1,2-dichlorobenzene

Administrative data

Endpoint:

phototransformation in air

Type of information:

other: BUA report

Adequacy of study:

other information

Reliability:

other: BUA report

Rationale for reliability incl. deficiencies:

other: BUA report

Data source

Referenceopen allclose all

Materials and methods

Principles of method if other than guideline:

BUA report

GLP compliance:

not specified

Test material

Results and discussion

Any other information on results incl. tables

BUA report:

Several publications on the photochemical degradation of 1,2-dichlorobenzene in air were summarized in the assessment of the BUA report 53 (1990). The reliability of these publications was not assignable because references were only cited as secondary literature.

Although the quantum yield for the irradiation of gaseous o-dichlorobenzene with light of wavelength 254 nm at 23 °C is 0.63 +/- 0.04, direct photolysis is not a degradation pathway of any consequence in the environment since o-dichlorobenzene does not absorb enough in the wavelength range encountered in tropospheric sunlight.

In a further publication, the following rate constant for the reaction between OH radicals and o-dichlorobenzene in the atmosphere at room temperature (22 °C) were calculated:

KOH = (4.2 +/- 0.2) x 10^-13 cm3/(molecule*s)

When allowance is made for the mean global OH radical concentration in the troposphere, which current knowledge puts at 5 x 10^5 molecules/cm3, the halflife, t0.5, computes to 38 +/- 2 days.

A further reaction rate constant of KOH = 0.3 x 10^-12 cm3/(molecule*s) at 300 K was assumed and a mean OH radical concentration of 10^6 molecules/cm3, t0.5 = 27 days. For an OH radical concentration of 5 x 10^5 molecules/cm3, the half-life would be 53 days.

In the atmosphere, photo-induced dechlorination to chlorobenzene is also possible. A quantum yield of 0.244 was determined for this reaction when o-dichlorobenzene dissolved in n-hexane was irradiated with light of wavelength 271 nm, the wavelength of maximum absorption.

The formation of trichlorobiphenyls and hydrogen chloride has been described when o-dichlorobenzene is exposed to sunlight for up to 56 days, i.e., to light of wavelength of at least 300 nm, in a sealed borosilicate glass flask.

Applicant's summary and conclusion

Executive summary:

BUA report:

Several publications on the photochemical degradation of 1,2-dichlorobenzene in air were summarized in the assessment of the BUA report 53 (1990). The reliability of these publications was not assignable because references were only cited as secondary literature.

Although the quantum yield for the irradiation of gaseous o-dichlorobenzene with light of wavelength 254 nm at 23 °C is 0.63 +/- 0.04, direct photolysis is not a degradation pathway of any consequence in the environment since o-dichlorobenzene does not absorb enough in the wavelength range encountered in tropospheric sunlight.

In a further publication, the following rate constant for the reaction between OH radicals and o-dichlorobenzene in the atmosphere at room temperature (22 °C) were calculated:

KOH = (4.2 +/- 0.2) x 10^-13 cm3/(molecule*s)

When allowance is made for the mean global OH radical concentration in the troposphere, which current knowledge puts at 5 x 10^5 molecules/cm3, the halflife, t0.5, computes to 38 +/- 2 days.

A further reaction rate constant of KOH = 0.3 x 10^-12 cm3/(molecule*s) at 300 K was assumed and a mean OH radical concentration of 10^6 molecules/cm3, t0.5 = 27 days. For an OH radical concentration of 5 x 10^5 molecules/cm3, the half-life would be 53 days.

In the atmosphere, photo-induced dechlorination to chlorobenzene is also possible. A quantum yield of 0.244 was determined for this reaction when o-dichlorobenzene dissolved in n-hexane was irradiated with light of wavelength 271 nm, the wavelength of maximum absorption.

The formation of trichlorobiphenyls and hydrogen chloride has been described when o-dichlorobenzene is exposed to sunlight for up to 56 days, i.e., to light of wavelength of at least 300 nm, in a sealed borosilicate glass flask.