Tin disulphide

In the K1-study from Chen Guilan (2021) the effect of a 28 day exposure on the growth of Rare Minnow (Gobiocypris rarus) to tin sulfide was investigated in a semi-static test according to OECD 215. The test solutions were set up as saturated concentrations with nominal concentrations of 1.04 mg/L, 3.31 mg/L, 10.4 mg/L, 33.1 mg/L and 104 mg test item/L After the suspensions were stirred for about 24 h, the test suspensions were filtered with 0.22 μm water phase polyether sulfone (PES) filter membranes, the filtrates of the nominal concentrations of 1.04 mg/L, 3.31 mg/L, 10.4 mg/L, 33.1 mg/L and 104 mg/L saturated solutions were obtained respectively, and about 2000 ml filtrate from each test concentration group were measured as test solutions directly. The test solutions were exchanged on a daily basis. The time-weighted mean measured concentrations of Sn were 17.6 μg/L, 44.3μg/L, 107 μg/L, 145 μg/L and 149 μg/L, respectively.

The test was performed well above the water solubility limit of SnS and also above the water solubility limit of SnS2. In the target substance SnS2, Sn(IV) will be present while the souce substance contains Sn(II). Toxicological studies show that SnS and SnS2 have a comparable toxicological profile. There is no information that Sn(IV) is more toxic when compared to Sn(II). No endocrine effects are described for one of the two substances. When SnS and SnS2 are dissolved also S2- gets into solution. Based on the results of the read across source study, there is no evidence that either S2- or one of the tin ions will cause long-term toxicity in fish at the concentrations which can be expected based on the water solubility of the source and target substance. Therefore, the results from this read across study, i.e., no long-term toxicity at the limit of water solubility, are considered relevant and reliable for the risk assessment.