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Please be aware that this old REACH registration data factsheet is no longer maintained; it remains frozen as of 19th May 2023.

The new ECHA CHEM database has been released by ECHA, and it now contains all REACH registration data. There are more details on the transition of ECHA's published data to ECHA CHEM here.

Diss Factsheets

Environmental fate & pathways

Endpoint summary

Administrative data

Description of key information

When exposed to humidity of air, VOCl3 instantaneously decomposes in V2O5 and HCl, following the equation:

2 VOCl3 + 3 H2O => V2O5 + 6 HCl

That is why no data is available for VOCl3 as such.

Released into water, vanadium is expected to exist primarily in the tetravalent and pentavalent forms. Both species are known to bind strongly to mineral or biogenic surfaces by adsorption or complexing. The chemical formulas of the vanadyl species most commonly reported in water are VO(2+) and VO(OH)(1+), and the vanadate species H2VO4(1-) and HVO4(2-). 

In aquatic compartment, this vanadate ion is then the most common form and its partition coefficients have been deeply studied. The conclusions given in the adsorption section (high Kp) showed a very strong affinity of vanadium to particulate matter, and then a low mobility in soils.

These coefficients are very important and will be used for the environmental assessment.

The references pointed in the following endpoints support this vanadium behaviour in environment and allowed a good assessment of this compound regarded its ecotoxic potential.

Vanadium behaviour in soil compartment was also studied and showed that vanadium is found in rocks and soil in the relatively insoluble trivalent form, and can also be present in the pentavalent form as vanadates. 

Weathering decomposes parent rock and increases vanadium availability in soils. Jacks (1976) found that the bulk of vanadium deposited in the environment is retained in the soil, mainly in association with organic matter. 

The mobility of vanadium in soils is affected by pH. Vanadium is fairly mobile in neutral or alkaline soils relative to other metals, but its mobility decreases in acidic soils. In the presence of humic acids, mobile metavanadate anions can be converted to the immobile vanadyl cations resulting in local accumulation. Under oxidizing, unsaturated conditions some mobility is observed, but under reducing, saturated conditions vanadium is immobile. The pentavalent cation is considerably more soluble than the trivalent cation, is readily dissolved by groundwater, and can be transported over long distances.

(references: CICAD 29:VANADIUM PENTOXIDE AND OTHER INORGANIC VANADIUM COMPOUNDS, World Health Organization Geneva, 2001 and Ecological Soil Screening Levels for Vanadium, U.S. Environmental Protection Agency, April 2005)

Additional information