Derivation of Population-Level Ecological Remedial Action Objectives: Tualatin River Case Study

In 1997, Oregon enacted rules that define an unacceptable population-level risk as a >10% chance of >20% of the total local population receiving an exposure greater than the toxicity reference value. This rule applies to populations of plants and animals not listed as threatened or endangered. An operational procedure was developed to perform such population-level ecological risk assessments. This case study describes how this procedure was used to develop site-specific groundwater remedial action objectives for resident aquatic populations at a site in Northwest Oregon, where an upland petroleum pipeline released gasoline-range hydrocarbons (TPH-G) into soils and groundwater immediately upgradient of the Tualatin River. With an interim response in place, the goal was to proactively establish a remedial action objective that would equate to an acceptable risk level for populations of aquatic receptors potentially threatened by future groundwater discharges to the river. Approximately 10 and 32% dilutions of the water-soluble fraction of pure product produced an acceptable risk level for zooplankton and forage fish populations, respectively. The proposed population-level remedial action objective, based on zooplankton as the most sensitive receptor, was a TPH-G groundwater concentration of 17.4?mg/L.