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Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Land Monitor Salinity Extent 2018 (DPIRD-100)
Department of Primary Industries and Regional Development
Vectorized version of the Land Monitor Salinity Extent – South West of Western Australia 2018 dataset. Salinity mapped in raster format with 25-m pixels. The Land Monitor... -
Land Monitor Salinity Extent 2010 (DPIRD-099)
Department of Primary Industries and Regional Development
Vectorized version of the Land Monitor Salinity Extent – South West of Western Australia 2010 dataset. Salinity mapped in raster format with 25-m pixels. The Land Monitor... -
Soil landscape land quality - Salinity Risk (DPIRD-009)
Department of Primary Industries and Regional Development
Salinity risk mapping derived from land quality attribution associated with soil-landscape mapping at the subsystem/phase level. See Resource Management Technical Report 298,... -
ACT Soil Landscapes
Soil and Land Resources of the Australian Capital Territory (ACT) This digital soil landscape product contains natural resource mapping for the Australian Capital Territory. The... -
ACT Hydrogeological Landscapes Suite
This data deal with hydrogeological landscapes of the ACT and the nature and consequences of salinity in the ACT 1:50000. They have been produced for the ACT Government by the... -
Soil Sensor Readings - Historical data
This dataset contains historical readings for soil sensors within parks across the City of Melbourne. The sensors take a variety of readings such as salinity, temperature and... -
Soil Sensor Readings - Historical data (2022)
This dataset contains historical readings for soil sensors within parks across the City of Melbourne, for calendar year 2022 (current year data data is here). The sensors take a... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often... -
Temporal and fine-scale variation in the biogeochemistry of Jervis Bay
The identification of suitable abiotic surrogates for biological diversity requires the collection of both physical and biological data. However, logistical constraints often...