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Water Modelling-Modelled Data
NSW Department of Climate Change, Energy, the Environment and Water
Time series of modelled daily flow rates in megalitres per day across the NSW river systems. Individual data sets are for each available river gauge data sets are attained via... -
Water Modelling-Modelled Data-Without Development-Barwon-Darling
NSW Department of Climate Change, Energy, the Environment and Water
Time series of modelled daily flow rates in megalitres per day across the NSW river systems – Barwon-Darling. Individual for each available river gauge data sets are attained... -
Water Modelling-Modelled Data-Long-term average annual extraction limit...
NSW Department of Climate Change, Energy, the Environment and Water
Long-term average annual extraction limit (LTAAEL) is a regulatory limit set on annual water extractions from a river system. It ensures that average extractions over the long... -
Water Modelling-Modelled Data-Regional Water Strategy-Richmond
NSW Department of Climate Change, Energy, the Environment and Water
The datasets provided contain modelled daily streamflow, and storage volume data for several NSW river systems. These data were generated by simulating baseline river system... -
Water Modelling-Modelled Data-Annual Permitted Take (APT)-Gwydir
NSW Department of Climate Change, Energy, the Environment and Water
Annual permitted take (APT) is a critical component of sustainable resource management, balancing the need for water resource utilisation with the preservation of ecosystems. It... -
Water Modelling-Modelled Data-No Plan Environmental Water (No PEW)
NSW Department of Climate Change, Energy, the Environment and Water
Water sharing plans (WSP) are established under the Water Management Act 2000 (the Act) and are prepared for all water sources in NSW. These plans are also a component of Water... -
Water Modelling-Modelled Data-Regional Water Strategy-Tweed
NSW Department of Climate Change, Energy, the Environment and Water
The datasets provided contain modelled daily streamflow, and storage volume data for several NSW river systems. These data were generated by simulating baseline river system... -
Water Modelling-Modelled Data-Without Development-Hunter
NSW Department of Climate Change, Energy, the Environment and Water
Time series of modelled daily flow rates in megalitres per day across the NSW river systems – Hunter Valley. Individual for each available river gauge data sets are attained via... -
General Purpose Water Accounting Reports - NSW Border Rivers Catchment
NSW Department of Climate Change, Energy, the Environment and Water
NSW is the leading state in implementing standardised water resource accounting. The General Purpose Water Accounting Reports (GPWAR) adopt the Australian Water Accounting... -
Water Modelling-Modelled Data-Without Development-Belubula
NSW Department of Climate Change, Energy, the Environment and Water
Time series of modelled daily flow rates in megalitres per day across the NSW river systems – Belubula Valley. Individual for each available river gauge data sets are attained... -
Water Modelling-Modelled Data-Annual Permitted Take (APT)-Castlereagh
NSW Department of Climate Change, Energy, the Environment and Water
Annual permitted take (APT) is a critical component of sustainable resource management, balancing the need for water resource utilisation with the preservation of ecosystems. It... -
Water Modelling-Modelled Data-No Plan Environmental Water (No PEW) - Gwydir
NSW Department of Climate Change, Energy, the Environment and Water
To construct a high-level evaluation scenario for the Water Sharing Plan (the Plan) for the Gwydir Regulated River Water Source all account-based Plan Environmental Water (PEW)... -
General Purpose Water Accounting Reports - Lachlan and Belubula Catchment
NSW Department of Climate Change, Energy, the Environment and Water
NSW is the leading state in implementing standardised water resource accounting. The General Purpose Water Accounting Reports (GPWAR) adopt the Australian Water Accounting... -
Water Modelling-Water Models-Without Development
NSW Department of Climate Change, Energy, the Environment and Water
The Without Development Model is a hydrological model of a river system without any representation of water infrastructure (e.g. storages, weirs), water extraction, water... -
Water Modelling-NARCliM1.0 climate projection scaling factors
NSW Department of Climate Change, Energy, the Environment and Water
Climate Risk Datasets: NARCliM 1.0 Climate risk datasets derived from Global Climate Models (GCMs) typically have a coarse spatial resolution (around 100-200km grid cells),... -
Water Modelling-Modelled Data-Regional Water Strategy
NSW Department of Climate Change, Energy, the Environment and Water
The datasets provided contain modelled daily streamflow, and storage volume data for several NSW river systems. These data were generated by simulating baseline river system... -
Vegetation-Namoi
NSW Department of Climate Change, Energy, the Environment and Water
The geographical extent of this catchment encompasses the Namoi Catchment (specifically, Vegetation Monitoring data 2021 to 2023). The water-dependent vegetation dataset... -
Water Modelling-Modelled Data-Without Development-Namoi
NSW Department of Climate Change, Energy, the Environment and Water
Time series of modelled daily flow rates in megalitres per day across the NSW river systems – Namoi Valley. Individual for each available river gauge data sets are attained via... -
Water Modelling-Modelled Data-Without Development-Border Rivers
NSW Department of Climate Change, Energy, the Environment and Water
Time series of modelled daily flow rates in megalitres per day across the NSW river systems – Border Rivers Valley. Individual for each available river gauge data sets are... -
Water Modelling-Modelled Data-Long-term average annual extraction limit...
NSW Department of Climate Change, Energy, the Environment and Water
Long-term average annual extraction limit (LTAAEL) is a regulatory limit set on annual water extractions from a river system. It ensures that average extractions over the long...