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Mean transpiration in August from the plant canopy for the present day scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Look-up table of AUSLIG River Basins of Australia (1997)
Australian Bureau of Agriculture and Resource Economics and Sciences
Look-up table of AUSLIG River Basins of Australia (1997) associated with catchments in grid See further metadata for more detail. -
Mean annual transpiration from the plant canopy for the pre 1788 scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
:Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Mean transpiration in November from the plant canopy for the pre 1788 scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Cost of Salinity to Local Infrastructure 1996-97 – Total cost to the bridge...
Australian Bureau of Agriculture and Resource Economics and Sciences
This dataset contains 14 national surfaces, represented by 1km grids, relating to the cost of salinity damage to local infrastructrure. The infrastructure cost impacts are... -
Mean transpiration in March from the plant canopy for the present day scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Mean transpiration in November from the plant canopy for the present day scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Cost of Salinity to Local Infrastructure 1996-97 – Total cost of all...
Australian Bureau of Agriculture and Resource Economics and Sciences
This dataset contains 14 national surfaces, represented by 1km grids, relating to the cost of salinity damage to local infrastructrure. The infrastructure cost impacts are... -
Mean transpiration in July from the plant canopy for the present day scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Mean transpiration in December from the plant canopy for the present day scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Cost of Salinity to Local Infrastructure 1996-97 – Total cost the road...
Australian Bureau of Agriculture and Resource Economics and Sciences
This dataset contains 14 national surfaces, represented by 1km grids, relating to the cost of salinity damage to local infrastructrure. The infrastructure cost impacts are... -
ost of Salinity to Local Infrastructure 1996-97 – Total cost of the rail...
Australian Bureau of Agriculture and Resource Economics and Sciences
This dataset contains 14 national surfaces, represented by 1km grids, relating to the cost of salinity damage to local infrastructrure. The infrastructure cost impacts are... -
Mean transpiration in February from the plant canopy for the pre 1788 scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Mean transpiration in December from the plant canopy for the pre 1788 scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Mean annual transpiration from the plant canopy for the present day scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Assessment of Terrestrial Biodiversity 2002 Database
Australian Bureau of Agriculture and Resource Economics and Sciences
The Australian Terrestrial Biodiversity Assessment (NLWRA, 2002) is the first attempt to report on terrestrial biodiversity condition and trend across Australia aggregated from... -
Mean transpiration in June from the plant canopy for the pre 1788 scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Mean transpiration in May from the plant canopy for the pre 1788 scenario
Australian Bureau of Agriculture and Resource Economics and Sciences
Mean annual (00) and monthly (01a|12) transpiration (mm) from the plant canopy for the period 1980-1999.Interpretation:Canopy transpiration is far more spatially variable than... -
Australian Irrigation Areas (Raster), Version 1A, National Land and Water...
Australian Bureau of Agriculture and Resource Economics and Sciences
This data set shows designated and actual irrigation areas in Australia compiled by the National Land Use Mapping Project of the National Land and Water Resources Audit to... -
Calculated Annual and Monthly Potential Evaporation (mm)
Australian Bureau of Agriculture and Resource Economics and Sciences
Calculated annual (00) and monthly (01a|12) potential evaporation (mm) for the period 1980-1999. Calculated by the Priestley-Taylor method. Interpretation: Potential evaporation...