Sulfuric Acid, waste gas washing, copper smelting

Administrative data

Endpoint:

short-term toxicity to aquatic invertebrates

Type of information:

calculation (if not (Q)SAR)

Remarks:

Migrated phrase: estimated by calculation

Adequacy of study:

key study

Reliability:

2 (reliable with restrictions)

Rationale for reliability incl. deficiencies:

other: automatic calculation tool in development at Eurometaux

Cross-referenceopen allclose all

Data source

Materials and methods

Principles of method if other than guideline:

Aquatic toxicity of the UVCB substance was determined by classifying based on Mixture rules from EU CLP (Lower Tier= summation of classified components to derive Hazard class) and back calculation to the corresponding L(E)C50 range.

GLP compliance:

not specified

Remarks:

other Quality Assurance was applied

Test material

Results and discussion

Any other information on results incl. tables

The calculated classification via Summation method (lower Tier Arche CLP Tool) resulted in an "Acute Chronic Category 1" classification for the UVCB substance

Based on this result, the related criteria provided the estimated value for acute (short term) toxicity to aquatic invertebrate (see EU CLP Guidance Annex I Table 4.1.0): 48hr EC50 (for crustacea) < or equal 1 mg/l.

Applicant's summary and conclusion

Validity criteria fulfilled:

yes

Conclusions:

Result can be used to predict EC50 for crustacea and classify the UVCB substance as Acute chronic 1 H 410 (N;R50-53).

Executive summary:

The study provided a conservative estimate of the EC50 (for crustacea), derived on basis of the Classification outcome (Mixture toxicity rules) from a Worst Case (max across industry) as defined in IUCLID section 1.4/4.23. The result is applicable to all Sulphuric acid, copper smelting that fall under the defined concentration ranges (IUCLID section 1.2).

Validity of the model used:

1. defined end points: aquatic toxicity (acute & chronic)
2. unambiguous algorithm from EU CLP Guidance: summation/additivity formula to determine Classification and, back-calculation to related hazard criteria
3. Applicability domain: applicable to classify complex metal containing materials in a Tiered approach (see EU CLP Guidance pg 499 Annex IV.5.5, and for conceptual outline ICMM Fact Sheet “Ores & Concentrates –An industry approach to EU hazard classification”, Nov 2009). Available input information: elemental composition and representative mineralogical information (lower Tier, no correction for bio availability).
4. Mechanistic interpretation - metal species:  the tool translates the elemental composition into a mineralogical composition relevant for classification (ie distribution pattern for each element/constituent of the UVCB substance). In the Lower Tier, the classification is derived (by means of the Sum formula) without taking into account any bio availability correction. Mechanistic interpretation - metal-ion additivity:  (1) The additivity assumption for the toxicity of mixtures of metals was evaluated by De Schamphelaere (2009) - in JAB Bass et al. in "Environmental Quality Standards for trace metals in the aquatic environment" , UK Environment Science Report 2009 (Appendix 2):  No clear conclusions could be made from the literature review but  a targeted experimental design with aquatic algae, showed that the additivity mode could predict the toxicity of metal mixture: the toxicity of simultaneous Cu, Zn, Ni, Cd and Pb additions to two distinct surface waters could be predicted by the additive toxic unit approach.    (2)  A. Stockdale, E Tipping, S Lofts & SJ Ormod, combined metal speciation to the additive toxicity approach and  predicted the combined metal toxicity in a range of UK river systems impacted by metals :  in "Modelling multiple metal toxic effects in the field - evaluation of the Toxicity Binding Model (TBM)", ICA Report November 2009.  

Adequacy of prediction: the substance falls within the applicability domain described above and, therefore, the predicted value can be considered as reliable. The prediction is moreover conservative as the Lower Tier approach was used (ie elemental composition + mineralogy is known, no T/D available). Same conclusions apply to the prediction of the Aquatic toxicity value.