ITRC PFAS Beyond the Basics: PFAS Fate and Transport, Site Characterization and Source ID Training
Archived: Thursday, May 23, 2024
Sponsored by: Interstate Technology and Regulatory Council
This training class builds on the earlier information for fate and transport and site characterization presented in the PFAS 101 CLU-IN training. It provides more in-depth information for fate and transport, site characterization, source identification and some introductory information on environmental forensics. These topics will be presented along with options and a framework for data visualization. This training will focus largely on PFAS fate and transport in groundwater. The goal is to provide detailed information about the inputs practitioners can use to develop a robust conceptual site model to help understand fate and transport at PFAS sites, and how to gather evidence of multiple sources.
Resources and further details for the topics included in this training are in the ITRC Guidance Document (PFAS-1) in Sections 2.6, 3, 4, 5, 10, 11 and 15 along with referenced tables.
Learning Objectives:
- Understand fate and transport processes that are unique to PFAS due to their physical and chemical properties.
- How to characterize sites with these processes and properties in mind.
- Describe options for and advantages of various data visualization techniques.
- Introduce basic forensic techniques for source evaluation.
Michael Bock, Verdantas (mbock@verdantas.com)
Dr. Michael Bock is a Senior Principal with over 25 years of experience in environmental science and consulting. He specializes in the investigation and assessment of contaminated marine and freshwater sediments, including statistical analysis, forensic analysis and source allocation, fate and transport modeling, species sensitivity toxicity evaluations, and ecological and human health risk assessment. His expertise includes using multivariate statistical data analysis such as multicriteria analysis and receptor modeling/source unmixing (e.g., principal components analysis, hierarchical cluster analysis, ratio analysis, and receptor modeling), to determine fingerprint patterns and allocate sources in environmental samples. His environmental forensic work has focused extensively on discerning sources and the fate of polychlorinated biphenyls (PCBs), dioxins and furans (PCCD/Fs), Per- and polyfluoroalkyl substances (PFAS), polycyclic aromatic hydrocarbons (PAHs), and metals in rivers, lakes, ports, harbors, groundwater, and soil. He has developed multimedia fate and transport models that are used to model organic chemicals in the environment, during wastewater treatment, and in land applied biosolids. These models have been used to assess the concentration, persistence, treatability, bioaccumulation, and weathering of chemicals in the environment.
Robert Burgess, Alaska Department of Environmental Conservation (robert.burgess@alaska.gov)
Robert Burgess works as an Environmental Program Specialist with the Alaska Department of Environmental Conservation in the Contaminated Sites Program. He has over 10 years of experience providing regulatory oversight on contaminated site characterization and cleanup at a variety of sites throughout the largest state in the nation, and currently serves as a PFAS subject matter expert for Alaska. Robert earned a B.S. in Biology from the University of Alaska Fairbanks, and a M.S. in Biological Sciences with a research focus on molecular microbial ecology and environmental microbiology from the same institution. Robert joined the ITRC PFAS team in 2017 and has been the co-lead of the Fate and Transport, Site Characterization, and Physical and Chemical Properties subgroup since 2021.
Ted Campbell, NC DEQ (ted.campbell@deq.nc.gov)
Ted Campbell is an Environmental Program Consultant and Regional Hydrogeologist for the Department of Environmental Quality (DEQ). Ted Campbell played a key part in the largest coal ash cleanup in the nation. His work in testing complex groundwater modeling from Duke Energy helped lead to the State of North Carolina's historic settlement agreement with Duke to clean up coal ash basins in the state. Campbell is DEQ's lead expert on the calculation of background values of groundwater contaminants. He is also the Co-Lead investigator for a PFAS fate and transport study in a multi-county watershed with high profile impacts to surface and groundwater drinking supplies of over 200,000 residents. Mr. Campbell is also developing an updated conceptual model of PFAS sources and basin wide characteristics that influence transport in space and time.
Dina Drennan, BEM Systems (ddrennan@bemsys.com)
Dr. Dina Drennan is a Senior Environmental Scientist with 15 years of experience in academia, research, and consulting. Her work has focused on site characterizations, microbial ecology of engineered systems, fate and transport of emerging contaminants. She has worked in research and treatability laboratories. More recently her work has focused on developing conceptual site models, informing data gaps, and applying forensic techniques for PFAS source appointment. Dina has a B.S. in Biology from Syracuse University and an M.S. and PhD in Civil and Environmental Engineering from Colorado School of Mines and has been an active contributor to the Interstate Technology and Regulatory Council’s PFAS team since 2022.
Sandra Goodrow, Ph.D., NJDEP, Division of Science and Research (Sandra.Goodrow@dep.nj.gov)
Dr. Sandra Goodrow is a Research Scientist in the New Jersey Department of Environmental Protection's (NJDEP) Division of Science and Research. Dr. Goodrow is a physical and chemical environmental modeler, evaluating the sources, fate, transport, and transformation of emerging compounds including per- and polyfluoroalkyl substances (PFAS). Dr. Goodrow has been involved in multiple research efforts that identify occurrences and track down sources of PFAS and other emerging compounds in fish tissue, surface water, and sediments from around the State of New Jersey and provides technical expertise for the Contaminants in Fish Tissue program. She has coordinated efforts with US EPA Office of Research and Development on multi-media analysis leading to the detection of a novel PFAS present in the New Jersey environment. She also served as the co-Team lead for the Interstate Technology Regulatory Council's (ITRC) PFAS Team from 2020 through 2023 and is currently an active team member.
Chris Olivares, University of California, Irvine (chris.olivares@uci.edu)
Christopher Olivares Martinez is an Assistant Professor in the civil and environmental engineering department of the University of California, Olivares Martinez's current research includes environmental biotechnology, remediation, metabolomics, pollutant fate in natural and engineered systems, microbial toxicity and environmental organic chemistry. Before arriving at UCI, Olivares Martinez was a postdoctoral fellow at the UC Berkeley Department of Civil and Environmental Engineering, where he studied in‐situ chemical remediation of per‐ and polyfluorinated alkyl substances (PFAS), as well as the impact to microbial bioremediation on co-contaminants. He has also researched water quality impacts from forest fires and bioremediation and toxicity of munitions compounds. Olivares Martinez earned a doctorate in environmental engineering from the University of Arizona. He also earned master's degrees in environmental engineering and French literature and culture.
Skyler Sorsby, WSP (skyler.sorsby@wsp.com)
Skyler Sorsby is a hydrogeologist at WSP with sediment and upland remediation experience in eleven different states. Skyler's technical focus includes fate-and-transport assessments, groundwater modeling, and multivariate statistical assessment of environmental chemistry datasets (including PFAS). Skyler is an active participant in the PFAS, Data Science, and Groundwater Modeling communities at WSP, and provides global support for projects requiring an environmental data science approach to extract complex patterns from large datasets.
Ryan Thomas, Parsons (Ryan.Thomas@parsons.com)
Dr. Ryan Thomas serves as an Emerging Contaminants Principal and Analytical Chemistry Director with over 16 years of experience in academic research and professional consulting focused on site characterization, sampling and analysis, and remediation technologies. His areas of expertise include performing and directing treatability studies to evaluate remedial alternatives for industrial sites with soil, groundwater, drinking water sources, landfill seeps, and surface water streams impacted with chlorinated solvents, metals, and emerging contaminants
such as per- and polyfluoroalkyl substances (PFAS) and 1,4-dioxane. Ryan has provided technical guidance for public and private clients, published peer-reviewed articles, and delivered technical presentations at national and international conferences. Since 2017, he has served in various roles for the Interstate Technology and Regulatory Council's PFAS team including as a Member of the Sampling and Analysis subgroup and most recently as a Writing Subgroup Co-Leader for the Physical and Chemical Properties, Fate and Transport, and Occurrence, and Site Characterization sections. Ryan has a B.S. degree in Chemistry from the University of Michigan-Dearborn and Ph.D. degree in Analytical Chemistry from Wayne State University.
Moderator:
ITRC Training Program (itrc@itrcweb.org)
Webinar Slides and References:
Additional Resources:
- These materials will be available by Thursday, May 23, 2024
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Rehabilitation Act Notice for Reasonable Accommodation
It is EPA's policy to make reasonable accommodation to persons with disabilities wishing to participate in the agency's programs and activities, pursuant to the Rehabilitation Act of 1973, 29 U.S.C. 791. Any request for accommodation should be made to ITRC Training Program at 202-266-4932 or itrc@itrcweb.org, preferably one week or more in advance of the webinar, so that EPA will have sufficient time to process the request. EPA would welcome specific recommendations from requestors specifying the nature or type of accommodation needed. EPA welcomes specific recommendations from requestors specifying the nature or type of accommodation needed. Please note that CLU-IN provides both alternate phone call-in options and closed captioning for all webinars, and requests for these specific accommodations are not necessary.
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