1,2,4,5,7,8-Hexoxonane, 3,6,9-trimethyl-, 3,6,9-tris(Ethyl and Propyl) derivatives (upper limit: 41% w/w; typical concentration: 38% w/w)

Administrative data

Link to relevant study record(s)

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Reference 1

Endpoint:

short-term toxicity to aquatic invertebrates

Type of information:

experimental study

Adequacy of study:

key study

Study period:

Jan 2015

Reliability:

1 (reliable without restriction)

Qualifier:

according to guideline

Guideline:

OECD Guideline 202 (Daphnia sp. Acute Immobilisation Test)

GLP compliance:

yes (incl. QA statement)

Analytical monitoring:

yes

Details on sampling:

Samples were taken at the start of the test as well as after 24 hours in both old and new solutions and at the end of the test for each concentration and the control. 15 ml was pipetted directly to HPLC vials from centrifuge tubes for new solutions and from the test vessels for old solutions. Analysis took place as soon as possible after sampling. A cooled auto-sampler was used to minimize degradation that may occur prior to analysis.

Details on test solutions:

Test medium
The test medium was Dutch Standard Water (DSW), having a pH of approximately 8.2, and a conductivity between 550 and 650 μS/cm, containing per liter of de-ionized water: 200 mg of CaCl2•2H2O, 180 mg of MgSO4•7H2O, 100 mg of NaHCO3 and 20 mg of KHCO3. The guideline criteria requires the CaCO3 content to be between 10 and 250 mg/L (approximately 1-14 ºdH). Water hardness parameters are measured monthly in the DSW system using the appropriate Dr Lange test kit. These are validated by analyzing a CaCl2 Standard. The dilution water was saturated with oxygen before the start of the test.

Test solutions
The test material comprises of multiple components with different physical chemical properties. The active components are also of low solubility (AkzoNobel 2015). For this reason preparation of the test solutions in a standard manner via a stock solution and further dilution is not possible. For this reason WAF’s were prepared for each test concentration separately. This was achieved by accurate weighing of the test substance with an analytical balance and loading of the test material to 1 liter of test medium. The resulting solutions were stirred slowly for 48 hours. This was shown by preliminary studies sufficient to achieve the highest possible concentration of the measured active components. After 48 hours of slow stirring the solutions were stopped and allowed to rest for one hour. After which approximately 350 ml of liquid from each of the WAF vessels was tapped off into a centrifuge tube. The tap was positioned so as to remove liquid from the water phase of the vessel avoiding transfer of undissolved material on the surface or bottom of the vessels. Centrifugation then took place at 8000 RPM for 10 minutes so as to align the methodology with that of water solubility testing procedures. Furthermore this also reduces the chance of undissolved material in the form of a dispersion being transferred to the test. From the centrifuge vessels the test vessels were filled to approximately 50 ml with the use of a dispenser pipette. Prior to each concentration the pipette was primed with the corresponding WAF solution and discarded to reduce any possible adsorption to the apparatus. The test solutions were then ready for addition of test organisms or for physical chemical measurements. WAF’s were then restarted again for solution refreshment after 24 hours using the same procedures.

Test concentrations
Direct addition of the test material to 1 L of test medium was carried out to achieve the following test substance loadings:
5.2, 11.2 24.5 53.3 and 116.3 mg/L

Test organisms (species):

Daphnia magna

Details on test conditions:

Test conditions
The test was carried out in a temperature-controlled room. The test temperature was set at 20°C and the actual temperature should remain constant within ± 1°C. The light regime was 16 h of ambient light per day, provided by fluorescent tubes.

Test medium
The test medium was Dutch Standard Water (DSW), having a pH of approximately 8.2, and a conductivity between 550 and 650 μS/cm, containing per liter of de-ionized water: 200 mg of CaCl2•2H2O, 180 mg of MgSO4•7H2O, 100 mg of NaHCO3 and 20 mg of KHCO3. The guideline criteria requires the CaCO3 content to be between 10 and 250 mg/L (approximately 1-14 ºdH). Water hardness parameters are measured monthly in the DSW system using the appropriate Dr Lange test kit. These are validated by analyzing a CaCl2 Standard. The dilution water was saturated with oxygen before the start of the test.

Test procedures
The test was performed as a semi static test for 48 hours with refreshment after 24 hours. 20 animals divided into 4 batches of 5 animals were tested at each of 5 test concentrations and in the control. Those animals which are not able to swim within 15 seconds after gentle agitation of the test vessel are considered to be immobile. The number of animals being trapped at the surface was determined. These animals were not regarded as immobile and were made to re-submerge. Daphnids were randomly placed in the test fluids and the test vessels were placed in a random manner within each group. The test vessels were not aerated during the test and the animals were not fed. The test was inspected at 0, 24 and 48 hours and refreshed after 24 hours using identical procedures to those used at the start of the test.

Duration:

48 h

Dose descriptor:

EL50

Effect conc.:

> 116.3 mg/L

Nominal / measured:

nominal

Conc. based on:

test mat.

Basis for effect:

mobility

Validity criteria fulfilled:

yes

Conclusions:

The NOELR of the test material was determined as 116.3 mg/L a LOELR could not determined as no effects were observed. The EL50 may therefore be expressed as >116.3 mg/L.

Executive summary:

In order to predict the effects of the test substance in an aquatic environment, an acute immobilization test to Daphnia magna was conducted in accordance with OECD test guideline and with the OECD Principles of Good Laboratory Practice.

The toxicity of the test chemical to juvenile daphnids was determined in a semi-static system over an exposure period of 48 hours. Nominal loadings of 5.2, 11.2 24.5 53.3 and 116.3 mg/L were tested including the required control group.

The NOELR of the test material was determined as 116.3 mg/L a LOELR could not determined as no effects were observed. The EL50 may therefore be expressed as >116.3 mg/L. Use of the loading rate is not always fully acceptable to all regulatory authorities. In this case the test substance components can also be concluded to cause no toxicity to Daphnia magna at their corresponding maximum solubility limits in test medium i.e. the EC50 is > the limit of solubility of the test substance components.

It is preferable to express the toxicity as measured concentrations although for complex mixtures this is of debatable relevance. For this substance 2 of the 4 components could be detected and geometric mean exposure concentrations could be calculated. It is therefore also possible to express the endpoints as measured values expressed as total product quantified by each of the measured components. However due to the differing solubility of these components these measured values cannot be meaningfully related to the amount of total product for expression of the toxicity. The analytical data does however clearly demonstrate that each component was at or close to its water solubility limit in new test solutions. Hence the highest achievable initial concentration was tested. The following quality criteria have been met in the present study: · Immobilization in the control did not exceed 10% · Oxygen concentration did not fall below 3 mg/L at any point during the study · The EC50 value of the reference compound, potassium dichromate, was in the range of 0.25-2.0 mg/L (Documented as part of GLP laboratory maintenance). · No daphnids were irreversibly trapped on the surface for any length of time · Chemical analysis quality criteria were met The following quality criterion was not met in the present study: · The measured concentration s of the main components of the test chemical did not remain stable during the study.

The aim of the study was to determine a concentration at which 50% effect occurs in the test organism. Due to the soluble components of the test material not having any effect on the test organisms at a loading rate of 116.3 mg/L an EC50 could not be determined. For this reason only NOELR values or EL50 > values could be reported.