American Chemistry Council/Thiuram Test Plan & Robust Summary
American Chemistry Council/Thiuram Test Plan & Robust Summary
American Chemistry Council/Thiuram Test Plan & Robust Summary
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Date: 28-SEP-2001<br />
3. Environmental Fate and Pathways ID: 97-77-8<br />
______________________________________________________________________________<br />
3.3.1 Transport between Environmental Compartments<br />
Type:<br />
Media:<br />
Air (Level I):<br />
Water (Level I):<br />
Soil (Level I):<br />
Biota (L.II/III):<br />
Soil (L.II/III):<br />
Method:<br />
Year:<br />
Remark: With regard to transport between the compartments soil-water<br />
TETD is anticipated to behave similarly as its analog TMTD.<br />
TMTD has slight mobility through sand and low mobility<br />
through sandy loam, clay loam and Florida muck. Material is<br />
readily incorporated in soil matrix. Nelaching is not<br />
expected to occur. In soil biodegradation and abiotic<br />
degradation will occur (see 3.1 and 3.5).<br />
Source: Akzo Nobel Chemicals b.v. Amersfoort<br />
3.3.2 Distribution<br />
-<br />
3.4 Mode of Degradation in Actual Use<br />
-<br />
3.5 Biodegradation<br />
Type:<br />
Inoculum:<br />
Method:<br />
Year: GLP:<br />
<strong>Test</strong> substance:<br />
Remark: Like its analog tetramethylthiuram disulfide (TMTD),<br />
tetraethylthiuram disulfide is expected to be readily<br />
biodegradable. TMTD is completely mineralized in 28 days in<br />
a Closed Bottle <strong>Test</strong>.<br />
Source: Akzo Nobel Chemicals b.v. Amersfoort<br />
(8)<br />
3.6 BOD5, COD or BOD5/COD Ratio<br />
-<br />
3.7 Bioaccumulation<br />
-<br />
3.8 Additional Remarks<br />
-<br />
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