In Situ Degradation of Petroleum Hydrocarbons and PAHs in Contaminated Salt Marsh Sediments
EPA Grant Number: R825511C010Subproject: this is subproject number 010 , established and managed by the Center Director under grant R825511
(EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
Center: HSRC (1989) - Northeast HSRC
Center Director: Sidhu, Sukh S.
Title: In Situ Degradation of Petroleum Hydrocarbons and PAHs in Contaminated Salt Marsh Sediments
Investigators: Haggblom, Max , Kukor, Jerome J. , Zylstra, Gerben J.
Institution: Rutgers, The State University of New Jersey
EPA Project Officer: Manty, Dale
Project Period: September 19, 1999 through May 31, 2001
RFA: Hazardous Substance Research Centers - HSRC (1989) RFA Text | Recipients Lists
Research Category: Hazardous Substance Research Centers , Land and Waste Management
Objective:
Contamination of estuarine environments by toxic organic contaminants, such as petroleum hydrocarbons and polyaromatic hydrocarbons (PAHs), resulting from industrial activities in New Jersey has become a significant environmental concern. The management of contaminated shorefront properties and sediments is a major problem facing the State and industries. The proposed study will examine the intrinsic biodegradation of contaminants in salt marshes of Spartina alterniflora and Phragmites australis. In particular, the work is examining the impact of rhizosphere microorganisms on biodegradation of petroleum hydrocarbons and PAHs, and evaluating the importance of plant-microbial associations. Wetlands may play an important function in remediation of contaminated sites and can potentially reduce the impact of contaminants. The project is developing methodologies for monitoring in situ bioremediation of contaminated sediments. Molecular probe methods are developed in order to track PAH-degradative activity in the rhizosphere as well as in the bulk sediment that will allow for quantitative real-time biomonitoring of degradative activity.
Approach:
This study was designed to develop methods for monitoring intrinsic bioremediation of PAHs and other petroleum hydrocarbons in salt marsh environments. The microbial community structure in the rhizosphere of Spartina and Phragmites salt marshes will be characterized, and methodologies for monitoring intrinsic bioremediation in the field will be developed. A series of molecular probes are being developed to detect specific genes or a particular class of genes (distinctive of particular bacterial groups) in order to identify which PAH-degrading organisms are present and active at a particular site. These techniques will also allow the prediction of the range of PAHs that can be degraded at a particular site.
Specific objectives are to:
1. Characterize the microbial communities in the rhizosphere of Spartina
alterniflora and Phragmites australis in contaminated salt marshes
and isolate PAH-degrading bacteria.
2. Characterize the genes and pathways of selected PAH-degrading bacterial isolates.
3. Develop generic and specific PCR primers to detect particular classes of
genes involved in PAH degradation of different bacteria.
4. Use molecular probes and chemical markers to assess the activity of the microbial
community and identify which members of the community are involved in PAH degradation.
The investigators have isolated numerous polyaromatic (PAH)-degrading bacteria, including the spore-forming Paenibacillus from the rhizospheres of Spartina alterniflora and Phragmites australis, common salt marsh grasses of mid-Atlantic estuaries. It appears that paenibacilli are abundant in tidal marshes and may be derived from marine waters, thus this genus is probably an important component of the PAH-degrading bacterial community present in tidal marshes. Probes for Southern hybridization based on classical PAH-dioxygenase sequences did not hybridize to any of the Paenibacillus spp. isolated, suggesting that the PAH-dioxygenases of these organisms may be unique. The dioxygenases of the Paenibacillus spp. are compared with characterized PAH-dioxygenases at the molecular, phylogenetic and biochemical levels and the information used to evaluate the relative importance of the Paenibacillus in the PAH-degrading bacterial community of salt marsh plant rhizospheres. The project is on target and will be completed June 30, 2001.
Expected Results:
The industrial activities in the New Jersey/New York harbor estuary has resulted in widespread contamination, and the management of contaminated sediments and shore front properties has become a serious problem. The study is examining how toxic organic contaminants are degraded in salt marshes of Spartina alterniflora and Phragmites australis. To evaluate the potential for intrinsic bioremediation it is important to monitor and verify that PAH-degrading bacteria are active, and the these processes actually are occurring in situ. Since the microorganisms involved in PAH degradation in salt marsh environments appear to be different and also harbor novel genes, specific molecular probes will be developed to monitor their activity.
Supplemental Keywords:
Biodegradation, PAH, Sediments, Remediation, Anaerobic Organisms., RFA, Scientific Discipline, Waste, Water, Chemical Engineering, Contaminated Sediments, Remediation, Environmental Chemistry, Analytical Chemistry, Hazardous Waste, Bioremediation, Ecology and Ecosystems, Hazardous, Environmental Engineering, hazardous waste management, hazardous waste treatment, risk assessment, sediment treatment, environmental technology, decontamination of soil and water, in situ remediation, soil and groundwater remediation, biodegradation, risk management, contaminated sediment, decontamination of soil, chemical contaminants, contaminated soil, in situ degradation, salt marsh sediments, contaminants in soil, bioremediation of soils, PAHs, biotransformation, technology transfer, extraction of metals, CERCLAProgress and Final Reports:
Final ReportMain Center Abstract and Reports:
R825511 HSRC (1989) - Northeast HSRC Subprojects under this Center: (EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
R825511C001 Development of Mechanisms and Kinetic Models on Formation of Polychlorinated Dibenzo-p-Dioxins and Dibenzofurans from Aromatic Precursors
R825511C002 Real-Time Monitoring and Control of Emissions from Stationary Combustors and Incinerators
R825511C003 Development of Sampling Systems for Continuous Monitoring of Volatile Organic Compounds (VOCs)
R825511C004 Investigation into the Effectiveness of DNAPL Remediation Strategies in Fractured Media
R825511C005 Advanced Leak Detection and Location Research: Extending the SERDP-funded Technical Base
R825511C006 Three-Dimensional Geostatistical Site Characterization with Updating
R825511C007 Anaerobic Biodegradation of PAHs in Soils and Dredged Sediments: Characterizing, Monitoring and Promoting Remediation
R825511C008 Substrate Accelerated Death and Extended Lag Phases as Causes of the Recalcitrance of Halogenated Compounds in Anoxic Environments
R825511C009 Fate and Transport of Nonionic Surfactants
R825511C010 In Situ Degradation of Petroleum Hydrocarbons and PAHs in Contaminated Salt Marsh Sediments
R825511C011 Design and Operation of Surfactant-Enhanced Bioslurry Reactors
R825511C012 Experimental Study of Overland Transport of Cryptosporidium parvum Oocysts
R825511C013 Development of a Framework for Evaluation of Leaching from Solid Waste
R825511C014 Use of a New Leaching Test Framework for Evaluating Alternative Treatment Processes for Mercury Contaminated Mixed Waste (Hazardous and Radioactive)
R825511C015 Field Pilot Test of In Situ Ultrasonic Enhancement Coupled With Soil Fracturing to Detoxify Contaminated Soil
R825511C016 Development of Sampling Systems for Continuous Monitoring of Volatile Organic Compounds (VOCs)
R825511C017 Field Demonstration of the Use of Reactive Zero-Valence Iron Powder to Treat Source Zone Sites Impacted by Halogenated Volatile Organic Chemicals
R825511C018 Technology Transfer of Continuous Non-Methane Organic Carbon (C-NMOC) Analyzer
R825511C019 Field Sampling and Treatability Study for In-Situ Remediation of PCB's and Leachable Lead with Iron Powder
R825511C020 Experimental and Modeling Studies of Chlorocarbon Incineration, PIC Formation, and Emissions Control
R825511C021 Experimental Studies and Numerical Modeling of Turbulent Combustion During Thermal Treatment of Hazardous Wastes: Applied Research for the Generation of Design and Diagnostic Tools
R825511C022 Electrochemical Sensor for Heavy Metals in Groundwater - Phase IV
R825511C023 Novel Molecular Tools for Monitoring In-Situ Bioremediation
R825511C024 Surfactant-Enhanced Bioremediation of Soils in the Presence of an Organic Phase
R825511C025 Enhanced Microbial Dechlorination of PCBs and Dioxins in Contaminated Dredge Spoils
R825511C026 Toward A Risk-Based Model for Bioremediation of Multicomponent NAPL Contaminants
R825511C027 Removal and Recovery of VOCs and Oils from Surfactant-Flushed Recovered Water by Membrane Permeation
R825511C029 Field Pilot Test of In-Situ Ultrasonic Enhancement Coupled With Soil Fracturing to Detoxify Contaminated Soil in Cooperation with McLaren/Hart Environmental Engineers at the Hillsborough, NJ Site
R825511C030 In-Situ Field Test of Electroremediation of a Chromate-Contaminated Site in Hudson County, New Jersey
R825511C031 Electrokinetic Removal of Heavy Metals and Mixed Hazardous Wastes from Partially and Fully Saturated Soils
R825511C032 Effects of Clay Charge and Confining Stresses on Soil Remediation by Electroosmosis
R825511C033 Assessment of Surfactant Enhanced Bioremediation for Soils/Aquifers Containing Polycyclic Aromatic Hydrocarbons (PAHs)
R825511C034 In-Situ Bioremediation of Organic Compounds: Coupling of Mass Transfer and Biodegradation
R825511C035 Investigation into the Effectiveness of DNAPL Remediation Strategies in Fractured Media
R825511C036 Field Pilot Scale Demonstration of Trench Bio-Sparge: An In-Situ Groundwater Treatment Technology
R825511C037 In-Situ Reductive Dehalogenation of Aliphatic Compounds by Fermentative Heterotrophic Bacteria
R825511C038 The Effect of Carbon-Nitrogen Ratios on Bacterial Transport and Biodegradation Rates In Soils
R825511C039 Ultrasonic Enhancement of Soil Fracturing Technologies for In-Situ Detoxification of Contaminated Soil
R825511C040 Full Field Demonstration of Integrated Pneumatic Fracturing and In-Situ Bioremediation
R825511C041 Determination of Adsorption and Desorption Behavior of Petroleum Products on Soils
R825511C042 Evaluation of the Potential for Complete Bioremediation of NAPL-Contaminated Soils Containing Polycyclic Aromatic Hydrocarbons (PAHs)
R825511C043 Characterization of Subsurface NAPL Distributions at Heterogeneous Field Sites
R825511C044 Development of a Thermal Desorption Gas Chromatograph/Microwave Induced Plasma/Mass Spectrometer (TDGC/MIP/MS) for On-site Analysis of Organic and Metal Contaminants
R825511C045 Using Trainable Networks for a Three-dimensional Characterization of Subsurface Contamination
R825511C046 Application of Advanced Waste Characterization to Soil Washing and Treatment
R825511C047 Electrochemical Sensor for Heavy Metals in Groundwater Phase III
R825511C048 Improved Luminescence Sensors for Oxygen Measurement
R825511C049 Preconcentration, Speciation and Determination of Dissolved Heavy Metals in Natural Waters, using Ion Exchange and Graphite Furnace Atomic Absorption Spectrometry
R825511C050 Experimental and Modeling Studies of Chlorocarbon Incineration and PIC Formation
R825511C051 PIC Emission Minimization: Fundamentals and Applications
R825511C052 Project Title: Development of a Two Stage, Pulse Combustion, VOC Destruction Technology
R825511C053 Development of Sampling Systems for Continuous Monitoring of Volatile Organic Compounds (VOCs)
R825511C054 FTIR Analysis of Gaseous Products from Hazardous Waste Combustion
R825511C055 Toxic Metals Volatilization for Waste Separation and Real-time Metals Analyses
R825511C056 Mixed Metal Removal and Recovery by Hollow Fiber Membrane-Based Extractive Adsorber
R825511C057 Removal of Volatile Organic Compounds (VOCs) from Contaminated Groundwater and Soils by Pervaporation
R825511C058 Simultaneous SO2/NO Removal/Recovery by Hollow Fiber Membrane
R825511C059 Superfund Sites and Mineral Industries Method
R825511C060 Soil Washing of Mixed Organics/Metal Contamination
R825511C061 Removal of Cesium, Strontium, Americium, Technetium and Plutonium from Radioactive Wastewater
R825511C062 Development of a Method for Removal of Nonvolatile Organic Materials from Soil using Flotation
R825511C063 Recovery of Evaporative Fuel Losses by Vapor Permeation Membranes
R825511C064 Surfactant Selection Protocol for Ex Situ Soil Washing
R825511C065 Biofiltration for the Control of Toxic Industrial VOCs Emissions
R825511C066 Catalytic Oxidation of Volatile Organic Compounds in Water
R825511C067 Soil Washing for Remediating Metal Contaminated Soils
R825511C068 Aqueous Absorption and Kinetics of NO by Strong Oxidizing Agents
R825511C069 Remediation of Dredging Spoils
R825511C070 Freeze Concentration for Zero-Effluent Processes
R825511C071 Life Cycle/Pollution Prevention Response to Executive Order 12856
R825511C072 Faster Better, Cheaper Hazardous Waste Site Characterization and Cleanup: an Adaptive Sampling and Analysis Strategy Employing Dynamic Workplans
R825511C073 Development of a Comprehensive Computer Model for the Pneumatic Fracturing Process
R825511C074 Technology Demonstration and Validation of CFAST Field Analytical Instrumentation for Use in Hazardous Waste Site Characterization, Clean-up and Monitoring
R825511C075 XFLOW: Training Software Simulating Contaminant Site Characterization and Remediation