Search Results - "Cutright, Teresa J."

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  1. 1

    Laboratory evaluation of alum, ferric and ferrous-water treatment residuals for removing phosphorous from surface water by Carleton, George, Al daach, Haidar, Cutright, Teresa J.

    Published in Heliyon (01-08-2020)
    “…Numerous drinking water plants and agricultural wastewaters generate water treatment residuals (WTR) during coagulation processes. These WTRs may be effective…”
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    Journal Article
  2. 2

    Design and Preliminary Testing of an In-Field Passive Treatment System for Removing Phosphorus from Surface Water by Carleton, George, Glowczewski, Jessica, Cutright, Teresa

    Published in Applied sciences (01-05-2021)
    “…It is well documented that excess phosphorus in source waters is a major contributor to harmful algal bloom formation. While there are many approaches to…”
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    Journal Article
  3. 3

    Evaluation of the Reuse of Baked-Alum Water Treatment Residual to Adsorb Phosphorous by Spade, Michael, Ott, Donald, Cutright, Teresa J

    “…AbstractExcess phosphorous in waterways is known to be a cause of harmful algal blooms. This research evaluated if baking water treatment residuals (WTRs)…”
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    Journal Article
  4. 4

    Control of Cyanobacterial Algal Blooms and Soluble Reactive Phosphorus Using PAK-27 and Phoslock by Akther, Fahima, Cutright, Teresa J.

    Published in Water conservation science and engineering (01-12-2024)
    “…Cyanobacterial harmful algal blooms (cHABs) can pose a threat to human health and aquatic ecosystems when they release cyanotoxins in water. This research used…”
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  5. 5

    Effect of citric acid and bacteria on metal uptake in reeds grown in a synthetic acid mine drainage solution by Guo, Lin, Cutright, Teresa J.

    Published in Journal of environmental management (01-03-2015)
    “…The effect of citric acid (CA), rhizosphere acidophilic heterotrophs and/or Fe(II) oxidizing bacteria (Fe(II)OB) on plaque formation and metal accumulation in…”
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    Journal Article
  6. 6

    Impact of acid mine drainage chemistry and microbiology on the development of efficient Fe removal activities by Sharma, Shagun, Lee, Matthew, Reinmann, Casey S., Pumneo, Jenna, Cutright, Teresa J., Senko, John M.

    Published in Chemosphere (Oxford) (01-06-2020)
    “…Coal mine derived acid mine drainage (AMD) is formed when oxygenated water infiltrates mine voids and oxidizes FeS phases, generating acidic fluid rich in…”
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  7. 7

    Comparison of Metal Plaque Formation and Metal Accumulation in Reeds Cultured in Acid Mine Drainage Solutions and Soils by Guo, Lin, Cutright, Teresa J.

    Published in Soil & sediment contamination (03-10-2019)
    “…Experiments were conducted to compare the effect of citric acid (CA) on metal uptake in Phragmites australis cultured in artificial acid mine drainage (AMD)…”
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  8. 8

    Biotransformation of 1,1,1-trichloro-2,2-bis(p-chlorophenyl) ethane (4,4′-DDT) on a Sandy Loam Soil using aerobic bacterium Corynebacterium sp by Erdem, Ziya, Cutright, Teresa J.

    Published in Environmental earth sciences (01-09-2016)
    “…1,1,1-trichloro-2,2-bis( p -chlorophenyl) ethane (4,4′-DDT) is an organochlorine pesticide known for its health and environmental hazards and recalcitrance…”
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    Journal Article
  9. 9

    Metal Plaque on Reeds from an Acid Mine Drainage Site by Guo, Lin, Cutright, Teresa J.

    Published in Journal of environmental quality (01-05-2015)
    “…Studies were conducted to investigate the interactions among rhizosphere microorganisms, plaque formation, and metal accumulation in reeds [Phragmites…”
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    Journal Article
  10. 10

    Dynamics of Mn removal in an acid mine drainage treatment system over 13 years after installation by Crafton, Elizabeth, Pritchard, Casey, Guo, Lin, Senko, John M., Cutright, Teresa J.

    Published in Environmental earth sciences (2019)
    “…Acid mine drainage (AMD) from abandoned and active mines continues to pose a serious threat to the environment. Metal-rich fluids may emerge from abandoned…”
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    Journal Article
  11. 11

    Effect of Citric Acid, Rhizosphere Bacteria, and Plant Age on Metal Uptake in Reeds Cultured in Acid Mine Drainage by Guo, Lin, Cutright, Teresa J., Duirk, Stephen

    Published in Water, air, and soil pollution (01-01-2015)
    “…Acid mine drainage (AMD) poses serious environmental problems. This study assessed the effect of plant age, rhizosphere bacteria, and citric acid (CA) on the…”
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    Journal Article
  12. 12

    Potential of citric acid to alter pH and metal uptake in reeds in acid mine drainage solutions by Guo, Lin, Cutright, Teresa J.

    Published in Water and environment journal : WEJ (01-08-2018)
    “…Phragmites australis (common reed) is often used to treat acid mine drainage (AMD) sites contaminated with high concentrations of heavy metals and low pH. This…”
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  13. 13

    Metal storage in reeds from an acid mine drainage contaminated field by Guo, Lin, Cutright, Teresa J.

    Published in International journal of phytoremediation (04-03-2017)
    “…Phragmites australis has been used to treat acid mine drainage (AMD)-contaminated soil. However, the mechanism about metal translocation in reeds was not…”
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    Journal Article
  14. 14

    Effect of citric acid and rhizosphere bacteria on metal plaque formation and metal accumulation in reeds in synthetic acid mine drainage solution by Guo, Lin, Cutright, Teresa J.

    Published in Ecotoxicology and environmental safety (01-06-2014)
    “…Many of regions in the world have been affected by acid mine drainage (AMD). The study assessed the effect of rhizosphere bacteria and citric acid (CA) on the…”
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    Journal Article
  15. 15

    Modulating the Effect of Iron and Total Organic Carbon on the Efficiency of a Hydrogen Peroxide-Based Algaecide for Suppressing Cyanobacteria by Crafton, Elizabeth A., Cutright, Teresa J., Bishop, West M., Ott, Donald W.

    Published in Water, air, and soil pollution (01-03-2019)
    “…The intensity and frequency of cyanobacteria-dominated harmful algal blooms (cHABs) has been increasing. A key issue associated with cHABs is the potential to…”
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  16. 16

    Accumulation and histological location of heavy metals in Phragmites australis grown in acid mine drainage contaminated soil with or without citric acid by Guo, Lin, Ott, Donald W., Cutright, Teresa J.

    Published in Environmental and experimental botany (01-09-2014)
    “…•Metal storages in reeds from an AMD contaminated site were assessed.•Fe and Al mainly located in the exodermis and endodermis of roots.•Epidermis, cortex and…”
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  17. 17

    Bioaccumulation of metals in reeds collected from an acid mine drainage contaminated site in winter and spring by Guo, Lin, Cutright, Teresa J.

    Published in Environmental technology (17-07-2016)
    “…Wetland plants such as Phragmites australis has been used to treat acid mine drainage (AMD) contaminated soil which is a serious environmental issue worldwide…”
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  18. 18

    Impact of pH on the Oxidation of Saxitoxin and Anatoxin-a with Chlorine by Laura Davila Garcia, Rorar, Justin, Cutright, Teresa J., Summers, Madison, Mou, Xiaozhen

    Published in Journal of water chemistry and technology (01-02-2024)
    “…Cyanotoxins, produced from cyanobacteria-dominated harmful algal blooms (cHABs), pose a threat to ecosystems, as well as drinking water systems. Disinfection…”
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    Journal Article
  19. 19

    Remediation of acid mine drainage (AMD)-contaminated soil by Phragmites australis and rhizosphere bacteria by Guo, Lin, Cutright, Teresa J

    “…Experiments were conducted to assess the impact of citric acid (CA) and rhizosphere bacteria on metal uptake in Phragmites australis cultured in a spiked acid…”
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    Journal Article
  20. 20

    Evaluation of alum-based water treatment residuals used to adsorb reactive phosphorus by George Carleton, Teresa J. Cutright

    Published in Water Science and Engineering (01-09-2020)
    “…Excess reactive phosphorus (PO4) in waterways can lead to eutrophication. A low-cost approach to reducing PO4 levels in surface water was evaluated using the…”
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