Description: <DIV STYLE="text-align:Left;font-size:12pt"><DIV><P><SPAN>Network representation of hydrological features, including over 2.5 million stream segments and 6000 gauging stations, which can be used with the Geofabric Toolset to create customised catchments and networks.</SPAN></P><P><SPAN>The Geofabric Surface Network product provides a set of related feature classes to be used as the basis for production of consistent hydrological surface stream network analysis. This product contains a topographically consistent representation of the (major) surface water features of Australia (excluding external territories). </SPAN><SPAN><SPAN>This product contains six feature types including: Waterbody, Network Stream, Network Node, Catchment, Network Connectivity (Upstream) and Network Connectivity (Downstream).</SPAN></SPAN></P></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><DIV STYLE="font-size:12pt"><P><SPAN>Network Node Gauging Stations are a selection of AHGFNetworkNodes that represent Surface Water Gauging Stations. Primarily these are a NetworkGhostNode subtypes, which are the only NetworkNode feature which does not physically break the stream segment network, and subsequently don't specifically have an upstream catchment defined. Important Gauges are part of the HR Catchments product, which have defined upstream catchment reaches. Gauges are also associated to other subtypes, most commonly a NetworkWaterAreaNode, most commonly representing a Gauge at the outlet of a Reservoir.</SPAN></P></DIV></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The AHGFNetworkNodes are derived from the complete set of AHGFNetworkStream segments feature class. It is new feature class created by the Bureau in order to distinguish specific kinds of stream segments and their relationship in the stream network. The AHGFNetworkNodes are distinguished by specific subtypes. NetworkJunctionNode: represents the confluence of any two or more AHGFNetworkStream segments. NetworkTerminusNode: represents the end of any AHGFNetworkStream segment (either into a coastal outlet or inland sink). NetworkArtificialNode: represents the start or end of any artificial AHGFNetworkArtificialFlowSegment NetworkWaterAreaNode: represents the entry or exit of a AHGFNetworkStream into or of a AHGFWaterbody or AHGFHydroArea feature. NetworkGhostNode: currently a placeholder for building spatial relationships to Monitoring Points. This is the only NetworkNode feature which does not physically break the stream segment network. NetworkHeadNode: the starting point of any AHGFNetworkStream segment feature. NetworkCliffNode: represent the locational break of a AHGFNetworkStream segment intersection with a Cliffline.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The AHGFNetworkStreams are derived from the ANUDEM (version 5.3.0 3 November 2016) derived raster streams, and vectorised to be usable in vector line feature format. They are initially informed and modified by the coincident locations of AusHydro V2 Watercourse feature class. The features have been organized into specific Feature Class subtypes based upon both the inputs from the AusHydro V2 Watercourse feature class and their behaviour within the AHGF stream network relationships. NetworkFlowSegment:corresponds to an existing blueline stream from AusHydro Watercourses NetworkArtificialFlowSegment: corresponds to a stream flow "connector" from AusHydro V2 Watercourses. These are additional stream segments that represent logcial stream flow direction when compared to the AHGFMappedStreams. NetworkWaterAreaSegment: these are logical stream flow connectors through AHGFWaterbodies. All of these features participate in the connected stream flow topology.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The AHGFNetworkStreams are derived from the ANUDEM (version 5.3.0 3 November 2016) derived raster streams, and vectorised to be usable in vector line feature format. They are initially informed and modified by the coincident locations of AusHydro V2 Watercourse feature class. The features have been organized into specific Feature Class subtypes based upon both the inputs from the AusHydro V2 Watercourse feature class and their behaviour within the AHGF stream network relationships. NetworkFlowSegment:corresponds to an existing blueline stream from AusHydro Watercourses NetworkArtificialFlowSegment: corresponds to a stream flow "connector" from AusHydro V2 Watercourses. These are additional stream segments that represent logcial stream flow direction when compared to the AHGFMappedStreams. NetworkWaterAreaSegment: these are logical stream flow connectors through AHGFWaterbodies. All of these features participate in the connected stream flow topology.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The AGHFCatchments are the lowest level stream flow catchments based upon the inputs from ANUDEM derived raster streams. The catchment boundaries are based upon a single AHGFNetworkStreamSegment extent over 1 SEC SRTM DEM-S grid. These catchments form the basis of aggregated catchment boundaries, either by Contracted Nodes or by Pfafstetter Id Levels.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>Composited from AusHydro V2. Lakes: A naturally occurring body of mainly static water surrounded by land. Reservoirs: A body of water collected and stored behind a constructed barrier for some specific use (with the exception of Flood Irrigation Storage). Swamp (subset of AusHydro feature class "Flats"): Land which is so saturated with water that it is not suitable for agricultural or pastoral use and presents a barrier to free passage or Low lying land usually adjacent to lakes or watercourses, which is regularly covered with flood water for short periods. These features represent waterbodies that are related to the stream networks by storing the HydroID of the most downstream outlet JunctionNode. These features will also contain MappedArtificialFlowSegment.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>Composited from AusHydro V2. Lakes: A naturally occurring body of mainly static water surrounded by land. Reservoirs: A body of water collected and stored behind a constructed barrier for some specific use (with the exception of Flood Irrigation Storage). Swamp (subset of AusHydro feature class "Flats"): Land which is so saturated with water that it is not suitable for agricultural or pastoral use and presents a barrier to free passage or Low lying land usually adjacent to lakes or watercourses, which is regularly covered with flood water for short periods. These features represent waterbodies that are related to the stream networks by storing the HydroID of the most downstream outlet JunctionNode. These features will also contain MappedArtificialFlowSegment.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;font-size:12pt"><P><SPAN>Water Storages are select</SPAN><SPAN> </SPAN><SPAN>AHGFWaterbody</SPAN><SPAN> </SPAN><SPAN>features tha</SPAN><SPAN>t </SPAN><SPAN>refe</SPAN><SPAN>rence </SPAN><SPAN>the Water Storage information available on the Bureau of Meteorology's</SPAN><SPAN> </SPAN><SPAN>water information dashboard (WID)</SPAN><SPAN>: http://www.bom.gov.au/water/dashboards/#/water-storages/summary/state</SPAN><SPAN /></P><P><SPAN>The attribute 'WaterStora</SPAN><SPAN>geURL'</SPAN><SPAN> can be used to directly link to individual water storages in the WID.</SPAN></P></DIV>
Color: [112, 68, 137, 255] Background Color: N/A Outline Color: N/A Vertical Alignment: bottom Horizontal Alignment: center Right to Left: false Angle: 0 XOffset: 0 YOffset: 0 Size: 9 Font Family: Verdana Font Style: normal Font Weight: normal Font Decoration: none
Name: Geofabric Hydrology Reporting Regions - V3.3
Display Field:
Type: Group Layer
Geometry Type: null
Description: <DIV STYLE="text-align:Left;font-size:12pt"><DIV><DIV><P><SPAN>Geofabric Hydrology Reporting Regions is derived from aggregations of contracted catchments from Geofabric Hydrology Reporting Catchments. This product contains two candidate reporting regions, namely AWRA Drainage Division for national scale reporting purposes and River Region for regional scale reporting purposes. More reporting regions may be added in future releases based on user requirements. This product contains four feature types including: AWRA Drainage Division, AWRA Drainage Division Contracted Catchment Lookup, River Region, and River Regions Contracted Catchment</SPAN><SPAN>.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The River Regions feature class is derived from aggregations of contracted catchments from the Geofabric Hydrology Reporting Catchments product. The River Regions were based on a specification developed by Bureau staff involved in water resources assessment in consultation with the Geofabric team and scientists from CSIRO and ANU. These boundaries were developed for use in regional scale reporting and hydrological modelling.</SPAN></P></DIV></DIV></DIV>
Color: [112, 68, 137, 255] Background Color: N/A Outline Color: N/A Vertical Alignment: bottom Horizontal Alignment: center Right to Left: false Angle: 0 XOffset: 0 YOffset: 0 Size: 8 Font Family: Verdana Font Style: normal Font Weight: normal Font Decoration: none
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The AWRA Drainage Divisions feature class is derived from aggregations of contracted catchments from the Geofabric Hydrology Reporting Catchments product. The AWRA Drainage Division is defined for the purpose of providing a stable set of reporting regions specifically for the purpose of the Bureau's Australian Water Resources Assessment 2010 and are referred to as the 2010 Assessment Reporting Regions.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The Station Catchments feature class is primarily derived using the geofabric toolset from aggregations of catchments from the Geofabric Surface Hydrology Network product, with splitting of some AHGFCatchments at the outlets of Station Catchments. Station Catchments represent upstream contributing catchments of important Gauging Stations. These boundaries were developed for use in regional scale reporting and hydrological modelling.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;font-size:12pt"><P><SPAN>The Geofabric Surface Cartography product provides a set of related feature classes to be used as the basis for the production of consistent hydrological cartographic maps. This product contains a geometric representation of the (major) surface water features of Australia (excluding external territories). Primarily, these are natural surface hydrology features but the product also contains some man-made features (notably reservoirs, canals and other hydrographic features). The product is fully topologically correct which means that all the stream segments flow in the correct direction. This product contains fifteen feature types including: Waterbody, Mapped Stream, Mapped Node, Mapped Connectivity (Upstream), Mapped Connectivity (Downstream), Dam, Structure, Canal Line, Water Pipeline, Hydro Point, Hydro Line and Hydro Area.</SPAN></P></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>A feature constructed for the storage of water, including both enclosed man-made containers or open bodies of water behind constructed barriers in the natural landscape. The storage of water may occur on or below ground level.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>A composited set of feature points from AusHydro V2. Waterpoint: A small body of still or standing water, permanent or temporary in an isolated natural depression, not within Watercourses. Includes Gnammahole, Nativewell, Pool, Soak Bay: subset of features from AusHydro Locations feature class. Waterhole: A natural depression which holds perennial water, within a non-perennial watercourse or a non-perennial lake. Spring: A place where water issues from the ground naturally. Watertank: A feature constructed for the storage of water, including both enclosed man-made containers or open bodies of water behind constructed barriers in the natural landscape. The storage of water may occur on or below ground level.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>A composited set of feature points from AusHydro V2. Lock: An enclosure in a water body with gates at both ends to raise or lower the water level to enable vessels to pass from one level to another. Bridge: A structure erected over a depression or obstacle to carry rail or road traffic. Ford: A structure erected over a depression or obstacle to carry road traffic Waterfall: A sudden descent of water over a step or ledge in the bed of a watercourse.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>A composited set of line features from AusHydro V2. DamWalls: A barrier of earth and rock, concrete or masonry constructed to form a reservoir for water storage purposes or to raise the water level. Rapidline: An area of broken, fast flowing water in a watercourse, where the slope of the bed increases (but without a prominent break of slope which might result in a waterfall), or where a gently dipping bar of harder rock outcrops. Spillway:A channel or duct formed around the side of a reservoir past the end of the dam, to convey flood discharge from the watercourse above the reservoir into the watercourse below the dam. Cliffline: A high, steep, significant or overhanging face of rock. Levee: A low earth wall erected to restrain flood waters or to contain irrigation water. Shoreline and Shoreline Junction: The boundary defining the division of the Commonwealth of Australia into State/Territory administrations. Tunnel: An artificial underground or underwater passage carrying a railway or road.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>An artificial open channel which provides the supply, distribution or removal of water for irrigation purposes, or for a significant infrastructure function (such as salt interception, land reclamation, or drainage), or for a significant altered natural watercourseline.</SPAN></P></DIV></DIV></DIV>
Color: [130, 130, 130, 255] Background Color: N/A Outline Color: N/A Vertical Alignment: bottom Horizontal Alignment: center Right to Left: false Angle: 0 XOffset: 0 YOffset: 0 Size: 10 Font Family: Tahoma Font Style: normal Font Weight: normal Font Decoration: none
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The MonitoringPoint feature class represents the source location of water storage and stream gauging stations. Gauging stations are as-reported by Water providers to the Bureau which are onboarded into AWRIS, </SPAN><SPAN>or alternate source locations </SPAN><SPAN>with features </SPAN><SPAN>represented and </SPAN><SPAN>associated with waterbodies or topologically connected flow direction streamlines</SPAN><SPAN>in the SH_Network product</SPAN><SPAN>.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The AHGFMappedNodes are derived from the complete set of AHGFMappedStream segments feature class. They are a new feature class created by the Bureau in order to distinguish specific kinds of stream segments and their relationship in the stream network. The AHGFMappedNodes are distinguished by specific subtypes. MappedJunctionNode: represents the confluence of any two or more AHGFMappedStreams segment. MappedTerminusNode: represents the end of any AHGFMappedStream segment (either into a coastal outlet or inland sink). MappedArtificialNode: represents the start or end of any artificial AHGFMappedArtificialFlowSegment MappedWaterAreaNode: represents the entry or exit of a AHGFMappedStream into or out of a AHGFWaterbody or AHGFHydroArea feature. MappedGhostNode: currently a placeholder for building spatial relationships to Monitoring Points. This is the only MappedNode feature which does not physically break the stream segment network. MappedHeadNode: the starting point of any MappedStream segment feature. MappedCliffNode: represent the locational break of a MappedStream segment intersection with an AHGFCliffline.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The AHGFMappedStreams are derived from the AusHydro V2 Watercourse feature class. The features have been organised into specific Feature Class subtypes based upon both the inputs from the AusHydro V2 Watercourse feature class and their behaviour within the AHGF stream network relationships. MappedFlowSegment:corresponds to an existing blueline stream from AusHydro V2 Watercourses MappedArtificialFlowSegment: corresponds to a stream flow "connector" from AusHydro V2 Watercourses. These are additional stream segments that represent logical stream flow direction when compared to the AHGFNetworkStreams. MappedWaterAreaSegment: these are logical stream flow connectors through AHGFWaterbodies. All of these features participate in the connected stream flow topology.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The AHGFMappedStreams are derived from the AusHydro V2 Watercourse feature class. The features have been organised into specific Feature Class subtypes based upon both the inputs from the AusHydro V2 Watercourse feature class and their behaviour within the AHGF stream network relationships. MappedFlowSegment:corresponds to an existing blueline stream from AusHydro V2 Watercourses MappedArtificialFlowSegment: corresponds to a stream flow "connector" from AusHydro V2 Watercourses. These are additional stream segments that represent logical stream flow direction when compared to the AHGFNetworkStreams. MappedWaterAreaSegment: these are logical stream flow connectors through AHGFWaterbodies. All of these features participate in the connected stream flow topology.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>A hollow cylinder of variable dimension used for carrying water.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>A composited set of area features from AusHydro V2. Canal Area: An artificial open channel which provides the supply, distribution or removal of water for irrigation purposes, or for a significant infrastructure function (such as salt interception, land reclamation, or drainage). Flat: Land which is so saturated with water that it is not suitable for agricultural or pastoral use and presents a barrier to free passage or Low lying land usually adjacent to lakes or watercourses, which is regularly covered with flood water for short periods. Foreshore Flat: That part of the seabed or estuarine areas, between mean high water and the line of lowest astronomical tide. Pondage Area: Shallow beds, usually segmented by constructed walls, for the use of aquaculture or a flat area, usually segmented, used for the commercial production of salt by evaporation and shallow beds, usually segmented by constructed walls, for the treatment of sewage or other wastes. Rapid Area: An area of broken, fast flowing water in a watercourse, where the slope of the bed increases (but without a prominent break of slope which might result in a waterfall), or where a gently dipping bar of harder rock outcrops.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>Composited from AusHydro V2. Lakes: A naturally occurring body of mainly static water surrounded by land. Reservoirs: A body of water collected and stored behind a constructed barrier for some specific use (with the exception of Flood Irrigation Storage). Swamp (subset of AusHydro feature class "Flats"): Land which is so saturated with water that it is not suitable for agricultural or pastoral use and presents a barrier to free passage or Low lying land usually adjacent to lakes or watercourses, which is regularly covered with flood water for short periods. These features represent waterbodies that are related to the stream networks by storing the HydroID of the most downstream outlet JunctionNode. These features will also contain MappedArtificialFlowSegment.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;font-size:12pt"><P><SPAN>Geofabric Hydrology Reporting Catchments comprises two related views of hydrological catchments to be used for analysis and reporting purposes. Firstly, a topological network view of hydrological catchments represented as a simplified node-link network using a subset of the contracted nodes (AHGFNode) and the links (AHGFLink) between them; and secondly, a catchments view of the hydrology using the contracted catchments (AHGFContractedCatchment). The AHGFNode feature class contains contracted nodes that are points of hydrological significance that carry identity. They include the confluence of major named streams, coastal stream termini, waterbody inflow and outflows</SPAN><SPAN>, important gauging stations</SPAN><SPAN> and inland sinks. It also contains a new class of node called diffuse nodes that represent diffused flow from groups of nodes at coastal, delta or inter-catchment outlets. The AHGFLink feature class provides the topological connectors between a subset of contracted nodes that participate in the simplified node-link network. The AHGFContractedCatchment feature class contains catchment polygons (that are aggregations of AHGFCatchments) for the subset of contracted nodes that participate in the simplified node link network. These catchments are part of a hierarchy that can be aggregated based on upstream relationships. This product contains five feature types including: Node, Link, Contracted Catchment, Node-Link Connectivity (upstream), and Node-Link Connectivity (downstream).</SPAN></P></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><P><SPAN>The AHGFNode feature class contains Geofabric contracted nodes that represent important hydrological features. They are assigned a persistent and unique identifier as well as a confidence level. It also contains the HydroID of node that represents the contracted node in AHGFMappedNode and the the HydroID for the next downstream AHGFNode.</SPAN></P></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><P><SPAN>The AHGFLink feature class contains the links between contracted nodes and when displayed togher with the AHGFNode feature class, results in a node-link network representation. It contains the next upstream contracted node identifier as well as the next downstream contracted node identifier. It also has the HydroID for the AHGFCatchment into which the AHGFLink drains.</SPAN></P></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The AGHFContractedCatchments are based upon the fully disaggregated stream segment level catchments derived from 1 SEC SRTM DEM-S foundation data. These data define a catchment for every stream segment in the Surface Network product. The AHGFContractedCatchments is the set of predefined aggregated catchments. This is the component of the product whose outflow node is a Contracted Node that is guaranteed to persist.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;font-size:12pt"><DIV><DIV><P><SPAN>Catchment boundaries derived from the 1 second Digital Elevation Model, with ~7 million base level catchments.</SPAN></P><P><SPAN>The Geofabric Surface Catchments product is derived from ANUDEM (version 5.3.0 1 November 2016). This data defines a catchment for every stream segment containd within the Geofabric Surface Network product according to the 1 SEC SRTM DEM-S. These stream segment level boundaries may be used individually or in aggregation. The product is designed to represent geographic surface boundaries that have a hydrological relationship to surface water features. The NCB Level 1 and NCB Level 2 features are the top two levels in the NCB Catchment hierarchy and have been provided as polygon boundaries. This product contains one Geofabric feature type called Catchment. It also contains </SPAN><SPAN>two</SPAN><SPAN> NCB feature types including: NCBLevel1Drainage Division, </SPAN><SPAN>and </SPAN><SPAN>NCBLevel2Drainage Basin</SPAN><SPAN>.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The AGHFCatchments are the lowest level stream flow catchments based upon the inputs from ANUDEM derived raster streams. The catchment boundaries are based upon a single AHGFNetworkStreamSegment extent over 1 SEC SRTM DEM-S grid. These catchments form the basis of aggregated catchment boundaries, either by Contracted Nodes or by NCB Levels 1 and 2.</SPAN></P></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><P><SPAN>The Geofabric Surface Catchments product provides a hierarchy of nested catchments from drainage divisions at the top level all the way down to a separate catchment for every stream segment in the Geofabric Surface Network product. The top two levels of this hierarchy, Level 1 and Level 2, have been extracted as separate feature classes. The NCBLevel1DrainageDivision feature class consists of 12 topographically defined drainage divisions and represent the highest level of the catchment hierarchy. At the next level down, the NCBLevel2DrainageBasinGroup represent 191 catchment units approximating the Australian Water Resources Management Committee (AWRC) river basins as described by GA (1997).</SPAN></P></DIV></DIV>
Color: [130, 130, 130, 255] Background Color: N/A Outline Color: N/A Vertical Alignment: bottom Horizontal Alignment: left Right to Left: false Angle: 0 XOffset: 0 YOffset: 0 Size: 10 Font Family: Verdana Font Style: normal Font Weight: normal Font Decoration: none
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The Geofabric Surface Catchments product provides a hierarchy of nested catchments from drainage divisions at the top level all the way down to a separate catchment for every stream segment in the Geofabric Surface Network product. The top two levels of this hierarchy, Level 1 and Level 2, have been extracted as separate feature classes. Nationally the NCBLevel1DrainageDivision feature class consists of 12 topographically defined drainage divisions and represent the highest level of the catchment hierarchy. At the next level down, the NCBLevel2DrainageBasinGroup represent 191 catchment units approximating the Australian Water Resources Management Committee (AWRC) river basins as described by GA (1997).</SPAN></P></DIV></DIV></DIV>
Color: [104, 104, 104, 255] Background Color: N/A Outline Color: N/A Vertical Alignment: bottom Horizontal Alignment: left Right to Left: false Angle: 0 XOffset: 0 YOffset: 0 Size: 14 Font Family: Verdana Font Style: normal Font Weight: normal Font Decoration: none
Description: <DIV STYLE="text-align:Left;font-size:12pt"><P><SPAN>Geofabric Groundwater Cartography (Geofabric Version 3X) is a national collation of existing groundwater mapping including aquifer boundaries and properties (structure contours, salinity, outcrop and yield). Groundwater mapping was sourced from jurisdictional agencies and integrated into a single dataset according to a standard data model. Aquifer terminology was standardised using the National Aquifer Framework (NAF), which makes it consistent with the other Bureau of Meteorology groundwater products, such as the National Groundwater Information System (NGIS) and the Australian Groundwater Explorer.</SPAN></P></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The aquifer boundaries dataset depicts the major groundwater resources in Australia. This includes well known aquifers, including those in the Great Artesian Basin, Murray Basin, Daly Basin and Perth Basin.</SPAN></P></DIV></DIV></DIV>
fsource
(
type: esriFieldTypeInteger, alias: FeatureSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
attrsource
(
type: esriFieldTypeInteger, alias: AttributeSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The aquifer boundaries dataset depicts the major groundwater resources in Australia. This includes well known aquifers, including those in the Great Artesian Basin, Murray Basin, Daly Basin and Perth Basin.</SPAN></P></DIV></DIV></DIV>
fsource
(
type: esriFieldTypeInteger, alias: FeatureSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
attrsource
(
type: esriFieldTypeInteger, alias: AttributeSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The aquifer boundaries dataset depicts the major groundwater resources in Australia. This includes well known aquifers, including those in the Great Artesian Basin, Murray Basin, Daly Basin and Perth Basin.</SPAN></P></DIV></DIV></DIV>
fsource
(
type: esriFieldTypeInteger, alias: FeatureSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
attrsource
(
type: esriFieldTypeInteger, alias: AttributeSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The aquifer boundaries dataset depicts the major groundwater resources in Australia. This includes well known aquifers, including those in the Great Artesian Basin, Murray Basin, Daly Basin and Perth Basin.</SPAN></P></DIV></DIV></DIV>
fsource
(
type: esriFieldTypeInteger, alias: FeatureSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
attrsource
(
type: esriFieldTypeInteger, alias: AttributeSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The aquifer structure contours dataset provides the elevation of the top and bottom of aquifers.</SPAN></P></DIV></DIV></DIV>
fsource
(
type: esriFieldTypeInteger, alias: FeatureSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
attrsource
(
type: esriFieldTypeInteger, alias: AttributeSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The aquifer structure contours dataset provides the elevation of the top and bottom of aquifers.</SPAN></P></DIV></DIV></DIV>
fsource
(
type: esriFieldTypeInteger, alias: FeatureSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
attrsource
(
type: esriFieldTypeInteger, alias: AttributeSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The aquifer salinity dataset provides information about the quality of groundwater resources, which is expressed as Total Dissolved Solids (TDS) in units of milligrams per litre (mg/L).</SPAN></P></DIV></DIV></DIV>
fsource
(
type: esriFieldTypeInteger, alias: FeatureSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
attrsource
(
type: esriFieldTypeInteger, alias: AttributeSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The aquifer yield dataset provides information about the aquifer's capacity to release the groundwater in the pores and fractures and its ability to transmit the flow with ease, which is expressed in units of litres per second (L/s).</SPAN></P></DIV></DIV></DIV>
fsource
(
type: esriFieldTypeInteger, alias: FeatureSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
attrsource
(
type: esriFieldTypeInteger, alias: AttributeSource
, Coded Values:
[1: Department of Regional Development, Manufacturing and Water, QLD]
, [2: Department of Environment, Parks and Water Security, NT]
, [3: Department of Natural Resources and Environment, TAS]
, ...13 more...
)
gn_qa_code
(
type: esriFieldTypeSmallInteger, alias: GN_QA_Code
, Coded Values:
[0: 0 No QA Code has been assigned]
, [1: 1 GN location and associated observed feature verified by Data Owner]
, [2: 2 GN location and associated observed feature validated by BoM]
, ...7 more...
)