Source Identification, Transformation, and Transport Processes of N-, O- and S- Containing Organic Chemicals in Wetland and Upland Sediments.EPA Grant Number: R825513C004
Subproject: this is subproject number 004 , established and managed by the Center Director under grant R825513
(EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
Center: HSRC (1989) - South and Southwest HSRC
Center Director: Reible, Danny D.
Title: Source Identification, Transformation, and Transport Processes of N-, O- and S- Containing Organic Chemicals in Wetland and Upland Sediments.
Investigators: Catallo, W. James
Institution: Louisiana State University - Baton Rouge
EPA Project Officer: Hahn, Intaek
Project Period: January 1, 1995 through January 1, 1997
Project Amount: Refer to main center abstract for funding details.
RFA: Hazardous Substance Research Centers - HSRC (1989) RFA Text | Recipients Lists
Research Category: Hazardous Substance Research Centers , Land and Waste Management
The purpose of this study was to evaluate the transformation pathways and major transport processes of representative N-,O-, and S-containing pollutants in prominent wetland and upland sediments under oxidized (aerobic), reduced (methanogenic), and "redox pulsed" (alternately flooded and drained) conditions. Target chemical mixtures included materials of concern at hazardous waste sites, Defense and Energy Department facilities, and dredge disposal sites. The transformation sequences and apparent stable endpoints of target analytes were documented and related to the sediment type and sediment physicochemical variables (grain size distribution, organic matter content, Eh regime). The result was a time series profile of chemical and biological transformation under conditions found in different natural sediments, and an evaluation of different transport processes which might become important during these transformations. That is, the time course changes in chemical fine structure in the mixtures in response to sediment variables will be documented and the significance of these to environmental mobility and ultimate fates will be explored. These data are useful when evaluating the sources of unknown chemical mixtures which have been in sediments for varying periods of time (e.g. dredge materials, sediment cores), and for predicting mobility, lability, and risk/hazard associated with fresh mixtures. Changes in partitioning, metal complexation chemistry, and electrochemistry of the target compounds and mixtures were evaluated in time using microcosms, in vitro assays (leaching, phase transfer, partitioning), and electroanalyses, and these data will be related to estimates of quantum mechanical and thermodynamic properties determined using models (chemical estimation SARs, MOPAC and MMP2). Quantitative studies on selective transport processes mediated by redox reactions also will be performed. Briefly, indirect (redox-mediated dissolution of inorganic colloids and minerals, mineralization of organic matter, and/or solubilization of metals) and direct (oxidation/reduction of the analyte) phase transfer mechanisms were also examined.
The mixtures evaluated in this study were: 1) a coal anthracene oil containing
high levels of PAHs, N-O-and S-heterocycles, nitriles, phenols, and amines
(e.g., quinoline, acridine, benzo(h)quinoline, 1-aminopyrene). The compound
spectrum in this mixture is similar to those found in wood preservation wastes,
petrochemical waste streams, incinerator exhausts, urban air particulates and
other high temperature pyrolysates. These materials were added to a) controlled
Eh and, b) simulated tidal marsh microcosms developed in this laboratory for
organic chemical fate studies. Model sediments were a freshwater wetland
sediment (Spring Bayou, LA), a Crowley, LA silt loam agricultural soil and an
estuarine clay (Terrebonne, LA). Three treatments were established for each
sediment: microcosms will be maintained under a) well oxidized (Eh>250 mV)
conditions, b) highly reduced/methanogenic (Eh>-350 mV) conditions and c)
variably oxidized and reduced ("pulsed") conditions. Redox potentials were
monitored using a field deployable Eh data logger. At intervals, sample were
extracted from the microcosms and analyzed quantitatively and qualitatively
using GC, GC-MS and other techniques. All sediment fate data from the microcosms
were referenced to identical sediments that have been sterilized using high
intensity radiation (1-2 Mrad) from a cobalt-60 source.
Identification of transformation products were performed using interpretation of mass spectra and data from previous and on-going deuterated tracer studies of transformation sequences. Partitioning behavior of the mixtures were evaluated in biphasic liquid systems, and in the sediment water systems under oxidized and reduced conditions. The Eh of the redox-pulse systems were logged in a time series, and this allows for an evaluation of time-dependent sorption-desorption regimes and the importance of redox-active metal chemistry in the transformation and mobility of the chemicals.
Publications and Presentations:Publications have been submitted on this subproject: View all 21 publications for this subproject | View all 392 publications for this center
Journal Articles:Journal Articles have been submitted on this subproject: View all 10 journal articles for this subproject | View all 106 journal articles for this center
Supplemental Keywords:biogeochemical processes, contaminant mobility, and hydrology., RFA, Scientific Discipline, Waste, Water, Ecosystem Protection/Environmental Exposure & Risk, Chemical Engineering, Contaminated Sediments, Environmental Chemistry, Fate & Transport, Hazardous Waste, Ecology and Ecosystems, Hazardous, Environmental Engineering, fate and transport, hazardous waste management, hazardous waste treatment, risk assessment, sediment treatment, environmental technology, amines, contaminated marine sediment, soil and groundwater remediation, biodegradation, kinetics, contaminated sediment, nitrites, chemical contaminants, PAH, contaminated soil, hydrology, marine sediments, Phenol, remediation, bioremediation of soils, chemical kinetics, oil spills, biotransformation, organic chemicals, currents, technology transfer, extraction of metals, anaerobic biotransformation, CERCLA, heavy metals, technical outreach, contaminant transport models
Progress and Final Reports:
Main Center Abstract and Reports:R825513 HSRC (1989) - South and Southwest HSRC
Subprojects under this Center: (EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
R825513C001 Sediment Resuspension and Contaminant Transport in an Estuary.
R825513C002 Contaminant Transport Across Cohesive Sediment Interfaces.
R825513C003 Mobilization and Fate of Inorganic Contaminant due to Resuspension of Cohesive Sediment.
R825513C004 Source Identification, Transformation, and Transport Processes of N-, O- and S- Containing Organic Chemicals in Wetland and Upland Sediments.
R825513C005 Mobility and Transport of Radium from Sediment and Waste Pits.
R825513C006 Anaerobic Biodegradation of 2,4,6-Trinitrotoluene and Other Nitroaromatic Compounds by Clostridium Acetobutylicum.
R825513C007 Investigation on the Fate and Biotransformation of Hexachlorobutadiene and Chlorobenzenes in a Sediment-Water Estuarine System
R825513C008 An Investigation of Chemical Transport from Contaminated Sediments through Porous Containment Structures
R825513C009 Evaluation of Placement and Effectiveness of Sediment Caps
R825513C010 Coupled Biological and Physicochemical Bed-Sediment Processes
R825513C011 Pollutant Fluxes to Aquatic Systems via Coupled Biological and Physicochemical Bed-Sediment Processes
R825513C012 Controls on Metals Partitioning in Contaminated Sediments
R825513C013 Phytoremediation of TNT Contaminated Soil and Groundwaters
R825513C014 Sediment-Based Remediation of Hazardous Substances at a Contaminated Military Base
R825513C015 Effect of Natural Dynamic Changes on Pollutant-Sediment Interaction
R825513C016 Desorption of Nonpolar Organic Pollutants from Historically Contaminated Sediments and Dredged Materials
R825513C017 Modeling Air Emissions of Organic Compounds from Contaminated Sediments and Dredged Materials title change in last year to "Long-term Release of Pollutants from Contaminated Sediment Dredged Material"
R825513C018 Development of an Integrated Optic Interferometer for In-Situ Monitoring of Volatile Hydrocarbons
R825513C019 Bioremediation of Contaminated Sediments and Dredged Material
R825513C020 Bioremediation of Sediments Contaminated with Polyaromatic Hydrocarbons
R825513C021 Role of Particles in Mobilizing Hazardous Chemicals in Urban Runoff
R825513C022 Particle Transport and Deposit Morphology at the Sediment/Water Interface
R825513C023 Uptake of Metal Ions from Aqueous Solutions by Sediments
R825513C024 Bioavailability of Desorption Resistant Hydrocarbons in Sediment-Water Systems.
R825513C025 Interactive Roles of Microbial and Spartina Populations in Mercury Methylation Processes in Bioremediation of Contaminated Sediments in Salt-Marsh Systems
R825513C026 Evaluation of Physical-Chemical Methods for Rapid Assessment of the Bioavailability of Moderately Polar Compounds in Sediments
R825513C027 Freshwater Bioturbators in Riverine Sediments as Enhancers of Contaminant Release
R825513C028 Characterization of Laguna Madre Contaminated Sediments.
R825513C029 The Role of Competitive Adsorption of Suspended Sediments in Determining Partitioning and Colloidal Stability.
R825513C030 Remediation of TNT-Contaminated Soil by Cyanobacterial Mat.
R825513C031 Experimental and Detailed Mathematical Modeling of Diffusion of Contaminants in Fluids
R825513C033 Application of Biotechnology in Bioremediation of Contaminated Sediments
R825513C034 Characterization of PAH's Degrading Bacteria in Coastal Sediments
R825513C035 Dynamic Aspects of Metal Speciation in the Miami River Sediments in Relation to Particle Size Distribution of Chemical Heterogeneity