Hydrogeochemistry of the Meade thrust allochthon, southeastern Idaho, U.S.A., and its relevance to stratigraphic and structural groundwater flow control

“…In addition to our sampling, historical compositions for seven selected groundwater wells (to improve east to west coverage) extracted from the Idaho Department of Water Resources online water quality data base (https://maps.idwr.idaho.gov/map/edms) are included in Table . Repeated sampling for major anions, cations, temperature, and pH characterization conducted over a period of 8 years (results not shown) as well as observations of others show that the composition of these waters have been chemically consistent over time …”

“…Type I water is similar to the deeper aquifer described by Mayo and others and has had only minimal interactions with the overlying BVF basalt . Maskel and others report 87 Sr/ 86 Sr values of 0.70851 for waters from three Type I features .…”

“…The Soda Springs site is composed of many CO 2 springs, leaking wells, and associated travertine deposits that are distributed throughout an approximately 65‐km surface expression of the leaking CO 2 system. The source of the CO 2 at the site has been suggested to be the dissolution of Paleozoic marine carbonates and marine shale by deeply derived acidic geothermal fluids …”

“…The source of the CO 2 at the site has been suggested to be the dissolution of Paleozoic marine carbonates and marine shale by deeply derived acidic geothermal fluids. [50][51][52]54,55…”

The use of environmental tracers to characterize a leaky CO₂ CCS natural analogue site, Soda Springs, Idaho, USA

“…In addition to our sampling, historical compositions for seven selected groundwater wells (to improve east to west coverage) extracted from the Idaho Department of Water Resources online water quality data base (https://maps.idwr.idaho.gov/map/edms) are included in Table . Repeated sampling for major anions, cations, temperature, and pH characterization conducted over a period of 8 years (results not shown) as well as observations of others show that the composition of these waters have been chemically consistent over time …”

“…Type I water is similar to the deeper aquifer described by Mayo and others and has had only minimal interactions with the overlying BVF basalt . Maskel and others report 87 Sr/ 86 Sr values of 0.70851 for waters from three Type I features .…”

“…The Soda Springs site is composed of many CO 2 springs, leaking wells, and associated travertine deposits that are distributed throughout an approximately 65‐km surface expression of the leaking CO 2 system. The source of the CO 2 at the site has been suggested to be the dissolution of Paleozoic marine carbonates and marine shale by deeply derived acidic geothermal fluids …”

“…The source of the CO 2 at the site has been suggested to be the dissolution of Paleozoic marine carbonates and marine shale by deeply derived acidic geothermal fluids. [50][51][52]54,55…”

The use of environmental tracers to characterize a leaky CO₂ CCS natural analogue site, Soda Springs, Idaho, USA

“…Although instructive, these studies have limited applicability to groundwater flow in stratified mountainous terrain, because many are based on the limitations of computer simulations, on data collected only at or near the land surface, and on patterns of deep phreatic flow that are largely inferred. Most stratified mountainous systems consist of numerous stratigraphic and structural features that locally and regionally affect groundwater flow patterns (Allen and Michel, 1998;Janes, 1998;Huntoon, 1981;Mayo et al, 1985;Mayer and Sharp, 1998). In this investigation, we have used geological, physical, chemical, and isotopic data to evaluate interactions between near-surface and 300-700-mdeep groundwater systems in gently dipping stratified bedrock that underlies a 6500 km 2 mountainous region in Utah, USA (Fig.…”

Active and inactive groundwater flow systems: Evidence from a stratified, mountainous terrain

Remediation scenarios for selenium contamination, Blackfoot watershed, southeast Idaho, USA