f00fa621-cfea-4ecd-b14a-e1101723d128
eng
utf8
dataset
Bioregional Assessment Program
bioregionalassessments@environment.gov.au
pointOfContact
2023-08-09T05:14:52.609713
ANZLIC Metadata Profile: An Australian/New Zealand Profile of AS/NZS ISO 19115:2005,
Geographic information - Metadata
1.1
670de516-30c5-4724-bd76-8ff4a42ca7a5
2018-06-01T00:11:00.888232
publication
f00fa621-cfea-4ecd-b14a-e1101723d128
Bioregional Assessment Program
author
## **Abstract**
The dataset was derived by the Bioregional Assessment Programme from multiple source datasets. The source datasets are identified in the Lineage field in this metadata statement. The processes undertaken to produce this derived dataset are described in the History field in this metadata statement.
This metadata contains data for two models: AWRA-L and AWRA-R. In the Macquarie-Tuggerah-Lake (MTL) coastal subregion, only AWRA-L modelling was conducted; in the Hunter subregion both modelling were conducted and AWRA-L flow outputs provided as model inputs for AWRA-R.
AWRA-L
The metadata within the dataset contains the workflow, processes, inputs and outputs data. The workflow pptx file under the top folder provides the top level summary of the modelling framework, including three slides. The first slide explains how to generate global definition file; the second slide outlines the calibration and simulation for AWRA-L model run; the third slide shows AWRA-L model post-processing for getting streamflow under baseline and coal mine resources development.
The exectable model framework is under the Application subfolder
Other subfolders, including model calibration, model simulation, post processing, contain the associated files used for model calibration, simulation and post processing, respectively.
Documentation about the implementation of AWRA-L in the Hunter bioregion is provided in BA HUN 2.6.1.3 and 2.6.1.4 products.
AWRA-R
The metadata within the dataset contains the workflow, processes, input and output data and instructions to implement the Hunter AWRA-R model for model calibration or simulation.
Each sub-folder in the associated data has a readme file indicating folder contents and providing general instructions about the workflow performed.
Detailed documentation of the AWRA-R model, is provided in: https://publications.csiro.au/rpr/download?pid=csiro:EP154523&dsid=DS2
Documentation about the implementation of AWRA-R in the Hunter bioregion is provided in BA HUN 2.6.1.3 and 2.6.1.4 products.
## **Purpose**
BA surface water modelling in the Hunter bioregion
## **Dataset History**
There are two sections, the first section describing AWRA-L, the second section describing AWRA-R.
Section 1 - AWRA-L
The directories within contain the input and output data of the Hunter AWRA-L model for model calibration, simulation and post-processing.
The calibration folder contains the input and output subfolders used for two model calibration schemes: lowflow and normal. The lowflow model calibration puts more weight on median and low streamflow; the normal model calibration puts more weight on high streamflow.
The simulation folder contains only one replicate of model input and output as an example.
The post-processing folder contains three subfolders: inputs, outputs and scripts used for generating streamflow under the baseline and coal mine resources development conditions. It contains the post-processing for the two subregions (MTL and HUN). In the MTL coastal subregion, the AWRA-L postprocessing results were final outputs, while in the HUN subregion AWRA-L flow outputs were model inputs for AWRA-R (Details below).
Input and output files are the daily data covering the period of 1953 to 2102, with the first 30 years (1953-1982) for model spin-up.
Documentation about the implementation of AWRA-L in the Hunter bioregion is provided in BA HUN 2.6.1.3 and 2.6.1.4 products.
Data details are below
Model calibrations
1. Climate forcings are under '... AWRAL_Metadata\model calibration\inputs\Climate\'
2. Lowflow calibration data including catchment location, global definition mapping, objective definition and optimiser definition under '... AWRAL_Metadata\model calibration\inputs\lowflow\'
3. Higflow calibration data including catchment location, global definition mapping, objective definition and optimiser definition under '... AWRAL_Metadata\model calibration\inputs\normal\'
4. Observed streamflow data used for model calibrations are under '... AWRAL_Metadata\model calibration\inputs\Streamflow\'
Model simulations
1. Climate forcings are under '... AWRAL_Metadata\model simulation\inputs\Climate\'
2. Global definition file used in csv output mode data is under '... AWRAL_Metadata\model simulation\inputs\csv_Model_1\'
3. Global definition file used in netcdf output mode data is under '... AWRAL_Metadata\model simulation\inputs\Netcdf_Model_1\'
4. Output files used in csv output mode data contain Dd, dgw, E0, Qg, Qtot, Rain, Sg outputs, which is used for AWRA-R model input and is under '... AWRAL_Metadata\model simulation\outputs\csv_Model_1\'
5. Output files used in netcdf output mode data contain Qg and Qtot outputs, which is used for AWRA-L postprocessing and is under '... AWRAL_Metadata\model simulation\outputs\Netcdf_Model_1\'
Post-processing
1. Input data include AWRA-L streamflow, ground water baseflow input and mine footprint data, stored at '... AWRAL_Metadata\post processing\Inputs\'
2. Output data include streamflow outputs under crdp and baseline for the HUN and MTL subregions, stored at '... AWRAL_Metadata\post processing\Outputs\'
3. Scripts for use for post-processing AWRA-L streamflow and ground water baseflow, is under '... AWRAL_Metadata\model simulation\post processing\Scripts\'
Section 2 - AWRA-R
The directories within contain the input data and outputs of the Hunter AWRA-R model for model calibration or simulation. The folders were calibration data stored is used as an example,
simulation uses mirror files of these data, albeit with longer time-series depending on the simualtion period.
Detailed documentation of the AWRA-R model, is provided in: https://publications.csiro.au/rpr/download?pid=csiro:EP154523&dsid=DS2
Documentation about the implementation of AWRA-R in the Hunter bioregion is provided in BA HUN 2.6.1.3 and 2.6.1.4 products.
Additional data needed to generate some of the inputs needed to implement AWRA-R are detailed in the corresponding metadata statement as stated below.
Input data needed:
1. Gauge/node topological information in '...\model calibration\HUN4_low\gis\sites\AWRARv5.00_reaches.csv'.
2. Look up table for soil thickness in '...\model calibration\HUN4_low\gis\ASRIS_soil_properties\HUN_AWRAR_ASRIS_soil_thickness_v5.00.csv'. (check metadata statement)
3. Look up tables of AWRA-LG groundwater parameters in '...\model calibration\HUN4_low\gis\AWRA-LG_gw_parameters\'.
4. Look up table of AWRA-LG catchment grid cell contribution in '...model calibration\HUN4_low\gis\catchment-boundary\AWRA-R_catchment_x_AWRA-L_weight.csv'. (check metadata statement)
5. Look up tables of link lengths for main river, tributaries and distributaries within a reach in \model calibration\HUN4_low\gis\rivers\'. (check metadata statement)
6. Time series data of AWRA-LG outputs: evaporation, rainfall, runoff and depth to groundwater.
7. Gridded data of AWRA-LG groundwater parameters, refer to explanation in '...'\model calibration\HUN4_low\rawdata\AWRA_LG_output\gw_parameters\README.txt'.
8. Time series of observed or simulated reservoir level, volume and surface area for reservoirs used in the simulation: Glenbawn Dam and Glennies Creek Dam.
located in '...\model calibration\HUN4_low\rawdata\reservoirs\'.
9. Gauge station cross sections in '...\model calibration\HUN4_low\rawdata\Site_Station_Sections\'. (check metadata statement)
10. Daily Streamflow and level time-series in'...\model calibration\HUN4_low\rawdata\streamflow_and_level_all_processed\'.
11. Irrigation input, configuration and parameter files in '...\AWRAR_Metadata\model calibration\HUN4_low\inputs\HUN\irrigation\'. These come from the separate calibration of the AWRA-R irrigation module in:
'...\irrigation calibration\', refer to explanation in readme.txt file therein.
12. Dam simulation script '\AWRAR_Metadata\dam model calibration simulation\scripts\Hunter_dam_run_2.R' and configuration files in
'\AWRAR_Metadata\dam model calibration simulation\scripts\Hunter_dam_config_2.csv'. The config file comes from a separate calibration of AWRA-R dam module in
'\AWRAR_Metadata\dam model calibration simulation\', refer to the explanation in the readme.txt file therein
Relevant ouputs include:
1. AWRA-R time series of stores and fluxes in river reaches ('...\AWRAR_Metadata\model calibration\HUN4_low\outputs\jointcalibration\v01\HUN\simulations\')
including simulated streamflow in files denoted XXXXXX_full_period_states_nonrouting.csv where XXXXXX denotes gauge or node ID.
2. AWRA-R time series of stores and fluxes for irrigation/mining in the same directory as above in files XXXXXX_irrigation_states.csv
3. AWRA-R calibration validation goodness of fit metrics ('...\AWRAR_Metadata\model calibration\HUN4_low\outputs\jointcalibration\v01\HUN\postprocessing\')
in files calval_results_XXXXXX_v5.00.csv
## **Dataset Citation**
Bioregional Assessment Programme (XXXX) HUN AWRA-LR Model v01. Bioregional Assessment Derived Dataset. Viewed 13 March 2019, http://data.bioregionalassessments.gov.au/dataset/670de516-30c5-4724-bd76-8ff4a42ca7a5.
## **Dataset Ancestors**
* **Derived From** [Hunter River Salinity Scheme Discharge NSW EPA 2006-2012](https://data.gov.au/data/dataset/1647c153-5120-4c64-a5e8-6a1b4b0b4e4b)
* **Derived From** [River Styles Spatial Layer for New South Wales](https://data.gov.au/data/dataset/06fb694b-d2f1-4338-ab65-a707c02f11d7)
* **Derived From** [HUN AWRA-L simulation nodes_v01](https://data.gov.au/data/dataset/ae5129b2-bc29-4317-b72c-fe554fe7d315)
* **Derived From** [HUN AWRA-R River Reaches Simulation v01](https://data.gov.au/data/dataset/43f10e76-4541-433a-8b3c-deed9655ce05)
* **Derived From** [HUN AWRA-R simulation nodes v01](https://data.gov.au/data/dataset/fda20928-d486-49d2-b362-e860c1918b06)
* **Derived From** [Bioregional Assessment areas v06](https://data.gov.au/data/dataset/54d7cc96-5129-450a-aef4-73197f9bc09d)
* **Derived From** [GEODATA 9 second DEM and D8: Digital Elevation Model Version 3 and Flow Direction Grid 2008](https://data.gov.au/data/dataset/ebcf6ca2-513a-4ec7-9323-73508c5d7b93)
* **Derived From** [Bioregional Assessment areas v04](https://data.gov.au/data/dataset/e8a2d577-c5c5-4e2c-b0fa-53e4b2d4a034)
* **Derived From** [Gippsland Project boundary](https://data.gov.au/data/dataset/27413de5-d13a-4231-ac79-fc77f4cbb5f7)
* **Derived From** [Natural Resource Management (NRM) Regions 2010](https://data.gov.au/data/dataset/1d54e38f-4051-4f0c-a350-c7dbd8eba65b)
* **Derived From** [BA All Regions BILO cells in subregions shapefile](https://data.gov.au/data/dataset/08933408-de61-4eb0-ab41-a6ff59f92a96)
* **Derived From** [Hunter Surface Water data v2 20140724](https://data.gov.au/data/dataset/1934f57d-c6d6-43d1-abcd-1cf957f3e7e2)
* **Derived From** [Bioregional Assessment areas v01](https://data.gov.au/data/dataset/0fd0d820-30b3-451f-a126-a50040426999)
* **Derived From** [HUN AWRA-L simulation nodes v02](https://data.gov.au/data/dataset/9e947329-d7ca-4e83-a5a9-5581a8731dd5)
* **Derived From** [GEODATA TOPO 250K Series 3, File Geodatabase format (.gdb)](https://data.gov.au/data/dataset/96ebf889-f726-4967-9964-714fb57d679b)
* **Derived From** [Bioregional_Assessment_Programme_Catchment Scale Land Use of Australia - 2014](https://data.gov.au/data/dataset/6f72f73c-8a61-4ae9-b8b5-3f67ec918826)
* **Derived From** [GEODATA TOPO 250K Series 3](https://data.gov.au/data/dataset/a0650f18-518a-4b99-a553-44f82f28bb5f)
* **Derived From** [NSW Catchment Management Authority Boundaries 20130917](https://data.gov.au/data/dataset/0dc4272e-c081-4ed4-9645-aa336ffacd85)
* **Derived From** [Geological Provinces - Full Extent](https://data.gov.au/data/dataset/0a064b3b-2a1e-4672-80d9-03333be67aad)
* **Derived From** [BA SYD selected GA TOPO 250K data plus added map features](https://data.gov.au/data/dataset/ba5feac2-b35a-4611-82da-5b6213777069)
* **Derived From** [HUN AWRA-R Irrigation Area Extents and Crop Types v01](https://data.gov.au/data/dataset/90013748-6247-47ad-bddb-07a9c2d857cd)
* **Derived From** [Bioregional Assessment areas v03](https://data.gov.au/data/dataset/96dbf469-5463-4f4d-8fad-4214c97e5aac)
* **Derived From** [IQQM Model Simulation Regulated Rivers NSW DPI HUN 20150615](https://data.gov.au/data/dataset/d6e8c6f0-08bf-4ca6-bbef-6ae0d79c34ce)
* **Derived From** [HUN AWRA-R calibration catchments v01](https://data.gov.au/data/dataset/d419aae0-1cb3-48a8-82de-941398a80e3a)
* **Derived From** [Bioregional Assessment areas v05](https://data.gov.au/data/dataset/25f89049-839d-4736-bd81-97d8e8a40f8e)
* **Derived From** [BILO Gridded Climate Data: Daily Climate Data for each year from 1900 to 2012](https://data.gov.au/data/dataset/7aaf0621-a0e5-4b01-9333-53ebcb1f1c14)
* **Derived From** [National Surface Water sites Hydstra](https://data.gov.au/data/dataset/f7edc5e5-93ee-4527-bed5-a118b4017623)
* **Derived From** [Selected streamflow gauges within and near the Hunter subregion](https://data.gov.au/data/dataset/e83b0500-6254-47e1-b103-5e6b5961fe6f)
* **Derived From** [ASRIS Continental-scale soil property predictions 2001](https://data.gov.au/data/dataset/632c7249-ec00-4ccb-8758-f9026aeec53e)
* **Derived From** [Hunter Surface Water data extracted 20140718](https://data.gov.au/data/dataset/8c2e867b-ee7d-44f5-90b0-dd46677fedac)
* **Derived From** [Mean Annual Climate Data of Australia 1981 to 2012](https://data.gov.au/data/dataset/02418c67-f8bb-48a8-88a3-2a5c6b485f78)
* **Derived From** [HUN AWRA-R calibration nodes v01](https://data.gov.au/data/dataset/f2da394a-3d08-4cf4-8c24-bf7751ea06a1)
* **Derived From** [HUN AWRA-R Observed storage volumes Glenbawn Dam and Glennies Creek Dam](https://data.gov.au/data/dataset/9c2dccdb-ef46-48c7-bfe1-946ab57645e5)
* **Derived From** [HUN AWRA-L ASRIS soil properties v01](https://data.gov.au/data/dataset/d8091c0a-5fdc-4f6a-8b61-b1e6cc7c3ace)
* **Derived From** [HUN AWRAR restricted input 01](https://data.gov.au/data/dataset/89bb128a-3485-4347-a6f5-b8c8587de23b)
* **Derived From** [HUN AWRA-R Gauge Station Cross Sections v01](https://data.gov.au/data/dataset/93fbc2b9-463c-42f6-8817-cb45a54ee28e)
* **Derived From** [Bioregional Assessment areas v02](https://data.gov.au/data/dataset/e414b1b3-c42e-42e9-9cc4-2093054aa35f)
* **Derived From** [Victoria - Seamless Geology 2014](https://data.gov.au/data/dataset/2872d02e-66cb-42b6-9e5a-63abc8ad871b)
* **Derived From** [HUN AWRA-L Site Station Cross Sections v01](https://data.gov.au/data/dataset/fe84ef18-9ce0-4570-892b-f97f681ce4b8)
* **Derived From** [HUN AWRA-R simulation catchments v01](https://data.gov.au/data/dataset/845f31df-5027-4ad7-9b2f-1fb03a874ad8)
* **Derived From** [HUN AWRA-R Simulation Node Cross Sections v01](https://data.gov.au/data/dataset/1fd9e5fe-eec1-4a34-8b4c-6d95a54998df)
* **Derived From** [Climate model 0.05x0.05 cells and cell centroids](https://data.gov.au/data/dataset/3df5188b-f027-4d51-99a8-45e2800f29c8)
eng
active
2018-06-01 00:11:00
None
never
Hunter subregion
New South Wales
WATER-Hydrology
inlandWaters
otherRestrictions
license
license
otherRestrictions
b'Restricted access. This dataset is not available for public distribution.'
unclassified
geoscientificInformation
dataset
unclassified