SDS
SAFETY DATA SHEET
52P0914 Page 5 of 7 Date issued 03-September-2014
Daphnid ChV > 100.0 mg/L
Algal ChV > 100.0 mg/L
Persistence / degradability
No bioconcentration in aquatic organisms and rapid biodegradation/disappearance in the
environment, i.e. 40% in 5 days.
Bioaccumulation
None.
LAURAMINE OXIDE:
Ecotoxicity
Acute Aquatic Toxicity
Reviewed Category ≤1 mg/L
Algae IC
50
0.01 mg/L
Invertebrate EC
50
1.01 mg/L
Fish LC
50
2.6 mg/L
Persistence / degradabilityy
Biodegradation: % degraded in 28 days ≥60% ThOD/ThCO2 (≥70% DOC)
DIPROPYLENE GLYCOL n-Butyl ETYHER:
Ecotoxicity
Material is practically non-toxic to aquatic organisms on an acute basis (LC50/EC50/EL50/LL50
>100 mg/L in the most sensitive species tested).
Fish Acute & Prolonged Toxicity
LC50, guppy (Poecilia reticulata), static, 96 h: 841 mg/l
Aquatic Invertebrate Acute Toxicity
LC50, water flea Daphnia magna, static, 48 h, immobilization: > 1,000 mg/l
Movement & Partitioning
Bioconcentration potential is low (BCF less than 100 or log Pow less than 3). Potential for mobility in
soil is very high (Koc between 0 and 50).
Henry’s Law Constant (H): 3.78E-07 atm*m3/mole; 25 °C Estimated.
Partition coefficient, n-octanol/water (log Pow): 1.13 Estimated.
Partition coefficient, soil organic carbon/water (Koc): 10 - 21 Estimated.
Persistence and Degradability
Material is readily biodegradable. Passes OECD test(s) for ready biodegradability. Material is
ultimately biodegradable (reaches > 70% mineralization in OECD test(s) for inherent
biodegradability).
Indirect Photodegradation with OH Radicals
Rate Constant Atmospheric Half-life Method
4.97E-11 cm3/s 2.6 h Estimated.