Passive samplers in support of Remediation, Detection and Bioaccumulation of PFAS
University Of Rhode Island, Kingston RI
Investigators
Linked publications & trials
Abstract
PROJECT SUMMARY/ABSTRACT â PROJECT 4 DETECTION STEEP II Project 4âDetection and Remediation (P4-Detection), will further develop, validate, field-test and deploy passive sampling tools for per- and polyfluorinated alkyl substances (PFAS) in water, biota, air and dust. The field-validation and applications of passive samplers offer several key advances for the detection of PFAS including (i) assessment of relevant human exposure via time-weighted average concentrations, (ii) aiding in identifying the extent of site contamination, and (iii) remediation via simple adsorbents and reliable monitoring tools that can be deployed before, during, and following remediation to verify success. P4âDetection offers several innovative research components to address knowledge gaps surrounding environmental exposure to legacy and novel PFAS, and to provide novel tools to stakeholders. For example, P4âDetection will develop a simple, but effective filter for PFAS in groundwater, and use its passive samplers to monitor a field-based ex situ remediation trial for PFAS in groundwater on Cape Cod (Aim 1). P4âDetection will simultaneously characterize PFAS bioaccumulation in wildlife and field-test passive samplers in the Delaware River (Aim 2), while using passive samplers to measure the biotransformation and bioaccumulation of PFAS in controlled laboratory exposures. P4âDetection will also contribute unique tools and data on PFAS in outdoor and indoor air, and dust to inform STEEP IIâs PFAS exposure assessment (Aim 3). P4âDetection will collaborate with P1âExposure to assess the importance of atmospheric transport of PFAS, another research gap and significant need for STEEPâs stakeholders (Aim 3). P4âDetection will thereby address the SRP mandates of developing âmethods to reduce the amount and toxicity of hazardous substancesâ and âmethods and technologies to detect hazardous substances in the environment.â The work of P4âDetection is well-integrated with the other STEEP II research projects and cores: it will maintain strong links with P1âExposure, with a joint focus on bioaccumulation, and the use of passive samplers for indoor and outdoor air sampling of PFAS; continue work with P3âMechanisms on chemical analysis of PFAS and share mixture profiles of PFAS in cell assays and rodent models; work with P2âCritical Effects to assess the contribution of indoor air and dust to PFAS exposure in the Faroe Islands relative to seafood consumption as part of PI Lohmannâs Fulbright Arctic Initiative fellowship; and exchange samples with P1âExposure to compare the results of extractable organofluorine (EOF) analysis and perform non-target analysis for the other projects. Lastly, P4âDetection will work with STEEP IIâs research translation team, states, and U.S. EPA to disseminate results and applications of passive samplers for PFASs to state and federal agencies; with the DMAC on adhering to FAIR data principles and statistical analysis of the results; with the CEC on indoor air, dust, fish/shellfish and local grown food analysis on Cape Cod; and with the RETCC and the trainee action teams on joint research exchanges, activities, and policy initiatives.
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