-
Water Modelling-Water Models-Without Development-Macquarie
NSW Department of Climate Change, Energy, the Environment and Water
The Macquarie Without Development model covers the headwater catchments and river reaches of the Macquarie River basin. This includes the Macquarie River and explicit... -
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-Without Development-Paterson
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 – Paterson Valley. Individual for each available river gauge data sets are attained... -
Water Modelling-Water Models-Without Development-Gwydir
NSW Department of Climate Change, Energy, the Environment and Water
The Gwydir River 'without development' model is a hydrological model of the Gwydir River system that does not represent river system infrastructure, extractions or water... -
Water Modelling-Modelled Data-Annual Permitted Take (APT)
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-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-Annual Permitted Take (APT)-Hunter
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... -
Vegetation-Gwydir
NSW Department of Climate Change, Energy, the Environment and Water
The geographical extent of this catchment encompasses the Gwydir Catchment (specifically, Vegetation Monitoring data 2010 to 2024). The water-... -
Water Modelling-Modelled Data-Regional Water Strategy-Lachlan
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-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-Water Models
NSW Department of Climate Change, Energy, the Environment and Water
Water Models are comprehensive tools developed to simulate the behaviour of river systems under various conditions and scenarios. These models are essential for understanding... -
Water Modelling-Modelled Data-Without Development-Gwydir
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 – Gwydir Valley. Individual for each available river gauge data sets are attained via... -
Water Modelling-Modelled Data-Annual Permitted Take (APT)-Murrumbidgee
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-Annual Permitted Take (APT)-Belubula
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... -
ENVIRONMENTAL OUTCOMES MONITORING AND RESEARCH PROGRAM
NSW Department of Climate Change, Energy, the Environment and Water
The department employs monitoring and research initiatives to track the effectiveness of water management changes in safeguarding and enhancing water-dependent ecosystems. We... -
Water Modelling-Modelled Data-Without Development-Peel
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 – Peel Valley. Individual for each available river gauge data sets are attained via... -
Water Modelling-Modelled Data-Annual Permitted Take (APT)-Border Rivers
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-Annual Permitted Take (APT)-Barwon-Darling
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-Regional Water Strategy-Clarence
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-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...