Graphical Shading Logs: An Improved Approach for Collecting High Resolution Sedimentological Data at Contaminated Sites

Abstract: Predicting contaminant transport in groundwater requires an accurate representation of the subsurface geology controlling the spatial distribution of hydrogeologic parameters. Developing accurate geological models for sedimentary systems relies on quality sedimentological data collected from cores. Standard logging forms used to collect data from cores create a persistent data gap in hydrogeology because they hinder efficient collection of high‐quality sedimentological data. These logging forms require time‐co… Show more

“…Because heterogeneous geologic conditions directly impact PFAS plume retardation (e.g., Farhat et al 2022), the ability to apply monitored natural attenuation as a remedy is highly dependent on a robust, geologically defensible conceptual site model capable of predicting the geometry, continuity, and nature of fine‐grained units capable of slowing or stopping PFAS plume migration. The methodology and workflow of Environmental Sequence Stratigraphy (Shultz et al 2017), advancements in site characterization methods including improved geologic borehole logging protocols in the field (Meyer et al 2022), advanced geophysical logging of existing boreholes (e.g., nuclear magnetic resonance [NMR] logging), and advancements in modeling the heterogeneity in groundwater systems hold promise for greater efficiency of groundwater cleanups in the coming decades.…”

Leveraging Sequence Stratigraphy to Accelerate Site Remediation: Pliocene Citronelle Formation, Eglin Air Force Base, Florida, USA

“…Because heterogeneous geologic conditions directly impact PFAS plume retardation (e.g., Farhat et al 2022), the ability to apply monitored natural attenuation as a remedy is highly dependent on a robust, geologically defensible conceptual site model capable of predicting the geometry, continuity, and nature of fine‐grained units capable of slowing or stopping PFAS plume migration. The methodology and workflow of Environmental Sequence Stratigraphy (Shultz et al 2017), advancements in site characterization methods including improved geologic borehole logging protocols in the field (Meyer et al 2022), advanced geophysical logging of existing boreholes (e.g., nuclear magnetic resonance [NMR] logging), and advancements in modeling the heterogeneity in groundwater systems hold promise for greater efficiency of groundwater cleanups in the coming decades.…”

Leveraging Sequence Stratigraphy to Accelerate Site Remediation: Pliocene Citronelle Formation, Eglin Air Force Base, Florida, USA

Rock core VOC profiles diagnostic of aquitard occurrence and integrity in a multi-layered sedimentary rock aquifer flow system