Bisisobutyryl peroxide

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:

23-1-2012 2-2-2012

Reliability:

2 (reliable with restrictions)

Rationale for reliability incl. deficiencies:

other: see 'Remark'

Remarks:

GLP study to appropriate guidelines with sufficient justification of deviations due to test substance characteristics. Sufficient substance ID information is available. Restricted use for risk assessment as closed system not entirely relevant to environmental situation.

Reason / purpose for cross-reference:

reference to same study

Reason / purpose for cross-reference:

reference to other study

Qualifier:

according to guideline

Guideline:

OECD Guideline 202 (Daphnia sp. Acute Immobilisation Test)

Deviations:

yes

Remarks:

see for details Principles of method if other than gudieline.

Principles of method if other than guideline:

The half life of the test chemical was such that degradation products were tested as these were considered most relevant for determining
aquatic hazard. A sealed system was used to ensure maximum possible exposure. A WAF (Water Accommodated Fraction) method was used as the
test substance itself is intentionally mixed with iso dodecane for stability / safety reasons and the active component degrades to multiple breakdown
products all of which could potentially contribute to toxicity. Separation and testing of individual components is therefore not possible.
Quantification of all breakdown products was not possible in the scope of the daphnia test. For this reason the degradation of the active ingredient
was confirmed analytically and the resulting degradation product mixture was tested.

GLP compliance:

yes (incl. QA statement)

Analytical monitoring:

yes

Details on sampling:

10 mL of all test concentrations were sampled for analysis at the start of the stirring period (after 15 minutes of rapid stirring) and were pipetted into sample pots on ice that were subsequently transferred to HPLC vials and analyzed for the active peroxide component. Sampling at the end of the
study was not considered required for all concentrations as the rapid disappearance of the test substance has already been demonstrated in
accompanying hydrolysis and algae studies. The highest concentration only was analysed at the end of the stirring period to demonstrate
degredation to the previously investigated degradation products.

Vehicle:

no

Details on test solutions:

The nature of the test chemical being instable and mixed with isododecane require the substance to be tested in a manner that allows all of its
ingredients or resulting degradation products the possibility to dissolve up to their solubility limit in the test media and thus assessing
ecotoxicological effect of all of the components of the test chemical. For this reason a WAF approach was used for this test.
A traditional stock solution and subsequent dilutions were therefore not made during this test.

A WAF was prepared for each test concentration by adding of an accurate amount of the test substance to the test media and allowing to
equilibrate under slow agitation over 24 hours. Each WAF was then considered loaded with the test substance components and / or breakdown
products at their corresponding water solubility limits and was subsequently transferred to test vessels avoiding transfer of any undissolved
material in the WAF. A GLP Hydrolysis and analysis in the GLP algae test for this substance test indicates that the main active ingredient of the test substance was no longer present after 24 hours. Test vessels were completely filled with the resulting WAF solution (essentially a mixture of degradation products, impurities, iso-dodecane and possibly trace levels of peroxide organisms were added and vessels were then sealed for the test duration to maximize exposure and prevent escape of any volatiles formed.

Consideration should be given to the environmental relavance of a closed system for risk assesment purposes. Due to known volatiles being
formed. This approach was used to ensure extreme worst case.

Test organisms (species):

Daphnia magna

Details on test organisms:

The test animals were taken from a Daphnia magna stock, cultured in conformity with Stan¬dard Operation Procedure (E 1). The animals used in the
test were less than 24 hours old were obtained from parent animals aged between 2-4 weeks. Daphnia were originally obtained from NOTOX B.V.
Hambakenwetering 7 5231 DD ‘s-Hertogenbosch P.O. Box 3476 5203 DL ‘s-Hertogenbosch the Netherlands.

The sensitivity of the Daphnia was checked by performing an inhibition test with a reference compound (potassium dichromate) twice a year. The
sensitivity was tested for compliance with the guidelines.

Test type:

other: Static Sealed

Water media type:

freshwater

Limit test:

no

Total exposure duration:

48 h

Post exposure observation period:

None

Hardness:

ºdH of 11.9

Test temperature:

19.7 to 21.05 °C

pH:

The pH measurements show that the pH remained stable in the test in all concentrations. See results in other information.

Dissolved oxygen:

The oxygen concentration did not fall below 3 mg/l at any point during the test. See results in other information.

Salinity:

-

Nominal and measured concentrations:

Due to degradation products being tested measured initial concentrations are not relevant for expressing the study endpoints. Nominal or loading
concentrations were therefore used :

3.8, 8.4, 18.5, 40.9, and 90 mg/L (closed) were tested

Details on test conditions:

TEST SYSTEM
- Test vessel: 50 ml erlenmeyer with cut glass stop
- Type :closed
.- No. of organisms per vessel:50
- No. of vessels per concentration (replicates):4
- No. of vessels per control (replicates):4


TEST MEDIUM / WATER PARAMETERS
-The test medium was Dutch Standard Water (DSW), having a pH of approximately 8.2, and a conductivity between 550 and 650 s/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 (Standard Operation Procedure O1) . The guideline criteria requires the CaCO3 content to be between 10 and 250 mg/L (approximately 1-14 ºdH). Hardness in the test water was
measured once at the start of the study using the appropriate Dr Lange test kit. This was validated by analyzing a CaCl2 Standard. The dilution was saturated with oxygen before the start of the test. This is done by thorough aeration for at least 30 minutes before use.

OTHER TEST CONDITIONS

- Photoperiod: 16 hours day 8 hours dark
-Highest 2 concentrations required adjustment to that of the natural medium pH of the control


EFFECT PARAMETERS MEASURED (with observation intervals if applicable) : Immobility

TEST CONCENTRATIONS
- Spacing factor for test concentrations:2.2
- Range finding study: Additional preliminary and supporting studies conducted
- Test concentrations: Initially 100 mg/L in open system resulted in no effect. First definative study 100 mg/L in closed conditions gave 100% effect.
Additionally definative test concentrations (3.8, 8.4, 18.5, 40.9, and 90 mg/L) were repeated with open conditions also resulting in no effect

Previous non GLP research and a GLP hydrolysis study had identified the breakdown products and indicated the short halflife. The test design was
therefore chosen using this information and reccomendations in the "OECD 2000 GUIDANCE DOCUMENT ON AQUATIC TOXICITY TESTING OF
DIFFICULT SUBSTANCES AND MIXTURES. (OECD SERIES ON TESTING AND ASSESSMENT NUMBER 23"

Breakdown products include : Isobutyric acid, Isopropanol, propene and acetone

Reference substance (positive control):

yes

Remarks:

Potassium dichromate

Duration:

48 h

Dose descriptor:

EL50

Effect conc.:

3.8 mg/L

Nominal / measured:

nominal

Conc. based on:

test mat.

Basis for effect:

mobility

Details on results:

Results indicate that in closed conditions the mixture of degradation products of the test chemical in iso dodecane are toxic to daphnia magna.
Due to this result contradicting results found during preliminary studies an additional supporting study was carried out repeating this study using
identical methodology but with open conditions.

Results with reference substance (positive control):

The sensitivity of the Daphnia was checked by performing an inhibition test with a reference compound (potassium dichromate) twice a year. The sensitivity was tested for compliance with the guidelines.

Reported statistics and error estimates:

The Williams test was used for the NOEC/LOEC determination and the Trimmed spearman karber method was used for the EC50 determination.
Normality and variance of the data could not be confirmed. All calculations were conducted using the ToxCalc 5.023 software.

Results Tables

Conc
mg/l	0 hours	24 hours	48 hours
Control I	5	5	5
II	5	5	5
III	5	5	5
IV	5	5	5
Total	20	20	20
3.8    I	5	5	2
II	5	5	5
III	5	5	2
IV	5	5	1
Total	20	20	10
8.4    I	5	5	0
II	5	5	0
III	5	5	0
IV	5	5	0
Total	20	20	0
18.5    I	5	5	0
II	5	5	0
III	5	4	0
IV	5	4	0
Total	20	18	0
40.9    I	5	5	0
II	5	5	0
III	5	4	0
IV	5	5	0
Total	20	19	0
90.0    I	5	4	0
II	5	5	0
III	5	3	0
IV	5	2	0
Total	20	14	0

pH measurements

Nominal test concentration (mg/L)	Time (hours)
	0	48
Control	8.0	7.8
3.8	8.0	7.9
8.4	7.9	7.9
18.5	7.8	7.9
40.9	(7.4) 7.9	7.8
90.0	(7.4) 8.0	7.8

Note : Figures in brackets are values before adjustment with 1 M NaoH

Oxygen Concentration

Nominal test concentration (mg/L)	Time (hours)
	0	48
Control	8.8	8.5
3.8	8.9	8.6
8.4	8.9	8.4
18.5	8.9	8.5
40.9	8.9	8.8
90.0	8.9	8.5

Validity criteria fulfilled:

yes

Conclusions:

The study was conducted in a valid manner to GLP and appropriate guidelines. The study may be considered reliable with restrictions due to the
difference in behaviour between open and closed test systems observed. A closed system was used here to ensure maximum exposure and
develop an absolute worst case result. However considering the dramatic difference in results between the two test setups the closed system
results are of debatable relevance for environemntal risk assessment and therefore restricted in there use. Data suggests that volatile degradation
products in combination with the other degradation product illicit an effect in a closed system but not in an open system most likely due to volatiles
leaving the test system. The environmental situation is open and when considering the lack of toxicity in an open system and ready biodegradability
of the formed degradation products it is unlikely that the test chemical will present a risk to aquatic invertibrates.

In conclusion the test chemical has the potential to cause toxicity to invertibrates in closed systems. It is reccomended that the worst case closed
system data is used for C&L and that the risk assesment is based on the supporting data measured in an open system.

Executive summary:

The study was conducted to GLP and to an appropriate guideline with justified modifications and justification for approaches used.validity criteria were met. The data obtained is however contradictory to the preliminary data seen in an open test system. This was further confirmed by an additional supporting study following identical procedures as detailed here but with an open test system.