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EC number: 238-484-2 | CAS number: 14484-64-1
Adsorption / desorption
Administrative data
Link to relevant study record(s)
- Endpoint:
- adsorption / desorption, other
- Type of information:
- experimental study
- Adequacy of study:
- key study
- Study period:
- 1997-09-16 - 1997-09-30
- Reliability:
- 1 (reliable without restriction)
- Rationale for reliability incl. deficiencies:
- test procedure in accordance with generally accepted scientific standards and described in sufficient detail
- Qualifier:
- according to guideline
- Guideline:
- other: no guideline available
- Principles of method if other than guideline:
- The extent of adsorption of chemical onto sediment or soil is measured by equilibrating chemicals aqueous solutions with different quantities of sediment or soil. After steady-state is reached, the distribution of chemical between the water phase and the solid phase is quantitatively measured by a suitable analytical method.
- GLP compliance:
- no
- Type of method:
- batch equilibrium method
- Media:
- soil
- Radiolabelling:
- yes
- Test temperature:
- 25.0 °C
- Analytical monitoring:
- not specified
- Details on sampling:
- see 'Any other information on materials and methods incl. tables'
- Details on matrix:
- see 'Any other information on materials and methods incl. tables'
- Details on test conditions:
- see 'Any other information on materials and methods incl. tables'
- Remarks:
- see 'Any other information on materials and methods incl. tables'
- Remarks:
- see 'Any other information on materials and methods incl. tables'
- Computational methods:
- see 'Any other information on materials and methods incl. tables'
- Sample No.:
- #1
- Type:
- Koc
- Value:
- 53.4 dimensionless
- Sample No.:
- #2
- Type:
- Koc
- Value:
- 11.9 dimensionless
- Sample No.:
- #3
- Type:
- Koc
- Value:
- 8.3 dimensionless
- Adsorption and desorption constants:
- see 'Any other information on results incl. tables'
- Recovery of test material:
- not specified
- Concentration of test substance at end of adsorption equilibration period:
- not specified
- Concentration of test substance at end of desorption equilibration period:
- not specified
- Sample no.:
- #1
- % Adsorption:
- 93
- Sample no.:
- #2
- % Adsorption:
- 70
- Sample no.:
- #3
- % Adsorption:
- 60
- Transformation products:
- not specified
- Details on results (Batch equilibrium method):
- see 'Any other information on results incl. tables'
- Statistics:
- see 'Any other information on results incl. tables'
- Validity criteria fulfilled:
- not specified
- Conclusions:
- The total amount of the test substance ferbam adsorbed on GH soil was about 93%. On LR soil was about 70%, and on LE soil 60%. The coefficients of adsorption and desorption from GH soil were 53.4 and 257.4, from LR soil were 11.9 and 19.7, and from LE soil these coefficients were 8.3 and 42.6, respectively.
- Executive summary:
This study was conducted to determine the adsorption and desorption characteristics of ferbam on LE {Typic Hapludox), GH {Cumulic Humaquept) and LR (Rhodic Hapludox) soils.
The extent of adsorption of chemical onto sediment or soil is measured by equilibrating chemicals aqueous solutions with différents quantities of sediment or soil. After steady-state is reached, the distribution of chemical between the water phase and the solid phase is quantitatively measured by a suitable analytical method.
The following concentrations of active ingredient were used: 0.5, 1.0, 5.0, 10.0 and 20.0 ug of ferbam/mL and 0.01 uCi/mL of radioactivity. The assay was carried out with two replicates in centrifuge tubes containing 1.0g of soil and 5.0 mL of treating solutions, that were agitated and centrifuged. Aliquots of the supernatant were pipetted and analyzed using the Liquid Scintillation Analyzer to quantify the amount of test compound remaining in the solution. The amount of adsorbed product was then calculated. To quantify the desorbed product, the supernatant solution was completely drained, and 5.0 mL of 0.01M CaCl2 was added. The tubes were agitated, centrifuged, sampled and analyzed as above mentioned.
According to the results, the coefficients of adsorption from GH, LR and LE soils were 53.4, 11.9 and 8.3, respectively.
Reference
Table 2 shows the results of radioactivity from samples for the adsorption/desorption experiment with GH, LR and LE soils. Table 3 shows average values for the equilibrium concentrations (Ce) in solutions, and Table 4 shows the average values for the total amount of test substance in these soils. Table 5 shows the equations of Freundlich isotherms, coefficients of adsorption (K) and coefficient for soil organic matter (Koc). Table 6 shows the adsorption/desorption classification of chemical, according to MHM/SEMA.
According to the Table 4, the total amount of the test substance ferbam adsorbed on GH soil was about 93%. On LR soil was about 70%, and on LE soil 60%. The coefficients of adsorption and desorption from GH soil were 53.4 and 257.4, from LR soil were 11.9 and 19.7, and from LE soil these coefficients were 8.3 and 42.6, respectively.
Table 2: Results of radioactivity in disintegration per minute (dpm) in the experiment using 5 concentrations of test substance and standard on GH, LR and LE soils (2 replicates).
| Solution (ug / mL) |
GH | LR | LE | Standard | |||
| Ads. | Des. | Ads. | Des. | Ads. | Des. | ||
| 0,5 | 2859 | 1057 | 10385 | 3040 | 15980 | 4845 | 62238 |
| 2887 | 977 | 9395 | 2436 | 15988 | 4711 | ||
| 1,0 | 2903 | 1011 | 8402 | 2479 | 14625 | 4610 | 58055 |
| 2931 | 1046 | 8548 | 2520 | 14726 | 4604 | ||
| 5,0 | 2895 | 1181 | 10084 | 2333 | 17438 | 3501 | 56301 |
| 2906 | 1564 | 11400 | 2333 | 18021 | 3773 | ||
| 10,0 | 3441 | 1394 | 26963 | 2930 | 29339 | 4535 | 56958 |
| 3202 | 1321 | 25788 | 2994 | 29371 | 4579 | ||
| 20,0 | 8187 | 1744 | 35584 | 5553 | 40386 | 5583 | 57128 |
| 7524 | 1497 | 35396 | 5576 | 38911 | 5744 | ||
Table 3: Equilibrium concentration in the solution (Ce) using 5 concentrations of test substance in GH, LR and LE soil (2 replicates)
| Solution (ug / mL) |
GH | Ce (ug /mL) LR |
LE | |||
| Ads | Des | Ads | Des | Ads | Des | |
| 0,5 | 0,023 | 0,006 | 0,079 | 0,013 | 0,128 | 0,027 |
| 1,0 | 0,050 | 0,011 | 0,146 | 0,026 | 0,253 | 0,057 |
| 5,0 | 0,258 | 0,088 | 0,954 | 0,100 | 1,575 | 0,198 |
| 10,0 | 0,583 | 0,162 | 4,631 | 0,002 | 5,154 | 0,375 |
| 20,0 | 2,750 | 0,240 | 12,425 | 0,538 | 13,881 | 0,860 |
Table 4: Total amount of test substance adsorbed and desorbed on GH, LR and LE soils (means of 2 replicates) using 5 concentrations of test substance.
| Concentration Solution (ug / mL) |
(ug / g) | |||||
| GH | LR | LE | ||||
| Ads. | Des. | Ads. | Des. | Ads. | Des. | |
| 0,5 | 2,38 | 0,03 | 2,10 | 0,06 | 1,86 | 0,13 |
| 1,0 | 4,75 | 0,06 | 4,27 | 0,13 | 3,74 | 0,29 |
| 5,0 | 23,71 | 0,44 | 20,23 | 0,50 | 17,13 | 0,99 |
| 10,0 | 47,08 | 0,81 | 26,85 | 0,01 | 24,23 | 1,87 |
| 20,0 | 86,25 | 1,20 | 37,88 | 2,69 | 30,60 | 4,30 |
Table 5: Freundlich isotherm equations and K values for GH, LR and LE soils
| Equations | K (ug / g) |
Koc | R2* | |||
| GH soil | ||||||
| Adsorption | log x / m = log | 53,43 + 0,784 | log Ce | 53,4 | 1094 | 97,0 |
| Desorption | log x / m = log | 257,4 + 0,909 | log Ce | 257,4 | 99,1 | |
| LR soil | ||||||
| Adsorption | log x / m = log | 11,89 + 0,558 | log Ce | 11,9 | 672 | 92,4 |
| Desorption | log x / m = log | 19,74 + 0,171 | log Ce | 19,7 | 85,3 | |
| LE soil | ||||||
| Adsorption | log x / m = log | 8,33 + 0,608 | log Ce | 8,3 | 678 | 94,2 |
| Desorption | log x / m = log | 42,55 + 0,846 | log Ce | 42,6 | 94,2 | |
| * Correlation coefficient | ||||||
Table 6: Adsorption/Desorption classification of test substance according to MHM/SEMA, 1990
| Ka values | Adsorption | |
| 0 - 5 | low | |
| > 5 - 15 | medium | |
| > 15 - 80 | high | |
| > 80 | very high |
Description of key information
Test procedure was conducted in accordance with generally accepted scientific standards and described in sufficient detail. The extent of adsorption of chemical onto sediment or soil is measured by equilibrating chemicals aqueous solutions with differents quantities of sediment or soil. After steady-state is reached, the distribution of chemical between the water phase and the solid phase is quantitatively measured by a suitable analytical method.
The total amount of the test substance ferbam adsorbed on GH soil was about 93%. On LR soil was about 70%, and on LE soil 60%. The coefficients of adsorption and desorption from GH soil were 53.4 and 257.4, from LR soil were 11.9 and 19.7, and from LE soil these coefficients were 8.3 and 42.6, respectively.
Key value for chemical safety assessment
- Koc at 20 °C:
- 1 094
Additional information
Key: da Silva, 1997
This study was conducted to determine the adsorption and desorption characteristics of ferbam on LE {Typic Hapludox), GH {Cumulic Humaquept) and LR (Rhodic Hapludox) soils.
The extent of adsorption of chemical onto sediment or soil is measured by equilibrating chemicals aqueous solutions with différents quantities of sediment or soil. After steady-state is reached, the distribution of chemical between the water phase and the solid phase is quantitatively measured by a suitable analytical method.
The following concentrations of active ingredient were used: 0.5, 1.0, 5.0, 10.0 and 20.0 ug of ferbam/mL and 0.01 uCi/mL of radioactivity. The assay was carried out with two replicates in centrifuge tubes containing 1.0g of soil and 5.0 mL of treating solutions, that were agitated and centrifuged. Aliquots of the supernatant were pipetted and analyzed using the Liquid Scintillation Analyzer to quantify the amount of test compound remaining in the solution. The amount of adsorbed product was then calculated. To quantify the desorbed product, the supernatant solution was completely drained, and 5.0 mL of 0.01M CaCl2 was added. The tubes were agitated, centrifuged, sampled and analyzed as above mentioned.
According to the results, the coefficients of adsorption from GH, LR and LE soils were 53.4, 11.9 and 8.3, respectively.
Supporting information: Warren, 1987
Aqueous solutions of 14C-Ferbam were equilibrated with four soil types and the adsorption coefficients and adsorptions constants were determined. Liquid scintillation counting analysis was employed to measure test material concentrations in the aqueous phase.
The results are summarized below:
| Soil Type | % Organic Carbon | Adsorption | Desorption | ||
| Kd | Koc | Kc | Koc | ||
#1 Ahapulgus Sandy loam |
0.826 | 3.57 | 432 | 20.40 | 2470 |
#2 Leon Sand |
0.913 | 20.15 | 2207 | 98.87 | 10829 |
#3 Crittendon Silt Loam |
1.30 | 14.9 | 1146 | 39.00 | 3000 |
#4 Clay Loam |
2.43 | 22.9 | 942 | 53.26 | 2192 |
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