Geochemical investigations of metals release from submerged coal fly ash using extended elutriate tests

Bednar, Anthony J.; Chappell, Mark A.; Seiter, Jennifer M.; Stanley, Jacob K.; Averett, Daniel E.; Jones, William T.; Pettway, Brad A.; Kennedy, Alan J.; Hendrix, Sophie; Steevens, Jeffery A.

doi:10.1016/j.chemosphere.2010.09.026

Cited by 33 publications

(40 citation statements)

References 24 publications

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“…These dredges pumped the ash from the river bottom through a pipeline into an ash recovery ditch, where the heavier ash particles that settled rapidly were removed by a mechanical excavator for disposal. The remaining water and suspended ash flowed into a sluice channel and mixed with plant process water, then flowed into an ash settling pond that overflowed into a stilling pond for final effluent polishing, and finally was discharged back to the Emory River [2].…”

Section: Introductionmentioning

confidence: 99%

Impact assessment of dredging to remove coal fly ash at the Tennessee Valley Authority Kingston Fossil plant using fathead minnow elutriate exposures

Stanley

Kennedy

Bednar

et al. 2013

Enviro Toxic and Chemistry

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Abstract-On December 22, 2008, failure of an earthen containment structure resulted in the release of approximately 4.1 million m 3 of coal fly ash into the Emory River and the surrounding area from the Tennessee Valley Authority Kingston Fossil Plant near Kingston, Tennessee, USA. The purpose of the present study was to assess the potential of dredging activities performed to remove the fly ash from the river to result in increased risk to pelagic fish, with special consideration of mobilization of metals. Elutriates were created using two sources of fly ash by bubbling with air over 10 d. This elutriate preparation method was designed to represent worst-case conditions for oxidation, metal release, and dissolution. Larval and juvenile Pimephales promelas underwent 10-d exposures to these elutriates. Larval end points included survival and biomass, and juvenile end points included survival, length, biomass, liver somatic index, and bioaccumulation. No significant toxicity was observed. Bioaccumulation of metals in juveniles was found to be primarily attributable to metals associated with particles in the gut. Results suggest little potential for toxicity to related fish species due to fly ash removal dredging activities given the extreme conditions represented by the elutriates in the present study. Environ. Toxicol. Chem.

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Section: Introductionmentioning

confidence: 99%

Impact assessment of dredging to remove coal fly ash at the Tennessee Valley Authority Kingston Fossil plant using fathead minnow elutriate exposures

Stanley

Kennedy

Bednar

et al. 2013

Enviro Toxic and Chemistry

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“…As long as residual ash exists in the Emory River (or downstream), the potential for changes in metal binding and/or changes in speciation leading to differing leaching dynamics exists. Previous work, including studies focused on the Kingston spill site, have shown that river conditions play a major role influencing the bioaccumulation of metals known to be present in coal ash (Ruhl et al 2010;Bednar et al 2010;Ruhl et al 2009;Deonarine et al 2013;Liu et al 2013). Therefore, it is recommended that a holistic long-term monitoring plan be utilized to fully understand the longterm impacts of this spill and minimize risk.…”

Section: Discussionmentioning

confidence: 96%

“…However, the removal of contaminated sediments also comes with significant challenges, including the re-suspension of potential contaminants, measuring effects, and potential changes in metal speciation (Bednar et al 2010;Rowe et al 2002;Gustavson et al 2008). Given the volume of the ash spilled (4.1 million m 3 ), the volume of contaminated sediments dredged (more than 2.6 million m 3 ), and the fluctuations in Emory River discharge during dredging (50-70,000 cfs), issues related to the physical disruption of ashassociated sediments were a concern at the Kingston Fossil spill site.…”

Section: Discussionmentioning

confidence: 98%

“…As unfortunate as the spill was, it provided an opportunity to directly study the impact of coal fly ash in a large lotic system where the amount of downstream transport of ash was also being investigated and monitored (TVA 2010b). Previous research on the Kingston spill has provided insight on the contaminants of concern from multiple perspectives including sediment biogeochemistry, metal speciation, and metal bioaccumulation across multiple organisms (Ruhl et al 2010;Bednar et al 2010;Ruhl et al 2009;Otter et al 2013;Deonarine et al 2013;Bartov et al 2012;Liu et al 2013;Beck et al 2013;Souza et al 2013). Otter et al (2012) showed elevated concentrations of arsenic and selenium in various tissues of multiple fish species at ash-associated sites compared to reference sites.…”

Section: Discussionmentioning

confidence: 98%

“…The release impacted terrestrial areas, the adjacent Emory River, and downstream river locations due to ash transport in the river channel (TVA 2009;Bednar et al 2010).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Bioaccumulation of metals in three freshwater mussel species exposed in situ during and after dredging at a coal ash spill site (Tennessee Valley Authority Kingston Fossil Plant)

Otter

McKinney

Brown

et al. 2015

Environ Monit Assess

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On December 22, 2008, a dike containing coal fly ash at the Tennessee Valley Authority Kingston Fossil Plant (TN, USA) failed, and within months, dredging operations began to remove ash-contaminated sediments. The purpose of this study was to investigate differences in the bioaccumulation of metals in three mussel species during and after dredging operations. Mussels were caged for approximately 1 year during dredging and after, and then mussel condition index values and As, Cd, Cr, Pb, Ni, Se, Hg, U, Fe, Mg, Al, Sb, Ba, Be, Co, Cu, Mn, Mo, Ag, Sr, Tl, V, and Zn concentrations in soft tissue were determined via inductively coupled plasma-mass spectrometery. Overall, the differences observed in metal bioaccumulation and mussel health suggest that mussels in the immediate downstream area of the dredging site may have been impacted, as evidenced by a significant decrease in mussel condition index values, but that this impact did not result in increased tissue concentrations of metals.

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The use of tetragnathid spiders as bioindicators of metal exposure at a coal ASH spill site

Otter

Hayden

Mathews

et al. 2013

Enviro Toxic and Chemistry

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On 22 December 2008, a dike containing coal fly ash from the Tennessee Valley Authority Kingston Fossil Fuel Plant (TN, USA) failed, resulting in the largest coal ash spill in US history. The present study was designed to determine sediment metal concentrations at multiple site locations and to determine whether site-specific bioaccumulation of metals existed in tetragnathid spiders. Selenium and nickel were the only 2 metals to exceed the US Environmental Protection Agency sediment screening levels. Selenium concentrations in spiders were significantly higher at ash-affected sites than in those from reference sites. The ratio of methylmercury to total mercury in spiders was found to be similar to that in other organisms (65-75%), which highlights the potential use of tetragnathid spiders as an indicator species for tracing contaminant transfer between the aquatic and terrestrial ecosystems.

show abstract

Geochemical investigations of metals release from submerged coal fly ash using extended elutriate tests

Cited by 33 publications

References 24 publications

Impact assessment of dredging to remove coal fly ash at the Tennessee Valley Authority Kingston Fossil plant using fathead minnow elutriate exposures

Impact assessment of dredging to remove coal fly ash at the Tennessee Valley Authority Kingston Fossil plant using fathead minnow elutriate exposures

Bioaccumulation of metals in three freshwater mussel species exposed in situ during and after dredging at a coal ash spill site (Tennessee Valley Authority Kingston Fossil Plant)

The use of tetragnathid spiders as bioindicators of metal exposure at a coal ASH spill site

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