Hydrocarbons, C10-C13, aromatics, >1% naphthalene

Administrative data

Description of key information

Toxicity to soil macroorganisms except arthropods

The registered substance is a complex petroleum UVCB whose constituents have variable physicochemical properties. Therefore, a modeling framework is needed to account for the bioavailability of the constituents in the mixture, which was then used to predict the toxicity of the substance as a whole. The target lipid model (TLM) and HC5, have been applied to soils and sediment using equilibrium partitioning (EqP) model. The model used for the calculations was the PETROTOX v4.0 model. PETROTOX is a well-documented and peer reviewed model that is widely used across the chemicals industry. As such, modeled data are considered fit for purpose.

Toxicity to terrestrial arthropods

The registered substance is a complex petroleum UVCB whose constituents have variable physicochemical properties. Therefore, a modeling framework is needed to account for the bioavailability of the constituents in the mixture, which was then used to predict the toxicity of the substance as a whole. The target lipid model (TLM) and HC5, have been applied to soils and sediment using equilibrium partitioning (EqP) model. The model used for the calculations was the PETROTOX v4.0 model. PETROTOX is a well-documented and peer reviewed model that is widely used across the chemicals industry. As such, modeled data are considered fit for purpose.

Toxicity to terrestrial plants

The registered substance is a complex petroleum UVCB whose constituents have variable physicochemical properties. Therefore, a modeling framework is needed to account for the bioavailability of the constituents in the mixture, which was then used to predict the toxicity of the substance as a whole. The target lipid model (TLM) and HC5, have been applied to soils and sediment using equilibrium partitioning (EqP) model. The model used for the calculations was the PETROTOX v4.0 model. PETROTOX is a well-documented and peer reviewed model that is widely used across the chemicals industry. As such, modeled data are considered fit for purpose.

Toxicity to soil microorganisms

The registered substance is a complex petroleum UVCB whose constituents have variable physicochemical properties. Therefore, a modeling framework is needed to account for the bioavailability of the constituents in the mixture, which was then used to predict the toxicity of the substance as a whole. The target lipid model (TLM) and HC5, have been applied to soils and sediment using equilibrium partitioning (EqP) model. The model used for the calculations was the PETROTOX v4.0 model. PETROTOX is a well-documented and peer reviewed model that is widely used across the chemicals industry. As such, modeled data are considered fit for purpose.

Toxicity to birds

There is no data available for this substance. However, key data is available for structural analogues. The data is read across to this substance based on analogue read across and a discussion and report on the read across strategy is provided as an attachment inIUCLID Section 13.

Hydrocarbons, C10, aromatics, >1% naphthalene did not produce acute lethal toxicity to Colinus virginianus at 2250 mg/kg, the highest dosage tested (oral). The No Observed Effect Level was 486 mg/kg, based on the loss of body weight among females at the 810 mg/kg level.

 

Hydrocarbons, C10, aromatics, >1% naphthalene did not produce acute lethal toxicity to Colinus virginianus at 6500 ppm, the highest dosage tested (diet). The No Observed Effect Level was 842 ppm, based on signs of toxicity noted at the 1404 ppm level.

 

Hydrocarbons, C10-C13, aromatics, >1% naphthalene did not produce acute lethal toxicity to Colinus virginianus at 2250 mg/kg, the highest dosage tested (gavage). The No Observed Effect Level was 486 mg/kg, based on the loss of body weight among females at the 810 mg/kg level.

 

Hydrocarbons, C10-C13, aromatics, >1% naphthalene did not produce acute lethal toxicity to Colinus virginianus at 6500 ppm, the highest dosage tested (diet). The No Observed Effect Level was 842 ppm, based on signs of toxicity noted at the 1404 ppm level.

Additional information