The ecotoxicity of zinc and zinc‐containing substances in soil with consideration of metal‐moiety approaches and organometal complexes

Within Canada, screening‐level assessments for chemical substances are required to determine whether the substances pose a risk to human health and/or the environment, and as appropriate, risk management strategies. In response to the volume of metal and metal‐containing substances, process efficien...

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Bibliographic Details
Published in:Environmental toxicology and chemistry 2017-12, Vol.36 (12), p.3324-3332
Main Authors: Ritchie, Ellyn, Boyd, Patrick, Lawson‐Halasz, Annamaria, Hawari, Jalal, Saucier, Stacey, Scroggins, Richard, Princz, Juliska
Format: Article
Language:English
Subjects:
Animals
Arthropods - drug effects
Canada
Chlorides - chemistry
Chlorides - toxicity
Coordination Complexes - chemistry
Coordination Complexes - toxicity
Coordination compounds
Elymus - drug effects
Metal complexes
Metal concentrations
Metal ions
Metal toxicity
Metals
Oligochaeta - drug effects
Plants
Risk management
Salts
Sandy soils
Soil - chemistry
Soil ecotoxicology
Soil invertebrates
Soil Pollutants - chemistry
Soil Pollutants - toxicity
Soils
Structure-Activity Relationship
Subgroups
Toxicity
Toxicity testing
Trifolium - drug effects
Zinc
Zinc - chemistry
Zinc - toxicity
Zinc Compounds - chemistry
Zinc Compounds - toxicity
Zinc Oxide - chemistry
Zinc Oxide - toxicity
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Summary:Within Canada, screening‐level assessments for chemical substances are required to determine whether the substances pose a risk to human health and/or the environment, and as appropriate, risk management strategies. In response to the volume of metal and metal‐containing substances, process efficiencies were introduced using a metal‐moiety approach, whereby substances that contain a common metal moiety are assessed simultaneously as a group, with the moiety of concern consisting of the metal ion. However, for certain subgroups, such as organometals or organic metal salts, the organic moiety or parent substance may be of concern, rather than simply the metal ion. To further investigate the need for such additional consideration, certain substances were evaluated: zinc (Zn)‐containing inorganic (Zn chloride [ZnCl2] and Zn oxide) and organic (organometal: Zn diethyldithiocarbamate [Zn(DDC)2] and organic metal salts (Zn stearate [ZnSt] and 4‐chloro‐2‐nitrobenzenediazonium tetrachlorozincate [BCNZ]). The toxicity of the substances were assessed using plant (Trifolium pratense and Elymus lanceolatus) and soil invertebrate (Folsomia candida and Eisenia andrei) tests in a sandy soil. Effect measures were determined based on total metal and total parent analyses (for organic substances). In general, the inorganic Zn substances were less toxic than the organometals and organic metal salts, with 50% effective concentrations ranging from 11 to >5194 mg Zn kg−1 dry soil. The data demonstrate the necessity for alternate approaches in the assessment of organo–metal complexes, with the organic moieties or parent substances warranting consideration rather than the metal ion alone. In this instance, the organometals and organic metal salts were significantly more toxic than other test substances despite their low total Zn content. Environ Toxicol Chem 2017;36:3324–3332. © 2017 Crown in the Right of Canada. Published by Wiley Periodicals Inc. on behalf of SETAC.
ISSN:0730-7268
1552-8618
DOI:10.1002/etc.3910