Marine ecological risk assessment for the herbicide sulfometuron-methyl based on species sensitivity distribution approach

In recent years,herbicide sulfometuron-methyl(SM)has been used to kill the invasive plant Spartina alterniflora in some coastal areas of China,which may lead to the toxic effects on non-target marine organisms.The 96-h median effective concentrations(96-h EC50)of SM on six species of marine microalgae were measured in growth inhibition tests,and were then compared with other published toxicity data,based on which a method of species sensitivity distribution(SSD)was built to estimate the hazardous concentration of SM for 5%of species(HC5)and potentially affected fraction(PAF)for a certain concentration.Results indicate that SM exhibited a high toxicity to two species of green algae(Chlorella pacifica and Dunaliella salina)with a 96-h EC50 of 0.11 and 0.13 mg/L respectively,had a medium toxicity to two species of golden algae(Diacronema viridis and Isochrysis galbana)with a 96-h EC50 of 14.24 and 21.48 mg/L respectively,and showed a low toxicity to two species of diatoms(Skeletonema costatum and Phaeodactylum tricornutum)with a 96-h EC50 of 148.99 and>100 mg/L,respectively.The estimated values of HC5 and the predicted no-effect concentrations(PNEC)for SM were 0.077 and 0.015 mg/L,respectively.According to the current dosage for killing S.alterniflora in tidal flats in Fujian Province,China,SM entering the sea by spraying might cause the acute injury or death of 14%of marine species.This hazard could last for about a month for those sensitive species.Therefore,on the premise of inhibiting the growth of this invasive plant,the dosage of SM should be reduced as much as possible to avoid severe damage to the marine ecosystem.The results provide a valuable information for marine ecological risk assessment on SM and for marine environmental management.

Case Study of Marine Ecological Compensation Criteria Based on Environmental Risk

This paper forecasted and identified the environmental risks and ecological effect caused by chemical spill by simulating the xylene spill in Xiamen waters. The evaluation objects of ecological damage include four parts ： marine ecosystem services, sea water quality, marine biological resources （plankton, benthos, nekton, etc. ）, and beach habitat. The ecological compensation criterion was confn-med as 1.73 million Yuan per year in the short term and 8.09 million Yuan in the long term. And an ecological compensation mode was suggested to be that if the chemical spill does not occur this year, the compensation will return to the enterprise next year; while if chemical spill occurs, the compensation will not be returned. The encouragement mechanism ＂returning compensation if no spill＂ might motivate enterprises to improve the environmental risk management and avoid the risks.