Affiliations: Laboratory of Socioeconomic Science of Food
Production, Nagoya University, Japan | Department of Environmental Engineering,Zhejiang
University, Hangzhou 310029, China. E-mail: [email protected] | Kitakyushu Institute of Environmental Sciences,
Kitakyushu City, Japan
Abstract: The GC-Ion Trap MS is recently one of the most efficient
instrumental analysis recommended for understanding the chemistry of these
organic compounds, not only in water but even in the food chain and other
environmental media (air and soil). Results of the experiment conducted on
water samples from Kuguri and Yatsutani sampling stations showed considerably
higher levels of organic enrichment (COD=10 mg/L and 11 mg/L respectively).
Total concentrations of Pb (0.072 mg/L and 0.093 mg/L) and Cd (0.004 mg/Land
0.011 mg/L) on the other hand, invariably exceeded the maximum allowable
concentrations for human health and the living environment (Pb=0.005 mg/L;
Cd=0.001 mg/L respectively). And the toxicity levels for these contaminants at
LC_50 showed critical impact on rainbow trout (hypersensitive species) at 0.14
mg/L for Pb and 0.007 mg/L for Cd in 96 hours respectively. Although these
major contaminants including phenol and 3-, 4-cresol, showed relatively higher
toxicity impact in the experimental media, it would remain contentious to
justify any associated potential dangers without regular routine water
monitoring, at least for a period of one year. Nevertheless, the data could
serve as a benchmark through which other phenomena can easily be
investigated.
Keywords: volatile organic compounds (VOC), major contaminants, water quality, simultaneous analysis, GC/Ion Trap MS