Characterization of mussel beds with residual oil and the risk to foraging wildlife 4 years after the <i>Exxon valdez</i> oil spill

Boehm, Paul D.; Mankiewicz, Paul J.; Reilly, James E. O.; Hartung, R.; Neff, Jerry M.; Page, David S.; Gilfillan, Edward S.; Parker, Keith R.

doi:10.1002/etc.5620150806

Cited by 35 publications

References 27 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

Hydrocarbon composition and toxicity of sediments following theExxon valdezoil spill in Prince William Sound, Alaska, USA

Page

Boehm

Stubblefield³

et al. 2002

Enviro Toxic and Chemistry

View full text Add to dashboard Cite

An 1-year study of the 1989 Exxon Valdez oil spill found that spill residues on the oiled shorelines rapidly lost toxicity through weathering. After 1990, toxicity of sediments remained at only a few heavily oiled, isolated locations in Prince William Sound (AK, USA), as measured by a standard amphipod bioassay using Rhepoxynius abronius. Data from 648 sediment samples taken during the 1990 to 1993 period were statistically analyzed to determine the relationship between the total concentration of 39 parent and methyl-substituted polycyclic aromatic hydrocarbons (defined as total polycyclic aromatic hydrocarbons [TPAH]) and amphipod mortality and the effect of oil weathering on toxicity. A logistic regression model yielded estimates of the lower threshold, LC10 (lethal concentration to 10% of the population), and LC50 (median lethal concentration) values of 2,600, 4,100, and 10,750 ng/g TPAH (dry wt), respectively. Estimates of the threshold and LC50 values in this field study relate well to corresponding sediment quality guideline (SQG) values reported in the literature. For sediment TPAH concentrations >2,600 ng/g, samples with high mortality values (>90%) had relatively high fractions of naphthalenes and those with low mortality (<20%) had relatively high fractions of chrysenes. By 1999, the median sediment TPAH concentration of 117 ng/g for the post-1989 worst-case sites studied were well below the 2,600 ng/g toxicity threshold value, confirming the lack of potential for long-term toxic effects. Analysis of biological community structure parameters for sediment samples taken concurrently found that species richness and Shannon diversity decreased with increasing TPAH above the 2,600 ng/g threshold, demonstrating a correspondence between sediment bioassay results and biological community effects in the field. The low probability of exposure to toxic concentrations of weathered spill residues at the worst-case sites sampled in this study is consistent with the rapid overall recovery of shoreline biota observed in 1990 to 1991.

show abstract

Hydrocarbon composition and toxicity of sediments following theExxon valdezoil spill in Prince William Sound, Alaska, USA

Page

Boehm

Stubblefield³

et al. 2002

Enviro Toxic and Chemistry

View full text Add to dashboard Cite

show abstract

Ecological significance of residual exposures and effects from theExxon Valdezoil spill

Harwell¹,

Gentile²

2006

Integr Envir Assess & Manag

View full text Add to dashboard Cite

An ecological significance framework is used to assess the ecological condition of Prince William Sound (PWS), Alaska, USA, in order to address the current management question: 17 y following the Exxon Valdez oil spill (EVOS), are there any remaining and continuing ecologically significant exposures or effects on the PWS ecosystem caused by EVOS? We examined the extensive scientific literature funded by the Exxon Valdez Trustees or by ExxonMobil to assess exposures and effects from EVOS. Criteria to assess ecological significance include whether a change in a valued ecosystem component (VEC) is sufficient to affect the structure, function, and/or health of the system and whether such a change exceeds natural variability. The EVOS occurred on 24 March 1989, releasing over 250,000 barrels of crude oil into PWS. Because PWS is highly dynamic, the residual oil was largely eliminated in the first few years, and now only widely dispersed, highly weathered, or isolated small pockets of residual contamination remain. Many other sources of polycyclic aromatic hydrocarbons (PAHs) exist in PWS from past or present human activities or natural oil seeps. Multiple-lines-of-evidence analyses indicate that residual PAHs from EVOS no longer represent an ecologically significant exposure risk to PWS. To assess the ecological significance of any residual effects from EVOS, we examined the literature on more than 20 VECs, including primary producers, filter feeders, fish and bird primary consumers, fish and bird top predators, a bird scavenger, mammalian primary consumers and top predators, biotic communities, ecosystem-level properties of trophodynamics and biogeochemical processes, and landscape-level properties of habitat mosaic and wilderness quality. None of these has any ecologically significant effects that are detectable at present, with the exception of 1 pod of orcas and possibly 1 subpopulation of sea otters; however, in both those cases, PWS-wide populations appear to have fully recovered. Many other stressors continue to affect PWS adversely, including climate and oceanographic variability, increased tourism and shipping, invasive species, the 1964 earthquake, and overexploitation of marine resources, with associated cascading effects on populations of PWS fish and predators. We conclude that the PWS ecosystem has now effectively recovered from EVOS.

show abstract

Identification of PAHs Sources in Bivalves and Sediments 5 Years After the Sea Prince Oil Spill in Korea

Yim¹,

Oh²,

Hong³

et al. 2002

Environmental Forensics

View full text Add to dashboard Cite

Characterization of mussel beds with residual oil and the risk to foraging wildlife 4 years after the Exxon valdez oil spill

Cited by 35 publications

References 27 publications

Hydrocarbon composition and toxicity of sediments following theExxon valdezoil spill in Prince William Sound, Alaska, USA

Hydrocarbon composition and toxicity of sediments following theExxon valdezoil spill in Prince William Sound, Alaska, USA

Ecological significance of residual exposures and effects from theExxon Valdezoil spill

Identification of PAHs Sources in Bivalves and Sediments 5 Years After the Sea Prince Oil Spill in Korea

Contact Info

Product

Resources

About