2014
DOI: 10.1002/ieam.1583
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Ecological risk assessment for residual coal fly ash at Watts Bar Reservoir, Tennessee: Site setting and problem formulation

Abstract: EDITOR'S NOTE:The baseline ecological risk assessment (BERA) of residual coal-fly ash in Watts Bar Reservoir was conducted following a 2008 spill from the Tennessee Valley Authority Kingston Fossil Plant (Roane County, TN). Results of the BERA were used to focus the long-term management strategy for the impacted river system. This article is among 7 peer-reviewed articles in the special series, "Ecological Risk Assessment for Residual Coal Fly Ash at Watts Bar Reservoir, Tennessee." The series includes article… Show more

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Cited by 18 publications
(27 citation statements)
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“…However, no dredging was performed downstream of the ash storage area (see inset map, Fig. 1), or in the Clinch or Tennessee Rivers downstream of the spill and 400,000 m 3 of ash is estimated to remain in the river system [2]. There are pockets of ash up to 0.125 m thick within the riverbed in the area between ERM 4.0 and CRM 3.0 [7].…”
Section: Discussionmentioning
confidence: 99%
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“…However, no dredging was performed downstream of the ash storage area (see inset map, Fig. 1), or in the Clinch or Tennessee Rivers downstream of the spill and 400,000 m 3 of ash is estimated to remain in the river system [2]. There are pockets of ash up to 0.125 m thick within the riverbed in the area between ERM 4.0 and CRM 3.0 [7].…”
Section: Discussionmentioning
confidence: 99%
“…Due to its association with heavy metals, coal ash is now recognized by the public as a substantial threat to drinking water, recreation, aquatic organisms and habitat [3,4]. Most of the coal ash spilled at Kingston was mechanically and hydraulically dredged, however 400,000 m 3 was mixed with legacy contaminants, primarily 137 Cs and Hg released from US Department of Energy facilities at Oak Ridge [2] and another 92,000 m 3 eroded during a flood prior to dredging [5]. The remaining ash has been and continues to be scoured, suspended and mixed with riverbed sediments as it is transported 71 km downstream to the Watts Bar Dam where it will be buried within reservoir sediment.…”
Section: Introductionmentioning
confidence: 98%
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“…Such reference reaches represent background conditions (no known contaminant releases) and had significantly lower concentrations of the ash‐related COPECs in the sediment. The highest amounts of residual ash were in the Emory and Clinch rivers (Table S1 in Supplemental Data has sediment COPEC concentrations; Walls et al , this issue, provides ash amounts).…”
Section: Problem Formulation Of the Risk Assessmentmentioning
confidence: 99%
“…A section of the Emory River was filled with ash up to 9 m deep. Although some affected areas in the Emory River were dredged from March 2009 to August 2010 (approximately Emory River Mile [ERM] 1.8 to 5.5, Figure ), approximately 400,000 m 3 remains in over 20 river miles in the system (hereafter, called the site), having the potential to adversely affect wildlife (Walls et al , this issue).…”
Section: Introductionmentioning
confidence: 99%