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Alberta Earthquakes (NAD83 10TM)
Alberta Geological Survey
Alberta Geological Survey 2024-05-28 <p>This dataset depicts earthquakes within Alberta from mid September 2006 to present. The events were recorded on seismographs belonging to the Regional Alberta Observatory for Earthquake Studies Network (RAVEN), Canadian Rockies and Alberta Network (CRANE), the Canadian National Seismograph Network (CNSN), the Alberta Telemetered Seismograph Network (ATSN), the Montana Regional Seismograph Network (MRSN), the TransAlta Dam Monitoring Network (TD), the Northeast British Columbia Network (NEBC), and the American National Seismograph System (USRef). The locations were calculated using the Boulder Real Time Technologies Antelope collection of software for the acquisition, archival, and analysis of seismic waveforms with the hypocentre inversion algorithm GENLOC. The locations have been reviewed and are believed to represent actual seismic events. As more seismic data or information becomes available locations may be added, modified, or removed from future versions of this dataset.</p>Date Updated: 03-Dec-2024 | Number of features: 8487
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Aeromag Survey (Shield Area) - Automatic Gain Correction (3km) • CONTOURS
Alberta Geological Survey
Alberta Geological Survey 2021-08-30 <div>Resulting data from aeromagnetic survey in Northern Alberta, Canada conducted from February 12th to March 30th, 2021.</div><div><br /></div> https://www.aer.ca/' rel='nofollow ugc' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Lake Boundary
Alberta Geological Survey
Alberta Geological Survey 2021-11-08 <div><span style='font-family:&quot;Avenir Next W01&quot;, &quot;Avenir Next W00&quot;, &quot;Avenir Next&quot;, Avenir, &quot;Helvetica Neue&quot;, sans-serif; font-size:16px;'>Boundaries for the lakes in Alberta and related information were collected from the source data, hard copy maps digitized where necessary, and subsequently merged into the final dataset. The data was validated against more recent SRTM (Shuttle Radar Topography Mission) and IRS (Indian Remote Sensing) imagery and corrected where necessary. The published dataset contains the lake boundary and bathymetric contours formatted as a</span> <a href='https://geology-ags-aer.opendata.arcgis.com/datasets/ags-aer::lake-boundary-1/about' target='_blank' rel='nofollow ugc noopener noreferrer'>downloadable vector data</a>.</div><div><br /></div> https://www.aer.ca/' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:&quot;Avenir Next W01&quot;, &quot;Avenir Next W00&quot;, &quot;Avenir Next&quot;, Avenir, &quot;Helvetica Neue&quot;, sans-serif; font-size:16px;' target='_blank' rel='nofollow ugc noopener noreferrer'>Alberta Energy Regulator</a><span style='font-family:&quot;Avenir Next W01&quot;, &quot;Avenir Next W00&quot;, &quot;Avenir Next&quot;, Avenir, &quot;Helvetica Neue&quot;, sans-serif; font-size:16px;'> / </span><a href='
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Aeromag Survey (Shield Area) - Automatic Gain Correction (25km) • CONTOURS
Alberta Geological Survey
Alberta Geological Survey 2021-08-30 <div>Resulting data from aeromagnetic survey in Northern Alberta, Canada conducted from February 12th to March 30th, 2021.</div><div><br /></div> https://www.aer.ca/' rel='nofollow ugc' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Glacial Landforms of Alberta, Canada (DIG 2014-0022)
Alberta Geological Survey (AGS)
Alberta Geological Survey (AGS) 2015-12-23 <p><span><span>Spatial dataset compiled by </span></span><a href='https://ags.aer.ca/' target='_blank' rel='nofollow ugc noopener noreferrer'>Alberta Geological Survey</a><span><span> portraying the distribution of glacial landforms in Alberta, based on the compilation of existing government survey mapping and research literature, supplemented by new analysis of remote sensing data. It is the dataset that was used to create Alberta Geological Survey Map 604 (Glacial Landforms of Alberta) using an intermediate step of reducing the density of closely spaced line segments to make the features suitable for map production at 1:1 000 000 scale. This dataset contains the original line features without any cartographic generalization. The data were created in geodatabase format and output for public distribution in shapefile format.</span></span></p> https://www.aer.ca/' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:&quot;Avenir Next W01&quot;, &quot;Avenir Next W00&quot;, &quot;Avenir Next&quot;, Avenir, &quot;Helvetica Neue&quot;, sans-serif; font-size:16px;' target='_blank' rel='nofollow ugc noopener noreferrer'>Alberta Energy Regulator</a><span style='font-family:&quot;Avenir Next W01&quot;, &quot;Avenir Next W00&quot;, &quot;Avenir Next&quot;, Avenir, &quot;Helvetica Neue&quot;, sans-serif; font-size:16px;'> / </span><a href='
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Aeromag Survey (Shield Area) - Residual RMI (3rd Order TR) • CONTOURS
Alberta Geological Survey
Alberta Geological Survey 2021-08-30 <div>Resulting data from aeromagnetic survey in Northern Alberta, Canada conducted from February 12th to March 30th, 2021.</div><div><br /></div> https://www.aer.ca/' rel='nofollow ugc' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Kimberlite and Ultrabasic Intrusions (DIG 2019-0028)
Alberta Geological Survey
Alberta Geological Survey 2020-09-18 <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>This dataset contains information for 63 kimberlite and ultrabasic occurrences in Alberta. Data includes location, aerial extent, overburden depth, diamond content, number of micro and macro diamonds, and age. Data was extracted from four Alberta Geological Survey (AGS) publications (DIG 2004-0035, Geo-Note 2002-23, Open File Report 2012-01 and Bulletin 65). Locations were corrected from previous versions based on the original coordinates found in mineral assessment reports. The location of a kimberlite or ultrabasic intrusion or volcanic occurrence represents a generalized location for all drillhole intersections for that target. This dataset was produced for AGS Map 590, Minerals of Alberta, and supersedes the existing compilation of known kimberlite and ultrabasic intrusion locations for Alberta (DIG 2004-0035). Additional occurrences such as the minette intrusions and volcanics in southern Alberta and four more occurrences in the Buffalo Head Hills area were added ((TQ-160, BE-01, BE-02 and BE-03). This dataset is part of a package of data produced to support the creation of AGS Map 590, Minerals of Alberta. The package includes datasets of Prospective Areas for Mineral Exploration (DIG 2019-0025), Metallic Mineral Occurrences of Alberta (DIG 2019-0026), Industrial Mineral Occurrences of Alberta (DIG 2019-0027), Lithium Content in Groundwater and Formation Water in Alberta (DIG 2019-0029), references (txt), and a description of the methodology (Map 590 Information Document).</SPAN></P></DIV></DIV></DIV> https://www.aer.ca/' rel='nofollow ugc' style='font-family: Helvetica, sans-serif; font-size: 15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family: Helvetica, sans-serif; font-size: 15.3333px;'> / </span><a href='
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Aeromag Survey (Shield Area) - Automatic Gain Correction (10km) • CONTOURS
Alberta Geological Survey
Alberta Geological Survey 2021-08-30 <div>Resulting data from aeromagnetic survey in Northern Alberta, Canada conducted from February 12th to March 30th, 2021.</div><div><br /></div> https://www.aer.ca/' rel='nofollow ugc' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Metallic Mineral Occurrences (DIG 2019-0026)
Alberta Geological Survey
Alberta Geological Survey 2020-09-22 <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>This dataset is a compilation of metallic mineral occurrences of economic interest that have been found in Alberta either by government or industry exploration. The dataset comprises a diverse suite of metals including precious metals, base metals, uranium and iron. The occurrences are classified based on commodity and development stage and status into producers, past producers, projects with resource estimate, prospects, showings, and anomalies. This dataset is part of a package of datasets produced to support the creation of AGS Map 590, Minerals of Alberta. The package includes datasets of Prospective Areas for Mineral Exploration (DIG 2019-0025), Industrial Mineral Occurrences of Alberta (DIG 2019-0027), Kimberlite and Ultrabasic Intrusions of Alberta (DIG 2019-0028), Lithium Content in Groundwater and Formation Water in Alberta (DIG 2019-0029), references (txt), and a description of the methodology (Map 590 Information Document).</SPAN></P></DIV></DIV></DIV> https://www.aer.ca/' rel='nofollow ugc' style='font-family: Helvetica, sans-serif; font-size: 15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family: Helvetica, sans-serif; font-size: 15.3333px;'> / </span><a href='
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Alberta Core Locations (with Imagery Data Links)
Alberta Geological Survey
Alberta Geological Survey 2023-03-14 <div style='text-align:Left;'><p><span style='font-family:&quot;Avenir Next W01&quot;, &quot;Avenir Next W00&quot;, &quot;Avenir Next&quot;, Avenir, &quot;Helvetica Neue&quot;, sans-serif; font-size:16px;'>Spatial dataset compiled by </span><a href='https://ags.aer.ca/' target='_blank' rel='nofollow ugc noopener noreferrer'>Alberta Geological Survey</a><span style='font-family:&quot;Avenir Next W01&quot;, &quot;Avenir Next W00&quot;, &quot;Avenir Next&quot;, Avenir, &quot;Helvetica Neue&quot;, sans-serif; font-size:16px;'> containing core locations in Alberta, Canada, linked to hyperspectral imagery and high-resolution photographs.</span><br /></p><p><span>The individual hyperspectral images and data available are organized categorically into short wavelength infrared (</span><span style='font-weight:bold;'>SWIR</span><span>), long wavelength infrared (</span><span style='font-weight:bold;'>LWIR</span><span>), visible and near-infrared (</span><span style='font-weight:bold;'>VNIR</span><span>) and red-green-blue (</span><span style='font-weight:bold;'>RGB</span><span>) downloadable zip archives. The pixel resolution varies with category: RGIB=0.1mm, VNIR=0.45 mm (resampled to 1.13 mm), SWIR=1.13mm, LWIR=1.13mm. </span></p><p><span style='font-weight:bold;'>RGB</span><span> = high resolution, natural colour photograph of core sample. </span></p><p><span style='font-weight:bold;'>SWIR</span><span> images include both peak-wavelength mean (wavelength position) and peak-height mean (intensity) images for determination of mineral species and abundance. </span></p><p>Wavelengths measured, and images available under the category of <b>SWIR</b> include:</p><p><span>1) 1,400 nm which measures the hydroxyl ion and is related to sericite, illite, kaolinite, clays and (to a lesser extent), ferromagnesian minerals. </span></p><p><span>2) 1,950 nm which measures water, either bound in minerals or unbound.</span></p><p><span>3) 2,165 nm, which measures kaolinite, dickite, pyrophyllite and alunite.</span></p><p><span>4) 2,200 nm, which measures AlOH in clay and sericite.</span></p><p><span>5) 2,250 nm, which measures Fe2+-OH in chlorite and (moderately to weakly) in epidote, biotite and amphibole.</span></p><p><span>6) 2,300 nm, which measures MgOH, and can act as a proxy for hydrocarbon.</span></p><p><span>7) 2,350 nm, which measures MgOH in strongly magnesian minerals such as amphibole and biotite. </span></p><p><span>The peak-height mean values determined for each wavelength band measured, at each measured depth, can be viewed under “numerical reports” as both (0.01)_00DH-03_Depth Mean Report and (0.1)_00DH-03_Depth Mean Report with the values given as intensities. Note that 0.01 refers to 1 cm interval spacing and 0.1 refers to 10 cm interval spacing. </span></p><p><span>The peak-wavelength mean values determined for each wavelength band measured, at each measured depth, can be viewed under “numerical reports” as both (0.1)_00DH-03_Wavelength Mean Report and (0.01)_00DH-03_Wavelength Mean Report. </span></p><p><span>Wavelengths measured, and images available, under the category of </span><span style='font-weight:bold;'>LWIR</span><span> include:</span></p><p><span>1) 7,600 – 11,900 nm which measures, across the LWIR spectrum, the intensity (peak height mean) and wavelength position (peak-wavelength mean) of the largest peak</span></p><p><span>2) 8,000 nm, which is used to measure sulphide-bearing minerals as well as silica</span></p><p><span>3) 9,000 nm, which is used to measure silica</span></p><p><span>4) 9,600 nm, which is used to measure AlOH minerals, MgOH minerals and alkali feldspar</span></p><p><span>5) 9,800 nm, which is used to measure AlOH minerals, MgOH minerals and plagioclase feldspar</span></p><p><span>6) 11,200 nm, which is used to measure dolomite</span></p><p><span>7) 11,300 nm, which is used to measure calcite </span></p><p>The peak-height mean values determined for each wavelength band measured, at each depth, for <b>LWIR</b> and <b>VNIR</b> are also available in the respective “numerical reports” folders.</p><p><span></span></p></div> https://www.aer.ca/' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:&quot;Avenir Next W01&quot;, &quot;Avenir Next W00&quot;, &quot;Avenir Next&quot;, Avenir, &quot;Helvetica Neue&quot;, sans-serif; font-size:16px;' target='_blank' rel='nofollow ugc noopener noreferrer'>Alberta Energy Regulator</a><span style='font-family:&quot;Avenir Next W01&quot;, &quot;Avenir Next W00&quot;, &quot;Avenir Next&quot;, Avenir, &quot;Helvetica Neue&quot;, sans-serif; font-size:16px;'> / </span><a href='
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Alberta Lake Bathymetry
Alberta Geological Survey
Alberta Geological Survey 2022-02-24 <div style='text-align:Left;'><p><span style='font-family:&quot;Avenir Next W01&quot;, &quot;Avenir Next W00&quot;, &quot;Avenir Next&quot;, Avenir, &quot;Helvetica Neue&quot;, sans-serif; font-size:16px;'>All available bathymetry and related information for the Alberta Lake Bathymetry dataset were collected from the source data, hard copy maps digitized where necessary, and subsequently merged into the final dataset. The data was validated against more recent SRTM (Shuttle Radar Topography Mission) and IRS (Indian Remote Sensing) imagery and corrected where necessary. The published dataset contains the lake boundary and bathymetric contours formatted as a </span><a href='https://geology-ags-aer.opendata.arcgis.com/datasets/ags-aer::alberta-lake-bathymetry/about' target='_blank' rel='nofollow ugc noopener noreferrer'>downloadable vector data</a><span style='font-family:&quot;Avenir Next W01&quot;, &quot;Avenir Next W00&quot;, &quot;Avenir Next&quot;, Avenir, &quot;Helvetica Neue&quot;, sans-serif; font-size:16px;'>.</span><br /></p><p><span></span></p></div>
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Lithoprobe Seismic Transects
Alberta Geological Survey
Alberta Geological Survey 2021-04-23 <div style='text-align:Left;'><div><div><p style='margin:0 0 0 0;'><span>The location of reflection seismic lines acquired on the three LITHOPROBE transects in Alberta have been included in the compilation to allow comparison of published seismic profiles with the compiled structures. These transects include the Peace River Arch Industry Seismic Experiment (PRAISE) carried out in 1994, which collected a total of 654 km of reflection data in nine different line segments (lines 11–20) across crustal domains in north-central Alberta. The acquisition was focused on the sedimentary sequences of the Western Canada Sedimentary Basin and built on the previous data obtained from the refraction experiment recorded in 1985, which was designed to characterize the crust beneath the Peace River Arch (Stephenson et al., 1989; Zelt and Ellis, 1989). The southern end of the PRAISE program linked up to the northern end of the 1992 Central Alberta Transect (CAT; Ross et al., 1995, 2002). The Southern Alberta Lithospheric Transect (SALT) executed in 1995, offered the opportunity to study the structural styles of the Western Canada Sedimentary Basin (WCSB) to the Rockies, as it extends from the Plains of southeastern Alberta to the triangle zone in the Foothills. SALT lines 29, 30 and 31 include 290 km of seismic reflection data; SALT lines 30 and 31 extend west-east (for 110 km and 140 km, respectively), whereas line 29 is a north-south tie line (40 km long), creating a sparse regional 3D coverage (Eaton and Ross, 1996; Lemieux, 1999).</span></p><p style='margin:0 0 0 0;'><span><br /></span></p><p style='margin:0 0 0 0;'>Discover this data by searching <i>'alberta basement seismic reflection'</i> on Government of Canada's open data poral: <a href='https://open.canada.ca/en/open-data' target='_blank' rel='nofollow ugc noopener noreferrer'>https://open.canada.ca/en/open-data</a><br /></p><p><span></span></p></div></div></div> https://www.aer.ca/' rel='nofollow ugc' style='font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Aeromag Survey (Gap Area) - Automatic Gain Correction (30km Filter) • CONTOURS
Alberta Geological Survey
Alberta Geological Survey 2021-08-28 <div>Resulting data from aeromagnetic survey in Northern Alberta, Canada conducted from February 12th to March 30th, 2021.</div> https://www.aer.ca/' rel='nofollow ugc' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Selected Tectonic Features
Alberta Geological Survey
Alberta Geological Survey 2021-05-20 <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The compilation includes selected major tectonic and structural elements in the crystalline basement of Alberta such as the crustal components or tectonic domains involved or formed during the late Paleoproterozoic assembly of Laurentia. Major basement structures comprise Proterozoic shear zones, Phanerozoic arches, and hinges or escarpments that may have influenced sedimentation patterns.</SPAN></P></DIV></DIV></DIV> https://www.aer.ca/' rel='nofollow ugc' style='font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Aeromag Survey (Shield Area) - Total Magnetic Intensity • CONTOURS
Alberta Geological Survey
Alberta Geological Survey 2021-07-26 <div>Resulting data from aeromagnetic survey in Northern Alberta, Canada conducted from February 12th to March 30th, 2021.</div><div><br /></div> https://www.aer.ca/' rel='nofollow ugc' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Aeromag Survey (Gap Area) - Residual Magnetic Intensity • CONTOURS
Alberta Geological Survey
Alberta Geological Survey 2021-07-15 <div>Resulting data from aeromagnetic survey in Northern Alberta, Canada conducted from February 12th to March 30th, 2021.</div><div><br /></div> https://www.aer.ca/' rel='nofollow ugc' style='font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Aeromag Survey (Gap Area) - Total Magnetic Intensity • CONTOURS
Alberta Geological Survey
Alberta Geological Survey 2021-07-26 <div>Resulting data from aeromagnetic survey in Northern Alberta, Canada conducted from February 12th to March 30th, 2021.</div><div><br /></div> https://www.aer.ca/' rel='nofollow ugc' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Aeromag Survey (Gap Area) - Residual RMI (3rd Order TR) • CONTOURS
Alberta Geological Survey
Alberta Geological Survey 2021-08-27 <div>Resulting data from aeromagnetic survey in Northern Alberta, Canada conducted from February 12th to March 30th, 2021.</div><div><br /></div> https://www.aer.ca/' rel='nofollow ugc' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Aeromag Survey (Shield Area) - Residual Magnetic Intensity • CONTOURS
Alberta Geological Survey
Alberta Geological Survey 2021-07-26 <div><font face='Avenir Next W01, Avenir Next W00, Avenir Next, Avenir, Helvetica Neue, sans-serif'><span style='font-size:16px;'>Resulting data from aeromagnetic survey in Northern Alberta, Canada conducted from February 12th to March 30th, 2021.</span></font></div><div><br /></div> https://www.aer.ca/' rel='nofollow ugc' style='color:rgb(0, 121, 193); text-decoration-line:none; font-family:Helvetica, sans-serif; font-size:15.3333px;' target='_blank'>Alberta Energy Regulator</a><span style='font-family:Helvetica, sans-serif; font-size:15.3333px;'> / </span><a href='
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Distribution of Total Dissolved Solids in the Wapiti / Belly River HSU (DIG 2017-0026)
Alberta Geological Survey
Alberta Geological Survey 2018-09-22 <div><div>This data release contains water chemistry data used to create a total dissolved solids (TDS) map of the Wapiti / Belly River hydrostratigraphic unit (HSU) as part of the Alberta Geological Survey’s (AGS) Provincial Groundwater Inventory Program. It also contains the calculated difference (residual) between the modelled distribution of TDS and measured values from wells. The source datasets are water well chemistry data from Alberta Environment and Parks' Alberta Water Well Information Database (AWWID) and formation water chemistry data from oil and gas well drillstem tests (DSTs) and production fluids. </div><div><br /></div><div>Data have been processed, relevant records selected, and outliers removed to compile this dataset.</div></div><div><br /></div><div><font size='2'>Last Update: 2019-Feb-05</font></div><div><font size='2'>Uploaded by: Rasto Elgr</font></div>

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