Data

Available Water Capacity for Australian Areas of Intensive Agriculture of Layer 1 (A-Horizon – Top-Soil)

data.gov.au
Commonwealth Scientific and Industrial Research Organisation (CSIRO) (Owned by)
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=http://data.gov.au/data/dataset/173afa3b-f9d1-4712-9e23-196bb4766af7&rft.title=Available Water Capacity for Australian Areas of Intensive Agriculture of Layer 1 (A-Horizon – Top-Soil)&rft.identifier=available-water-capacity-for-australian-areas-of-intensive-agriculture-of-layer-1-a-horizon-top-soil&rft.publisher=data.gov.au&rft.description=awcaar9cl__06111a00eg_geo___.zip - \n\nSurface of predicted Available Soil Water Holding Capacity of layer 1 (A\nHorizon a Top-soil) surface for the intensive agricultural areas of Australia.\nData modelled from area based observations made by soil agencies both State\nand CSIRO and presented as 0.01 degree grid cells. Available water capacity\n(AWC) is a measure of the store of water available for plants to use. AWC is\npresented here as the estimated total for the horizon, measured in millimetres\n(mm). The amount of water that is held by the soil varies according to a\nnumber of soil properties including, soil texture, organic matter content,\nbulk density and soil structure development. Available water capacity has been\ncalculated as the difference in volumetric water content at 0.1 bar and 15 bar\n(matric potentials of -10 kPa and -1.5 mPa) for each layer. These represent\nrespectively the field capacity (maximum water content following free\ndrainage) and the permanent wilting point (lower limit of soil moisture\navailable to plants). The final ASRIS polygon attributed surfaces are a mosaic\nof all of the data obtained from various state and federal agencies. The\nsurfaces have been constructed with the best available soil survey information\navailable at the time. The surfaces also rely on a number of assumptions. One\nbeing that an area weighted mean is a good estimate of the soil attributes for\nthat polygon or map-unit. Another assumption made is that the look-up tables\nprovided by McKenzie et al. (2000), state and territories accurately depict\nthe soil attribute values for each soil type. The digital map data is provided\nin geographical coordinates based on the World Geodetic System 1984 (WGS84)\ndatum. This raster data set has a grid resolution of 0.001 degrees\n(approximately equivalent to 1.1 km). The data set is a product of the\nNational Land and Water Resources Audit (NLWRA) as a base dataset.\n\nSee [further metadata](http://data.daff.gov.au/anrdl/metadata_files/pa_awcaar9cl\n__06111a00.xml) for more detail.\n\n&rft.creator=Commonwealth Scientific and Industrial Research Organisation (CSIRO)&rft.date=2023&rft.coverage=Australia&rft_rights=notspecified&rft_subject=agriculture&rft_subject=elevation&rft_subject=environmentandnaturalresourcemanagement&rft_subject=models&rft_subject=soilphysics&rft_subject=waterandirrigation&rft.type=dataset&rft.language=English Access the data
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Surface of predicted Available Soil Water Holding Capacity of layer 1 (A
Horizon a Top-soil) surface for the intensive agricultural areas of Australia.
Data modelled from area based observations made by soil agencies both State
and CSIRO and presented as 0.01 degree grid cells. Available water capacity
(AWC) is a measure of the store of water available for plants to use. AWC is
presented here as the estimated total for the horizon, measured in millimetres
(mm). The amount of water that is held by the soil varies according to a
number of soil properties including, soil texture, organic matter content,
bulk density and soil structure development. Available water capacity has been
calculated as the difference in volumetric water content at 0.1 bar and 15 bar
(matric potentials of -10 kPa and -1.5 mPa) for each layer. These represent
respectively the field capacity (maximum water content following free
drainage) and the permanent wilting point (lower limit of soil moisture
available to plants). The final ASRIS polygon attributed surfaces are a mosaic
of all of the data obtained from various state and federal agencies. The
surfaces have been constructed with the best available soil survey information
available at the time. The surfaces also rely on a number of assumptions. One
being that an area weighted mean is a good estimate of the soil attributes for
that polygon or map-unit. Another assumption made is that the look-up tables
provided by McKenzie et al. (2000), state and territories accurately depict
the soil attribute values for each soil type. The digital map data is provided
in geographical coordinates based on the World Geodetic System 1984 (WGS84)
datum. This raster data set has a grid resolution of 0.001 degrees
(approximately equivalent to 1.1 km). The data set is a product of the
National Land and Water Resources Audit (NLWRA) as a base dataset.

See [further metadata](http://data.daff.gov.au/anrdl/metadata_files/pa_awcaar9cl
__06111a00.xml) for more detail.

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awcaar9cl__06111a00eg_geo___.zip -

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text: Australia

Subjects
agriculture | elevation | environmentandnaturalresourcemanagement | models | soilphysics | waterandirrigation |

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