The PFAS-NTN Subnetwork, (PFN) officially launched on April 7, 2026. The subnetwork measures weekly concentrations and deposition fluxes of more than 30 per- and polyfluorinated (PFAS) compounds in wet-deposition (precipitation) from NTN samples with sufficient excess volume, >50 mL remaining after NTN analysis.
PFN was established as a provisional subnetwork on January 1, 2024 after several years of method development and long-term validation at a suite of existing NTN sites. The PFN operated as a provisional network until April 2026, when the NADP finalized and approved the QA documentation and SOPs. All sites that participated in the provisional subnetwork transitioned to an official NADP subnetwork. Final data from the provisional network will be available online separately from the official network data.
There is growing concern that PFAS contamination in surface/ground waters, ambient/indoor air, soils and vegetation causes negative health impacts to humans, animals and ecosystems through a myriad of different exposure pathways. The NADP PFAS pilot provides key data to evaluate the atmospheric transport and transformation pathways and fate of a large suite of PFAS compounds. PFAS in wet-deposition (precipitation) can lead to contamination of surface and drinking water sources, soil and vegetation, and in certain environments atmospheric deposition represents the largest source of PFAS to those ecosystems. Leveraging the existing NTN network, with more than 230 wet-deposition monitoring sites across North America, allows for local, regional and national comparisons of PFAS concentrations and depositional fluxes.
PFAS measurements can be added to existing NTN site operations, or a new NTN site can be established. We currently do not plan to offer PFAS measurements outside of the NADP/NTN network. Information on joining the network is available here.
DATA NOTICES
- This_Data_Notice_1
Metadata
- This_Metadata_document.docx
Field Methods
Every Tuesday morning at 9:00 a.m., NTN site operators across the country head to their monitoring stations to retrieve their samples of the previous week’s precipitation, whether rain, snow, or sleet.
Samples are collected continuously in a wet deposition collector. The collector opens automatically during wet weather, allowing the precipitation to fall into a collection bucket lined with a sample bag, and then closes as soon as the precipitation stops.
At the site, the operator replaces the collection bucket and bag with one a new each week. The operator then takes the sample to a field laboratory, where it is weighed. Next, the sample is transferred to a shipping bottle and sent to the CAL in Madison, Wisconsin.
There are minimal changes to the routine NTN field procedures once a site joins the PFAS-NTN subnetwork. The site operator will be asked to replace the collector lid with an NADP-supplied PFAS-free liner. During the weekly sample changeout the operator will be asked to wear vinyl gloves and don a Tyvek jacket (again supplied by NADP) to minimize potential contamination of the precipitation sample. The operator will ship the NTN sample back to the NADP Analytical Laboratory (NAL). Semi-annually, the operator will be asked to process field and trip blanks, and field spikes for quality control.
Each site is also equipped with a weighing-bucket rain gauge that provides a continuous record of rainfall amounts. Rainfall is recorded to the nearest 0.01 in. The rain gauge also monitors the wet deposition collector, recording whether the collector was properly open during wet periods and closed during dry periods.
Lab Methods
Upon receipt of the NTN sample at the NADP laboratory, a sub-sample (100 mL) is taken for measurement of the routine NTN analytes in the NAL, and excess volume is transferred to the PFAS laboratory. PFAS in the precipitation samples are quantified using isotope-dilution liquid chromatography tandem mass spectrometry (ID-LC-MS/MS). An automated solid-phase extraction protocol (WAX-SPE) is performed prior to quantification to isolate and pre-concentrate the 30+ PFAS compounds.
The laboratory PFAS analysis is joined with the existing NTN precipitation and sample details after the NTN sample has undergone it’s complete review. After basic checks for inconsistent data is performed, the data is uploaded into a static database table. The data in this table is used for data downloads from the web.
The current listing of laboratory SOPs are available. Copies are available upon request.