Benzoyl peroxide의 환경에서의 초기 위해성 평가

Initial Risk Assessment of Benzoyl peroxide in Environment

  • 김미경 (국립환경연구원 위해성평가과) ;
  • 배희경 (국립환경연구원 위해성평가과) ;
  • 김수현 (㈜바이오톡스텍) ;
  • 송상환 (국립환경연구원 위해성평가과) ;
  • 구현주 (국립환경연구원 위해성평가과) ;
  • 박광식 (동덕여자대학교 약학대학) ;
  • 이문순 (국립환경연구원 위해성평가과) ;
  • 전성환 (국립환경연구원 위해성평가과) ;
  • 나진균 (국립환경연구원 위해성평가과)
  • 발행 : 2004.03.01

초록

Benzoyl peroxide is a High Production Volume Chemical, which is produced about 1,371 tons/year in Korea as of 2001 survey. The substance is mainly used as initiators in polymerization, catalysts in the plastics industry, bleaching agents for flour and medication for acne vulgaris. In this study, Quantitative Structure-Activity Relationships (QSAR) are used for getting adequate information on the physical -chemical properties of this chemical. And hydrolysis in water, acute toxicity to aquatic and terrestrial organisms for benzoyl peroxide were studied. The physical -chemical properties of benzoyl peroxide were estimated as followed; vapor pressure=0.00929 Pa, Log $K_{ow}$ = 3.43, Henry's Law constant=3.54${\times}$10$^{-6}$ atm-㎥/mole at $25^{\circ}C$, the half-life of photodegradation=3 days and bioconcentration factor (BCF)=92. Hydrolysis half-life of benzoyl peroxide in water was 5.2 hr at pH 7 at $25^{\circ}C$ and according to the structure of this substance hydrolysis product was expected to benzoic acid. Benzoyl peroxide has toxic effects on the aquatic organisms. 72 hr-Er $C_{50}$ (growth rate) for algae was 0.44 mg/1.,48 hr-E $C_{50}$ for daphnia was 0.07mg/L and the 96hr-L $C_{50}$ of acute toxicity to fish was 0.24mg/L. Acute toxicity to terrestrial organisms (earth worm) of benzoyl peroxide was low (14 day-L $C_{50}$ = > 1,000 mg/kg). Although benzoyl peroxide is high toxic to aquatic organisms, the substance if not bioaccumulated because of the rapid removal by hydrolysis (half-life=5.2 hr at pH 7 at $25^{\circ}C$) and biodegradation (83% by BOD after 21 days). The toxicity observed is assumed to be due to benzoyl peroxide rather than benzoic acid, which shows much lower toxicity to aquatic organisms. One can assume that effects occur before hydrolysis takes place. From the acute toxicity value of algae, daphnia and fish, an assessment factor of 100 was used to determine the predicted no effect concentration (PNEC). The PNEC was calculated to be 0.7$\mu\textrm{g}$/L based on the 48 hr-E $C_{50}$ daphnia (0.07 mg/L). The substance shows high acute toxicity to aquatic organisms and some information indicates wide-dispersive ore of this substance. So this substance is, a candidate for further work, even if it hydrolysis rapidly and has a low bioaccumulation potential. This could lead to local concern for the aquatic environment and therefore environmental exposure assessment is recommended.

키워드

참고문헌

  1. 국립환경연구원. 환경자료집 제2집, 1999
  2. Canadian Environmental Modelling Centre, http://www.trentu.ca/cemc/models/EQC2.html. 2002
  3. Lide DR ed. CRC Hanbook of Chemistry and Physics, Boca Raton, FL, CRC Press Inc 1995-1996; 76th ed: 3-250
  4. Ministry of International Trade and Industry, Japan. Bio-degradation and Bioaccumulation Data of Existing Chemicals Based on the CSCL. http://www.cerij.or.jp/ceri_en/index_e4. s.html. 2002
  5. National Institute of Environmental Research (NIER), Korea. Survey on Circulation Volume and Use Pattem of Ben-zoyl peroxide in Korea. 2002
  6. Organisation for Economic Co-operation and Development, Co-operation on the Investigation of Existing Chemicals, http://www.oecd.org/department/0,2688,en_2649_34379_1 1_1 1 1,00.html. 2003
  7. Organisation for Economic Co-operation and Development. OECD Guidelines for the Testing of Chemicals, Thri-teenth Addendum to the OECD Guidelines for the Test ing of Chemicals, December. 2001
  8. Syracuse Research Corporation, http://esc.syrres.com/interkow/estsoft.htm. 2002
  9. The OECD HPV program. SIDS Initial Assessment Report for 13th SIAM-Benzoates category. http://cs3-hq. oecd.org/schpts/hpv. 2002