Tris(2,4-ditert-butylphenyl) phosphite

Administrative data

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Reference 1

Endpoint:

bioaccumulation in aquatic species: fish

Type of information:

experimental study

Adequacy of study:

weight of evidence

Study period:

06-Feb-2008 to 24-Jul-2008

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

comparable to guideline study

Remarks:

GLP, according to recent background document (test guideline not available)

Guideline:

other: -Anonymous (2004). Background document to the fish dietary study protocol, Working Group on identification of PBT and vPvB substances. Ispra (IT): European Chemicals Bureau.

Deviations:

no

Principles of method if other than guideline:

The study was conducted in order to determine the dietary accumulation of the test item to the freshwater fish Danio rerio (Zebrafish). One concentration of the test item in fish food was prepared, and the test animals were exposed to this concentration as well as to a negative control without the test item and a positive control treated with 14C-hexachlorobenzene (14C-HCB) for a test period of 15 days (uptake phase). During the test period the test medium was renewed in a semi-static test system. In this study, an elimination (depuration) phase was not foreseen.

To measure the actual concentrations of the test item and the reference item in fish, food and water as well as in faeces and uneaten food, samples were taken from the test and used for analysis of test item concentrations.

The requirement of the study is based on:

- Council Regulation 793/93 of 23 March 1993 on the Evaluation and Control of the Risks of Existing Substances, OJ L 84, 5.4.1993, p. 1.

GLP compliance:

yes (incl. QA statement)

Radiolabelling:

yes

Details on sampling:

Samples from stock solution, test medium (water), fish, food and faeces were analysed to determine total radioactive residues (TRR) in comparison to the nominally applied concentrations. A sampling schedule (Table 1) gives further details.

Samples of the stock solutions S14C (test item and reference item solved in suitable solvent) were taken before the start of the test. The stock solution and the solutions used for spiking the fish food were sampled directly before spiking.
Samples from controls, and the test medium (water), fish and food were taken as described in the sampling schedule (Table 1).

Samples of trapping solutions were taken at the end of the uptake period for quantification of evaporated radioactivity.

Samples of control matrix (fish and food) were provided in order to determine the recovery of the analytical method with the specific test medium (fortifications) and to determine the lipid content, and the fish dry weight.

Each sample was analysed independently from each other.



Sampling Procedures of Samples for TRR:

Stock solution: An appropriate volume (1 – 500 µL) of stock solution was mixed with Liquid Scintillation (LSC)-cocktail in a polyethylene LSC vial, and total radioactivity was measured directly by LSC.

Water: 5 mL samples of water were mixed with LSC-cocktail in a polyethylene LSC vial, and total radioactivity was measured directly by LSC.

Fish: At each sampling date the sampled fish were sacrificed with a solution of MS222. The viscera were separated from the remaining tissue (carcass and fillet), and the portions transferred into pre-weighed LSC-vials, weighed (to the nearest 1 mg), and stored at  - 18°C until further processing.

Food: An appropriate sub-sample (0.13 – 11.1 mg) of fish food was weighed (to the nearest 1 mg), wrapped in a piece of cellulose tissue of suitable size and transferred to LSC-vials, and stored at - 18°C or lower until further processing.

Faeces: The filter paper with the collected faeces and food was stored in the refrigerator during the uptake period. Thereafter the filter paper was stored at - 18°C or lower. For further processing, faeces samples were dried overnight at 60 ± 5°C, and weighed to the nearest 1 mg. The dried samples were stored in a desiccator at room temperature until further processing.

Vessels: After sampling, the vessels were washed with cyclohexane (26 - 62 mL) to dissolve any potentially adsorbed test item. The resulting volume of the solvent was volumetrically measured, a sample of each washing solution was taken, mixed with LSC-cocktail, and analysed for total 14C-activity by LSC. Additonally, the vessels were cleaned with a piece of cellulose tissue, which was submerged in LSC-cocktail, and analysed for total 14C-activity by LSC.

Trapping solutions: At the end of the uptake phase, the total volume of solution was determined for each washing bottle. 5-mL samples of each of the trap contents was sampled, mixed with LSC-cocktail, and analysed for total 14C-activity by LSC.

Fortification samples: Control food and fish samples were fortified with the test item in the range between the quantification limit and the test concentration. Therefore, two replicates with a low and a high amount of 14C-labelled test item were analysed using the same methods of analytical procedures.

Vehicle:

yes

Details on preparation of test solutions, spiked fish food or sediment:

Preparation of Food:
The food used for the negative control was prepared in the same manner as the treated food, except for the presence of the test item or 14C-HCB.
The test item, and the 14C-labelled HCB solved in cyclohexane were added to a carrier (fish oil). The spiked fish oil was mixed with the dry food using a steel spatula to achive a homogeneous mixture (0.1 mL oil per gram fish food). Food was prepared on days 0 and 11 of the study. The spiked food was stored in a refrigerator.

Details on fish food and carrier (fish oil) are given below:
Fish food
- supplier Tetra GmbH, Melle, Germany
- type of fish food TetraMin, ground fish food flakes

Carrier (fish oil)
- supplier Caesar & Loretz GmbH, Hilden, Germany
- type of fish food Caelo cod liver oil, cod liver oil
- composition/specification Cod liver oil 100%

Test organisms (species):

Danio rerio (previous name: Brachydanio rerio)

Details on test organisms:

The test system used in this study was Danio rerio Hamilton 1822 (Zebrafish). Juvenile fish (weight range: 200 - 400 mg wet weight per fish) was used in this test.

Holding Conditions

 Fish Species: Danio rerio (Zebrafish)
 Supplier: Aquaristik Rothe, 65199 Wiesbaden, Germany
 Date of arrival: January 31, 2008
 Material of stock vessel: glass
 Amount of water per stock vessel: approximately 150 L
 Depth of water in the stock vessel: approximately 35 cm
 Estimated number of fish kept as a stock per holding vessel (batch size): approx. 70 - 80
 Water: reconstituted water (see section 14.4) supplemented with 0.1% of artificial seawater
 Renewal of water: once per week
 Temperature of water: 26 ± 2°C; min/max 25.3 - 26.1 (14 days before start of exposure)
 Food: Artemia sp. and TetraMin® (fish food)
 Amount of food: ad libitum
 Feeding frequency: daily ration fed in 3 portions on workdays
 Photoperiod: 12 h light / 12 h dark
 Light intensity: 100 - 1000 lx
 Mortalities during the period of 14 d before start of the test: 0%

Route of exposure:

feed

Test type:

semi-static

Water / sediment media type:

natural water: freshwater

Total exposure / uptake duration:

15 d

Total depuration duration:

0

Hardness:

mean 240.2 +- 1.7 mg/L as CaCO3, min 237.5 mg/L, max 242.9 mg/L

Test temperature:

mean 26.5 +- 0.3 °C, min 25.8 °C, max 27.0 °C

pH:

7.4 - 7.8

Dissolved oxygen:

mean 7.4 +-0.6 mg/L, min 5.6 mg/L, max 8.4 mg/L

Details on test conditions:

Test Units

Glass aquaria with 15 L volume covered with glass plates were used as test vessels.

All glass aquaria designated for contact with the test item were washed with tap water, rinsed with deionised water, dried, rinsed with ethanol, washed twice with deionised water and dried afterwards. Before adding the test organisms, the test solutions were adapted to test temperature.

Exposure Conditions

- Amount of test solution per test vessel: 15 L
- Depth of test solution in the test vessels: approx. 20 cm
- Number of fish per test vessel at start of exposure: 10
- Average weight of fish: 0.26 ± 0.04 g (n = 90, day -9 of exposure)
- Fish loading: 0.22 g per L (maximum value calculated with the sum of weights measured during exposure period)
- Renewal of test solution and control water during the test period: three times per week, at least 50% of test solution
- Feeding: daily, 3% of fish body mass, fed in 2 - 3 portions, separated by 2 - 5 hours; On weekends, the daily ration was fed in 1 portion
- Photoperiod: light/dark - 12 h/12 h
- Light intensity: 100 - 1000 lx; measured: 668 ± 68 (SD) lx
- Temperature, online measurements (min / max): 26.0 / 28.2 °C
- Temperature, manual measurements (min / max): 25.8 / 27.0 °C
- Aeration: permanent

Results of measurements of physico-chemical parameter throughout the test see Table 3.

Nominal and measured concentrations:

The treated food had a mean measured concentration of 102244463 dpm/g food dry weight; the corresponding mean concentration of the test item was approx. 0.45 mg/g food dry weight based on the specific radioactivity of the tracer used. Based on the mean measured lipid content in food at the end of exposure the test item concentration on a lipid basis was calculated to 571198117 dpm/g lipid; the correponding concentration of the test item was approx. 2.51 mg/g lipid.

Reference substance (positive control):

yes

Remarks:

14C-hexachlorobenzene

Details on estimation of bioconcentration:

Data Assessment and Statistical Evaluation of Results

1. Background Correction

The radioactivity measured by LSC in individual samples (expressed in dpm) was corrected by the mean radioactivity measured in samples of the respective control matrix (background activity), i.e. fish, food, water and faeces-containing filter paper.

2. Calculation of Dietary Biomagnification Factor (BMF)
The concentration in fish and food samples was obtained by dividing the amount of test compound in the sample (dpm, corrected for background activity) by the sample weight in g, and was expressed in dpm/g based on wet weight or dry weight, respectively. For each fish, the amounts of 14C-activity in viscera and remaining tissue (carcass and fillet) was added and divided by the total wet weight of the respective fish. The concentration in total fish samples was then divided by the concentration in the food of the corresponding sampling vessel to result in the dietary biomagnification factor (BMF) for each fish at a specific sampling date of the uptake phase. The mean BMF per sampling date was calculated as arithmetic mean of the sample BMFs. The overall mean BMF was calculated as arithhmetic mean of the mean BMFs per sampling date.

The wet-weight based dietary BMF was corrected by the lipid content of fish and food to calculate a lipid-normalised dietary BMF.

3. Balance and Assimilation Efficiency

A mass balance was calculated for each replicate taking into account the activity added to the test system via food, and the determined activity in fish (viscera and remaining tissue), faeces, uneaten food, water, trapping solutions and adsorption onto the glass walls of the test vessels. In some cases measured activities below the LOQ were also used to calculate the mass balance.

The assimilation efficiency was calculated by dividing the activity measured in each fish (viscera and remaining tissue) by the radioactivity added to the test system via food divided by the number of fish per replicate. This calculation was only done with fish from the positive control sampled after an exposure period of one day.

Lipid content:

8.5 other: % of wet weight (ww)

Time point:

start of exposure

Remarks on result:

other: in fish

Lipid content:

9.8 other: % of wet weight (ww)

Time point:

end of exposure

Remarks on result:

other: in fish

Lipid content:

9.2 other: % of wet weight (ww)

Time point:

other: over all mean

Remarks on result:

other: in fish

Lipid content:

17.5 other: % of wet weight (ww)

Time point:

other: before start

Remarks on result:

other: in food

Lipid content:

17.9 other: % of wet weight (ww)

Time point:

end of exposure

Remarks on result:

other: in food

Lipid content:

17.7 other: % of wet weight (ww)

Time point:

other: over all

Remarks on result:

other: in food

Key result

Type:

BMF

Value:

0.003 dimensionless

Basis:

normalised lipid fraction

Remarks on result:

other: no plateau reached

Key result

Type:

BMF

Value:

0.002 dimensionless

Basis:

whole body w.w.

Remarks on result:

other: no plateau was reached

Elimination:

no

Results with reference substance (positive control):

The highest BMF for the positive control was 0.1930 as determined on day 15 of exposure, and 0.3777 for the lipid-normalised BMF. The BMFs for the positive control on days 1 and 15 were statistically different (ANOVA; p ≤ 0.05).

Details on results:

Biomagnification Factor (test item)

The codes C0, C0+ and C1 are used for the concentration levels and a,b,c,d for replicated test vessels. The data concerning total radioactive residues and the Biomagnification Factor (BMF) for the test item (tris(2,4-di-tert-butyl[U-14C]-phenyl)phosphite) are shown in Table 6 and Table 7 (see section below). In Table 3 the BMF related to whole fish is calculated from the measured concentration in whole fish on a wet weight basis and the concentration in the food (102244463 dpm/g).
In addition the BMF was calculated on a lipid basis. Using the measured lipid concentration in food and fish the measurements were normalised to the lipid content using the mean lipid contents for fish as measured at start and end of exposure, and for food as measured at the end of exposure, dividing the measurements in Table 7 by a factor of 0.511.
The highest mean BMF per sampling date for the test item was 0.0028 based on wet weight, and 0.0055 for the lipid-normalised BMF. These values were determined on day 3 of exposure. No statistically significant difference (ANOVA; p ≤ 0.05) between the test item BMFs for each sampling date was determined.

Results related to the growth of Fish: The weight of the fish was recorded on each sampling date; the growth was calculated in comparison to the initial fish weight measured on day -1. A weight increase of 4% between of the initial fish wet weight (day -1) and the end of exposure (day 15) was determined. Therefore a growth dilution was not assessed.

Results related to the mortality of fish: In the controls and the treated fish no mortality was observed.

Results related to the Behaviour of Fish: In the fish treated with test item, behavioural differences from the control fish were not observed.

Table 4: Positive control (¹⁴C-hexachlorobenzene): Total radioactive residues in fish (dpm/g wet weight), and Biomagnification Factor (BMF) as based on wet weight; mean concentration in food: 1750258 dpm/g.

			total radioactive residues in dpm/g wet weight			Biomagnification Factor (BMF)
	sample codea	day	total fish			BMF	mean	sd	n
wet weight-based	C0+a	1	20014			0.0114
	C0+b	1	37797			0.0216
	C0+c	1	40817			0.0233
	C0+d	1	26925			0.0154	0.0179	0.0055	4
	C0+a	15	267269			0.1527
	C0+b	15	337796			0.1930
	C0+c	15	227072			0.1297
	C0+d	15	199733			0.1141	0.1474	0.0343	4

^aa - d = samples of individual fish taken out of one replicate

Table 5: Positive control (¹⁴C-hexachlorobenzene): Total radioactive residues in fish (dpm/g lipid weight), and Biomagnification Factor (BMF) as based on lipid weight; mean concentration in food: 9755462 dpm/g lipid.

 

			total radioactive residues in dpm/g lipid weight			Biomagnification Factor (BMF)
	sample codea	day	total fish			BMF	mean	sd	n
lipid weight-based	C0+a	1	218314			0.0224
	C0+b	1	412291			0.0423
	C0+c	1	445229			0.0456
	C0+d	1	293698			0.0301	0.0351	0.0108	4
	C0+a	15	2915341			0.2988
	C0+b	15	3684644			0.3777
	C0+c	15	2476882			0.2539
	C0+d	15	2178674			0.2233	0.2884	0.0671	4

^a a - d = samples of individual fish samples taken out of one replicate

 

Table 6: Test item: Total radioactive residues in fish (dpm/g wet weight), and Biomagnification Factors (BMF) as based on total fish wet weight; mean radioactive concentration of test item in food: 102244463 dpm/g (seesection14.7).

 

			total radioactive residues in dpm/g wet weight			Biomagnification Factor (BMF)
	replicate code	day	viscera	remaining tissue	total fish	BMF	mean	sd	n
wet weight-based	C1a	3	1670038	25277	481463	0.0047
	C1b	3	7083299	36574	1799201a	--
	C1c	3	1516716	20328	157790	0.0015
	C1d	3	2980478	54316	225571	0.0022	0.0028	0.0017	3
	C1a	8	1821644	23035	318454	0.0031
	C1b	8	195562	10077	60838	0.0006
	C1c	8	130613	7007	23976	0.0002
	C1d	8	108745	7934	35624	0.0003	0.0011	0.0014	4
	C1a	15	476164	10104	98238	0.0010
	C1a	15	576312	8450	55580	0.0005
	C1b	15	839626	12373	168651	0.0016
	C1b	15	1084129	11195	97054	0.0009
	C1c	15	549436	7206	48138	0.0005
	C1c	15	174641	15311	41613	0.0004
	C1d	15	1709156	8375	179873	0.0018
	C1d	15	1389470	13622	142654	0.0014	0.0010	0.0005	8
	overall mean BMF						0.0016	0.0010	3

^a: outlier as confirmed by Outlier-Test after Dixon; not used for further calculations

 

Table 7: Test item: Total radioactive residues in fish (dpm/g lipid), and Biomagnification Factors (BMF) as based on lipid weight; mean radioactive concentration of test item in food: 569882774 dpm/g lipid.

 

			total radioactive residues in dpm/g lipid weight			Biomagnification Factor (BMF)
	replicate code	day	total fish			BMF	mean	sd	n
lipid weight-based	C1a	3	5251754			0.0092
	C1b	3	19625516a			--
	C1c	3	1721161			0.0030
	C1d	3	2460502			0.0043	0.0055	0.0033	3
	C1a	8	3473661			0.0061
	C1b	8	663620			0.0012
	C1c	8	261526			0.0005
	C1d	8	388585			0.0007	0.0021	0.0027	4
	C1a	15	1071576			0.0019
	C1a	15	606261			0.0011
	C1b	15	1839630			0.0032
	C1b	15	1058660			0.0019
	C1c	15	525090			0.0009
	C1c	15	453914			0.0008
	C1d	15	1962043			0.0034
	C1d	15	1556060			0.0027	0.0020	0.0010	8
	overall mean BMF						0.0032	0.0020	3

^a: outlier as confirmed by Outlier-Test after Dixon; not used for further calculations

 

Summary Biomagnification Factors 

Table 8: Biomagnification Factors (BMF) calculated for the testitem (tris(2,4-di-tert-butyl[U-¹⁴C]-phenyl)phosphite) and the positive control (¹⁴C-hexachlorobenzene) based on wet weight (ww), and lipid weight-corrected; mean values, standard deviation and confidence limits (n = 4 per day, for day 3: n = 3).

 

treatment / day	mean BMF (ww)				mean BMF (lipid corrected; ww)
	mean	SD	95%lo	95%up	mean	SD	95%lo	95%up
test item / day 3	0.0028	0.0017	-0.0015	0.0071	0.0055	0.0033	-0.0029	0.014
test item / day 8	0.0011	0.0014	-0.0011	0.0033	0.0021	0.0027	-0.0022	0.0064
test item / day 15	0.0010	0.0005	0.0006	0.0015	0.0020	0.0010	0.0011	0.0029
positive control /day 1	0.0179	0.0055	0.0091	0.0268	0.0351	0.0108	0.0177	0.0525
positive control /day 15	0.1474	0.0343	0.0922	0.2026	0.2884	0.0671	0.1804	0.3965

mean: mean value

SD: standard diviation

95%lo: confidence interval (lower limit)

95%up: confidence interval (upper limit)

 

No statistically significant difference (ANOVA; p≤0.05) between the test item BMFs for each sampling date was determined. The BMFs for the positive control on days 1 and 15 were statistically different (ANOVA; p≤0.05).

 

 

Balance of TRR in the test system

Table 9: Mass balance (mean values) as based on total amount of radioactivity added to the test system during exposure period (15 d); all values expressed in per cent of total applied radioactivity.

 

replicate	C0+	C1a	C1b	C1c	C1d
water renewal	10.1	29.1	28.3	30.8	31.2
adsorption to the test vessels	0.0	7.7	3.1	4.4	4.4
filter (faeces and food residues)	3.3	36.1	63.7	56.9	43.4
fish	56.2	0.4	0.4	0.4	0.4
losses	30.4	26.7	4.5	7.5	20.6
balance	69.6	73.3	95.5	92.5	79.4

water renewal: radioactivity removed from the system during water renewal, adsorption: residues adsorbed to vessel walls, filter: collected faeces and uneaten food, fish: calculated activity based on the weights of fish at each sampling date; losses: difference between total applied radioactivity and measured residues; balance; sum of measured radioactivity.

 

Remarks: The measured activities in the trapping solutions were negligible. Therefore they were not included in the mass balance calculation. The mass balance for the treatment ranged between 73.3% - 95.5%, the mass balance for the positive control was 69.6%; seeAppendix A (section23.2) for an example of balance calculation.

 

 

 

Validity criteria fulfilled:

yes

Remarks:

All validity criteria were fulfilled: The dissolved oxygen level at any point in the study in the control did not fall below 60% of air saturation value. The mortality in the controls did not exceed 10% .

Conclusions:

Under the experimental conditions, the test item tris(2,4-di-tert-butyl[U-14C]-phenyl)phosphite was not accumulated by the test organisms within the test period of 15 days. The biomagnification factor (BMF) of the test item as measured in fish and food was always lower than 0.01.

Executive summary:

The overall mean biomagnifaction factor (BMF) calculated for the test item based on total radioactivity (TRR) for the whole exposure phase was 0.0016 based on wet weight and 0.0032 based on lipid weight. On day three of exposure, the biomagnification factor (BMF) for the test item based on mean total radioactivity (TRR) was 0.0028 based on wet weight and 0.0055 based on lipid weight. On day 15 of exposure the BMF showed mean values of 0.0010 based on wet weight, and 0.0020 based on lipid weight. No statistically significant difference between the BMFs for each sampling date was determined (p≤0.05). Therefore bioaccumulation was not observed for the test item. The assimilation efficency measured on day one in the positive control (¹⁴C-HCB) was 65.2% of the administered test item. 

 

Conclusion:

Under the experimental conditions, the test itemtris(2,4-di-tert-butyl[U-¹⁴C]-phenyl)phosphitewas not accumulated by the test organisms within the test period of 15 days. The biomagnification factor (BMF) of the test item as measured in fish and food was always lower than 0.01.