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Environmental fate & pathways

Hydrolysis

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Endpoint:
hydrolysis
Type of information:
read-across from supporting substance (structural analogue or surrogate)
Adequacy of study:
key study
Reliability:
1 (reliable without restriction)
Rationale for reliability incl. deficiencies:
other: GLP guideline study
Justification for type of information:
REPORTING FORMAT FOR THE ANALOGUE APPROACH

1. HYPOTHESIS FOR THE ANALOGUE APPROACH
This read-across is based on the hypothesis that the source and the target substance have very similar physicochemical and (eco)toxicological properties because their chemical structures are nearly identical. An analogue approach has thus been employed. The target substance is the meta-isomer of the dye Reactive Blue 049, where the sulphonate group is bound at the meta-position of the aminobenzene moiety. The source chemical is the reaction mass of both the meta-isomer and the para-isomer of Reactive Blue 049.
The presence of sulphonate groups make both dyes highly water soluble and therefore less critical for human health and environmental issues. Based on their chemical similarity, similar properties are expected in both humans and the environment.

2. SOURCE AND TARGET CHEMICAL(S)
Source: Reactive Blue 49 meta/para (CAS# 72214-18-7 / EC# 276-481-8)
Target: Reactive Blue 49 meta (CAS# 72927-99-2 / EC# 277-040-2)

3. ANALOGUE APPROACH JUSTIFICATION
see attachment under 4.2 Melting point / freezing point
Reason / purpose:
read-across source
Preliminary study:
The extent of hydrolysis after 120 hours indicated that further tests (Tier 2), conducted at 40 ± 0.5 °C, 50 ± 0.5 °C and 60 ± 0.5 °C, were required to estimate the rate constant and half-life at 25 °C.
Preliminary pH 7 Test at 50.0 ± 0.5 ºC
Less than 10% hydrolysis after 5 days at 50.0 ± 0.5 °C, equivalent to a half-life greater than 1 year at 25 °C.

Preliminary pH 9 Test at 50.0 ± 0.5 ºC
Less than 10% hydrolysis after 5 days at 50.0 ± 0.5 °C, equivalent to a half-life greater than 1 year at 25 °C.
Transformation products:
not measured
pH:
4
Temp.:
25 °C
Hydrolysis rate constant:
>= 0 - <= 0 s-1
DT50:
>= 110 - <= 126 d
Type:
(pseudo-)first order (= half-life)
pH:
7
Temp.:
25 °C
DT50:
> 1 yr
pH:
9
Temp.:
25 °C
DT50:
> 1 yr
Validity criteria fulfilled:
yes
Conclusions:
The rate constant and estimated half-life at 25 °C of the source substance are:
At pH 4 the rate constant (peak 1) was 6.36E-08 s-1 at 25 °C
At pH 4 the rate constant (peak 2) was 7.31E-08 s-1 at 25 °C

The estimated half life at pH 4 at 25 °C (peak 1) was 126 days.
The estimated half life at pH 4 at 25 °C (peak 2) was 110 days.
The estimated half life at pH 7 at 25 °C was > 1 year.
The estimated half life at pH 9 at 25 °C was > 1 year.

The structurally related target substance will show similar behaviour in water.
Executive summary:

Assessment of hydrolytic stability was carried out using a procedure designed to be compatible with Method C7 Abiotic Degradation, Hydrolysis as a Function of pH of Commission Regulation (EC) No 440/2008 of 30 May 2008 and Method 111 of the OECD Guidelines for Testing of Chemicals, 13 April 2004. The results are as follows:

 

pH

Rate constant (s-1) at 25°C

Estimated half-life at 25 °C

Peak 1

Peak 2

Peak 1

Peak 2

4

6.36 x 10-8

7.31 x 10-8

126 days

110 days

7

-

-

>1 year

>1 year

9

-

-

>1 year

>1 year

 

Endpoint:
hydrolysis
Type of information:
experimental study
Adequacy of study:
key study
Study period:
The study was conducted between 17 March 2015 and 14 August 2015
Reliability:
1 (reliable without restriction)
Rationale for reliability incl. deficiencies:
other: GLP guideline study
Qualifier:
according to
Guideline:
OECD Guideline 111 (Hydrolysis as a Function of pH)
Deviations:
no
Qualifier:
according to
Guideline:
EU Method C.7 (Degradation: Abiotic Degradation: Hydrolysis as a Function of pH)
Deviations:
no
GLP compliance:
yes (incl. certificate)
Specific details on test material used for the study:
Details on properties of test surrogate or analogue material (migrated information):
Not applicable
Radiolabelling:
no
Analytical monitoring:
yes
Details on sampling:
Duplicate aliquots (A and B) of each sample solution were diluted by a factor of 10 using dimethyl sulfoxide (DMSO).
Buffers:
See below
Details on test conditions:
Performance of the Test
Preparation of the Test Solutions
Sample solutions were prepared in stoppered glass flasks at a nominal concentration of 5 g/L in the three buffer solutions.
 
The concentration of each solution did not exceed the lesser of 0.01 mol/L or half the water solubility.
 
The test solutions were split into individual vessels for each data point.
The solutions were shielded from light whilst maintained at the test temperature.

Preliminary Test
Sample solutions were prepared at a nominal concentration of 5 g/L at pH 4, 7 and 9 and maintained at 50.0 ± 0.5 °C for a period of 120 hours.


Tier 2
Results from the Preliminary test showed it was necessary to undertake further testing at pH 4, with solutions being maintained at 50.0 ± 0.5 °C, 60.0 ± 0.5 °C and 70.0 ± 0.5 °C for a period of 720, 408 and 360 hours respectively.
Duration:
120 h
pH:
4
Temp.:
50 °C
Initial conc. measured:
5 g/L
Duration:
120 h
pH:
7
Temp.:
50 °C
Initial conc. measured:
5 g/L
Duration:
120 h
pH:
9
Temp.:
50 °C
Initial conc. measured:
5 g/L
Duration:
720 h
pH:
4
Temp.:
50 °C
Initial conc. measured:
5 g/L
Duration:
408 h
pH:
4
Temp.:
60 °C
Initial conc. measured:
5 g/L
Duration:
360 h
pH:
4
Temp.:
70 °C
Initial conc. measured:
5 g/L
Number of replicates:
Two replicates
Positive controls:
no
Negative controls:
no
Statistical methods:
No data
Preliminary study:
The extent of hydrolysis after 120 hours indicated that further tests (Tier 2), conducted at 40 ± 0.5 °C, 50 ± 0.5 °C and 60 ± 0.5 °C, were required to estimate the rate constant and half-life at 25 °C.

Preliminary pH 7 Test at 50.0 ± 0.5 ºC
Less than 10% hydrolysis after 5 days at 50.0 ± 0.5 °C, equivalent to a half-life greater than 1 year at 25 °C.

Preliminary pH 9 Test at 50.0 ± 0.5 ºC
Less than 10% hydrolysis after 5 days at 50.0 ± 0.5 °C, equivalent to a half-life greater than 1 year at 25 °C.
Test performance:
No data
Transformation products:
not measured
pH:
4
Temp.:
25 °C
Hydrolysis rate constant:
0 - 0 s-1
DT50:
110 - 126 d
Type:
(pseudo-)first order (= half-life)
pH:
7
Temp.:
25 °C
DT50:
> 1 yr
pH:
9
Temp.:
25 °C
DT50:
> 1 yr
Details on results:
pH 4 Test at 50.0 ± 0.5 ºC - Tier 2– Peak 1
Slope = -6.49E-04
kobs = 1.49E-03 hour-1
= 4.15E-07 second-1
t½ = 464 hours
= 19.3 days


pH 4 Test at 50.0 ± 0.5 ºC - Tier 2– Peak 2
Slope = -7.02E-04
kobs = 1.62E-03 hour-1
= 4.49E-07 second-1
t½ = 429 hours
= 17.9 days

pH 4 Test at 60.0 ± 0.5 ºC - Tier 2– Peak 1
Slope = -1.30E-03
kobs = 3.00E-03 hour-1
= 8.34E-07 second-1
t½ = 231 hours
= 9.62 days

pH 4 Test at 60.0 ± 0.5 ºC - Tier 2– Peak 2
Slope = -1.36E-03
kobs = 3.13E-03 hour-1
= 8.69E-07 second-1
t½ = 222 hours
= 9.23 days

pH 4 Test at 70.0 ± 0.5 ºC - Tier 2– Peak 1
Slope = -2.40E-03
kobs = 5.23E-03 hour-1
= 1.5E-06 second-1
t½ = 125 hours
= 5.22 days

pH 4 Test at 70.0 ± 0.5 ºC - Tier 2– Peak 2
Slope =-2.48E-03
kobs = 5.72E-03 hour-1
= 1.59E-06 second-1
t½ = 121 hours
= 5.05 days

pH 4 Arrhenius Data – Peak 1
From the graph of the data, the rate constant and half-life at 25 °C have been estimated to be as follows:

kobs = 2.29E-04 hour-1
= 6.36E-08 second-1
t½ = 3.03E+03 hours
= 126 days

pH 4 Arrhenius Data – Peak 2
From the graph of the data, the rate constant and half-life at 25 °C have been estimated to be as follows:

kobs = 2.63E-04 hour-1
= 7.31E-08 second-1
t½ = 2.63E+03 hours
= 110 days

Preliminary Test

The mean peak areas relating to the standard and sample solutions are shown in the following tables:

 

pH 4 - 50.0 ± 0.5 °C Preliminary Testing - Peak 1 

Solution

Mean Peak Area

Standard 501 mg/L

3.1659 x 107

Standard 502 mg/L

3.1012 x 107

Initial Sample A, pH 4

3.2203 x 107

Initial Sample B, pH 4

3.2022 x 107

Standard 501 mg/L

2.9494 x 107

Standard 504 mg/L

3.2107 x 107

24 Hour Sample A, pH 4

3.0600 x 107

24 Hour Sample B, pH 4

3.0319 x 107

Standard 507 mg/L

3.3045 x 107

Standard 507 mg/L

3.0457 x 107

120 Hour Sample A, pH 4

2.5002 x 107

120 Hour Sample B, pH 4

2.5058 x 107

 

pH 4 - 50.0 ± 0.5 °C Preliminary Testing - Peak 2 

Solution

Mean Peak Area

Standard 501 mg/L

3.6020 x 107

Standard 502 mg/L

3.5326 x 107

Initial Sample A, pH 4

3.6728 x 107

Initial Sample B, pH 4

3.6584 x 107

Standard 501 mg/L

3.3676 x 107

Standard 504 mg/L

3.6635 x 107

24 Hour Sample A, pH 4

3.4929 x 107

24 Hour Sample B, pH 4

3.4675 x 107

Standard 507 mg/L

3.7817 x 107

Standard 507 mg/L

3.4876 x 107

120 Hour Sample A, pH 4

2.8666 x 107

120 Hour Sample B, pH 4

2.8619 x 107

pH 7 - 50.0 ± 0.5 °C Preliminary Testing - Peak 1 

Solution

Mean Peak Area

Standard 501 mg/L

3.1786 x 107

Standard 502 mg/L

3.0778 x 107

Initial Sample A, pH 7

3.2142 x 107

Initial Sample B, pH 7

3.2070 x 107

Standard 501 mg/L

3.0752 x 107

Standard 504 mg/L

3.2043 x 107

24 Hour Sample A, pH 7

3.2729 x 107

24 Hour Sample B, pH 7

3.2932 x 107

Standard 507 mg/L

3.1157 x 107

Standard 507 mg/L

3.0687 x 107

120 Hour Sample A, pH 7

3.2939 x 107

120 Hour Sample B, pH 7

3.2266 x 107

 

pH 7 - 50.0 ± 0.5 °C Preliminary Testing - Peak 2 

Solution

Mean Peak Area

Standard 501 mg/L

3.6373 x 107

Standard 502 mg/L

3.5168 x 107

Initial Sample A, pH 7

3.6715 x 107

Initial Sample B, pH 7

3.6706 x 107

Standard 501 mg/L

3.5145 x 107

Standard 504 mg/L

3.6562 x 107

24 Hour Sample A, pH 7

3.7361 x 107

24 Hour Sample B, pH 7

3.7598 x 107

Standard 507 mg/L

3.5589 x 107

Standard 507 mg/L

3.5031 x 107

120 Hour Sample A, pH 7

3.7516 x 107

120 Hour Sample B, pH 7

3.6837 x 107

pH 9 - 50.0 ± 0.5 °C Preliminary Testing - Peak 1 

Solution

Mean Peak Area

Standard 501 mg/L

3.1868 x 107

Standard 502 mg/L

3.0819 x 107

Initial Sample A, pH 9

3.1907 x 107

Initial Sample B, pH 9

3.1819 x 107

Standard 501 mg/L

3.2076 x 107

Standard 504 mg/L

3.1884 x 107

24 Hour Sample A, pH 9

3.1951 x 107

24 Hour Sample B, pH 9

3.1862 x 107

Standard 507 mg/L

3.1075 x 107

Standard 507 mg/L

3.0637 x 107

120 Hour Sample A, pH 9

3.1533 x 107

120 Hour Sample B, pH 9

3.1822 x 107

 

pH 9 - 50.0 ± 0.5 °C Preliminary Testing - Peak 2 

Solution

Mean Peak Area

Standard 501 mg/L

3.6396 x 107

Standard 502 mg/L

3.5164 x 107

Initial Sample A, pH 9

3.6457 x 107

Initial Sample B, pH 9

3.6288 x 107

Standard 501 mg/L

3.6619 x 107

Standard 504 mg/L

3.6479 x 107

24 Hour Sample A, pH 9

3.6576 x 107

24 Hour Sample B, pH 9

3.6436 x 107

Standard 507 mg/L

3.5493 x 107

Standard 507 mg/L

3.5002 x 107

120 Hour Sample A, pH 9

3.6176 x 107

120 Hour Sample B, pH 9

3.6516 x 107

Preliminary pH 4 Test at 50.0 ± 0.5 ºC – Peak 1 

Time (Hours)

Concentration (g/L)

% mean initial concentration

0 (A)

5.154

-

0 (B)

5.125

-

24 (A)

4.995

97.2

24 (B)

4.949

96.3

120 (A)

3.993

77.7

120 (B)

4.002

77.9

 

Preliminary pH 4 Test at 50.0 ± 0.5 ºC – Peak 2 

Time (Hours)

Concentration (g/L)

% mean initial concentration

0 (A)

5.163

-

0 (B)

5.143

-

24 (A)

4.995

96.9

24 (B)

4.959

96.2

120 (A)

3.999

77.6

120 (B)

3.993

77.5

 

Preliminary pH 7 Test at 50.0 ± 0.5 ºC – Peak 1 

Time (Hours)

Concentration (g/L)

% mean initial concentration

0 (A)

5.153

-

0 (B)

5.141

-

24 (A)

5.240

102

24 (B)

5.273

102

120 (A)

5.402

105

120 (B)

5.291

103

 

Preliminary pH 7 Test at 50.0 ± 0.5 ºC – Peak 2 

Time (Hours)

Concentration (g/L)

% mean initial concentration

0 (A)

5.147

-

0 (B)

5.146

-

24 (A)

5.239

102

24 (B)

5.272

102

120 (A)

5.388

105

120 (B)

5.290

103

Preliminary pH 9 Test at 50.0 ± 0.5 ºC – Peak 1 

Time (Hours)

Concentration (g/L)

% mean initial concentration

0 (A)

5.105

-

0 (B)

5.091

-

24 (A)

5.022

98.5

24 (B)

5.008

98.2

120 (A)

5.182

102

120 (B)

5.230

103

 

Preliminary pH 9 Test at 50.0 ± 0.5 ºC – Peak 2 

Time (Hours)

Concentration (g/L)

% mean initial concentration

0 (A)

5.110

-

0 (B)

5.086

-

24 (A)

5.031

98.7

24 (B)

5.011

98.3

120 (A)

5.205

102

120 (B)

5.253

103

Tier 2

The mean peak areas relating to the standard and sample solutions are shown in the following table:

 

pH 4 - 50.0 ± 0.5 °C Tier 2 Testing - Peak 1 

Solution

Mean Peak Area

Standard 517 mg/L

3.7559 x 107

Standard 524 mg/L

3.4561 x 107

Initial Sample A, pH 4

3.4132 x 107

Initial Sample B, pH 4

3.5238 x 107

Standard 516 mg/L

3.5030 x 107

Standard 505 mg/L

3.2924 x 107

96 Hour Sample A, pH 4

2.9108 x 107

96 Hour Sample B, pH 4

2.4942 x 107

Standard 506 mg/L

3.5524 x 107

Standard 503 mg/L

3.4998 x 107

216 Hour Sample A, pH 4

2.4465 x 107

216 Hour Sample B, pH 4

2.3349 x 107

Standard 510 mg/L

3.4287 x 107

Standard 510 mg/L

3.4797 x 107

336 Hour Sample A, pH 4

2.0396 x 107

336 Hour Sample B, pH 4

1.9233 x 107

Standard 505 mg/L

3.4574 x 107

Standard 505 mg/L

3.5706 x 107

432 Hour Sample A, pH 4

1.6579 x 107

432 Hour Sample B, pH 4

1.6811 x 107

Standard 518 mg/L

3.5604 x 107

Standard 506 mg/L

3.3842 x 107

600 Hour Sample A, pH 4

1.2766 x 107

600 Hour Sample B, pH 4

1.2978 x 107

Standard 518 mg/L

3.2326 x 107

Standard 523 mg/L

3.0411 x 107

720 Hour Sample A, pH 4

1.0583 x 107

720 Hour Sample B, pH 4

1.0128 x 107

pH 4 - 50.0 ± 0.5 °C Tier 2 Testing - Peak 2 

Solution

Mean Peak Area

Standard 517 mg/L

3.6521 x 107

Standard 524 mg/L

3.3532 x 107

Initial Sample A, pH 4

3.3095 x 107

Initial Sample B, pH 4

3.4244 x 107

Standard 516 mg/L

3.4200 x 107

Standard 505 mg/L

3.2218 x 107

96 Hour Sample A, pH 4

2.8549 x 107

96 Hour Sample B, pH 4

2.4387 x 107

Standard 506 mg/L

3.4567 x 107

Standard 503 mg/L

3.4080 x 107

216 Hour Sample A, pH 4

2.3833 x 107

216 Hour Sample B, pH 4

2.2811 x 107

Standard 510 mg/L

3.3814 x 107

Standard 510 mg/L

3.4497 x 107

336 Hour Sample A, pH 4

1.9867 x 107

336 Hour Sample B, pH 4

1.8648 x 107

Standard 505 mg/L

3.3646 x 107

Standard 505 mg/L

3.4709 x 107

432 Hour Sample A, pH 4

1.5794 x 107

432 Hour Sample B, pH 4

1.6034 x 107

Standard 518 mg/L

3.4696 x 107

Standard 506 mg/L

3.2974 x 107

600 Hour Sample A, pH 4

1.1754 x 107

600 Hour Sample B, pH 4

1.1961 x 107

Standard 518 mg/L

3.2860 x 107

Standard 523 mg/L

3.0815 x 107

720 Hour Sample A, pH 4

9.8453 x 106

720 Hour Sample B, pH 4

9.3950 x 106

 

pH 4 - 60.0 ± 0.5 °C Tier 2 Testing - Peak 1 

Solution

Mean Peak Area

Standard 508 mg/L*

3.0736 x 107

Initial Sample A, pH 4

3.2519 x 107

Initial Sample B, pH 4

3.5191 x 107

Standard 500 mg/L

3.4045 x 107

Standard 504 mg/L

3.4605 x 107

48 Hour Sample A, pH 4

3.0547 x 107

48 Hour Sample B, pH 4

3.0583 x 107

Standard 518 mg/L

3.5604 x 107

Standard 506 mg/L

3.3842 x 107

96 Hour Sample A, pH 4

2.6228 x 107

96 Hour Sample B, pH 4

2.6022 x 107

Standard 504 mg/L

3.4605 x 107

Standard 511 mg/L

3.4054 x 107

168 Hour Sample A, pH 4

2.2073 x 107

168 Hour Sample B, pH 4

2.2512 x 107

Standard 506 mg/L

3.4261 x 107

Standard 504 mg/L

3.3084 x 107

264 Hour Sample A, pH 4

1.5928 x 107

264 Hour Sample B, pH 4

1.5909 x 107

Standard 511 mg/L

3.6245 x 107

Standard 515 mg/L

3.6444 x 107

360 Hour Sample A, pH 4

1.2627 x 107

360 Hour Sample B, pH 4

1.2871 x 107

Standard 505 mg/L

3.3093 x 107

Standard 509 mg/L

3.4580 x 107

408 Hour Sample A, pH 4

1.0540 x 107

408 Hour Sample B, pH 4

1.0722 x 107

*Only single set of standards used for processing of data.

pH 4 - 60.0 ± 0.5 °C Tier 2 Testing - Peak 2 

Solution

Mean Peak Area

Standard 508 mg/L*

2.9835 x 107

Initial Sample A, pH 4

3.1697 x 107

Initial Sample B, pH 4

3.4256 x 107

Standard 500 mg/L

3.2925 x 107

Standard 504 mg/L

3.3520 x 107

48 Hour Sample A, pH 4

2.9682 x 107

48 Hour Sample B, pH 4

2.9712 x 107

Standard 518 mg/L

3.4696 x 107

Standard 506 mg/L

3.2974 x 107

96 Hour Sample A, pH 4

2.5476 x 107

96 Hour Sample B, pH 4

2.5310 x 107

Standard 504 mg/L

3.4202 x 107

Standard 511 mg/L

3.3715 x 107

168 Hour Sample A, pH 4

2.1842 x 107

168 Hour Sample B, pH 4

2.2345 x 107

Standard 506 mg/L

3.6675 x 107

Standard 504 mg/L

3.5269 x 107

264 Hour Sample A, pH 4

1.6577 x 107

264 Hour Sample B, pH 4

1.6349 x 107

Standard 511 mg/L

3.3260 x 107

Standard 515 mg/L

3.3668 x 107

360 Hour Sample A, pH 4

1.1246 x 107

360 Hour Sample B, pH 4

1.1422 x 107

Standard 505 mg/L

3.1904 x 107

Standard 509 mg/L

3.3425 x 107

408 Hour Sample A, pH 4

9.7388 x 106

408 Hour Sample B, pH 4

9.8622 x 106

*Only single set of standards used for processing of data.

pH 4 - 70.0 ± 0.5 °C Tier 2 Testing - Peak 1 

Solution

Mean Peak Area

Standard 500 mg/L

3.4045 x 107

Standard 504 mg/L

3.4605 x 107

Initial Sample A, pH 4

3.4540 x 107

Initial Sample B, pH 4

3.5667 x 107

Standard 504 mg/L

3.5859 x 107

Standard 510 mg/L

3.5844 x 107

24 Hour Sample A, pH 4

3.1819 x 107

24 Hour Sample B, pH 4

3.0233 x 107

Standard 518 mg/L

3.5604 x 107

Standard 506 mg/L

3.3842 x 107

48 Hour Sample A, pH 4

2.7590 x 107

48 Hour Sample B, pH 4

2.6025 x 107

Standard 514 mg/L

3.6688 x 107

Standard 503 mg/L

3.6911 x 107

72 Hour Sample A, pH 4

2.6606 x 107

72 Hour Sample B, pH 4

2.7108 x 107

Standard 508 mg/L

3.5824 x 107

Standard 505 mg/L

3.5626 x 107

96 Hour Sample A, pH 4

2.5424 x 107

96 Hour Sample B, pH 4

2.3017 x 107

Standard 506 mg/L

3.4261 x 107

Standard 504 mg/L

3.3084 x 107

216 Hour Sample A, pH 4

1.0600 x 107

216 Hour Sample B, pH 4

1.0981 x 107

Standard 505 mg/L

3.3093 x 107

Standard 509 mg/L

3.4580 x 107

360 Hour Sample A, pH 4

4.7682 x 106

360 Hour Sample B, pH 4

4.5912 x 106

Validity criteria fulfilled:
yes
Conclusions:
The rate constant and estimated half-life at 25 °C of the test item are:
At pH 4 the rate constant (peak 1) was 6.36E-08 s-1 at 25 °C
At pH 4 the rate constant (peak 2) was 7.31E-08 s-1 at 25 °C

The estimated half life at pH 4 at 25 °C (peak 1) was 126 days.
The estimated half life at pH 4 at 25 °C (peak 2) was 110 days.
The estimated half life at pH 7 at 25 °C was > 1 year.
The estimated half life at pH 9 at 25 °C was > 1 year.
Executive summary:

Assessment of hydrolytic stability was carried out using a procedure designed to be compatible with Method C7 Abiotic Degradation, Hydrolysis as a Function of pH of Commission Regulation (EC) No 440/2008 of 30 May 2008 and Method 111 of the OECD Guidelines for Testing of Chemicals, 13 April 2004. The results are as follows:

 

pH

Rate constant (s-1) at 25°C

Estimated half-life at 25 °C

Peak 1

Peak 2

Peak 1

Peak 2

4

6.36 x 10-8

7.31 x 10-8

126 days

110 days

7

-

-

>1 year

>1 year

9

-

-

>1 year

>1 year

 

Description of key information

The rate constant and estimated half-life at 25 °C of the source substance are:

At pH 4 the rate constant was between 6.36E-08 and 7.31E-08 s-1 at 25 °C.

The estimated half life at pH 4 at 25 °C was 110 -126 days.

The estimated half life at pH 7 at 25 °C was > 1 year.

The estimated half life at pH 9 at 25 °C was > 1 year.

The structurally related target substance will show similar behaviour in water.

Key value for chemical safety assessment

Half-life for hydrolysis:
1 yr
at the temperature of:
25 °C

Additional information

Hydrolysis will not occur under environmental conditions for the source substance, and therefore the structurally related target substance will not undergo hydrolysis either.