{"help": "https://data.gov.au/data/api/3/action/help_show?name=package_show", "success": true, "result": {"author_email": null, "contact_point": "bioregionalassessments@environment.gov.au", "creator_user_id": "2846d45e-3969-4419-a085-84f5716ede91", "duplicate_score": 1, "geospatial_topic": [], "id": "97a6076b-4a00-457a-9400-1932fb2341f8", "isopen": false, "language": "eng", "license_id": "Creative Commons Attribution 4.0 International, http://creativecommons.org/licenses/by/4.0/, (c) Commonwealth of Australia (Bioregional Assessment Programme http://www.bioregionalassessments.gov.au), (c) State of Queensland (Department of Natural Resources and Mines) 2014, (c) State of Queensland (Department of Natural Resources and Mines), (c) Commonwealth of Australia (Geoscience Australia), (c) FROGTECH", "license_title": "Creative Commons Attribution 4.0 International, http://creativecommons.org/licenses/by/4.0/, (c) Commonwealth of Australia (Bioregional Assessment Programme http://www.bioregionalassessments.gov.au), (c) State of Queensland (Department of Natural Resources and Mines) 2014, (c) State of Queensland (Department of Natural Resources and Mines), (c) Commonwealth of Australia (Geoscience Australia), (c) FROGTECH", "maintainer": null, "maintainer_email": null, "metadata_created": "2018-12-06T21:25:41.802847", "metadata_modified": "2022-04-13T09:49:15.656656", "name": "bd1c35a0-52c4-421b-ac7d-651556670eb9", "notes": "## **Abstract** \n\nThis dataset was derived by the Bioregional Assessment Programme. The parent datasets are identified in the Lineage statement in this metadata statement. The processes undertaken to produce this derived dataset are described in the History field in this metadata statement.\n\n\n\nThis dataset comprises of interpreted elevation surfaces and contours for the major Triassic and Upper Permian units of the Galilee Geological Basin.\n\n## **Purpose** \n\nThis dataset was created to provide formation extents for aquifers in the Galilee geological basin\n\n## **Dataset History** \n\nA Quality Assurance (QA) and validation process was conducted on the original well and bore data to choose wells/bores that are within 25 kilometres of the BA Galilee Region extent.\n\nThe QA/Validation process is as follows:\n\n1.\tWell data\n\n a.\tObtained excel file \"QPED_July_2013_galilee.xlsx\" from GA\n\n b.\tBased on stratigraphic information in \"BH_costrat\" tab formation names were regularised and simplified based on current naming conventions. \n\n c. \tSimplified names added to QPED_July_2013_galileet.xlsx as \"Steve_geo\" and \"Steve_group\"\n\n d.\tProduced new file \"GSQ_Geology.xlsx\" contained decimal latitude and longitude, KB elevation, top of unit in metres from KB, top of unit in metres AHD, bottom of unit in metres from KB, bottom of unit in metres AHD, original geology, simplified geology, simplified Group geology.\n\n i. KB obtained from \"BH_wellhist\"\n\n ii.\t Where no KB information was available ie KB=0, sample the 1S DEM at the well's location to obtain height. KB=DEM+10. Marked well as having lower reliability.\n\n iii.\t Calculated Top_m_AHD = KB - Top_m_KB\n\n iv.\t Calculated Bottom_m_AHD = KB - Bottom_m_KB\n\n e.\tBrought GSQ_Geology.xlsx into ArcGIS\n\n f.\t Selected wells based on \"Steve_geo\" field for each model layer to produce a geodatabase for each layer.\n\n i.\t GSQ_basement_wells\n\n ii.\t GSQ_top_joe_joe_group\n\n iii.\t GSQ_top_bandanna_merge\n\n iv.\t GSQ_rewan_group\n\n v.\t GSQ_clematis\n\n vi.\t GSQ_moolyember\n\n g.\tAdditional wells and reinterpreted tops added to appropriate geodatabase based on well completion reports\n\n h.\tAdditional wells added to coverages to help model building process\n\n i.\t Well_name listed as Fake\n\n ii.\t Exception being GSQ_top_basement_fake which was created as a separate geodatabase\n\n2.\tBore data\n\n a.\tObtained QLD_DNRM_GroundwaterDatabaseExtract_20131111 from GA\n\n b.\tUsed files REGISTRATIONS.txt, ELEVATIONS.txt and AQUIFER.txt to build GW_stratigraphy.xlsx\n\n i.\t Based on RN\n\n ii.\t Latitude from GIS_LAT (REGISTRATIONS.txt)\n\n iii.\t Longitude from GIS_LNG (REGISTRATIONS.txt)\n\n iv.\t Elevation from (ELEVATIONS.txt)\n\n v.\t FORM_DESC from (AQUIFER.txt)\n\n vi.\t Top from (AQUIFER.txt)\n\n vii. \t Bottom from (AQUIFER.txt)\n\n c.\t Brought GW_stratigraphy.xlsx into ArcGIS\n\n d.\tCreated gw_bores_galilee_dem\n\n i.\t Sampled 1S DEM to obtain ground level elevation column RASTERVALU\n\n ii.\t Created column top_m_AHD by RASTERVALU - Top\n\n e.\tSelected bores based on \"FORM_DESC\" field for each model layer to produce a geodatabase for each layer.\n\n i.\t Gw_basement\n\n ii.\t GW_bores_joe_joe_group\n\n iii.\t GW_bores_bandanna\n\n iv. \t Gw_bores_rewan\n\n v. \t Gw_bores_clematis\n\n vi. \t Gw_bores_moolyember\n\n3.\tGeorectified seismic surfaces\n\n a.\tExtracted interpreted seismic surfaces for base Permian (interpreted as basement) and top Bandanna (in time) from the following seismic surveys\n\n i.\t Y80A, W81A, Carmichael, Pendine, T81A, Quilpie, Ward and Powell Creek seismic survey downloaded https://qdexguest.deedi.qld.gov.au/portal/site/qdex/search?searchType=general \n\n ii.\t Brought TIF images into ArcGIS and georectified\n\n iii.\t Digitised shape of contours and faults into geodatabase\n\n 1.\t Basement_contours and basement_faults\n\n 2.\t bandanna_contours_new_data and bandanna_faults\n\n iv.\t Added field \"contour\" to geodatabase\n\n v.\t Converted contours to depth in \"contour\" field based on well and bore data (top_m_AHD) and contour progression\n\n vi.\t Use the shape and depth derived from OZ SEEBASE to help to add additional contours and faults to basement and bandanna datasets\n\n4.\tAdditional contour and fault surfaces were built derived from underlying surfaces and wells/bore data\n\n a.\tJoejoe_contours and joejoe)faults\n\n b.\tRewan_contour_clip (used bandanna_faults as fault coverage)\n\n c. \tClematis_contour and clematis_faults\n\n d.\tMoolyember_contour (used clematis_faults as fault coverage)\n\n5.\tSurface geology\n\n a.\tExtracted surface geology from QUEENSLAND GEOLOGY_AUGUST_2012 using Galilee BA region boundary with 25 kilometre boundary to form geodatabase QLD_geology_galilee\n\n b.\tSelected relevant surface geology from QLD_geology_galilee based on field \"Name\" for each model layer and created new geodatabase layers\n\n i.\t Basement_geology: Argentine Metamorphics,Running River Metamorphics,Charters Towers Metamorphics; Bimurra Volcanics, Foyle Volcanics, Mount Wyatt Formation, Saint Anns Formation, Silver Hills Volcanics, Stones Creek Volcanics; Bulliwallah Formation, Ducabrook Formation, Mount Rankin Formation, Natal Formation, Star of Hope Formation; Cape River Metamorphics; Einasleigh Metamorphics; Gem Park Granite; Macrossan Province Cambrian-Ordovician intrusives; Macrossan Province Ordovician-Silurian intrusives; Macrossan Province Ordovician intrusives; Mount Formartine, unnamed plutonic units; Pama Province Silurian-Devonian intrusives; Seventy Mile Range Group; and Kirk River beds, Les Jumelles beds.\n\n ii.\t Joe_joe_geology: Joe Joe Group\n\n iii.\t Galilee_permian_geology: Back Creek Group, Betts Creek Group, Blackwater Group\n\n iv.\t Rewan_geology: Rewan Group\n\n 1.\t Later also made dunda_beds_geology to be included in Rewan model: Dunda beds\n\n v.\t Clematis_geology: Clematis Group\n\n 1.\t Later also made warang_sandstone_geology to be included in Clematis model: Warang Sandstone\n\n vi.\t Moolyember_surface_geology: Moolyember Formation\n\n6.\tDEM for each model layer\n\n a.\tUsing surface geology geodatabase extent extract grid from dem_s_1s to represent the top of the model layer at the surface\n\n i.\t Basement_dem\n\n ii.\t Joejoe_dem\n\n iii.\t Bandanna_dem\n\n iv.\t Rewan_dem and dunda_dem\n\n v.\t Clematis_dem and warang_dem\n\n vi.\t Moolyember_surface_dem\n\n b.\tUsed Contour tool in ArcGIS to obtain a 25 metre contour geodatabase from the relevant model DEM\n\n i.\t Basement_dem_contours\n\n ii.\t Joejoe_dem_contours\n\n iii.\t Bandanna_dem_contours\n\n iv.\t Rewan_dem_contours and dunda_dem_contours\n\n v.\t Clematis_dem_contours and warang_dem_contours\n\n vi.\t Moolyember_dem_contours\n\n c. \tFor the purpose of guiding the model building process additional fields were added to each DEM contour geodatabase was added based on average thickness derived from groundwater bores and petroleum wells.\n\n i.\t Basement_dem_contours: Joejoe, bandanna, rewan, clematis, moolyember\n\n ii.\t Joejoe_dem_contours: basement, bandanna\n\n iii.\t Bandanna_dem_contours: joejoe, rewan\n\n iv.\t Rewan_dem_contours and dunda_dem_contours: clematis, rewan\n\n v.\t Clematis_dem_contours and warang_dem_contours: moolyember, rewan\n\n vi.\tMoolyember_dem_contours: clematis\n\n\n\nThe model building process is as follows:\n\n1.\tUsed the tope to raster tool to create surface based on the following rules\n\n a.\tEnvironment\n\n i.\tExtent\n\n 1.\tTop: -19.7012030024424\n\n 2.\tRight: 148.891511819054\n\n 3.\tBottom: -27.5812030024424\n\n 4.\tLeft: 139.141511819054\n\n ii.\tOutput cell size: 0.01 degrees\n\n iii.\tDrainage enforcement: No_enforce\n\n b.\tInput\n\n i.\tBasement\n\n 1.\tBasement_dem_contour; field - contour; type - contour\n\n 2.\tJoejoe_dem_contour; field - basement; type - contour\n\n 3.\tBasement_contour; field - contour; type - contour\n\n 4.\tGSQ_basement_wells; field - top_m_AHD; type - point elevation\n\n 5.\tGW_basement; field - top_m_AHDl type - point elevation\n\n 6.\tGSQ_top_basement_fake; field - top_m_AHDl type - point elevation\n\n 7.\tBasement_faults; type - cliff\n\n ii.\tJoe Joe Group\n\n 1.\tJoejoe_dem_contour; field - basement; type - contour\n\n 2.\tBasement_dem_contour; field - joejoe; type - contour\n\n 3.\tpermian_dem_contour; field - joejoe, type - contour\n\n 4.\tjoejoe_contour; field - joejoe; type - contour\n\n 5.\tGSQ_top_joejoe_group; field - top_m_AHD; type - point elevation\n\n 6.\tGW_bores_joe_joe_group; field - top_m_AHDl type - point elevation\n\n 7.\tjoejoe_faults; type - cliff\n\n iii.\tBandanna Group\n\n 1.\tPermian_dem_contour; field - contour; type - contour\n\n 2.\tJoejoe_dem_contour; field - bandanna; type - contour\n\n 3.\tRewan_dem_contour: field - bandanna; type - contour\n\n 4.\tDunda_dem_contour; field - bandanna; type - contour\n\n 5.\tBasement_dem_contour; field - bandanna; type - contour\n\n 6.\tbandanna_contours_new_data; field - contour; type - contour\n\n 7.\tGSQ_top_bandanna_merge; field - top_m_AHD; type - point elevation\n\n 8.\tGW_bores_bandanna; field - top_m_AHDl type - point elevation\n\n 9.\tbandanna_faults; type - cliff\n\n iv.\tRewan\n\n 1.\tRewan_dem_contour: field - contour; type - contour\n\n 2.\tDunda_beds_contour; field - contour; type - contour \n\n 3.\tPermian_dem_contour; field - rewan; type - contour \n\n 4.\tClematis_dem_contour; field - rewan; type - contour \n\n 5.\tWarang_dem_contour; field - rewan; type - contour \n\n 6.\tBasement_dem_contour; field - rewan; type - contour\n\n 7.\tRewan_contours_clip; field - rewan; type - contour \n\n 8.\tGSQ_rewan_group; field - top_m_AHD; type - point elevation\n\n 9.\tGw_bores_rewan; field - top_m_AHD; type - point elevation\n\n 10.\tBandanna_faults; type - cliff \n\n v.\tClematis\n\n 1.\tClematis_dem_contour; field - contour; type - contour \n\n 2.\tWarang_dem_contour; field - contour; type - contour \n\n 3.\tRewan_dem_contour: field - clem; type - contour\n\n 4.\tDunda_beds_contour; field - clematis; type - contour \n\n 5.\tBasement_dem_contour; field - clematis; type - contour\n\n 6.\tclematis_contours; field - contour; type - contour \n\n 7.\tGSQ_clematis; field - top_m_AHD; type - point elevation\n\n 8.\tGw_bores_clematis; field - top_m_AHD; type - point elevation\n\n 9.\tClematis_faults; type - cliff \n\n vi.\tMolyember\n\n 1.\tMoolyember_dem_contour; field - contour; type - contour \n\n 2.\tClematis_dem_contour; field - moolyember; type - contour \n\n 3.\tWarang_dem_contour; field - moolyember; type - contour \n\n 4.\tBasement_dem_contour; field - moolyember; type - contour\n\n 5.\tmoolyember_contours; field - contour; type - contour \n\n 6.\tGSQ_moolyember; field - top_m_AHD; type - point elevation\n\n 7.\tGw_bores_moolyember; field - top_m_AHD; type - point elevation\n\n 8.\tClematis_faults; type - cliff \n\n vii.\tFinished Grids save in Unclipped Tops layer group\n\n viii.\tBottom B Seam and Top E Seam are sub-division of the Bandanna Group\n\n 1.\tDerived Bandanna thickness (bandanna_thickness)\n\n a.\tTop Bandanna minus Top Joe Joe Group\n\n 2.\tBottom B Seam thickness (bseam_temp) by 0.25 times Bandanna Thickness\n\n 3.\tBottom E Seam thickness (eseam_temp) by 0.7 times Bandanna Thickness\n\n 4.\tSubtract Bottom B Seam thickness from Top Bandanna Group to produce Bseam_unclipped\n\n 5.\tSubtract Top E Seam thickness from Top Bandanna Group to produce Eseam_unclipped\n\n \n\n2.\tUnclipped tops clipped to layer extent using extract by mask tool\n\n a.\tExtent files\n\n i.\tBasement: galilee_subregion\n\n ii.\tJoe Joe Group: joe_joe_top_extent_poly\n\n iii.\tBandanna Group: bandanna_extent\n\n iv.\tRewan: rewan_top_extent\n\n 1.\tBottom B Seam: bseam_bottom_extent\n\n 2.\tTop E Seam: eseam_top_extent\n\n v.\tClematis: clematis_warang_top_extent\n\n vi.\tMoolyember: moolyember_top_extent\n\n b.\tResulting layers save in Completed layer group\n\n3.\tCross check of model were done by subtracting overlying layers from underlying layers.\n\n4.\tWhere overlaps occur edit relevant datasets and rebuild model layer.\n\n5.\tRepeat until no overlaps occur.\n\n## **Dataset Citation** \n\nBioregional Assessment Programme (2015) Galilee geological model 25-05-15. Bioregional Assessment Derived Dataset. Viewed 12 December 2018, http://data.bioregionalassessments.gov.au/dataset/bd1c35a0-52c4-421b-ac7d-651556670eb9.\n\n## **Dataset Ancestors** \n\n* **Derived From** [Queensland Geological Digital Data - Detailed state extent, regional. November 2012](https://data.gov.au/data/dataset/03ea9d87-55f1-400e-86c0-b8f7492984c4)\n\n* **Derived From** [QLD Department of Natural Resources and Mines Groundwater Database Extract 20142808](https://data.gov.au/data/dataset/a5c5cbdb-1152-43f7-9533-a123027b7ce1)\n\n* **Derived From** [Phanerozoic OZ SEEBASE v2 GIS](https://data.gov.au/data/dataset/26e0fbd9-d8d0-4212-be52-ca317e27b3bd)\n\n* **Derived From** [Queensland petroleum exploration data - QPED](https://data.gov.au/data/dataset/cb357721-bf22-45c9-a82e-828807912dd4)\n\n", "num_resources": 1, "num_tags": 2, "organization": {"id": "69f37b4c-bdf0-4c85-bd56-82fa6d6b087a", "name": "bioregional-assessment-program", "title": "Bioregional Assessment Program", "type": "organization", "description": "The Australian Government's bioregional assessments programs are a collaboration between the Department of Agriculture, Water and the Environment, the Bureau of Meteorology, CSIRO and Geoscience Australia. There are two separate programs of bioregional assessments.\r\n\r\nThe Bioregional Assessment Program (2012 - 2017) seeks to better understand the potential impacts of coal seam gas and large coal mining developments on water resources and water-related assets. It is one of a number of actions undertaken by the Australian Government to strengthen the science underpinning decision making on coal seam gas and large coal mining developments.\r\n\r\nThe Geological and Bioregional Assessment Program (2017 - 2021) assessed the potential impacts of shale and tight gas development on water and the environment. The Program assessed three priority geological basins: the Cooper Basin in Queensland and South Australia, the Isa Superbasin in Queensland and the Beetaloo Sub-basin in the Northern Territory (referred to as GBA regions", "image_url": "2015-10-30-051742.096388Bioregional-assessments-logo-800.jpg", "created": "2015-10-30T05:17:42.164347", "is_organization": true, "approval_status": "approved", "state": "active"}, "original_harvest_source": {"site_url": "https://data.gov.au/data/dataset/", "href": "https://data.gov.au/data/dataset/bd1c35a0-52c4-421b-ac7d-651556670eb9", "title": "data.gov.au"}, "owner_org": "69f37b4c-bdf0-4c85-bd56-82fa6d6b087a", "private": false, "spatial_coverage": "POLYGON ((0 0, 0 0, 0 0, 0 0))", "state": "active", "temporal_coverage_from": "2018-12-06 00:00:00", "title": "Galilee geological model 25-05-15", "type": "dataset", "unpublished": false, "url": null, "version": null, "extras": [{"key": "contact_info", "value": "false"}, {"key": "data_state", "value": "active"}, {"key": "field_of_research", "value": "[]"}, {"key": "jurisdiction", "value": "NONE"}, {"key": "update_freq", "value": "never"}], "resources": [{"Description": "CSIRO Download Page", "cache_last_updated": null, "cache_url": null, "created": "2018-12-11T22:25:59.298494", "datastore_active": false, "datastore_contains_all_records_of_source_file": false, "description": "Data File", "format": "ZIP", "hash": "", "id": "f57f0f6a-cb42-4dd8-b374-60334c258694", "last_modified": "2016-04-11T00:00:00", "metadata_modified": "2022-04-13T09:49:15.662640", "mimetype": null, "mimetype_inner": null, "name": "Galilee geological model 25-05-15", "package_id": "97a6076b-4a00-457a-9400-1932fb2341f8", "position": 0, "resource_type": null, "size": 122560650, "state": "active", "url": "https://data.gov.au/data/dataset/97a6076b-4a00-457a-9400-1932fb2341f8/resource/f57f0f6a-cb42-4dd8-b374-60334c258694/download/bd1c35a0-52c4-421b-ac7d-651556670eb9.zip", "url_type": "upload", "zip_extract": false}], "tags": [{"display_name": "Galilee subregion", "id": "d61d0a80-3ca5-4dff-a8e9-beb2223453a4", "name": "Galilee subregion", "state": "active", "vocabulary_id": null}, {"display_name": "geoscientificInformation", "id": "3e763a61-9b8d-4240-9db0-2a60b0a93912", "name": "geoscientificInformation", "state": "active", "vocabulary_id": null}], "groups": [], "relationships_as_subject": [], "relationships_as_object": []}}