Your search keyword '"McConnell, Laura L."' showing total 4 results

1. Examination of Mechanisms for Odor Compound Generation during Lime Stabilization

Author

Kim, Hyunook, Murthy, Sudhir, Peot, Christopher, Ramirez, Mark, Strawn, Mary, Park, Chul-Hwi, and McConnell, Laura L.

Published

2003

2. Polybrominated diphenyl ethers: Residence time in soils receiving biosolids application.

Author

Andrade, Natasha A., McConnell, Laura L., Anderson, Marya O., Torrents, Alba, and Ramirez, Mark

Subjects

PHENYL ethers, SEWAGE sludge, DIPHENYL, ENVIRONMENTAL soil science, ENVIRONMENTAL engineering

Abstract

Polybrominated diphenyl ethers (PBDEs) may enter the environment because of accumulation in biosolids followed by application to agricultural lands. No published dissipation studies are available for PBDEs in agricultural soils after biosolids application. Therefore, we conducted a 3-year study to examine the fate of PBDEs in a small-scale 0.24-ha continuously cropped field after a single biosolids application at 72.3 wet tons/ha and determined dissipation half-lives for BDE-47+BDE-99 and BDE-209. In addition, we conducted a large-scale survey of soils from 26 mostly pasture fields at 10 farms with detailed information on timing and rate of biosolids applications. In the small-scale experiment, maximum soil PBDE concentrations of 43.7 ± 42.7 μg kg −1 d.w. for BDE-209 and 6.05 ± 7.15 μg kg −1 d.w. for BDE-47+BDE-99 were reached 1 year after application. We hypothesized that PBDEs were slowly released from the biosolids matrix into the soil over the first year. After 3 years, median BDE-47+BDE-99 concentrations were approximately equal to preapplication levels, whereas median BDE-209 concentrations remained ∼129% above preapplication levels. The estimated residence time from the small-scale experiment was 342 d for BDE-47+BDE-99 and 861 d for BDE-209. In the large-scale study, a subset of fields that received a single biosolids application was used to generate another estimate of residence time: 704 d for BDE-47+BDE-99 and 1440 d for BDE-209. These longer residence time estimates were used in three different first-order decay dissipation scenarios (continuous, limited, and no dissipation) to predict PBDE concentration in fields with single and multiple biosolids applications. Results indicate that dissipation occurs primarily in the first 2 years after application, but residues remaining in the soil after this period are likely to be much more tightly bound and less available for degradation. [ABSTRACT FROM AUTHOR]

Published

2017

3. Fate of microconstituents in biosolids composted in an aerated silage bag.

Author

Lozano, Nuria, Andrade, Natasha A., Deng, Di, Torrents, Alba, Rice, Clifford P., McConnell, LAURA L., Ramirez, Mark, and Millner, Patricia D.

Subjects

SEWAGE sludge, SILAGE, PATHOGENIC microorganisms, POLYETHYLENE, WASTEWATER treatment, TRICLOCARBAN, TRICLOSAN

Abstract

Although most composting studies report pathogen concentrations, little is known about the fate of Endocrine Disruptor Chemicals (EDCs) during composting. In this study, a positively aerated polyethylene bag composting system was filled with a mixture of woodchips and limed biosolids from a large Waste Water Treatment Plant (WWTP) to study the removal efficiency of two different groups of EDCs. Two antibacterial compounds, Triclocarban (TCC) and Triclosan (TCS), and a TCS byproduct, Methyltriclosan (MeTCS), as well as seven congeners of flame retardants known as PBDEs (Polybrominated Diphenyl Ethers) were studied during two phases of composting: 1) a thermophilic phase, in which positive mechanical aeration, pushing air into and through the materials matrix, was conducted for 2 months; and 2) a curing and stabilization phase in which no mechanical aeration was provided and the bag was opened to ambient passive aeration to simulate storage conditions for seven months. Our results showed that while TCC concentrations remained constant, TCS degradation took place during both phases. The degradation of TCS was corroborated by the formation of MeTCS in both phases. The TCS concentrations decreased from 18409 ± 1,877 to 11955 ± 288 ng g−1dry wt. during the thermophilic phase and declined from 11,955 ± 288 to 7,244 ± 909. ng g−1dry wt. by the end of the curing phase. Thus, slightly greater TCS transformation occurred during the second than during the first (35.1 vs. 39.4%). MeTCS concentrations increased from 189.3 ± 8.6 to 364.6 ± 72.5 ng g−1dry wt. during the first phase and reached 589.0 ± 94.9 ng g−1dry wt. at the end of the second phase. PBDEs concentrations were below quantification limits for all but two of the congeners analyzed (BDE-47 and BDE-99). PBDE concentrations were measured at the end of the first phase only and were comparable to initial concentrations. [ABSTRACT FROM AUTHOR]

Published

2014

4. Long-term trends of PBDEs, triclosan, and triclocarban in biosolids from a wastewater treatment plant in the Mid-Atlantic region of the US.

Author

Andrade, Natasha A., Lozano, Nuria, McConnell, Laura L., Torrents, Alba, Rice, Clifford P., and Ramirez, Mark

Subjects

*SEWAGE disposal plants, *POLYBROMINATED diphenyl ethers, *TRICLOSAN, *ORGANIC compounds removal (Sewage purification), *BIOLOGICAL nutrient removal

Abstract

In the US, land application of biosolids has been utilized in government-regulated programs to recycle valuable nutrients and organic carbon that would otherwise be incinerated or buried in landfills. While many benefits have been reported, there are concerns that these practices represent a source of organic micropollutants to the environment. In this study, biosolids samples from a wastewater treatment plant in the Mid-Atlantic region of the US were collected approximately every 2 months over a 7-year period and analyzed for brominated diphenyl ethers (BDE-47, BDE-99, and BDE-209), triclosan, and triclocarban. During the collection period of 2005–2011, concentrations of the brominated diphenyl ethers BDE-47 + BDE-99 decreased by 42%, triclocarban decreased by 47%, but BDE-209 and triclosan remained fairly constant. Observed reductions in contaminant concentrations could not be explained by different seasons or by volumetric changes of wastewaters arriving at the treatment plant and instead may be the result of the recent phaseout of BDE-47 and BDE-99 as well as potential reductions in the use of triclocarban. [ABSTRACT FROM AUTHOR]

Published

2015