Your search keyword '"James R. Rhea"' showing total 2 results

1. Model of zebra mussel growth and water quality impacts in the Seneca River, New York

Author

David Glaser, Joseph J. Mastriano, C. Kirk Ziegler, Li Zheng, James R. Rhea, Wen Ku, Kevin Russell, and Daniel Opdyke

Subjects

Hydrology, biology, Growth model, Aquatic Science, biology.organism_classification, Invasive species, Carbon cycle, Zebra mussel, Environmental science, Sewage treatment, Water quality, Eutrophication, Effluent, Water Science and Technology

Abstract

Glaser, D., J.R. Rhea, D.R. Opdyke, K.T. Russell, C.K. Ziegler, W. Ku, L. Zheng and J.J. Mastriano. 2009. Model of zebra mussel growth and water quality impacts in the Seneca River, New York. Lake Reserv. Manage. 25:49–72. A dynamic water quality model was developed to support management decision-making for the Seneca River, New York. The model incorporated two-dimensional hydrodynamics to simulate stratification observed within the system, a carbon-based zebra mussel growth model to account for the impact of this invasive species on water quality within the system, and a mechanistic representation of sediment diagenesis to account for zebra mussel-induced changes in carbon cycling. The Seneca River is on New York State's 303(d) list of impaired water bodies for nonattainment of dissolved oxygen criteria and is being considered as the potential receiving water for diverted effluent from an 85 million gallon per day (MGD) wastewater treatment plant (WWTP) serving the City of Syracuse, New York. Th...

Published

2009

2. USE OF ACID LAKE REACIDIFICATION MODEL (ALaRM) TO ASSESS IMPACT OF BOTTOM SEDIMENTS ON CALCIUM CARBONATE TREATED LAKES

Author

James R. Rhea, Richard D. Scheffe, William G. Booty, Thomas C. Young, and Joseph V. DePinto

Subjects

Hydrology, Calcite, chemistry.chemical_compound, Flux (metallurgy), Calcium carbonate, Water column, chemistry, parasitic diseases, Annual average, Sediment, Aquatic Science, Water Science and Technology

Abstract

A mathematical model (ALaRM) for predicting the reacidification profile of calcium carbonate treated lakes has been calibrated and confirmed using data from two Lake Acidification Mitigation Project (LAMP) lakes. This manuscript focused on the use of ALaRM to evaluate the relative impact of bottom sediment processes on the reacidification rate of the LAMP lakes. Prior to liming the lakes exhibited annual average sediment-to-water ANC fluxes of 194 and 240 meq/m2-yr for Woods Lake and Cranberry Pond, respectively. Following liming there was a period of net water-to-sediment ANC flux due to a reversal of the gradients of ANC-determining chemical species, indicating a buffering effect of bottom sediments on water column acid-base chemistry. A sensitivity analysis indicated that calcite treatment of sediments as well as the water column could mitigate the sediment reacidification-accelerating effect.

Published

1987