Water

Catchment Boundaries

Description

The National Catchments is a topologically consistent and hierologically enforced stream flow aggregation of boundaries

Purpose

Dataset Uses

Government agencies use this data to better manage water resources. The Australian Hydrological Geospatial fabric (Geofabric) is released through the Bureau of Meteorology which provides a framework for discovering, querying, reporting and modelling water information aligned with the definitions under the Water Act 2007 .

Government agencies use this data to

• Define administrative boundaries; catchments and aquifers can form the boundaries between adjacent state governments or other administrative areas
• Model areas of interest
• Manage Environmental assets
• Water Accounting
• Asset management and monitoring
• Managing flood risk
• Modelling water flow

Current Status

Maintained by Geoscience Australia and derived from 9 Second DEM.

Current maintenance are revising priority areas by deriving from the 1 Second DEM.

Geoscience Australia provided inputs to the Bureau of Meteorology for the creation of Geofabric suite of products to meet the requirements of the National Water Account under the Australian Water Act 2007 and Water Regulations 2008 .

Future Status

Short Term objectives:

• Fully aggregate all jurisdictional data into a national dataset providing a complete and consistent representation of the national surface hydrology network
• Update priority catchment areas with the larger scale surface water inputs

Long term objectives include:

• Continued spatial upgrades of all surface hydrology data using current and higher resolution imagery
• Hydrological enforce data using improved elevation models

Standards

• ISO19100 series Geographic information has been considered,
• AS4590:2006 Interchange of client information
• AS1199.0-2003 Sampling procedures for inspection by attributes
• Australian Water Act 2007
• Open Geospatial Consortium (OGC) Web Feature Service (WFS) Implementation
• Specification 1.1.0 (OGC Document No. 04-094)
• Open Geospatial Consortium (OGC) Web Map Service (WMS) Implementation Specification 1.3.0 (OGC Document No. 06-042)

Access and Licensing

Products and Services relating to this dataset are made available under open access policies and guidelines .

Coverage

Complete, current and continuous coverage of Australia

Quantity

The National Catchment dataset provides a seamless surface catchment layer for Australia. The dataset feature is based upon polygons converted from a regular 9 second grid delineating the surface for the Australian continent.

The Dataset includes a unique spatial identifier for each line feature. The identifier will be used to maintain the dataset and to incorporate higher resolution datasets in the future.

Metadata

Geoscience Australia National Catchment Boundaries

https://www.ga.gov.au/products/servlet/controller?event=GEOCAT_DETAILS&catno=73078

Custodian Agency and Contact

Geoscience Australia

http://www.ga.gov.au/surfacewater

Aggregator

National Computing Infrastructure and CSIRO

Distributor(s) and Products

Geoscience Australia – National Catchment Boundaries v1.4

https://www.ga.gov.au/products/servlet/controller?event=FILE_SELECTION&catno=73078

Bureau of Meteorology – SH Catchment Product

http://www.bom.gov.au/water/geofabric/download.shtml

Formats

• ESRI File Geodatabase (gdb)
• shp
• National Catchment Boundaries (NCB) raster format including NCB Pfafstetter coding is supplied by Geoscience Australia
• The Vector format is available from the Bureau of Meteorology's Geofabric website

Key Users

Key users of the national catchments are Commonwealth, State, Territory and Local governments and the Research and Industry sectors

Additional

Version

1.0 Draft for Consultation

Hydrological Obstructions

Description

Hydrological obstructions are man-made features that impact the water network either by obstruction, diversion or storage of water

Purpose

Hydrological barrier is topologically consistent feature in hydrological network. Hydrological Crossing points are critical in the identification of obstructions, diversion and storage water for the hydrological enforcement of elevation models

Dataset Uses

Government agencies use this data to better manage water resources. The Australian Hydrological Geospatial fabric (Geofabric) is released through the Bureau of Meteorology which provides a framework for discovering, querying, reporting and modelling water information aligned with the definitions under the Water Act 2007 .

Government agencies use this data to

• manage assets that interact with the water network
• identify assets that cross waterways
• plan for funding of maintenance of those assets

Current Status

The aggregation of jurisdictional data is maintained by Geoscience Australia. A mixture of scale exists ranging from 1:25 000 to 1:250 000 across the continent.

The Bureau of Meteorology is the custodian of the suite of products to meet the requirements of the National Water Account under the Water Act 2007 and Water Regulations 2008 .

Future Status

Short term objectives include:

• Fully aggregate all jurisdictional data into a national dataset which provides a complete and consistent representation of the national surface hydrology network
• Improve accuracy and quality information

Long term objectives include:

• Continued spatial upgrades of all surface hydrology data using current and higher resolution imagery

Standards

• ISO19100 series Geographic information has been considered,
• AS4590:2006 Interchange of client information
• AS1199.0-2003 Sampling procedures for inspection by attributes
• Australian Water Act 2007
• Open Geospatial Consortium (OGC) Web Feature Service (WFS) Implementation
• Specification 1.1.0 (OGC Document No. 04-094)
• Open Geospatial Consortium (OGC) Web Map Service (WMS) Implementation Specification 1.3.0 (OGC Document No. 06-042)

Access and Licensing

Products and Services relating to this datasets are made available under Australian Government open access policies and guidelines.

Coverage

Complete, current and continuous coverage of Australia

Quantity

The hydrological obstructions dataset provides a topological connection of linear and points features which interact with the hydrological network. The linear and point features are man-made structures which may obstruct or divert stream flow.

Data is maintained through numerous sources including satellite imagery, aerial photography, field work, information gathered from relevant stakeholders, custodians and by data verification and testing. Revision material has also been gathered from a variety of authoritative sources.

Spatial accuracy position of the feature instance will be within 0.5mm at map scale for 90% of the well-defined points.

That is:

• 1:25 000 = 12.5 m
• 1:50 000 = 25 m
• 1:100 000 = 50 m
• 1:250 000 = 125 m

The Dataset includes a unique spatial identifier for each feature. The identifier will be used to maintain the dataset and to incorporate higher resolution datasets in the future.

Metadata

https://www.ga.gov.au/products/servlet/controller?event=GEOCAT_DETAILS&catno=63999

Custodian Agency and Contact

Geoscience Australia

http://www.ga.gov.au/surfacewater

Aggregator

Geoscience Australia

Distributor(s) and Products

Bureau of Meteorology – SH Surface cartography Product http://www.bom.gov.au/water/geofabric/download.shtml

Geoscience Australia – Geodata datasets and products

http://www.ga.gov.au/interactive-maps/#/

Formats

• ESRI File Geodatabase
• kml
• xml
• gml

Key Users

Key users of the national catchments are Commonwealth, State, Territory and Local governments and the Research and Industry sectors.

Additional

There is a linked field to the matching record in the Transport theme of the foundation dataset (e.g. bridges, fords, tunnels)

Version

1.0 Draft for Consultation

Flow Direction Grid

Description

The Flow Direction Grid is a regular grid of surface flow directions accompanying the GEODATA 9 Second Digital Elevation Model (DEM) Version 3. It ascribes to each DEM point one of eight cardinal directions (E, SE, S, SW, W, NW, N, NE) denoting the direction of surface flow from each grid point to one of its eight immediate neighbours.

Purpose

The Flow Direction Grid is a representation of the (major) surface water features of Australia excluding external Territories. The dataset can be used for applications requiring accurate representation of absolute elevation values. The elevation of source data high points (hills or mountains) is well represented in Version 3. The 1:250 000m source scale of the elevation grid makes the product useful for national, State-wide and regional applications. It is intended to be used as the basis for production of consistent surface stream network analysis.

Dataset Uses

The dataset can be used for applications requiring accurate representation of absolute elevation values. The elevation of source data high points (hills or mountains) is well represented in Version 3. The 1:250 000m source scale of the elevation grid makes the product useful for national, state-wide and regional applications.

Current Status

Maintained by Geoscience Australia with development from the Australian National University (Fenner School).

GEODATA 9 second DEM and D8: Digital Elevation Model Version 3 and Flow Direction Grid 2008 released by Geoscience Australia

Future Status

Short term objective:

• To improve national dataset with updates from the 1 Second DEM on a catchment boundary

Long term objectives include:

• Continued spatial upgrades of stream network using latest acquired and higher resolution imagery
• Improve the national coverage to 1 Second DEM replacing 9 Second DEM elevation models
• Hydrological enforcement using improved elevation models
• Develop Open Geospatial Consortium (OGC) (WFS) and (WMS) services

Standards

• Open Geospatial Consortium (OGC) Web Feature Service (WCS) Implementation Specification 1.1.0 (OGC Document No. 09-018)
• Open Geospatial Consortium (OGC) Web Map Service (WMS) Implementation Specification 1.3.0 (OGC Document No. 06-042)

Access and Licensing

Products and Services relating to this dataset are made available under open access policy and guidelines.

Coverage

Complete, current and continuous coverage of Australia, excluding external territories.

Quantity

The Flow Direction Grid database provides a 1:250 000m seamless network stream layer for Australia. The Network streams represents the flow direction of streams over the surface of the terrain, based on the GEODATA 9 grid of ground level elevation points covering the whole of Australia with a grid spacing of 9 seconds in longitude and latitude (approximately 250 metres) in the GDA94 coordinate system.

Currency: 2008

Coordinates: Geographical

Datum: Horizontal: GDA94; Vertical: AHD71

Metadata

https://www.ga.gov.au/products/servlet/controller?event=GEOCAT_DETAILS&catno=66006

Custodian Agency and Contact

Geoscience Australia

http://www.ga.gov.au/surfacewater

Aggregator

Geoscience Australia

Distributor(s) and Products

Geoscience Australia Nested Catchments and sub catchments product.

• https://www.ga.gov.au/products/servlet/controller?event=GEOCAT_DETAILS&catno=73078

Geoscience Australia 9 Second DEM Derived Streams v1.1.3

• https://www.ga.gov.au/products/servlet/controller?event=GEOCAT_DETAILS&catno=73079

Bureau of Meteorology – Surface Hydrology (SH) Network Product

• http://www.bom.gov.au/water/geofabric/download.shtml

Services

• http://www.ga.gov.au/metadata-gateway/metadata/record/gcat_66006
• http://www.ga.gov.au/scientific-topics/geographic-information/topographic-maps-data/digital-elevation-data

Formats

• ESRI ASCII Grid
• ER Mapper Grid
• ESRI Grid
• ERDAS Imagine Grid
• ASCII XYZ Grid
• wcs
• wms

Key Users

Key users of the flow direction grid are Commonwealth, State, Territory and Local governments and the Research and Industry sectors.

Additional

Relate feature with Elevation theme Model (DEM-9S) Version 3

Version

1.0 Draft for Consultation

Groundwater

Description

Nationally consistent set of groundwater boundaries and properties including aquifer boundaries, geometry, salinity, yield and hydraulic conductivity. The Interim Aquifer Framework has been used to standardise the hydrogeological unit terminology for this dataset.

Purpose

The groundwater dataset has been developed to collate and integrate State/Territory and regional groundwater mapping datasets across Australia. Although there are gaps in information every effort has been made to reduce or minimise inconsistencies and conflicts in overlapping or abutting datasets, and in attribution and definitions of the input datasets

Dataset Uses

The dataset is intended to be used at the regional to national scale and does not support local scale groundwater conceptualisation and modelling, and has not incorporated local and regional groundwater modelling data.

Key users of the groundwater dataset are Commonwealth, State and Territory and Local governments and the Research and Industry sectors.

Government agencies use this data to better manage water resources. The Australian Hydrological Geospatial fabric (Geofabric) is released through the Bureau of Meteorology which provides a framework for discovering, querying, reporting and modelling water information aligned with the definitions under the Water Act 2007 .

Government agencies use this data the manage assets that interact with the water network.

Current Status

The dataset is maintained by the Bureau of Meteorology. It may be updated periodically to address user feedback

Future Status

Long term objectives include:

• Updating the hydrogeological unit terminology from the Interim Aquifer Framework to the National Aquifer Framework
• Adding groundwater boundary and property datasets created using the National Groundwater Information System including 2.5 and 3D datasets

Standards

• ISO19100 series Geographic information has been considered,
• AS4590:2006 Interchange of client information
• AS1199.0-2003 Sampling procedures for inspection by attributes
• Australian Water Act 2007
• Open Geospatial Consortium (OGC) Web Feature Service (WFS) Implementation
• Specification 1.1.0 (OGC Document No. 04-094)
• Open Geospatial Consortium (OGC) Web Map Service (WMS) Implementation Specification 1.3.0 (OGC Document No. 06-042)

Access and Licensing

Products and Services relating to this theme are made available under open access policies and guidelines.

Coverage

Complete, current and continuous coverage of Australia.

Quantity

Groundwater boundaries and properties obtained from both State/Territory and Commonwealth agencies represent the best available regional and national scale digital groundwater data available at the time of collation.

Metadata

An ISO 19115 compliant XML file of the Geofabric Groundwater Cartography metadata statement accompanies the Product (GW_Cartography.xml) and is viewable using either the ArcGIS ISO 19139 ArcCatalog metadata style sheet or the ANZMet Lite metadata creation tool. http://www.bom.gov.au/water/geofabric/download.shtml

Custodian Agency and Contact

Bureau of Meteorology ahgf@bom.gov.au

Aggregator

Bureau of Meteorology

Distributor(s) and Products

Bureau of Meteorology – SH Groundwater Cartography Product http://www.bom.gov.au/water/geofabric/download.shtml

Formats

• ESRI File Geodatabase (gdb)
• xml

Key Users

Key users of the ground water are Commonwealth, State, Territory and Local governments and the Research and Industry sectors.

Additional

Version

1.0 Draft for Consultation

Groundwater Bores

Description

Nationally consistent set of groundwater bores (including monitoring, irrigation and commercial bores) and associated lithology, construction and hydrostratigraphy logs. The National Aquifer Framework has been used to standardise the hydrogeological unit terminology for this dataset.

Purpose

The groundwater bores dataset collates, standardises and spatially enables groundwater bore and bore log data held by the lead water agency in each State and Territory into a single, national repository. The dataset facilitates spatial, inter-jurisdictional and national analysis of groundwater data

Dataset Uses

Government agencies use this data to better manage water resources.

The National Groundwater Information System is released through the Bureau of Meteorology which provides the contextual and spatial data needed to interpret the time-series groundwater data (level and chemistry) submitted to the Bureau of Meteorology through the Water Regulations (the Commonwealth legislation that requires named agencies to deliver water data to the Bureau of Meteorology under the Water Act 2007).

Current Status

The dataset currently contains more than 800,000 bores and associated logs. The Bureau of Meteorology is the custodian of the dataset. They update the national dataset from State/Territory on an annual basis

Future Status

Long term objectives include:

• derive 2.5D and 3D products to represent the geometry of hydrogeological units

Standards

• ISO19100 series Geographic information has been considered,
• AS4590:2006 Interchange of client information
• AS1199.0-2003 Sampling procedures for inspection by attributes
• Australian Water Act 2007
• Open Geospatial Consortium (OGC) Web Feature Service (WFS) Implementation
• Specification 1.1.0 (OGC Document No. 04-094)
• Open Geospatial Consortium (OGC) Web Map Service (WMS) Implementation Specification 1.3.0 (OGC Document No. 06-042)

Access and Licensing

Products and Services relating to this theme are made available under open access policies and guidelines .

Coverage

Complete, current and continuous coverage of Australia

Quantity

The Bureau of Meteorology maintains the data model that defines the structure of the National Groundwater Information System geodatabase. The lead water agencies in each State and Territory (plus the Water Corporation in WA) export and standardise data from their corporate groundwater databases into State and Territory NGIS geodatabasesThe Bureau of Meteorology then performs quality assurance and control on the State and Territory geodatabases and collates them into the national geodatabase.

The dataset includes a unique spatial identifier for each feature.

Metadata

An ISO 19115 compliant XML file of National Groundwater Information System metadata statement accompanies the Product (NGIS_v1pt1.xml), and is viewable using the ArcGIS ISO 19139 ArcCatalog metadata style sheet.

Custodian Agency and Contact

Bureau of Meteorology; groundwater@bom.gov.au

Aggregator

Bureau of Meteorology

Distributor(s) and Products

Bureau of Meteorology – National Groundwater Information System; http://www.bom.gov.au/water/groundwater/ngis/

National Aquifer Framework http://www.bom.gov.au/water/groundwater/naf/index.shtml

Formats

• ESRI File Geodatabase (gdb)
• xml

Key Users

Key users of the ground water are Commonwealth, State, Territory and Local governments and the Research and Industry sectors.

Additional

Version

1.0 Draft for Consultation

Groundwater Dependent Ecosystems (GDE)

Description

Groundwater Dependent Ecosystems (GDE) is ecological and hydrogeological information on known groundwater dependent ecosystems and ecosystems that potentially use groundwater.

Purpose

GDE dataset aims to improve Australia's understanding of groundwater dependent ecosystems and facilitate how they are considered in water management. Information in the GDE dataset includes the ecosystems that rely on the surface and subsurface expression of groundwater and subterranean environments (caves and aquifers).

Dataset Uses

Natural resource management can use the dataset for water planning and environmental impact assessment. It indicates where ecosystems potentially interact with groundwater, and some of the characteristics of those ecosystems that may be useful in determining water requirements.

The dataset can be used for applications to identify general locations where groundwater interaction may occur. It does not imply that an entire mapped ecosystem is using groundwater, but rather within the mapped ecosystem groundwater interaction may be occurring, since only part of the ecosystem may actually be interacting with groundwater

The GDE Atlas can be used to understand the vulnerability of groundwater-dependent ecosystems to changing water management and other external factors, and developing and disseminating methods to deal with those vulnerabilities.

The GDE Atlas makes no assessment of ecosystem value, condition, sensitivity, threat or risk. There are many external factors that need to be considered in these assessments at a more detailed scale. The GDE Toolbox http://archive.nwc.gov.au/library/waterlines/69-70 provides a more detailed GDE assessment, including their identification, an assessment of ecological water requirements and determination of how changes in the groundwater environment impact on ecosystems.

Current Status

Maintained by Bureau of Meteorology – information is sourced from:

• WA Department of Agriculture and Food
• NSW Office of Environment and Heritage
• NSW Government
• NSW National Parks and Wildlife Service
• NT (former) Department of Natural Resources, Environment, the Arts and Sport
• Qld Department of the Environment and Resource Management
• SA Department of Environment and Natural Resources
• Tas Department Primary Industries, Parks, Water and Environment
• Vic Department of Primary Industries
• Vic Department of Sustainability and Environment

Datasets can be accessed through the Atlas of Groundwater Dependent Ecosystems web mapping portal. The Atlas is a tool to assist the consideration of ecosystem groundwater requirements in natural resource management, including water planning and environmental impact assessment.

http://www.bom.gov.au/water/groundwater/gde/map.shtml

Future Status

Long term objectives include:

• Improve web services for data delivery and access
• Improve maintenance of exist datasets

Standards

• ISO19100 series Geographic information has been considered
• Open Geospatial Consortium (OGC) Web Map Service (WMS) Implementation Specification 1.3.0 (OGC Document No. 06-042)

Access and Licensing

Products and Services relating to this dataset are made available under open access policy and guidelines.

Coverage

Australia, excluding external territories

Quantity

Polygons are represented as potential for groundwater interaction/use, by the categories high, moderate and low potential.

Attributes are populated from existing literature describing GDEs or previously existing spatial datasets.

Geographic coordinate system name: GCS_GDA_1994

Metadata

• http://www.bom.gov.au/water/groundwater/gde/metadata/ss.htm
• http://www.bom.gov.au/water/groundwater/gde/metadata/su.htm

Custodian Agency and Contact

Bureau of Meteorology; groundwater@bom.gov.au

Aggregator

Bureau of Meteorology

Distributor(s) and Products

Bureau of Meteorology http://www.bom.gov.au/water/groundwater/gde/map.shtml

Formats

Key Users

Key users of the national catchments are Commonwealth, State, Territory and Local governments and the Research and Industry sectors.

Additional

Other useful information includes:

• http://www.bom.gov.au/water/groundwater/gde/index.shtml
• http://www.bom.gov.au/water/groundwater/gde/reports.shtml

Version

1.0 Draft for Consultation