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Please be aware that this old REACH registration data factsheet is no longer maintained; it remains frozen as of 19th May 2023.

The new ECHA CHEM database has been released by ECHA, and it now contains all REACH registration data. There are more details on the transition of ECHA's published data to ECHA CHEM here.

Diss Factsheets

Environmental fate & pathways

Endpoint summary

Administrative data

Description of key information


Readily biodegradable; 76% (CO2 evolution) in 28 days (ISO 14593 Draft)

Bioaccumulation potential

Bioaccumulation in organisms is negligible, due to biotransformation and excretion of alcohol ethoxylates.

Adsorption potential

Based on the composition of the mixture the weighted average of the Koc values was calculated to be 100693 L/kg. This value is used for the determination of PNECsediment with the equilibrium partitioning method.

Additional information

Category information on envrionmental fate and pathway of alcohol ethoxylates

Alcohol ethoxylates are readily biodegradable under aerobic conditions and also anaerobically biodegradable (HERA, 2009). The main mechanism of primary biodegradation for the linear and essentially linear AE is the central cleavage of the molecule, leading to the formation of long chain alcohol and polyethylene glycol (HERA, 2009; Marcomini et al., 2000a; Marcomini et al., 2000b). Long chain alcohols themselves are readily biodegradable up to C18 (SIDS, 2006). 

Abiotic degradation in water, soil, sediment and air is not expected to occur because of the chemical structures of AE homologues. Neither hydrolysis under normal environmental conditions (pH range from 4 to 9) nor photolysis in the atmosphere, in water, or when absorbed to soil and sediment surfaces, is to be considered (HERA, 2009).

Experimentally determined BCF-values given for pure homologues and summarized in the publication of Tolls et al. (2000) are used as read-across data for the endpoint bioaccumulation in water. It can be stated that bioaccumulation of alcohol ethoxylates is regarded to be negligible as the surfactants will be rapidly metabolised. For more detail see endpoint summary for bioaccumulation.

Concerning transport and distribution of the alcohol ethoxylate mixtures a high adsorption of the substances is determined by using QSAR-models. Adsorption onto surfaces is an intrinsic property of alcohol ethoxylates and thus a high Koc-value is expected.

More details on the category approach are given in a separate document (see attached IUCLID chapter 13).


HERA - Human & Environmental Risk Assessment on ingredients of European household cleaning products (2009). Alcohol Ethoxylates. Version 2.0, September, 2009

Marcomini, A., Zanette, M., Pojana, G., Suter, M. (2000a). Behavior of Aliphatic Alcohol Polyethoxylates and their Metabolites under Standardized Aerobic Biodegradation Conditions. Environmental Toxicology and Chemistry 19, 549–554.

Marcomini, A., Pojana, G., Carrer, C., Cavalli, L., Cassani, L., Lazzarin, M. (2000b) Aerobic Biodegradation of Monobranched Aliphatic Alcohol Polyethoxylates. Environmental Toxicology and Chemistry 19, 555-560.

SIDS Initial Assessment Profile. Long Chain Alcohols (C6-22 primary aliphatic alcohols). SIAM 22, 18-21 April 2006.

Tolls, J. et al. (2000). Experimental determination of biocencentration of the nonionic surfactant alcohol ethoxylate. Environmental Toxicology and Chemistry, RITOX - Research Institute of Toxicology, Utrecht University, NL-3508 TB Utrecht, The Netherlands