Environmental Health Threats Associated with Drainage from a Coastal Urban Watershed

Humphrey, Charles; Blackmon, Jamil; Kelley, Timothy; O’Driscoll, Michael A.; Iverson, Guy

doi:10.5539/enrr.v8n1p52

Cited by 5 publications

(13 citation statements)

References 18 publications

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“…Average annual rainfall in the watershed is 126 cm, with precipitation being higher during the summer months. Previous monitoring indicated that Town Creek was known to have elevated E. coli concentrations that varied based on flow conditions (Humphrey et al, 2018). Town Creek discharges to the Tar River, which is classified as secondary recreation waters at this location because water‐based recreation, including kayaking and fishing, are popular in the area.…”

Section: Methodsmentioning

confidence: 99%

“…Because of the documented relationship between flow and E. coli concentrations (Humphrey et al, 2018), breaking the data into base flow and storm flow subsets would have been logical for this study. Flow data was not available in this stream during the study period; hence, it could not be used in this work.…”

Section: Methodsmentioning

confidence: 99%

“…The use of spectrometers paired with a regression model may have the potential to estimate bacteria concentrations with a waiting time of seconds instead of hours. Our hypothesis, that this method would produce acceptable results, was based on bacteria concentrations in the studied stream being altered substantially by rainfall events (Humphrey et al, 2018), which also alter the concentrations of chemicals that absorb light (e.g., nitrate, organic matter). The goal of this study was to test a quicker way to estimate bacteria concentrations in streams than currently accepted practices that often require more than 18 h to get results.…”

mentioning

confidence: 99%

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Real‐Time Estimates ofEscherichia coliConcentrations Using Ultraviolet‐Visible Spectrometers

Etheridge¹,

Randolph²,

Humphrey

2019

J of Env Quality

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Abbreviations: MPN, most probable number; PLSR, partial least squares regression; RMSEP, root mean square error of prediction; UV-vis, ultraviolet-visible.• Current methods of measuring indicator bacteria can take hours to receive results.• UV-vis spectrometers have the potential to estimate concentrations in seconds.• This method predicted E. coli concentrations in a freshwater stream in cool months.• Predictions outside of the cool months were not accurate.• The method should be tested for other indicator bacteria and in saltwater.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

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Real‐Time Estimates ofEscherichia coliConcentrations Using Ultraviolet‐Visible Spectrometers

Etheridge¹,

Randolph²,

Humphrey

2019

J of Env Quality

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“…Seeps can bestow water quality services by contributing to food webs (Williams ) and by attenuation of contaminants (O’Driscoll and DeWalle ). However, seeps can also act as net contaminant sources (Williams et al , ; Humphrey et al ). From a water quality perspective, seeps can provide portholes to observe groundwater quality.…”

mentioning

confidence: 99%

“…Although seeps may make up a relatively small extent of a catchment, they are important components of the watershed ecosystem because of their capability to translate groundwater contaminants to streams and wetlands (Williams et al ; Humphrey et al ) and act as nutrient cycling (McClain et al ) and ecological diversity hotpots (Stevens and Meretsky ; Griebler and Avramov ; Williams ). Springs and seeps are key aquatic habitats because they exert a broad influence on regional ecosystem structure, function, and evolutionary processes (Stevens and Meretsky ).…”

mentioning

confidence: 99%

Groundwater Seeps: Portholes to Evaluate Groundwater’s Influence on Stream Water Quality

O’Driscoll

DeWalle

Humphrey

et al. 2019

Contemporary Water Research

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Recent legal cases have suggested that contaminated seeps and/or springs that have measurable impacts on adjacent surface water quality may fall under the jurisdiction of the Clean Water Act (CWA). An improved understanding of the effects of groundwater seeps on surface water quality is needed to support the evolving legal and regulatory environment. Surface seeps or seepage zones are locations where upwelling groundwater saturates the surface. Seeps can provide groundwater that may be transported to nearby surface waters along surface and shallow subsurface flowpaths. From a water quality perspective, seeps can provide portholes to observe groundwater quality. Here we consider examples of seeps as contaminant sources or sinks across a range of watershed disturbance and synthesize the seep water quality literature to help answer the questions: Why do seeps act as contaminant sinks in some cases and contaminant sources in others? What areas of seep water quality research can help apprise the legal and policy discussion on the role of the CWA to address groundwater contamination that is conveyed to streams? Overall, the case studies and literature review indicated that seep water quality data can provide valuable insights into the effects of stream-groundwater interactions on stream water quality. Future work on seep-surface water interactions is needed to characterize seep water quality behavior across a range of hydrogeological, meteorological, and land-use conditions to better understand the locations where seeps are more likely to convey contaminants to streams and affect stream water quality.

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Methane concentrations in streams reveal gas leak discharges in regions of oil, gas, and coal development

Woda

Wen

Lemon

et al. 2020

Science of The Total Environment

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As natural gas has grown in importance as a global energy source, leakage of methane (CH4) from wells has sometimes been noted. Leakage of this greenhouse gas is important because it affects groundwater quality and, when emitted to the atmosphere, climate. We hypothesized that streams might be most contaminated by CH4 in the northern Appalachian Basin in regions with the longest history of hydrocarbon extraction activities. To test this, we searched for CH4contaminated streams Basin. Methane concentrations ([CH4]) for 529 stream sites are reported, in New York, West Virginia and mostly Pennsylvania. Despite targeting contaminated areas, the median [CH4], 1.1 µg/L, was lower than a recently identified threshold indicating potential contamination, 4.0 µg/L. [CH4] values were higher in a few streams because they receive high-[CH4] groundwaters, often from upwelling seeps. By analogy to the more commonly observed type of groundwater seep known as abandoned mine drainage (AMD), we introduce the term, "gas leak discharge" (GLD) for these waters where they are not associated with coal mines. GLD and AMD, observed in all parts of the study area, are both CH4-rich. Surprisingly, the region of oldest and most productive oil / gas development did not show the highest median for stream [CH4]. Instead, the median was statistically highest where dense coal mining was accompanied by conventional and unconventional oil and gas development, emphasizing the importance of CH4 contamination from coal mines into streams.

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Environmental Health Threats Associated with Drainage from a Coastal Urban Watershed

Cited by 5 publications

References 18 publications

Real‐Time Estimates ofEscherichia coliConcentrations Using Ultraviolet‐Visible Spectrometers

Real‐Time Estimates ofEscherichia coliConcentrations Using Ultraviolet‐Visible Spectrometers

Groundwater Seeps: Portholes to Evaluate Groundwater’s Influence on Stream Water Quality

Methane concentrations in streams reveal gas leak discharges in regions of oil, gas, and coal development

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