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« Previous AbstractQuantitative trait loci influencing honeybee alarm pheromone levels    Next Abstract"Quantifying reduction in ecological risk in Penrhyn Estuary, Sydney, Australia, following groundwater remediation" »

Environ Toxicol Chem


Title:Site-specific probabilistic ecological risk assessment of a volatile chlorinated hydrocarbon-contaminated tidal estuary
Author(s):Hunt J; Birch G; Warne MS;
Address:"Environmental Geology Group, School of Geosciences, Madsen Building, Room 350 F09, University of Sydney, Sydney, New South Wales 2006, Australia. james.hunt@usyd.edu.au"
Journal Title:Environ Toxicol Chem
Year:2010
Volume:29
Issue:5
Page Number:1172 - 1181
DOI: 10.1002/etc.130
ISSN/ISBN:0730-7268 (Print) 0730-7268 (Linking)
Abstract:"Groundwater contaminated with volatile chlorinated hydrocarbons (VCHs) was identified as discharging to Penrhyn Estuary, an intertidal embayment of Botany Bay, New South Wales, Australia. A screening-level hazard assessment of surface water in Penrhyn Estuary identified an unacceptable hazard to marine organisms posed by VCHs. Given the limitations of hazard assessments, the present study conducted a higher-tier, quantitative probabilistic risk assessment using the joint probability curve (JPC) method that accounted for variability in exposure and toxicity profiles to quantify risk (delta). Risk was assessed for 24 scenarios, including four areas of the estuary based on three exposure scenarios (low tide, high tide, and both low and high tides) and two toxicity scenarios (chronic no-observed-effect concentrations [NOEC] and 50% effect concentrations [EC50]). Risk (delta) was greater at low tide than at high tide and varied throughout the tidal cycle. Spatial distributions of risk in the estuary were similar using both NOEC and EC50 data. The exposure scenario including data combined from both tides was considered the most accurate representation of the ecological risk in the estuary. When assessing risk using data across both tides, the greatest risk was identified in the Springvale tributary (delta=25%)-closest to the source area-followed by the inner estuary (delta=4%) and the Floodvale tributary (delta=2%), with the lowest risk in the outer estuary (delta=0.1%), farthest from the source area. Going from the screening level ecological risk assessment (ERA) to the probabilistic ERA changed the risk from unacceptable to acceptable in 50% of exposure scenarios in two of the four areas within the estuary. The probabilistic ERA provided a more realistic assessment of risk than the screening-level hazard assessment"
Keywords:"Ecosystem Environmental Monitoring Hydrocarbons, Chlorinated/*chemistry/*toxicity New South Wales Oceans and Seas Rivers/*chemistry Tidal Waves Volatile Organic Compounds/*chemistry/*toxicity Water Pollutants, Chemical/chemistry/toxicity;"
Notes:"MedlineHunt, James Birch, Gavin Warne, Michael St J eng Research Support, Non-U.S. Gov't 2010/09/08 Environ Toxicol Chem. 2010 May; 29(5):1172-81. doi: 10.1002/etc.130"

 
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