JSON   RDF   ISO19115/ISO19139 XML

GABATLAS - Cadna-owie-Hooray Aquifer and Equivalents - Thickness and Extent

Abstract

This dataset and its metadata statement were supplied to the Bioregional Assessment Programme by a third party and are presented here as originally supplied.

The Cadna-owie-Hooray Aquifer and Equivalents - Thickness and Extent data sets, are part of a set that represents the hydrostratigraphic units of the Great Artesian Basin, which include five major aquifers, four intervening aquitards, and the Cenozoic cover to the GAB.

There are five layers in the Cadna-owie-Hooray Aquifer and Equivalents map data

A: Formation Extent

B: Outcrop extent

C: Isopach Raster

D: Isopach Contours

E: Data Point Locations

The datasets have been derived from the lithostratigraphic intercepts in drillhole data from petroleum exploration wells, water bores, and stratigraphic wells. Seismic correlation and assessment of hydrogeological character based on electrofacies have not been used. The working dataset for this study has been derived primarily from the following databases:

  1. PEPS-SA (Petroleum Exploration and Production System - South Australia) (Department of Primary Industries and Regions SA, 2011)

  2. WaterConnect Groundwater database (Govt. of SA, 2011)

  3. QPED (Queensland Petroleum exploration database) (Geological Survey of Queensland, 2010).

  4. GABLOG (Great Artesian Basin Well Log Dataset) (Habermehl, 2001)

  5. Additional supplementary information was derived from published reports listed in the following section.

This is a regional interpretation for mapping at approximately 1:1 000 000 to produce a broad scale overview, and examination of small areas by collecting extra data is most likely to produce results that differ from this regional interpretation.

This dataset and associated metadata can be obtained from www.ga.gov.au, using catalogue number 81678.

Associated report reference:

Ransley, T., Radke, B., Feitz, A., Kellett, J., Owens, R., Bell, J. and Stewart, G., 2014. Hydrogeological Atlas the Great Artesian Basin. Geoscience Australia. Canberra. [available from www.ga.gov.au using catalogue number 79790]

Dataset History

SOURCE DATA:

Data was obtained from a variety of sources, as listed below:

  1. WaterConnect Groundwater database (Govt. of SA, 2011)

  2. Great Artesian Basin Well Log Dataset (GABLOG) (Habermehl, M. A., 2001).

  3. Petroleum Exploration and Production System - South Australia (PEPS-SA) (Department of Primary Industries and Regions SA, 2011).

  4. Queensland Petroleum Exploration Database (QPED) (Geological Survey of Queensland, 2010).

  5. Well completion and drill log reports (see references in abstract)

  6. Other reports (see references in abstract)

  7. Seismic surveys and associated reports (see seismic references section in abstract)

METHOD:

Formation Extent

Extents were based on drillhole data (see References). For the offshore Carpentaria Basin, extent is taken from the isopach boundary of 'Thickness of Jurassic-Cretaceous sequence in the Carpentaria and Laura basins' (Geoscience Australia, 2013).

Extent lines were adjusted to envelop all borehole intercepts of the Hydrostratigraphic unit. This produced some varied and irregular shapes, some patchy regions, and required some interpretation to establish the most likely extent boundary.

Outcrop Extents

Outcrop extents came from 'Hydrogeology of the Great Artesian Basin Australia' (Habermehl & Lau, 1997) for the Eromanga and Surat sub-basins. This was modified in the northernmost region for the Algebuckina Sandstone extent. For the Carpentaria Basin, the boundary of 'Thickness of Jurassic-Cretaceous sequence in the Carpentaria and Laura basins' (Geoscience Australia, 2013) was used.

Isopach Raster

Source point thickness values calculated from drillhole intercepts were extrapolated using the ESRI ANUDEM Topo-To-Raster surface modeller. Zero thickness constraints were applied at the known extent of the aquifer/aquitard, except in cases where the formation extends beyond the GAB boundary (for example the Precipice formation on the eastern side of the GAB, where the formation is quite thick and is exposed as a cliff). In these cases, constraints were not applied and the software was allowed to model a thickness right up to the GAB boundary. Resulting grids were modified using the ESRI Grid Calculator to set the minimum thickness to 0, and clipped to the aquifer/aquitard extent.

Isopach Contours

For the onshore Carpentaria Basin, well completion reports of individual wells (see References), as well as BMR drill Records (Gibson et al., 1974) have been used as a source of thicknesses. In other areas, GABLOG (Habermehl, M. A., 2001), PEPS-SA (Department of Primary Industries and Regions SA, 2011), QPED (Geological Survey of Queensland, 2010) and the SA Govt. Groundwater database (Govt. of SA, 2011) were used.

Isopach contours were calculated from the Cadna-Owie-Hooray aquifer thickness grid (generated from drillhole intercepts in Clarence-Moreton from O'Brien (2011)) using the ESRI Contour Tool. These were calculated at 50m intervals. In most cases the zero contour lines generated by the tool were replaced by the extent of the aquifer due to the erratic nature of the generated lines. In cases where the aquifer/aquitard is thick at the extent, the zero isoline is outside the extent and is not mapped in that area. Isopachs were clipped to the aquifer/aquitard extent.

Data Point Locations

Data Point Locations have been derived from the bore hole data collected for this project. Only the location has been included.

SOFTWARE:

All modifications/edits and geoprocessing were performed using ESRI ArcGIS 10 software.

QAQC:

Data sets were searched for errors such as negative thickness, missing data, incorrectly calculated thickness, aquifers/aquitards with missing formations, and false XY data.

The data was given a second Q&A after the thickness grids had been calculated. This involve plotting the points and the thickness grid and looking carefully for bad values. Sometimes a false outlier value would cause a 'bullseye' effect on the grid. To check the veracity, nearby data would be compared, and if necessary the original data would be searched check the value. Some petroleum fields would have wildcat picks at certain bore holes and these were compared with nearby boreholes and adjusted or deleted.

Additionally, if whole subregions had suspect values the data was check to ensure the relevant data had all been included. Finally, data sets were also checked to ensure the bore whole data recorded the full thickness of the Aquifer. In many cases water bores only go down until a suitable water source is found and often will not penetrate the whole aquifer. This data was considered on a case by case basis, in areas where plenty of suitable data was available they were removed, and in areas of sparse borehole data they were included to establish the occurrence of the formation albeit as a minimum thickness value.

Data has undergone a QAQC verification process in order to capture and repair attribute and geometric errors.

These datasets have been compiled or interpreted from existing and new data sets that vary in scale. They are intended to be used for broad, regional understanding of the basin and are not designed to be used at a local scale. Where existing data sets have been used we have attempted to correct any errors, however errors may remain.

It has to be stressed that this generalised basin-wide concept is scale dependant, and may exaggerate the distinction between the superposed aquitards and aquifers. Although this hydrostratigraphy offers more accessible comprehension of the regional hydroarchitecture, the generalisation comes with the inherent dangers of simplification and apparent enhanced contrast of a complex system. For local hydrogeological study, such generalisations may not necessarily survive closer scrutiny.

See "Metadata.pdf" for complete metadata

Dataset Citation

Geoscience Australia (2015) GABATLAS - Cadna-owie-Hooray Aquifer and Equivalents - Thickness and Extent. Bioregional Assessment Source Dataset. Viewed 10 December 2018, http://data.bioregionalassessments.gov.au/dataset/bc55589c-1c6f-47ba-a1ac-f81b0151c630.

Data and Resources

Additional Info

Field Value
Title GABATLAS - Cadna-owie-Hooray Aquifer and Equivalents - Thickness and Extent
Type Dataset
Language eng
Licence Creative Commons Attribution 3.0 Australia, http://creativecommons.org/licenses/by/3.0/au/, (c) Commonwealth of Australia (Geoscience Australia) 2014
Data Status active
Update Frequency never
Landing Page https://data.gov.au/data/dataset/afe9a323-5286-44f8-aae3-eb095d704ae2
Date Published 2016-03-23
Date Updated 2022-04-13
Contact Point
Bioregional Assessment Program
bioregionalassessments@environment.gov.au
Temporal Coverage 2016-03-23 00:00:00
Geospatial Coverage POLYGON ((0 0, 0 0, 0 0, 0 0))
Jurisdiction NONE
Data Portal data.gov.au
Publisher/Agency Bioregional Assessment Program