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EC number: 214-780-7 | CAS number: 1193-81-3
- Life Cycle description
- Uses advised against
- Endpoint summary
- Appearance / physical state / colour
- Melting point / freezing point
- Boiling point
- Density
- Particle size distribution (Granulometry)
- Vapour pressure
- Partition coefficient
- Water solubility
- Solubility in organic solvents / fat solubility
- Surface tension
- Flash point
- Auto flammability
- Flammability
- Explosiveness
- Oxidising properties
- Oxidation reduction potential
- Stability in organic solvents and identity of relevant degradation products
- Storage stability and reactivity towards container material
- Stability: thermal, sunlight, metals
- pH
- Dissociation constant
- Viscosity
- Additional physico-chemical information
- Additional physico-chemical properties of nanomaterials
- Nanomaterial agglomeration / aggregation
- Nanomaterial crystalline phase
- Nanomaterial crystallite and grain size
- Nanomaterial aspect ratio / shape
- Nanomaterial specific surface area
- Nanomaterial Zeta potential
- Nanomaterial surface chemistry
- Nanomaterial dustiness
- Nanomaterial porosity
- Nanomaterial pour density
- Nanomaterial photocatalytic activity
- Nanomaterial radical formation potential
- Nanomaterial catalytic activity
- Endpoint summary
- Stability
- Biodegradation
- Bioaccumulation
- Transport and distribution
- Environmental data
- Additional information on environmental fate and behaviour
- Ecotoxicological Summary
- Aquatic toxicity
- Endpoint summary
- Short-term toxicity to fish
- Long-term toxicity to fish
- Short-term toxicity to aquatic invertebrates
- Long-term toxicity to aquatic invertebrates
- Toxicity to aquatic algae and cyanobacteria
- Toxicity to aquatic plants other than algae
- Toxicity to microorganisms
- Endocrine disrupter testing in aquatic vertebrates – in vivo
- Toxicity to other aquatic organisms
- Sediment toxicity
- Terrestrial toxicity
- Biological effects monitoring
- Biotransformation and kinetics
- Additional ecotoxological information
- Toxicological Summary
- Toxicokinetics, metabolism and distribution
- Acute Toxicity
- Irritation / corrosion
- Sensitisation
- Repeated dose toxicity
- Genetic toxicity
- Carcinogenicity
- Toxicity to reproduction
- Specific investigations
- Exposure related observations in humans
- Toxic effects on livestock and pets
- Additional toxicological data
Biodegradation in water: screening tests
Administrative data
Link to relevant study record(s)
- Endpoint:
- biodegradation in water: ready biodegradability
- Type of information:
- read-across from supporting substance (structural analogue or surrogate)
- Adequacy of study:
- key study
- Reliability:
- 2 (reliable with restrictions)
- Rationale for reliability incl. deficiencies:
- other: Results derived form a valid read across, with adequate and reliable documentation/justification.
- Justification for type of information:
- The read across justification is presented in the Biodegradation in water: screening tests Endpoint Summary.
- Reason / purpose for cross-reference:
- read-across source
- Key result
- Parameter:
- % degradation (O2 consumption)
- Value:
- 80
- Sampling time:
- 28 d
- Remarks on result:
- other: read-across from Veilex #1
- Validity criteria fulfilled:
- yes
- Interpretation of results:
- readily biodegradable
- Conclusions:
- The source substance showed 80% biodegradation in an OECD TG 301D test. The 10-day window criterion was met. The target substance is readily biodegradable based on the results of the source substance.
- Endpoint:
- biodegradation in water: ready biodegradability
- Type of information:
- experimental study
- Adequacy of study:
- key study
- Study period:
- 16-09-2015 to 15-10-2015
- Reliability:
- 1 (reliable without restriction)
- Rationale for reliability incl. deficiencies:
- guideline study
- Justification for type of information:
- Information used for read across to Veilex#3.
- Qualifier:
- according to guideline
- Guideline:
- OECD Guideline 301 D (Ready Biodegradability: Closed Bottle Test)
- Deviations:
- no
- GLP compliance:
- yes (incl. QA statement)
- Oxygen conditions:
- aerobic
- Inoculum or test system:
- natural water
- Details on inoculum:
- River water was sampled from the Rhine near Heveadorp, The Netherlands (10-09-2015). The nearest plant (Arnhem-Zuid) treating domestic wastewater biologically was 3 km upstream. The river water was aerated for 7 days before use to reduce the endogenous respiration (van Ginkel and Stroo, 1992). River water without particles was used as inoculum. The particles were removed by sedimentation after 1 day while moderately aerating.
- Duration of test (contact time):
- 28 d
- Initial conc.:
- 2 mg/L
- Based on:
- test mat.
- Parameter followed for biodegradation estimation:
- O2 consumption
- Details on study design:
- DEIONISED WATER
Deionized water containing no more than 0.01 mg/L Cu (ISO 17025 certified; non-GLP analysis) was prepared in a water purification system.
TEST BOTTLES
The test was performed in 0.30 L BOD (biological oxygen demand) bottles with glass stoppers.
NUTRIENTS, STOCKS AND ADMINISTRATION
The river water used in the Closed Bottle test was spiked per liter of water with 8.5 mg KH2PO4, 21.75 mg K2HPO4, 33.4 mg Na2HPO4·2H2O, 22.5 mg MgSO4·7H2O, 27.5 mg CaCl2, 0.25 mg FeCl3·6H2O. Ammonium chloride was not added to the river water to prevent nitrification. Accurate administering of the test substance was accomplished by preparing a solid stock of 3.0 mg of the test substance per g of silica gel in a 50-mL serum flask. Only part of the top layer of the silica gel was brought into contact with the test substance. The serum flask was closed with a screw top with aluminum foil and the content was mixed vigorously. Subsequently 0.2 g of silica gel with the test substance was added to the test bottles. The resulting concentration of test substance in the bottles was 2.0 mg/L. Next the bottles were filled with nutrient medium with inoculum and closed. Sodium acetate was added to the bottles using a stock solution of 1.0 g/L.
TEST PROCEDURES
The Closed Bottle test was performed according to the study plan. The study plan was developed from ISO Test Guidelines (1994). Use was made of 10 bottles containing only river water, 10 bottles containing river water and silica gel, 10 bottles containing river water and silica gel with test substance, 6 bottles with river water and sodium acetate. The concentrations of the test substance, and sodium acetate in the bottles were 2.0 and 6.7 mg/L, respectively. Each of the prepared solutions was dispensed into the respective group of BOD bottles so that all bottles were completely filled without air bubbles. The zero time bottles were immediately analyzed for dissolved oxygen using an oxygen electrode. The remaining bottles were closed and incubated in the dark. Two duplicate bottles of all series were withdrawn for analyses of the dissolved oxygen concentration at day 7, 14, 21, and 28.
TEST CONDITIONS
The pH of the media was 8.0 at the start of the test. The pH of the medium at day 28 was 7.8 (test) and 8.0 (controls). Temperatures were within the prescribed temperature range of 22 to 24°C.
CALCULATION OF BIODEGRADATION PERCENTAGES
The biodegradation was calculated as the ratio of the BOD to the theoretical oxygen demand (ThOD). The calculated theoretical oxygen demand (ThOD) of the test substance (mono-constituent) is 2.7 mg/mg. The ThOD of the reference substance sodium acetate is 0.8 mg/mg. - Reference substance:
- acetic acid, sodium salt
- Test performance:
- VALIDITY OF THE TEST
The validity of the test is demonstrated by an endogenous respiration of 1.4 mg/L at day 28 (Table I). Furthermore, the differences of the replicate values at day 28 were less than 20%. The biodegradation percentage of the reference compound, sodium acetate, at day 14 was 89. Finally, the validity of the test is shown with oxygen concentrations remaining at >0.5 mg/L in all bottles over the test period.
TOXICITY
Inhibition of the endogenous respiration of the inoculum by the test substance tested was not detected. Therefore, no inhibition of the biodegradation due to the initial concentration of the test compound is expected. - Key result
- Parameter:
- % degradation (O2 consumption)
- Value:
- 80
- Sampling time:
- 28 d
- Details on results:
- Over 60% biodegradation was achieved in a period of 10 days immediately following the attainment of 10% biodegradation. The test item therefore fulfilled the time window criterion for ready biodegradable compounds. Hence the test substance should be classified as readily biodegradable.
- Results with reference substance:
- The biodegradation percentage of the reference compound, sodium acetate, at day 14 was 89.
- Validity criteria fulfilled:
- yes
- Remarks:
- see 'Test performance'.
- Interpretation of results:
- readily biodegradable
- Conclusions:
- The substance showed 80% biodegradation in an OECD TG 301D test. The 10-day window criterion was met.
- Executive summary:
In order to assess the biotic degradation, a ready biodegradability test was performed which allows the biodegradability to be measured in an aerobic aqueous medium. The ready biodegradability was determined in the Closed Bottle test (OECD TG 301D) under GLP. The test substance is non-inhibitory to the inoculum based on absence of inhibition of the inoculum. Veilex 1 is biodegraded by 80% at day 28 in the Closed Bottle test. Over 60% biodegradation was achieved in a period of 10 days immediately following the attainment of 10% biodegradation. Hence, this substance should be classified as readily biodegradable. The test is valid as shown by an endogenous respiration of 1.4 mg/L, by the total mineralization of the reference compound, sodium acetate (89% within 14 days) and the oxygen concentrations remained at >0.5 mg/L in all bottles over the test period.
Referenceopen allclose all
Tabel 1: Dissolved oxygen concentrations (mg/L) in the closed bottles.
Time (days) |
Oxygen concentration (mg/L) |
|||
Ocs |
Ot |
Oc |
Oa |
|
0 |
8.7 |
8.7 |
8.7 |
8.7 |
|
8.7 |
8.7 |
8.7 |
8.7 |
Mean |
8.7 |
8.7 |
8.7 |
8.7 |
7 |
8.0 |
6.7 |
7.9 |
3.5 |
|
7.9 |
6.8 |
8.0 |
3.9 |
Mean |
8.0 |
6.8 |
8.0 |
3.7 |
14 |
7.7 |
4.3 |
7.6 |
2.7 |
|
7.7 |
3.8 |
7.6 |
2.9 |
Mean |
7.7 |
4.1 |
7.6 |
2.8 |
21 |
7.4 |
3.4 |
7.4 |
- |
|
7.4 |
3.3 |
7.6 |
- |
Mean |
7.4 |
3.4 |
7.5 |
- |
28 |
7.3 |
2.8 |
7.3 |
- |
|
7.2 |
3.2 |
7.3 |
- |
Mean |
7.3 |
3.0 |
7.3 |
- |
Ocs: River water with nutrients and silica gel.
Ot: River water with nutrients, test material (2.0 mg/L) and silica gel.
Oc: River water with nutrients.
Oa: River water with nutrients and sodium acetate (6.7 mg/L).
Table 2: Oxygen consumption (mg/L) and the percentages biodegradation of the test substance and the reference substance
Time (days) |
Oxygen consumption (mg/L) |
Biodegradation (%) |
||
Test substance |
Acetate |
Test substance |
Acetate |
|
0 |
0.0 |
0.0 |
0 |
0 |
7 |
1.2 |
4.3 |
22 |
80 |
14 |
3.6 |
4.8 |
67 |
89 |
21 |
4.0 |
- |
74 |
- |
28 |
4.3 |
- |
80 |
- |
Description of key information
The biodegradability of Veilex #3 is assessed based on read-across from close structural analogue Veilex #1 (CAS# 63449-88-7) and is considered readily biodegradable.
Key value for chemical safety assessment
- Biodegradation in water:
- readily biodegradable
- Type of water:
- freshwater
Additional information
In this Endpoint summary the experimental information of Veilex #1 is presented. The read across justification is presented thereafter.
In order to assess the biotic degradation, a ready biodegradability test was performed which allows the biodegradability to be measured in an aerobic aqueous medium. The ready biodegradability was determined in the Closed Bottle test (OECD TG 301D) under GLP. The test substance is non-inhibitory to the inoculum based on absence of inhibition of the inoculum. Veilex 1 is biodegraded by 80% at day 28 in the Closed Bottle test. Over 60% biodegradation was achieved in a period of 10 days immediately following the attainment of 10% biodegradation. Hence, this substance should be classified as readily biodegradable. The test is valid as shown by an endogenous respiration of 1.4 mg/L, by the total mineralization of the reference compound, sodium acetate (89% within 14 days) and the oxygen concentrations remained at >0.5 mg/L in all bottles over the test period.
Biodegradation of Veilex #3 (CAS #1193-81-3) based on read across from Veilex #1 (CAS #63449-88-7).
Introduction and hypothesis for the analogue approach
Veilex #3 consist of a cyclohexylethyl backbone with an alcohol as functional group. For this substance there are no experimental biodegradation data available. Biodegradation information may be generated by other means, i.e. applying alternative methods such as QSARs, grouping and read-across. For assessing the ready biodegradability of Veilex #3, the analogue approach is selected because for a closely related analogue, Veilex #1, ready biodegradation information is available which can be used for read across.
Hypothesis: Veilex #3 has the same biodegradation potential as Veilex #1.
Available information: For Veilex #1 a ready biodegradation study was performed according to OECD TG 301D (Rel. 1). In this study Veilex #1 was biodegraded by 80% at day 28 in the Closed Bottle test. Over 60% biodegradation was achieved in a period of 10 days immediately following the attainment of 10% biodegradation. Hence, this substance is considered readily biodegradable. The data is reliable without restrictions (Klimisch 1).
Target chemical and source chemical(s)
Chemical structures of Veilex #3 and Veilex #1 are shown in the data matrix, including their physico-chemical properties.
Purity / Impurities
Veilex #3 is a mono-constituent substance with purities close to 100%, which does not contain any impurities that will affect the read across for biodegradation.
Analogue approach justification
According to Annex XI 1.5 read across can be used to replace testing when the similarity can be based on a common backbone and a common functional group. When using read across the result derived should be applicable for C&L and/or risk assessment and it should be presented with adequate and reliable documentation. The analogue Veilex #1 is selected from IFFs portfolio.
Structural similarities and differences: Veilex #3 and Veilex #1 share the same cyclohexylethyl backbone. The difference is that in Veilex #3 the functional group consists of an alcohol while in Veilex #1 it is a butyl ester.
Bioavailability: Veilex#3 has a considerably lower log Kow and higher water solubility compared Veilex#4, this means that Veilex #3 will be much more bioavailable and mor susceptible to biodegradation.
Biodegradable fragments:Veilex #3 as a whole is an integral part of Veilex #1 and has therefore the same fragments. The ester of Veilex #1 will be rapidly degraded by carboxylesterases and Veilex #3 will be formed as well as butyric acid. The ready biodegradability is further supported by BIOWIN.
Only BIOWIN modules 5 (‘MITI-linear’) and 6 (‘MITI-non-linear’) are used because these two models are based on ready biodegradability tests, which is the endpoint that needs to be predicted. From these BIOWIN predictions it can be seen that both Veilex #3 and Veilex #1 are readily biodegradable with values of respectively 0.5527 and 0.6260, respectively for BIOWIN 5. The values 0.6902 and 0.7499, respectively are found for BIOWIN 6. All these are above the cut-off value of 0.5. The straight alkyl butyric acid is the reason for a slightly higher biodegradation potential of Veilex#1.
Uncertainty of the prediction:There are no remaining uncertainties other than those already addressed in the previous sections.
Conclusions for environmental fate
For Veilex#3 no biodegradation information is available. The analogue Veilex#1 was found for read across. When using read across the result derived should be applicable for C&L and/or risk assessment and be presented with adequate and reliable documentation. This documentation is presented in the current document. For Veilex #1 a well conducted ready biodegradability test is available which can be used for read across to Veilex #3. Veilex #1 is readily biodegradable and therefore Veilex #3 will be assessed as readily biodegradable as well.
Final conclusion:Veilex #3 is considered to be readily biodegradable.
Data matrix for read across to Veilex #3 from Veilex #1
Common name |
Veilex #3 |
Veilex #1 |
|
Target |
Source |
Chemical name |
1-cyclohexylethanol |
1-cyclohexylethyl butyrate |
Chemical structures |
||
CAS no |
1193-81-3 |
63449-88-7 |
Einecs |
214-780-7 |
264-158-4 |
REACH registration |
For Intermediated use and for 2018 |
Registered |
Empirical formula |
C8H16O |
C12H22O2 |
Physico-chemical data |
|
|
Molecular weight |
128.21 |
198.30 |
Physical state |
liquid |
liquid |
Melting point,oC |
< -20 |
< -20 |
Boiling point,oC |
195.8 |
246.5 |
Vapour pressure, Pa |
36.8 (at 24°C) |
6.5 (at 24 °C) |
Water solubility, mg/L |
5163.2 (at 24°C) |
23.8 (at 24 °C) |
Log Kow |
1.6 |
5.2 |
Fate and behaviour |
|
|
Biodegradation |
Derived from read across: Readily biodegradable |
Readily biodegradable (OECD TG 301D) |
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