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Fostering efficacy and understanding in communicating the threat of PFAS and actions for PFAS risk reduction

Principal Investigator: Lyn van Swol
Affiliation: University of Wisconsin-Madison
Initiation Date: 2023

This project was funded through the “Social and Economic Impacts of PFAS in the Great Lakes and Lake Champlain Regions” opportunity. 

The main objective of our proposal is how to communicate risk to focus on factors that could increase compliance with PFAS recommendations (e.g., using water filtration systems) and avoid unintended consequences, such as dismissing a complex message due to lack of understanding or generating fear and threat perception without a means to alleviate the threat. We have three studies where we focus specifically on: 1.) What types of information people look for online about PFAS; 2.) what type of messaging is most effective for communicating about the health risk of PFAS in an experiment with a focus on the variables of efficacy to enact recommendations, level of fear and threat conveyed by the message, and complexity of the message, and, 3.) What PFAS-related messages are most engaging in a real-world paid message test conducted on social media to residents who rely on municipal water supplies, including tests targeting both English and Spanish-speakers.

Wisconsin Sea Grant will support outreach efforts for this project.


From Awareness to Action: Assessing PFAS exposure in communities and evaluating the effectiveness of its mitigation strategies

Principal Investigator: Ruohao Zhang
Affiliation: Pennsylvania State University
Initiation Date: 2023

This project was funded through the “Social and Economic Impacts of PFAS in the Great Lakes and Lake Champlain Regions” opportunity. 

The objectives of this study are: i) to advance the understanding of community risks of PFAS pollution exposure in MI, NY, and PA; and ii) to examine the effectiveness of the local regulations in the three states on motivating public awareness and avoidance behaviors.

New York Sea Grant is supporting outreach efforts for this proposal.


A web-based tool for prioritizing pollution mitigation efforts in Lake Michigan tributaries: Harnessing three decades of water quality and biomonitoring data

Principal Investigator: Jason Rohr
Affiliation: University of Notre Dame
Initiation Date: 2024

The objectives of this project are to assist in characterizing and managing pollution-related hazards to tributaries and adjacent communities along the southern half of Lake Michigan. We will accomplish this by 1) deriving a database of risk quotients (RQs; ratio of the environmental concentration of a chemical to a toxicity measurement) specific to this region by combining 30 years of contaminant monitoring data with standardized toxicity information, 2) using the RQs to estimate the effects of pollutants on regional fish and invertebrate populations, 3) highlighting local pollution-related environmental justice concerns by adding income and poverty data to the RQ database, and 4) creating an online tool for managers andstakeholders to search and visualize data from the RQ database and guide decision making.


Quantifying PFAS distribution in coastal Lake Michigan tributaries

Principal Investigator: Gary Lamberti, Daniele de Almeida Miranda
Affiliation: University of Notre Dame
Initiation Date: 2024

PFAS (per- and polyfluoroalkyl substances) are broadly recognized to pose a serious threat to environmental and public health, are now ubiquitous and persistent in the environment, and aquatic systems are particularly susceptible to contamination from multiple sources. Scientists recognize a critical need to better understand the fate and transport of PFAS into aquatic ecosystems and their movement within these systems once present. Understanding PFAS contamination pathways into aquatic ecosystems will allow managers and public officials to better protect food webs and top fish predators that are consumed as a protein source, ultimately protecting public health. Our main objective is to determine the sources, sinks, and cycling of PFAS in stream ecosystems of coastal southern Lake Michigan watersheds as potential routes to human exposure. Our specific objectives are to quantify the PFAS spatial distribution in these biotic matrices, estimate the flows of PFAS among ecosystem compartments, and determine if any compartments act as a persistent reservoir of contamination. We are well positioned to fulfill these objectives by leveraging a recently approved grant from the Indiana Department of Natural Resources (IDNR) – Lake Michigan Coastal Program (LMCP, funded by NOAA) which will provide support for analysis of complementary abiotic samples (i.e., water and sediment).


Bioaccumulation assessment of PFAS from contaminated sediments

Principal Investigator: David Lampert
Affiliation: Illinois Institute of Technology
Initiation Date: 2024

The widespread utilization of per- and polyfluoroalkyl substances (PFAS) has resulted in their appearance in soil, air, water, and biological tissues across the planet. One potential route of PFAS bioaccumulation into people is via consumption of contaminated fish. Previous research has demonstrated that low-level bioaccumulation of pollutants from contaminated sediments into benthic invertebrates is a key route of exposure into the food chain affecting human health. Contaminated sites are often located in areas populated by disadvantaged communities, and therefore consumption of fish by populations in areas of historic pollution is an important environmental justice consideration. PFAS accumulation in commercial fisheries is also an important consideration for the seafood industry and its workforce. This project will improve knowledge of bioaccumulation and other fate and transport processes in saturated media and develop new insight into public perceptions of risks of PFAS exposure through this pathway. The objectives are to: (1) understand the fate and transport processes, including competitive sorption, of complex PFAS mixtures from shallow groundwater to organisms in surface sediments, (2) identify key PFAS that are likely to drive bioaccumulation risk assessments for benthic invertebrates, (3) assess the potential for a passive sampling device to act as a biomimetic for PFAS bioaccumulation, and (4) understand public perceptions of risks posed by PFAS-contaminated fish tissue to inform public policymaking.


Bridging the Gap: Developing Water Resource Assessment Tools for Underserved Communities in the Southern Lake Michigan Region

Principal Investigator: Vlad Iordache
Affiliation: Illinois State Water Survey, Prairie Research Institute, University of Illinois, Urbana-Champaign
Initiation Date: 2024

The crucial role of sustainable, safe, and affordable access to water in achieving human rights and economic prosperity is globally recognized (United Nations Resolution 64/292). For more than a century, local governments have sought the expertise of the Illinois State Water Survey (ISWS) to inform their infrastructure decisions and improve their understanding of water supply issues. However, there are still areas, such as southern Cook and eastern Will Counties (the South Suburbs), that lack the resources and coordination to initiate their own study. These areas rely on both Lake Michigan (for public drinking water) and groundwater (for public drinking water, backup and private domestic supply), and some municipalities may be forced to switch to Lake Michigan as their groundwater quality declines, impacting the allocation of Lake Michigan water for the entire region.

The primary outcomes of this study will be a refinement of and an increase in access to our collective knowledge regarding the suitability of available water resources to meet the demands of the South Suburbs. The overarching goal of ISWS, Chicago Metropolitan Planning Agency, and our numerous supporting partners, in undertaking this endeavor is to provide for a more equitable position for these, otherwise underserved, communities to plan for and negotiate their water resource futures.


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