Factors affecting R6 fungicide toxicity on sea urchin fertilization and early development: Roles of exposure routes and mixture components

A technical fungicide mixture, R6 and its components, cymoxanil (CYM) and cupric oxychloride (Cu-OCl), were tested by sea urchin bioassays (Paracentrotus lividus and Sphaerechinus granularis). A set of toxicity endpoints was evaluated including both lethal and sublethal effects with the following en...

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Bibliographic Details
Published in:Human & experimental toxicology 2001-08, Vol.20 (8), p.404-411
Main Authors: Pagano, G, Iaccarino, M, De Biase, A, Meri, S, Warnau, M, Oral, R, Trieff, N M
Format: Article
Language:English
Subjects:
Acetamides - toxicity
Animal, plant and microbial ecology
Animals
Applied ecology
Bioassays
Biological and medical sciences
Copper - toxicity
cupric oxychloride
cymoxanil
Ecotoxicology, biological effects of pollution
Embryo, Nonmammalian - abnormalities
Embryo, Nonmammalian - drug effects
Environmental Exposure
Female
Fertilization - drug effects
Fundamental and applied biological sciences. Psychology
Fungicides
Fungicides, Industrial - toxicity
Geologic Sediments - analysis
Male
Ovum - drug effects
Paracentrotus lividus
Pesticides
Sea Urchins - drug effects
Sea Urchins - embryology
Sea Urchins - growth & development
Seawater
Sediments
Soil - analysis
Sperm
Spermatozoa - abnormalities
Spermatozoa - drug effects
Sphaerechinus granularis
Techniques
Toxicity
Toxicity Tests, Acute
Toxicology
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Summary:A technical fungicide mixture, R6 and its components, cymoxanil (CYM) and cupric oxychloride (Cu-OCl), were tested by sea urchin bioassays (Paracentrotus lividus and Sphaerechinus granularis). A set of toxicity endpoints was evaluated including both lethal and sublethal effects with the following endpoints: (a) acute embryotoxicity, (b) developmental defects, (c) changes in sperm fertilization success, (d) transmissible damage from sperm to the offspring, and (e) cytogenetic abnormalities. Acute effects on developing embryos were observed as early (prehatch) mortality at R6 levels 25 g/ml. The pesticide mixture R6 was tested at realistic concentrations, ranging from 25 ng/ ml to 2.5 g/ml, and the two components, CYM and CuOCl, were tested, either alone or in mixture, at concentrations equal to their levels in the corresponding R6 solutions. R6 was either dissolved in filtered seawater (water only, W-O), or spiked in ‘‘pristine’’ silt–clay sediment or soil samples before bioassays. Developmental toxicity of R6, following W-O dissolution, displayed a significant dose-related increase of larval malformations and differentiation arrest at concentrations of 750 ng/ml to 2.5 g/ml both in P. lividus and in S. granularis larvae. Developmental toxicity was removed in spiked sediment up to R6 nominal levels (25 g/ml), 10-fold above the embryotoxic R6 levels in W-O exposure. No significant developmental toxicity was exerted by CYM or Cu-OCl (W-O exposure) up to their concentrations equivalent to 2.5 g/ml R6. The laboratory-prepared mixture of CYM and Cu-OCl, in the same concentration range, only resulted in minor effects, as larval retardation, suggesting the presence of toxic impurities (or additional components) in the R6 formulation. When sperm from either P. lividus or S. granularis were exposed to R6 before fertilization, a W-O exposure resulted in a dose-related decrease in fertilization of P. lividus sperm (up to 250 g/ml R6), whereas S. granularis sperm underwent a significant increase of fertilization rate at the highest R6 nominal levels (up to 25 g/ml). Equivalent CYM or Cu-OCl levels were ineffective on sperm fertilization success in both species. The offspring of S. granularis sperm exposed to 25 g/ml R6 showed a significant increase in larval malformations, which were not detected in the offspring of R6-exposed P. lividus sperm. Again, CYM or Cu-OCl was unable to exert any transmissible damage from sperm to the offspring in either species. The present s
ISSN:0960-3271
1477-0903
DOI:10.1191/096032701682692982