Petroleum hydrocarbon mixture toxicity and a trait‐based approach to soil invertebrate species for site‐specific risk assessments

Although petroleum hydrocarbons released to the environment typically occur as mixtures, petroleum hydrocarbon remediation guidelines often reflect individual substance toxicity. It is well documented that groups of aliphatic petroleum hydrocarbons act via the same mechanism of action (nonpolar narc...

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Veröffentlicht in:	Environmental toxicology and chemistry 2018-08, Vol.37 (8), p.2222-2234
Hauptverfasser:	Gainer, Amy, Cousins, Mark, Hogan, Natacha, Siciliano, Steven D.
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Sprache:	eng
Schlagworte:	Aliphatic compounds Animals Antagonism Arthropods - drug effects Body size Clutch size Ecological risk assessment Environmental Exposure - analysis Environmental Pollution - analysis Hydrocarbons Hydrocarbons - toxicity Laboratories Laboratory tests Life span Maternal transfer Mixture toxicity Molting Narcosis Oils - chemistry Oligochaeta - drug effects Petroleum Petroleum - toxicity Petroleum hydrocarbons Reproduction - drug effects Risk Assessment Soil Soil contamination Soil ecotoxicology Soil invertebrates Soil permeability Soil Pollutants - toxicity Soil pollution Species Species Specificity Synergism Toxicity Toxicity testing Toxicity Tests, Chronic Trait‐based
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description	Although petroleum hydrocarbons released to the environment typically occur as mixtures, petroleum hydrocarbon remediation guidelines often reflect individual substance toxicity. It is well documented that groups of aliphatic petroleum hydrocarbons act via the same mechanism of action (nonpolar narcosis) and, theoretically, concentration addition mixture toxicity principles apply. To assess this theory, 10 standardized acute and chronic soil invertebrate toxicity tests on a range of organisms (Eisenia fetida, Lumbricus terrestris, Enchytraeus crypticus, Folsomia candida, Oppia nitens, and Hypoaspis aculeifer) were conducted with a refined petroleum hydrocarbon binary mixture. Reference models for concentration addition and independent action were applied to the mixture toxicity data with consideration of synergism, antagonism, and dose level toxicity. Both concentration addition and independent action, without further interactions, provided the best fit with observed response to the mixture. Individual fraction effective concentration values were predicted from optimized, fitted reference models. Concentration addition provided a better estimate than independent action of individual fraction effective concentrations based on comparison with available literature and species trends observed in toxic responses to the mixture. Interspecies differences in standardized laboratory soil invertebrate species responses to petroleum hydrocarbon–contaminated soil was reflected in unique traits. Diets that included soil, large body size, permeable cuticle, low lipid content, lack of ability to molt, and no maternal transfer were traits linked to a sensitive survival response to petroleum hydrocarbon–contaminated soil in laboratory tests. Traits linked to sensitive reproduction response in organisms tested were long life span and small clutch size. By deriving single‐fraction toxicity endpoints considerate of mixtures, we can reduce the resources and time required to conduct site‐specific risk assessments for the protection of a soil organism's exposure pathway. Environ Toxicol Chem 2018;37:2222–2234. © 2018 SETAC
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Concentration addition provided a better estimate than independent action of individual fraction effective concentrations based on comparison with available literature and species trends observed in toxic responses to the mixture. Interspecies differences in standardized laboratory soil invertebrate species responses to petroleum hydrocarbon–contaminated soil was reflected in unique traits. Diets that included soil, large body size, permeable cuticle, low lipid content, lack of ability to molt, and no maternal transfer were traits linked to a sensitive survival response to petroleum hydrocarbon–contaminated soil in laboratory tests. Traits linked to sensitive reproduction response in organisms tested were long life span and small clutch size. By deriving single‐fraction toxicity endpoints considerate of mixtures, we can reduce the resources and time required to conduct site‐specific risk assessments for the protection of a soil organism's exposure pathway. 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It is well documented that groups of aliphatic petroleum hydrocarbons act via the same mechanism of action (nonpolar narcosis) and, theoretically, concentration addition mixture toxicity principles apply. To assess this theory, 10 standardized acute and chronic soil invertebrate toxicity tests on a range of organisms (Eisenia fetida, Lumbricus terrestris, Enchytraeus crypticus, Folsomia candida, Oppia nitens, and Hypoaspis aculeifer) were conducted with a refined petroleum hydrocarbon binary mixture. Reference models for concentration addition and independent action were applied to the mixture toxicity data with consideration of synergism, antagonism, and dose level toxicity. Both concentration addition and independent action, without further interactions, provided the best fit with observed response to the mixture. Individual fraction effective concentration values were predicted from optimized, fitted reference models. Concentration addition provided a better estimate than independent action of individual fraction effective concentrations based on comparison with available literature and species trends observed in toxic responses to the mixture. Interspecies differences in standardized laboratory soil invertebrate species responses to petroleum hydrocarbon–contaminated soil was reflected in unique traits. Diets that included soil, large body size, permeable cuticle, low lipid content, lack of ability to molt, and no maternal transfer were traits linked to a sensitive survival response to petroleum hydrocarbon–contaminated soil in laboratory tests. Traits linked to sensitive reproduction response in organisms tested were long life span and small clutch size. By deriving single‐fraction toxicity endpoints considerate of mixtures, we can reduce the resources and time required to conduct site‐specific risk assessments for the protection of a soil organism's exposure pathway. Environ Toxicol Chem 2018;37:2222–2234. © 2018 SETAC</description><subject>Aliphatic compounds</subject><subject>Animals</subject><subject>Antagonism</subject><subject>Arthropods - drug effects</subject><subject>Body size</subject><subject>Clutch size</subject><subject>Ecological risk assessment</subject><subject>Environmental Exposure - analysis</subject><subject>Environmental Pollution - analysis</subject><subject>Hydrocarbons</subject><subject>Hydrocarbons - toxicity</subject><subject>Laboratories</subject><subject>Laboratory tests</subject><subject>Life span</subject><subject>Maternal transfer</subject><subject>Mixture toxicity</subject><subject>Molting</subject><subject>Narcosis</subject><subject>Oils - chemistry</subject><subject>Oligochaeta - drug effects</subject><subject>Petroleum</subject><subject>Petroleum - toxicity</subject><subject>Petroleum hydrocarbons</subject><subject>Reproduction - drug effects</subject><subject>Risk Assessment</subject><subject>Soil</subject><subject>Soil contamination</subject><subject>Soil ecotoxicology</subject><subject>Soil invertebrates</subject><subject>Soil permeability</subject><subject>Soil Pollutants - toxicity</subject><subject>Soil pollution</subject><subject>Species</subject><subject>Species Specificity</subject><subject>Synergism</subject><subject>Toxicity</subject><subject>Toxicity testing</subject><subject>Toxicity Tests, Chronic</subject><subject>Trait‐based</subject><issn>0730-7268</issn><issn>1552-8618</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kctKHUEQhhuJ6MlJIE8gDdm4Ge3bXHopookg6ELXQ093DbaZmT7p6tFzdm7c5xnzJGlvEQJZ_VTx1UfBT8gXzg44Y-IQkj1QvFJbZMHLUhRNxZsPZMFqyYpaVM0u-Yh4yxivtNY7ZFfoWmgm5YI8XkKKYYB5pDcbF4M1sQsTHf06zRFoCmtvfdpQMzlqaIrGp98PvzqDkOfVKgZjbzJFMfiB-ukOYoIumgQUV2A9IO1DpOgT5LPnVe8tjR5_UIMIiCNMCT-R7d4MCJ9fc0muT0-ujr8X5xffzo6Pzgsrm0oVWmpQfa-s4lz2zIHUzunSSaVYVdfG9ixveSeccBVnpeMCZFdC03VQKu3kkuy_ePPjP2fA1I4eLQyDmSDM2AomS6G4zLkkX_9Bb8Mcp_xdpmopRMPr-l1oY0CM0Ler6EcTNy1n7VM1ba6mfaomo3uvwrkbwf0F37rIQPEC3PsBNv8VtZl5Fv4BntucNw</recordid><startdate>201808</startdate><enddate>201808</enddate><creator>Gainer, Amy</creator><creator>Cousins, Mark</creator><creator>Hogan, Natacha</creator><creator>Siciliano, Steven D.</creator><general>Blackwell Publishing Ltd</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QO</scope><scope>7SN</scope><scope>7SS</scope><scope>7ST</scope><scope>7T7</scope><scope>7TK</scope><scope>7U7</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>K9.</scope><scope>P64</scope><scope>RC3</scope><scope>SOI</scope><scope>7X8</scope></search><sort><creationdate>201808</creationdate><title>Petroleum hydrocarbon mixture toxicity and a trait‐based approach to soil invertebrate species for site‐specific risk assessments</title><author>Gainer, Amy ; 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It is well documented that groups of aliphatic petroleum hydrocarbons act via the same mechanism of action (nonpolar narcosis) and, theoretically, concentration addition mixture toxicity principles apply. To assess this theory, 10 standardized acute and chronic soil invertebrate toxicity tests on a range of organisms (Eisenia fetida, Lumbricus terrestris, Enchytraeus crypticus, Folsomia candida, Oppia nitens, and Hypoaspis aculeifer) were conducted with a refined petroleum hydrocarbon binary mixture. Reference models for concentration addition and independent action were applied to the mixture toxicity data with consideration of synergism, antagonism, and dose level toxicity. Both concentration addition and independent action, without further interactions, provided the best fit with observed response to the mixture. Individual fraction effective concentration values were predicted from optimized, fitted reference models. Concentration addition provided a better estimate than independent action of individual fraction effective concentrations based on comparison with available literature and species trends observed in toxic responses to the mixture. Interspecies differences in standardized laboratory soil invertebrate species responses to petroleum hydrocarbon–contaminated soil was reflected in unique traits. Diets that included soil, large body size, permeable cuticle, low lipid content, lack of ability to molt, and no maternal transfer were traits linked to a sensitive survival response to petroleum hydrocarbon–contaminated soil in laboratory tests. Traits linked to sensitive reproduction response in organisms tested were long life span and small clutch size. By deriving single‐fraction toxicity endpoints considerate of mixtures, we can reduce the resources and time required to conduct site‐specific risk assessments for the protection of a soil organism's exposure pathway. 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subjects	Aliphatic compounds Animals Antagonism Arthropods - drug effects Body size Clutch size Ecological risk assessment Environmental Exposure - analysis Environmental Pollution - analysis Hydrocarbons Hydrocarbons - toxicity Laboratories Laboratory tests Life span Maternal transfer Mixture toxicity Molting Narcosis Oils - chemistry Oligochaeta - drug effects Petroleum Petroleum - toxicity Petroleum hydrocarbons Reproduction - drug effects Risk Assessment Soil Soil contamination Soil ecotoxicology Soil invertebrates Soil permeability Soil Pollutants - toxicity Soil pollution Species Species Specificity Synergism Toxicity Toxicity testing Toxicity Tests, Chronic Trait‐based
title	Petroleum hydrocarbon mixture toxicity and a trait‐based approach to soil invertebrate species for site‐specific risk assessments
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