[Human Health Risk Assessment of Phenol in Poyang Lake Basin].

Phenol is widely used in the production of insulation and thermal insulation materials, adhesives, perfumes, coatings for food containers, paints, and pharmaceutical production, and is also widely detected in the aquatic environment. Long-term exposure to phenol can elicit adverse effects, such as skin burn, liver and central system damage. Here, phenol concentrations in the water and aquatic products of Poyang Lake were investigated. Human health risks from phenol to adults and adolescents were also assessed based on local population exposure parameters. The exposure concentration range of phenol in the studied water and aquatic products was not detected (ND)-556.26 ng·L-1 and 11.98-255.51 µg·kg-1, respectively. Human health risk based on drinking water in different areas ranged from 3.80×10-7-8.46×10-5. Higher human health risks from drinking water was detected in the southern area of Poyang Lake and at the confluence of the Yangtze River to the north. Health risks caused by different types of aquatic products ranges 2.65×10-5-1.47×10-4. In particular, human health risks from the consumption of yellow catfish and catfish are an order of magnitude higher than for other aquatic products. Probabilistic risk assessment was also conducted through Monte Carlo simulation to analyze the health risk to the population in the Poyang Lake Basin and assess its sensitivity of different exposure parameters. The 95th percentile health risk of drinking water and aquatic product consumption in the Poyang Lake Basin was calculated as being acceptable. Overall, the concentrations of phenol had the greatest impact on the calculated health risk values. This study provides valuable information for phenol risk management in the Poyang Lake basin.

[Distribution and Risk Assessment of Polycyclic Aromatic Hydrocarbons in Water Bodies in Seven Basins of China].

The concentrations and spatial distribution characteristics of 16 US EPA priority Polycyclic Aromatic Hydrocarbons (PAHs) in water bodies in seven basins in China were systematically analyzed and summarized. The acute ecological risks of 8 PAHs to aquatic organisms were evaluated by means of species sensitivity distribution (SSD). The joint acute ecological risks of ΣPAH8 to aquatic organisms were evaluated by concentration addition model and response addition model. The health risks of PAHs ingestion were estimated by hazard quotients. The results showed that the 2-, 3-, and 4 ringed-PAHs had higher-than-average concentrations in the water bodies from the seven basins, and the mean concentration of ΣPAH16 was 2596.25 ng·L-1, which is higher than in most foreign water bodies. The composition characteristics and sources of PAHs in water bodies of China and other countries were similar. The pollution of ΣPAH16 in northern water bodies was more serious compared with that of southern water bodies. The potentially affected fraction (PAF) values of naphthalene, acenaphthene, fluorene, phenanthrene, fluoranthene, pyrene, and anthracene to aquatic organisms in the seven basins were less than 4%. Except for the Haihe River and Yangtze River basins, the PAF values of benzo (a) pyrene to aquatic organisms exceeded 5%, which indicates that benzo (a) pyrene had high acute ecological risks to aquatic organisms. The concentration addition model was not suitable for water ecological risk assessments of PAHs. The results of risk assessments based on response addition model showed that except for the Haihe River, the multisubstance PAF (msPAF) values of ΣPAH8 to aquatic organisms in other basins exceeded 5%, which indicates that ΣPAH8 constitutes high joint acute ecological risks to aquatic organisms. The health risks through ingestion of carcinogenic PAHs from water bodies of the seven basins were at 10-5 level, which is higher than the baseline value of acceptable risk (10-6) from the US EPA. The health risks through the ingestion of non-carcinogenic PAHs were at 10-9 level, which is far lower than the baseline value of acceptable risk. The results indicate that there are potential carcinogenic risks to human health through ingestion of PAHs from seven basins in China.

[Measured and Predicted Aquatic Life Criteria and Risk Assessment of Chromium (VI) in Liaohe River].

In this study, toxicity data of aquatic species in Liaohe River for heavy metal chromium (VI) was collected and selected. The aquatic life criteria for chromium (VI) in Liaohe River was derived based on these toxicity data. Moreover, water samples of 25 sites in Liaohe River were collected, and the concentrations of chromium (VI) in these samples were analyzed. Finally, ecological risk assessment of chromium (VI) in Liaohe River was performed. Moreover, interspecies correlation estimation method (ICE) established by US EPA was used to predict the acute toxicity of species in Liaohe River, and aquatic life criteria based on predicted toxicity data was derived. The results showed that: the measured CMC (criteria maximum concentration), measured CCC (criteria continuous concentration) and the predicted CMC were 17. 73, 12. 15 and 13. 97 µg . L -1, respectively. Therefore, the ICE method could be used to predict the aquatic life criteria, because the predicted criteria value was very similar to the measured criteria value. Analysis of chromium (V) showed that the chromium (VI) concentrations of the 25 sites in Liaohe River were all below Class I or Class II water quality standards (GB 3838-2002), and the water quality was in good condition. However, for the potential risk of chromium (VI) exposure to the aquatic life of Liaohe River, the result of ecological risk assessment showed that chromium (V) concentrations in 7 sites exceeded the CCC in July, and chromium (VI) concentrations in 6 sites exceeded the CCC in December. Therefore, unacceptable effect on aquatic species caused by chromium (VI) exposure might have occurred in some sites of Liaohe River.

Progress of environmental management and risk assessment of industrial chemicals in China.

With China's rapid economic growth, chemical-related environmental issues have become increasingly prominent, and the environmental management of chemicals has garnered increased attention from the government. This review focuses on the current situation and the application of risk assessment in China's environmental management of industrial chemicals. The related challenges and research needs of the country are also discussed. The Chinese government promulgated regulations for the import and export of toxic chemicals in 1994. Regulations for new chemical substances came into force in 2003, and were revised in 2010 based on the concept of risk management. In order to support the implementation of new regulations, Guidance for Risk Assessment of Chemicals is under development in an attempt to provide the concepts and techniques of risk assessment. With increasing concern and financial support from Chinese government, China is embarking on the fast track of research and development in environmental management of industrial chemicals.

[Spatial distribution and risk assessment of polycyclic aromatic hydrocarbons in partial surface sediments of Liaohe River].

Nineteen surface sediment samples were collected from Liaohe River and analysed for polycyclic aromatic hydrocarbons (PAHs) with GC-MS. The concentrations of 15 detected PAH compounds ranged from 123.5 to 21 233.4 ng x g(-1) in dry season with the average concentration was 3208.1 ng x g(-1); and were 37.9 to 9014.0 ng x g(-1) in wet season with the average concentration was 1612.0 ng x g(-1). The isomeric ratio method using characteristic compounds of PAHs for source analysis, and the main source was attributed to fuel combustion. Average commercial use of sediment quality benchmarks (mSQG-Q) on the PAHs risk assessment of Liaohe Basin was applied, fluorene and pyrene showed the potential of low-level ecological effects. In wet season, Fushun segment L3-1 points have a higher ecological risk. In dry season, Shenyang segment L1-1 point, Fushun segment L3-1 point and L3-2 point pose a strong negative effect.