Glycerol

The chronic toxicity (NOEC) of Glycerol to Daphnia magna was estimated using Trend analysis of the OECD QSAR Toolbox version 4.4.1..The prediction was performed by linear regression with long-term toxicity values from structurally similar substances. The substances were identified by categorization (a) primary grouping for substances belonging to the “Neutral Organics” class of the Aquatic toxicity classification by ECOSAR and (b) subcategorization for substances with a structural similarity of ≥ 50%. The prediction can only be built if experimental values are available for the structural analogues. Three values were identified.

Model equation: NOEC = 2,65 (±1,00) + 0,389 (±1,02) * log Kow, log(1/mol/L)

Active descriptor: log Kow (calculated)

Data usage: Arithmetic mean (average) value*

Statistics of the prediction model:

N = 4; count of data points

R2 = 0,576; coefficient of detemination

R2adj = 0,363; adjusted coefficient of detemination

SSR = 0,423; sum of squared residuals

s = 0,325; sample standard deviation of residuals

F = 2,71; Fisher function

Due to the logKow of glycerol (measured -1.75, and estimated - 1.652) which lies below the recommended parametric boundary for the identified substances (-0,78 to 1,49) for the applicability of the prediction the target substance is considered outside the applicability domain. However, because the logKow values of all focused substances is < 3 the substances in general are considered hydrophilic and are thus capable to permeate through lipid bilayers. Hence, their bioavailability is similar. Based on this information the prediction is considered reliable although the target missed the parametric boundary. The molecular weight (92.10 g/mol) is small and comparable to the molecular weight of the source substances and due to the good water solubility of the substance (1000 mg/L) the prediction of the chronic toxicity value by Trend analysis is considered adequate.

NOEC Daphnia magna: 897 mg/L

This study is classified as acceptable and is considered sufficient for classification purposes. Based on the predicted value glycerol does not need to be classified with respect to chronic toxicity to fish according to Regulation (EU) No. 1272/2008 (CLP) and the Globally Harmonized System for Classification and Labelling of Chemicals (GHS).

The 16-day-chronic toxicity of Glycerol to Daphnia magna was estimated using the EpiSuite™ (The Estimation Programs Interface [EPI] Suite™)software developed by the US Environmental Protection Agency´s Office of Pollution Prevention and Toxics and Syracuse Research Coroperation (SRC).The model used was ECOSAR v1.11.  The model uses the structure-activity relationships (SARs) to predict the aquatic toxicity of chemicals based on their similarity of structure to chemicals for which the aquatic toxicity has been previously measured. Most SAR calculations in the ECOSAR Class Program are based upon the octanol/water partition coefficient (Kow). There are currently 130 chemical classes programmed into ECOSAR. For those 130 classes, there are a total of 440 QSARs based on publicly available experimental data and confidential studies collected under the EPA New Chemicals Program. For each class, a standard EPA New Chemicals Program aquatic toxicity profile will be created using available QSARs and/or alternate SAR approaches and professional judgment. This standard profile typically contains 3 acute values, and 3 chronic values for fish, daphnid, and green algae. In an effort to complete a profile for each class, 173 endpoints have been estimated using alternative approaches such as acute-to-chronic ratios and substitute QSARs based on scientific judgment.

The chronic value for toxicity to Daphnids was calculated as follows for the neutral organics class:

ESTIMATED TOXICITY:

The daphnid ChV values used to develop this SAR were measured and the octanol water partition coefficients (Kow) were calculated using the computer program, KOWWIN (Version 1.67). The SAR equation used to estimate toxicity is:

Log 16-d ChV (mmol/L) = - 0.7469 log Kow + 0.1961

The ChV is in millimoles per liter (mM/L); N = 29 + 1; and the Coefficient of Determination (R2) = 0.8593. To convert the ChV from mM/L to mg/L, multiply by the molecular weight of the compound.

Maximum Kow: 8.0

Maximum MW: 1000

Due to the logKow of glycerol (measured -1.75, and estimated - 1.652) lies beneath the threshold for a valid prediction. The molecular weight (92.10 g/mol) is also in the recommended range for the applicability domain of the model and due to the good water solubility of the substance (1000 mg/L) the prediction of the chronic toxicity value by ECOSAR is considered adequate.

ChV 16 d Daphnids: 2229.923 mg/L

This study is classified as acceptable and is considered sufficient for classification purposes. Based on the predicted value glycerol does not need to be classified with respect to chronic toxicity to aquatic invertebrates according to Regulation (EU) No. 1272/2008 (CLP) and the Globally Harmonized System for Classification and Labelling of Chemicals (GHS).