Cecil Lue‐Hing scite author profile

Cecil Lue‐Hing

5Publications

100Citation Statements Received

14Citation Statements Given

How they've been cited

140

How they cite others

Affiliations

Milwaukee Metropolitan Sewerage District, The Metropolitan Opera (United States), United States Bureau of Reclamation

Publications

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Trace Element Concentrations in Soil, Corn Leaves, and Grain after Cessation of Biosolids Applications

Granato¹,

Pietz²,

Knafl

et al. 2004

J of Env Quality

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From 1974 to 1984, 543 Mg ha(-1) of biosolids were applied to portions of a land-reclamation site in Fulton County, IL. Soil organic C increased to 5.1% then decreased significantly (p < 0.01) to 3.8% following cessation of biosolids applications (1985-1997). Metal concentrations in amended soils (1995-1997) were not significantly different (p > 0.05) (Ni and Zn) or were significantly lower (p < 0.05) (6.4% for Cd and 8.4% for Cu) than concentrations from 1985-1987. For the same biosolids-amended fields, metal concentrations in corn (Zea mays L.) either remained the same (p > 0.05, grain Cu and Zn) or decreased (p < 0.05, grain Cd and Ni, leaf Cd, Cu, Ni, Zn) for plants grown in 1995-1997 compared with plants grown immediately following termination of biosolids applications (1985-1987). Biosolids application increased (p < 0.05) Cd and Zn concentrations in grain compared with unamended fields (0.01 to 0.10 mg kg(-1) for Cd and 23 to 28 mg kg(-1) for Zn) but had no effect (p > 0.05) on grain Ni concentrations. Biosolids reduced (p < 0.05) Cu concentration in grain compared with grain from unamended fields (1.9 to 1.5 mg kg(-1)). Biosolids increased (p < 0.05) Cd, Ni, and Zn concentrations in leaves compared with unamended fields (0.3 to 5.6 mg kg(-1) for Cd, 0.2 to 0.5 mg kg(-1) for Ni, and 32 to 87 mg kg(-1) for Zn), but had no significant effect (p > 0.05) on leaf Cu concentrations. Based on results from this field study, USEPA's Part 503 risk model overpredicted transfer of these metals from biosolids-amended soil to corn.

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Class A Biosolids Production by a Low‐Cost Conventional Technology

Tata¹,

Lue‐Hing²,

Bertucci³

et al. 2000

Water Environment Research

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Encouraged by a finding that the pathogen analyses of numerous samples of the final product of the Metropolitan Water Reclamation District of Greater Chicago, Illinois (District), met the U.S. Environmental Protection Agency (U.S. EPA) Class A criteria, the District optimized and codified the operation of its sludge processing trains (SPTs), submitted a petition to the U.S. EPA Pathogen Equivalency Committee for obtaining certification of its SPTs as equivalent to a process to further reduce pathogens, and conducted a 3year full-scale study. The objective of the study was to determine whether or not the District's SPTs consistently produced a Class A biosolids final product. The primary conclusion drawn from this optimized and codified operation study was that all batches of the final air-dried product complied with the Class A criteria as specified by U.S. EPA in the Part 503 regulations. Water Environ. Res., 72, 413 (2000).

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Mercury in Soils and Crops from Fields Receiving High Cumulative Sewage Sludge Applications: Validation of U. S. EPA’s Risk Assessment for Human Ingestion

Granato

Pietz

Gschwind

et al. 1995

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Changes in Bacterial Aerosols with Height above Aeration Tanks

Sawyer

Rao²,

O'Brien³

et al. 1996

J. Environ. Eng.

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Comparison of the Long-Term Risks of Removal and In Situ Management of Contaminated Sediments in the Fox River

Reible

Hayes

Lue‐Hing

et al. 2003

Soil and Sediment Contamination: An International Journal

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Cecil Lue‐Hing

Trace Element Concentrations in Soil, Corn Leaves, and Grain after Cessation of Biosolids Applications

Class A Biosolids Production by a Low‐Cost Conventional Technology

Mercury in Soils and Crops from Fields Receiving High Cumulative Sewage Sludge Applications: Validation of U. S. EPA’s Risk Assessment for Human Ingestion

Changes in Bacterial Aerosols with Height above Aeration Tanks

Comparison of the Long-Term Risks of Removal and In Situ Management of Contaminated Sediments in the Fox River

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