Derivation of Ecological Protective Concentration using the Probabilistic Ecological Risk Assessment applicable for Korean Water Environment: (I) Cadmium.
- Author:
Sun Hwa NAM
1
;
Woo Mi LEE
;
Youn Joo AN
Author Information
1. Department of Environmental Science, Konkuk University, Seoul 143-701, Korea. anyjoo@konkuk.ac.kr
- Publication Type:Original Article
- Keywords:
Ecological protective concentration (EPC);
Probabilistic ecological risk assessment (PERA);
cadmium;
Statistical extrapolation method (SEM);
Assessment factor method (AFM)
- MeSH:
Australia;
Bryozoa;
Cadmium;
Canada;
Ecosystem;
Hardness;
Korea;
New Zealand;
Phosphorylcholine;
Polychaeta;
Risk Assessment;
Water
- From:Toxicological Research
2012;28(2):129-137
- CountryRepublic of Korea
- Language:English
-
Abstract:
Probabilistic ecological risk assessment (PERA) for deriving ecological protective concentration (EPC) was previously suggested in USA, Australia, New Zealand, Canada, and Netherland. This study suggested the EPC of cadmium (Cd) based on the PERA to be suitable to Korean aquatic ecosystem. First, we collected reliable ecotoxicity data from reliable data without restriction and reliable data with restrictions. Next, we sorted the ecotoxicity data based on the site-specific locations, exposure duration, and water hardness. To correct toxicity by the water hardness, EU's hardness corrected algorithm was used with slope factor 0.89 and a benchmark of water hardness 100. EPC was calculated according to statistical extrapolation method (SEM), statistical extrapolation methodAcute to chronic ratio (SEMACR), and assessment factor method (AFM). As a result, aquatic toxicity data of Cd were collected from 43 acute toxicity data (4 Actinopterygill, 29 Branchiopoda, 1 Polychaeta, 2 Bryozoa, 6 Chlorophyceae, 1 Chanophyceae) and 40 chronic toxicity data (2 Actinopterygill, 23 Branchiopoda, 9 Chlorophyceae, 6 Macrophytes). Because toxicity data of Cd belongs to 4 classes in taxonomical classification, acute and chronic EPC (11.07 microg/l and 0.034 microg/l, respectively) was calculated according to SEM technique. These values were included in the range of international EPCs. This study would be useful to establish the ecological standard for the protection of aquatic ecosystem in Korea.
