APPENDIX 2. Australian Soil Resources Information System
Saturated hydraulic conductivity (topsoil and subsoil)
Saturated hydraulic conductivity is a measure of the permeability of a soil (or how quickly water can move through the soil when it is saturated). Soil permeability, in conjunction with water storage capacity, is fundamental to controlling the soil-water regime, that determines land suitability for a range of purposes.
Soils with a slow hydraulic conductivity at or near the soil surface (e.g. less than 30 mm/hr) cannot transmit water from heavy showers of rain and this can lead to excessive run-off and potentially to erosion. Run-off also represents a loss of water that could have otherwise been available to plants. Subsoil layers are nearly always less permeable than surface layers because of the lower rates of biological activity. Soils with a strong texture contrast between topsoil and subsoil (e.g. Kurosols and Sodosols) may have a sharp reduction in hydraulic conductivity with depth. In this case, drainage of water is impeded and waterlogging can be a problem.
How does it vary and what is it related to?
Saturated hydraulic conductivity is controlled mainly by the texture, organic matter content and structure of the soil layer. Sandy soils are nearly always very permeable. Some clay soils can be more permeable than sands (e.g. Red Ferrosols) because of their strongly aggregated structure. Other clay soils (e.g. most Vertosols and the B horizons of Sodosols) are very impermeable.
The presence of worms, termites and other soil fauna increases soil permeability markedly. Earthworm burrows frequently make up a high proportion of the large pore space of soils, and soils with earthworms can drain two to ten times faster than soils without (Lee 1985).
Generally, heavy clay soils (Vertosols) have moderate permeability (Ksat < 50 mm/hr) in their topsoil, decreasing to very slow permeability (< 0.1 mm/hr) in their subsoil. Kandosols have rapid permeability in their topsoil (~500 mm/hr) which decreases to moderately slow in their subsoil. Sandy soils, Podosols, Chromosols and Tenosols in Western Australia and South Australia are very rapid permeable. Sodosols are rapidly permeable in their topsoil but only slowly permeable in their subsoil.
Table A15 Permeability by percent of land use type for topsoil when saturated (saturated hydraulic conductivity mm/hr) across Australia.
| <0.3 | 0.3 - 3 | 3 - 30 | 30 - 300 | >300 | Total land use class area |
|
|---|---|---|---|---|---|---|
| very slow | slow | moderate | high | extreme | (ha) | |
| Conservation and natural environments | 2 | 0 | 7 | 90 | 0 | 263 893 800 |
| Production from native environments | 15 | 2 | 12 | 70 | 0 | 443 032 100 |
| Cropping | 5 | 5 | 13 | 72 | 5 | 22 519 000 |
| Grazing modified pasture | 2 | 2 | 15 | 76 | 5 | 19 237 500 |
| Horticulture | 4 | 1 | 15 | 79 | 1 | 350 900 |
| Irrigated cropping | 17 | 11 | 33 | 39 | 0 | 949 000 |
| Irrigated modified pasture | 15 | 2 | 50 | 33 | 1 | 1 079 100 |
| Total area | 751 061 400 |
Table A16 Permeability by percent of land use type for subsoil when saturated (saturated hydraulic conductivity mm/hr) across Australia.
| <0.3 | 0.3 - 3 | 3 - 30 | 30 - 300 | >300 | Total land use class area |
|
|---|---|---|---|---|---|---|
| Land use class | very slow | slow | moderate | high | extreme | (ha) |
| Conservation and natural environments | 2 | 6 | 17 | 74 | 0 | 227 606 400 |
| Production from native environments | 14 | 12 | 35 | 39 | 0 | 426 250 500 |
| Cropping | 10 | 13 | 44 | 30 | 2 | 22 482 300 |
| Grazing modified pasture | 4 | 14 | 39 | 40 | 2 | 19 182 100 |
| Horticulture | 5 | 8 | 40 | 46 | 1 | 347 300 |
| Irrigated cropping | 28 | 13 | 47 | 12 | 0 | 947 400 |
| Irrigated modified pasture | 16 | 10 | 60 | 13 | 1 | 1 075 100 |
| Total area | 697 891 100 |
On average Australia applies about 18 000 000 ML of water onto agricultural soils every year.
Table A17 compares the permeability of saturated soil for topsoils and subsoils for irrigated lands. Of the 2 400 000 ha mapped as irrigated in the national land use map:
- 14% have topsoils and subsoils with very slow permeability;
- about 60% with similar top and subsoil permeability;
- 38 % have more highly permeable topsoil than subsoil;
- almost none have a subsoil more permeable than topsoil.
The most significant implication for irrigation operations are those lands (some 28%, see grey shading on table) that may be prone to waterlogging. These lands tend to have very slow or slow topsoil and subsoil permeability, or moderately permeable topsoils overlying slow or very slow permeability subsoils. Ripping and other farm tillage practices are commonly used to overcome these impediments for cropping.
Application of map
Permeability is one controlling factor in determining how susceptible a soil is to erosion. This map of saturated hydraulic conductivity has been used as one input to estimate erodibility, by combining with maps of %clay and organic carbon.
Level of uncertainty
Scale of soil maps used in deriving this map is shown in Figure A2.
Saturated hydraulic conductivity (Ks) typically exhibits substantial short-range variation and is relatively difficult to measure (there are few reliable sets of Ks data for Australia). Estimates of Ks on used by McKenzie et al. (2000) are based on experience gained in CSIRO Land and Water and published data sets. Estimates for Western Australia and South Australia soil groups are based on expert knowledge of Ks for different horizons (based primarily on texture and structure), and on interpolation of McKenzie et al (2000). Attribution Ks was estimated using the classes presented in Table A17, where the median values for each class are approximately equidistant on a logarithmic scale, since Ks data are generally log-normally distributed.
Table A17 Comparison of saturated hydraulic conductivity (mm/hr) of topsoil and subsoil for irrigated areas (%) (includes all horticulture, irrigated crops, irrigated pastures).
| Topsoil | <0.3 | 0.3 - 3 | 3 - 30 | 30 - 300 | >300 | |
|---|---|---|---|---|---|---|
| Subsoil | very slow | slow | moderate | high | extreme | |
| <0.3 | very slow | 14 | 4 | 1 | 0 | 0 |
| 0.3 - 3 | slow | 0 | 1 | 8 | 1 | 0 |
| 3 - 30 | moderate | 0 | 0 | 29 | 24 | 0 |
| 30 - 300 | high | 0 | 0 | 0 | 17 | 0 |
| 300 | extreme | 0 | 0 | 0 | 0 | 0 |
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