Microorganisms
Pollution
prediction
Review
Speciation
Studies
Toxicity
Water hardness
Zooplankton
Biomarkers
Biomonitoring
Models to predicting metal toxicity
Bioindicators
Metal speciation
Biological responses
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Summary:Many factors influence metal speciation in freshwaters. Metal species that are more soluble are considered more bioavailable and toxic. However, evaluation of metal speciation in waters is a complex task. Moreover, the quantification of total and dissolved metals is not sufficient to determine toxic effects on the biota. Here, we review environmental parameters that influence metal bioavailability: mathematical models to predict toxicity, and the biological tools used to evaluate contamination in freshwaters ecosystems. The major points are the following: (1) we discuss many “exceptions” of chemical parameters that are deemed to increase metal bioavailability or to protect against metal uptake, such as pH and water hardness. We provide evidence of organisms and environmental conditions that break these rules and therefore should be considered when predicting impairment by metals. (2) We discuss the advances in mathematical modelling as a proxy to metal toxicity. (3) We discuss advantages and limitations of using multiple biological tools to assess toxicity, such as the use of biomarkers and microorganisms, zooplankton, benthic macroinvertebrates and fish communities. Biomarkers are efficient in detecting low concentrations of metals in a short-term exposition. Changes on biological community structure and composition are good tools to detect high metal concentration or chronic concentration in a long-term exposition. The use of multiple tools including chemical analyses and a set of biological indicators is recommended for a more accurate evaluation of metal impacts on freshwater systems.
Bibliography:http://dx.doi.org/10.1007/s10311-015-0491-9
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ISSN:1610-3653
1610-3661
DOI:10.1007/s10311-015-0491-9