The volumetric value for the line item is 14,156 ML (see the following table for the breakdown of the volume).
|
No. |
Groundwater management unit (GMU) |
State |
Volume 2009–10 (ML) |
|---|---|---|---|
|
1 |
Lower Gwydir Alluvium |
NSW |
– |
|
2 |
Lower Lachlan Alluvium |
NSW |
700 |
|
3 |
Upper Lachlan Alluvium |
NSW |
– |
|
4 |
Lower Macquarie Alluvium |
NSW |
4,300 |
|
5 |
Lower Murray Alluvium |
NSW |
– |
|
Lower Murrumbidgee – sum composed of GMUs 6 & 7 |
2,216 |
||
|
6 |
Lower Murrumbidgee Deep Groundwater source |
NSW |
|
|
7 |
Lower Murrumbidgee Shallow Groundwater source |
NSW |
|
|
8 |
Mid Murrumbidgee Alluvium |
NSW |
3,230 |
|
9 |
Lower Namoi Alluvium |
NSW |
1,100 |
|
10 |
Upper Namoi Alluvium |
NSW |
2,610 |
|
Katunga–Campaspe – sum composed of GMUs 11–13 |
– |
||
|
11 |
Campaspe Deep Lead Water Supply Protection Area |
Vic |
|
|
12 |
Katunga Water Supply Protection Area |
Vic |
|
|
13 |
Shepparton Irrigation Water Supply Protection Area |
Vic |
|
|
14 |
Mid Loddon Water Supply Protection Area |
Vic |
– |
|
Lower Murray–Darling Basin GMUs – sum composed of GMUs 15–27 |
– |
||
|
15 |
Balrootan (Nhill) Groundwater Management Area |
Vic |
|
|
16 |
Goroke Groundwater Management Area |
Vic |
|
|
17 |
Kaniva TCSA Groundwater Management Area |
Vic |
|
|
18 |
Murrayville Water Supply Protection Area |
Vic |
|
|
19 |
Nhill Groundwater Management Area |
Vic |
|
|
20 |
Telopea Downs Water Supply Protection Area |
Vic |
|
|
21 |
Angas–Bremer Prescribed Wells Area |
SA |
|
|
22 |
Coorong |
SA |
|
|
23 |
Ferries–McDonald |
SA |
|
|
24 |
Mallee Prescribed Wells Area |
SA |
|
|
25 |
Murraylands |
SA |
|
|
26 |
Peake, Roby and Sherlock Prescribed Wells Area |
SA |
|
|
27 |
River Murray Prescribed Water Course |
SA |
|
|
|
Total Basin |
14,156 |
|
– = no data available
These discharge volumes have only been calculated (using New South Wales groundwater models) for those New South Wales GMUs where groundwater discharge to a river is considered to be an important component of groundwater balance. The table above indicates that groundwater discharge to rivers is only estimated for a select number of GMUs where the groundwater balance is represented in a groundwater model.
None of the groundwater models used here model fractured basement rock areas. In these areas, both surface run-off and the drainage of water below the modelled soil layers are assumed to contribute to a total annual stream flow. This implicitly accounts for groundwater flow and river discharge in local groundwater flow systems that usually dominate these fractured rock areas. These discharge volumes are not represented in this line item, but contribute to the value in Line item 13.4.1 Rainfall run-off to connected surface water.
Data inputs to the New South Wales groundwater models draw from knowledge of the hydrogeology and surface water processes to initialise parameters for river bed conductance and thickness.
NSW Office of Water.
Groundwater discharge to connected surface water (mainly groundwater discharge to a river) can be represented in MODFLOW models in several ways. Options that have been used in the New South Wales groundwater models are the MODFLOW river package and the MODFLOW drain package.
The MODFLOW river package is also used for groundwater recharge from connected surface water. Groundwater flow into the river is modelled when groundwater levels are higher than river water levels and water flow is out of the river when river water levels are higher than groundwater levels.
MODFLOW also has a subroutine to represent drains. When this is activated and groundwater levels are above the base of the drain, water flow to the drain is estimated and this water volume is removed from the cell of the groundwater model.
Uncertainty is ungraded. It is currently not feasible to estimate the uncertainty of modelled groundwater discharge to connected surface water from outputs of a MODFLOW groundwater model.
National Water Account 2010
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