groundwater management and the impact of drought · groundwater management and the impact of...
TRANSCRIPT
COMMUNITY DROUGHT INFORMATION SESSIONS, MAY AND JUNE 2019
Groundwater management and the impact of drought—major inland alluvial water sources
Groundwater management
• Aquifers store large volumes of water
• Long-term extraction = Long-term recharge
• High use due to a long-term dry period can lead to restrictions on use
Page 2
Water sharing plan rules
• Extraction and distance restrictions to manage local impacts
• Require new basic landholder rights bores to be drilled to sufficient depth to maintain long-term access
• Specify accounting rules—set maximum carryover, annual account limits
• Set trading rules—where and how much water can be traded between connected aquifers
Page 3
Page 4
Dry conditions since 2017 are affecting water resources
Groundwater sources—extreme event stages
Page 5
• No groundwater sources in NSW have reached drought stage 2
• We continue to use normal rules
How does drought affect groundwater resources?
• Groundwater is more drought-resilient than surface water
• Larger groundwater systems have higher buffer due to storage
• Stress comes from substituting from surface water supply, plus reduced recharge
• In drought-affected areas, the water levels in most monitoring bores are at below-average levels, corresponding with increased extraction and reduced recharge
Page 6
Increasing bore applications and groundwater trades
Substantial increase in applications for basic landholder right bores and for trade of groundwater allocations and aquifer access licences
All applications are assessed:
• extraction impact assessments—based on risk management approach
• hydrogeological assessment considers:
• impact on aquifer
• impact on other users—licensed & basic landholder rights
• impact on environment—groundwater dependent ecosystems and river
Page 7
Possible management options in response to declines in groundwater
• Reduced allocations in those systems that have exceeded the long term extraction limit for more than three years (or 5 years in some water sources)
• Section 324 (2) orders:
If it is necessary :
(a) to maintain or protect water levels in an aquifer,
(b) to maintain, protect or improve the quality of water in an aquifer,
(c) to prevent land subsidence or compaction in an aquifer,
(d) to protect groundwater-dependent ecosystems,
(e) to maintain pressure, or to ensure pressure recovery, in an aquifer,
Page 8
Possible management options in response to declines in groundwater, continued
within a specified area and for a specified period, the taking of water from that aquifer, or from any other aquifer that is above, below or adjacent to that aquifer, can be prohibited, or is subject to restrictions.
Page 9
Monitoring bores in NSW
Page 10
Groundwater levels—schematic hydrograph
Page 11
Page 12
Major inland alluvial groundwater sources
Rainfall, usage, hydrographs
1. Border Rivers
2. Lower Gwydir
3. Peel
4. Upper Namoi
5. Lower Namoi
6. Upper Macquarie
7. Lower Macquarie
8. Belubula
9. Upper Lachlan
10. Lower Lachlan
11. Lower Murrumbidgee
12. Upper Murray
13. Lower Murray
1. Border Rivers alluvium
Page 13
Rainfall deviation from average
Page 14
-400
-200
0
200
400
600
800
1000
1200
1400
1987 1990 1993 1996 1999 2002 2005 2008 2011 2014 2017 2020
Ra
infa
ll R
es
idu
al
Ma
ss
Year
Texas Post Office Goondiwindi Post Office and Airport
Yearly groundwater take
Page 15
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
9,000
19
92
-91
19
92
-93
19
93
-94
19
94
-95
19
95
-96
19
96
-97
19
97
-98
19
98
-99
19
99
-00
20
00
-01
20
01
-02
20
02
-03
20
03
-04
20
04
-05
20
05
-06
20
06
-07
20
07
-08
20
08
-09
20
09
-10
20
10
-11
20
11
-12
20
12
-13
20
13
-14
20
14
-15
20
15
-16
20
16
-17
20
17
-18
Usa
ge
Vo
lum
e (
ML
)
NSW Border Rivers Alluvium
Annual Extraction Pre WSP Annual Extraction Pre WSP Yearly Extraction Limit
Yearly groundwater take
Page 16
0
50
100
150
200
250
300
350
400
19
92
-91
19
92
-93
19
93
-94
19
94
-95
19
95
-96
19
96
-97
19
97
-98
19
98
-99
19
99
-00
20
00
-01
20
01
-02
20
02
-03
20
03
-04
20
04
-05
20
05
-06
20
06
-07
20
07
-08
20
08
-09
20
09
-10
20
10
-11
20
11
-12
20
12
-13
20
13
-14
20
14
-15
20
15
-16
20
16
-17
20
17
-18
Usa
ge
Vo
lum
e (
ML
)NSW Border Rivers Tributary Alluvium
Annual Extraction Pre WSP Annual Extraction Pre WSP Yearly Extraction Limit
Page 17
Hydrograph—upstream of Texas– Upstream of Texas
02468
10121416182022242628303234363840424446
Jul-
86
Jul-
87
Jun
-88
Jun
-89
Jun
-90
Jun
-91
Jun
-92
Jun
-93
Jun
-94
Jun
-95
Jun
-96
Jun
-97
Jun
-98
Jun
-99
Jun
-00
Jun
-01
Jun
-02
Jun
-03
Jun
-04
Jun
-05
Jun
-06
Jun
-07
Jun
-08
Jun
-09
Jun
-10
Jun
-11
Jun
-12
Jun
-13
Jun
-14
Jun
-15
Jun
-16
Jun
-17
Jun
-18
Jun
-19
Wate
r Level
(m
belo
w G
L)
GW0040644 - Pipe 1: 9.9m deep, open ended GW040641 - Pipe 1: 31.4m - 48.1m
Hydrograph—downstream of Texas
Page 18
02468
10121416182022242628303234363840424446
Jul-
86
Jul-
87
Jun
-88
Jun
-89
Jun
-90
Jun
-91
Jun
-92
Jun
-93
Jun
-94
Jun
-95
Jun
-96
Jun
-97
Jun
-98
Jun
-99
Jun
-00
Jun
-01
Jun
-02
Jun
-03
Jun
-04
Jun
-05
Jun
-06
Jun
-07
Jun
-08
Jun
-09
Jun
-10
Jun
-11
Jun
-12
Jun
-13
Jun
-14
Jun
-15
Jun
-16
Jun
-17
Jun
-18
Jun
-19
Wate
r Level
(m
belo
w G
L)
GW040829 - Pipe 1: 8m - 11m GW040829 - Pipe 2: 18m - 24m GW040831 - Pipe 1: 36m - 41m GW040831 - Pipe 2: 72m - 78m
Hydrograph—downstream of Keetah Bridge
Page 19
02468
10121416182022242628303234363840424446
Jul-
86
Jul-
87
Jun
-88
Jun
-89
Jun
-90
Jun
-91
Jun
-92
Jun
-93
Jun
-94
Jun
-95
Jun
-96
Jun
-97
Jun
-98
Jun
-99
Jun
-00
Jun
-01
Jun
-02
Jun
-03
Jun
-04
Jun
-05
Jun
-06
Jun
-07
Jun
-08
Jun
-09
Jun
-10
Jun
-11
Jun
-12
Jun
-13
Jun
-14
Jun
-15
Jun
-16
Jun
-17
Jun
-18
Jun
-19
Wate
r Level
(m
belo
w G
L)
GW036684 - Pipe 1: 18m - 26m GW036684 - Pipe 2: 29m - 35m
Hydrograph—Macintyre alluvium
Page 20
02468
10121416182022242628303234363840424446
Jul-
86
Jul-
87
Jun
-88
Jun
-89
Jun
-90
Jun
-91
Jun
-92
Jun
-93
Jun
-94
Jun
-95
Jun
-96
Jun
-97
Jun
-98
Jun
-99
Jun
-00
Jun
-01
Jun
-02
Jun
-03
Jun
-04
Jun
-05
Jun
-06
Jun
-07
Jun
-08
Jun
-09
Jun
-10
Jun
-11
Jun
-12
Jun
-13
Jun
-14
Jun
-15
Jun
-16
Jun
-17
Jun
-18
Jun
-19
Wate
r Level
(m
belo
w G
L)
GW036685 - Pipe 1: 12m - 13.5m
Hydrograph—Ottleys alluvium
Page 21
02468
10121416182022242628303234363840424446
Jul-
86
Jul-
87
Jun
-88
Jun
-89
Jun
-90
Jun
-91
Jun
-92
Jun
-93
Jun
-94
Jun
-95
Jun
-96
Jun
-97
Jun
-98
Jun
-99
Jun
-00
Jun
-01
Jun
-02
Jun
-03
Jun
-04
Jun
-05
Jun
-06
Jun
-07
Jun
-08
Jun
-09
Jun
-10
Jun
-11
Jun
-12
Jun
-13
Jun
-14
Jun
-15
Jun
-16
Jun
-17
Jun
-18
Jun
-19
Wate
r Level
(m
belo
w G
L)
GW036692 - Pipe 1: 11m - 13m GW036692 - Pipe 2: 32m - 34m
2. Lower Gwydir alluvium
Page 22
Rainfall deviation from average—Moree
Page 23
-2000
-1500
-1000
-500
0
500
1000
12
/19
06
12
/19
13
12
/19
20
12
/19
27
12
/19
34
12
/19
41
12
/19
48
12
/19
55
12
/19
62
12
/19
69
12
/19
76
12
/19
83
12
/19
90
12
/19
97
12
/20
04
12
/20
11
12
/20
18
Yearly groundwater take—Gwydir alluvium
Page 24
0
10,000
20,000
30,000
40,000
50,000
60,000
199
3-9
4
199
4-9
5
199
5-9
6
199
6-9
7
199
7-9
8
199
8-9
9
199
9-0
0
2000
-01
200
1-0
2
200
2-0
3
200
3-0
4
200
4-0
5
200
5-0
6
200
6-0
7
2007
-08
200
8-0
9
200
9-1
0
201
0-1
1
201
1-1
2
201
2-1
3
201
3-1
4
201
4-1
5
201
5-1
6
201
6-1
7
201
7-1
8
201
8-1
9
To
tal e
xtr
actio
n (
ML
)
Annual Extraction Pre WSP Annual Extraction Post WSP
Yearly Extraction Limit
Hydrograph – GW030390
Page 25
128
138
148
158
168
178
188
198
208
2180
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
Jul-73
Jul-74
Jul-75
Jul-76
Jul-77
Jul-78
Jul-79
Jul-80
Jul-81
Jul-82
Jul-83
Jul-84
Jul-85
Jul-86
Jul-87
Jul-88
Jul-89
Jul-90
Jul-91
Jul-92
Jul-93
Jul-94
Jul-95
Jul-96
Jul-97
Jul-98
Jul-99
Jul-00
Jul-01
Jul-02
Jul-03
Jul-04
Jul-05
Jul-06
Jul-07
Jul-08
Jul-09
Jul-10
Jul-11
Jul-12
Jul-13
Jul-14
Jul-15
Jul-16
Jul-17
Jul-18
Jul-19
Water E
levatio
n (m
AH
D)
Water L
evel (m
belo
w G
L)
GW030390
GW030390 - Hole 1, Pipe 1; Screen: 17.7 - 20.7 m GW030390 - Hole 1, Pipe 2; Screen: 50.6 - 53.6 m
Hydrograph—GW030159
Page 26
128
138
148
158
168
178
188
198
208
2180
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
Jul-73
Jul-74
Jul-75
Jul-76
Jul-77
Jul-78
Jul-79
Jul-80
Jul-81
Jul-82
Jul-83
Jul-84
Jul-85
Jul-86
Jul-87
Jul-88
Jul-89
Jul-90
Jul-91
Jul-92
Jul-93
Jul-94
Jul-95
Jul-96
Jul-97
Jul-98
Jul-99
Jul-00
Jul-01
Jul-02
Jul-03
Jul-04
Jul-05
Jul-06
Jul-07
Jul-08
Jul-09
Jul-10
Jul-11
Jul-12
Jul-13
Jul-14
Jul-15
Jul-16
Jul-17
Jul-18
Jul-19
Wate
r E
levation (m
AH
D)
Wate
r L
evel (m
belo
w G
L)
GW030159
GW030159 - Hole 1, Pipe 1; Screen: 9.9 - 11.3 m GW030159 - Hole 1, Pipe 2; Screen: 36.0 - 40.0 m
Hydrograph—GW030458
Page 27
116
126
136
146
156
166
176
186
196
20602468
10121416182022242628303234363840
Ju
l-7
3
Ju
l-7
4
Ju
l-7
5
Ju
l-7
6
Ju
l-7
7
Ju
l-7
8
Ju
l-7
9
Ju
l-8
0
Ju
l-8
1
Ju
l-8
2
Ju
l-8
3
Ju
l-8
4
Ju
l-8
5
Ju
l-8
6
Ju
l-8
7
Ju
l-8
8
Ju
l-8
9
Ju
l-9
0
Ju
l-9
1
Ju
l-9
2
Ju
l-9
3
Ju
l-9
4
Ju
l-9
5
Ju
l-9
6
Ju
l-9
7
Ju
l-9
8
Ju
l-9
9
Ju
l-0
0
Ju
l-0
1
Ju
l-0
2
Ju
l-0
3
Ju
l-0
4
Ju
l-0
5
Ju
l-0
6
Ju
l-0
7
Ju
l-0
8
Ju
l-0
9
Ju
l-1
0
Ju
l-1
1
Ju
l-1
2
Ju
l-1
3
Ju
l-1
4
Ju
l-1
5
Ju
l-1
6
Ju
l-1
7
Ju
l-1
8
Ju
l-1
9
Wate
r E
levation (m
AH
D)
Wate
r L
evel (m
belo
w G
L)
GW030458
GW030458 - Hole 1, Pipe 1; Screen: 10.7 - 16.8 m GW030458 - Hole 1, Pipe 2; Screen: 49.2 - 50.5 m GW030458 - Hole 1, Pipe 3; Screen: 65.4 - 68.9 m
Hydrograph—GW036115
Page 28
103
113
123
133
143
153
163
173
183
19302468
10121416182022242628303234363840
Ju
l-7
3
Ju
l-7
4
Ju
l-7
5
Ju
l-7
6
Ju
l-7
7
Ju
l-7
8
Ju
l-7
9
Ju
l-8
0
Ju
l-8
1
Ju
l-8
2
Ju
l-8
3
Ju
l-8
4
Ju
l-8
5
Ju
l-8
6
Ju
l-8
7
Ju
l-8
8
Ju
l-8
9
Ju
l-9
0
Ju
l-9
1
Ju
l-9
2
Ju
l-9
3
Ju
l-9
4
Ju
l-9
5
Ju
l-9
6
Ju
l-9
7
Ju
l-9
8
Ju
l-9
9
Ju
l-0
0
Ju
l-0
1
Ju
l-0
2
Ju
l-0
3
Ju
l-0
4
Ju
l-0
5
Ju
l-0
6
Ju
l-0
7
Ju
l-0
8
Ju
l-0
9
Ju
l-1
0
Ju
l-1
1
Ju
l-1
2
Ju
l-1
3
Ju
l-1
4
Ju
l-1
5
Ju
l-1
6
Ju
l-1
7
Ju
l-1
8
Ju
l-1
9
Wate
r E
levation (m
AH
D)
Wate
r L
evel (m
belo
w G
L)
GW036115
GW036115 - Hole 1, Pipe 1; Screen: 18.0 - 19.5 m GW036115 - Hole 1, Pipe 2; Screen: 38.5 - 41.5 m GW036115 - Hole 1, Pipe 3; Screen: 59.0 - 62.0 m
Hydrograph—GW036161
Page 29
89
99
109
119
129
139
149
159
169
17902468
10121416182022242628303234363840
Ju
l-7
3
Ju
l-7
4
Ju
l-7
5
Ju
l-7
6
Ju
l-7
7
Ju
l-7
8
Ju
l-7
9
Ju
l-8
0
Ju
l-8
1
Ju
l-8
2
Ju
l-8
3
Ju
l-8
4
Ju
l-8
5
Ju
l-8
6
Ju
l-8
7
Ju
l-8
8
Ju
l-8
9
Ju
l-9
0
Ju
l-9
1
Ju
l-9
2
Ju
l-9
3
Ju
l-9
4
Ju
l-9
5
Ju
l-9
6
Ju
l-9
7
Ju
l-9
8
Ju
l-9
9
Ju
l-0
0
Ju
l-0
1
Ju
l-0
2
Ju
l-0
3
Ju
l-0
4
Ju
l-0
5
Ju
l-0
6
Ju
l-0
7
Ju
l-0
8
Ju
l-0
9
Ju
l-1
0
Ju
l-1
1
Ju
l-1
2
Ju
l-1
3
Ju
l-1
4
Ju
l-1
5
Ju
l-1
6
Ju
l-1
7
Ju
l-1
8
Ju
l-1
9
Wa
ter E
leva
tio
n (m
AH
D)
Wa
ter L
eve
l (m
be
low
G
L)
GW036161
GW036161 - Hole 1, Pipe 1; Screen: 39.2 - 41.7 m GW036161 - Hole 1, Pipe 2; Screen: 48.5 - 50.0 m GW036161 - Hole 1, Pipe 3; Screen: 61.0 - 62.2 m
3. Peel Valley alluvium
Page 30
Rainfall deviation from average
Page 31
-1200
-800
-400
0
400
800
120019
67
19
69
19
71
19
73
19
75
19
77
19
79
19
81
19
83
19
85
19
87
19
89
19
91
19
93
19
95
19
97
19
99
20
01
20
03
20
05
20
07
20
09
20
11
20
13
20
15
20
17
20
19
20
21
Rain
fall R
esid
ual
Mass
Year
Tamworth
Yearly groundwater take—Peel Valley
Page 32
0
2000
4000
6000
8000
10000
12000
1992-9
1
1992-9
3
1993-9
4
1994-9
5
1995-9
6
1996-9
7
1997-9
8
1998-9
9
1999-0
0
2000-0
1
2001-0
2
2002-0
3
2003-0
4
2004-0
5
2005-0
6
2006-0
7
2007-0
8
2008-0
9
2009-1
0
2010-1
1
2011-1
2
2012-1
3
2013-1
4
2014-1
5
2015-1
6
2016-1
7
2017-1
8
Us
ag
e V
olu
me
(M
L)
Annual Extraction Pre WSP Annual Extraction Post WSP
Yearly Extraction Limit
Hydrograph—GW030136
Page 33
364
365
366
367
368
369
370
371
372
373
3740
2
4
6
8
10
Jul-
71
Jul-
72
Jul-
73
Jul-
74
Jul-
75
Jul-
76
Jul-
77
Jul-
78
Jul-
79
Jul-
80
Jul-
81
Jul-
82
Jul-
83
Jul-
84
Jul-
85
Jul-
86
Jul-
87
Jul-
88
Jul-
89
Jul-
90
Jul-
91
Jul-
92
Jul-
93
Jul-
94
Jul-
95
Jul-
96
Jul-
97
Jul-
98
Jul-
99
Jul-
00
Jul-
01
Jul-
02
Jul-
03
Jul-
04
Jul-
05
Jul-
06
Jul-
07
Jul-
08
Jul-
09
Jul-
10
Jul-
11
Jul-
12
Jul-
13
Jul-
14
Jul-
15
Jul-
16
Jul-
17
Jul-
18
Jul-
19
Wate
r E
leva
tio
n
(m
A
HD
)
Wate
r Level
(m
belo
w G
L)
GW030136
GW030136 - Hole 1, Pipe 1: Screen: 8.23 - 9.61 m
Hydrograph—GW093039
Page 34
407
408
409
410
411
412
413
414
415
416
4170
2
4
6
8
10
Jul-
71
Jul-
72
Jul-
73
Jul-
74
Jul-
75
Jul-
76
Jul-
77
Jul-
78
Jul-
79
Jul-
80
Jul-
81
Jul-
82
Jul-
83
Jul-
84
Jul-
85
Jul-
86
Jul-
87
Jul-
88
Jul-
89
Jul-
90
Jul-
91
Jul-
92
Jul-
93
Jul-
94
Jul-
95
Jul-
96
Jul-
97
Jul-
98
Jul-
99
Jul-
00
Jul-
01
Jul-
02
Jul-
03
Jul-
04
Jul-
05
Jul-
06
Jul-
07
Jul-
08
Jul-
09
Jul-
10
Jul-
11
Jul-
12
Jul-
13
Jul-
14
Jul-
15
Jul-
16
Jul-
17
Jul-
18
Jul-
19
Wate
r E
leva
tio
n
(m
A
HD
)
Wate
r Level
(m
belo
w G
L)
GW093039
GW093039 - Hole 1, Pipe 1: Screen: 12.5 - 15.5 m
4. Upper Namoi alluvium
Page 35
Cumulative difference from average rainfall
Page 36
Yearly groundwater take—Upper Namoi
Page 37
Upper Namoi Total
Lower Namoi
Compliance with the extraction limits
Page 38
Sites GW030029 and GW030083
Page 39
Page 40
Sites GW036976 and GW030344
Page 41
Sites GW036600 and GW036005
5. Lower Namoi alluvium
Page 42
Cumulative difference from average rainfall
Page 43
Compliance with the extraction limits
Page 44
Yearly groundwater take—Lower Namoi
Page 45
Upper Namoi Total
Lower Namoi
Page 46
Sites GW025045 and GW036249
6. Upper Macquarie
Page 47
Rainfall deviation from average—south of Dubbo
Page 48
Yearly groundwater take—Upper Macquarie
Page 49
Hydrograph—GW021498
Page 50
Hydrograph—GW036517
Page 51
7. Lower Macquarie alluvium
Page 52
Rainfall deviation from average—Trangie
Page 53
Yearly groundwater take, Lower Macquarie combined, Zones 1–6
Page 54
Hydrograph—GW039068
Page 55
40% = 56 mbgl
Hydrograph—GW096144
Page 56
40% = 86 mbgl
8. Belubula alluvium
Page 57
Rainfall deviation from average
Page 58
-1000
-800
-600
-400
-200
0
200
400
600
800
1972 1976 1980 1984 1988 1992 1996 2000 2004 2008 2012 2016 2020
Rain
fall
Resid
ual M
ass
Hillston Airport Forbes Airport
Yearly groundwater take—Belubula alluvium
Page 59
Hydrograph—Belubula—GW090014
Page 60
9. Upper Lachlan alluvium
Page 61
Rainfall deviation from average
Page 62
-1000
-800
-600
-400
-200
0
200
400
600
800
1972 1976 1980 1984 1988 1992 1996 2000 2004 2008 2012 2016 2020
Rain
fall
Resid
ual M
ass
Hillston Airport Forbes Airport
Yearly groundwater take—Upper Lachlan alluvium
Page 63
Hydrograph—Upper Lachlan GW030367
Page 64
Hydrograph—Upper Lachlan GW036526
Page 65
Hydrograph—Upper Lachlan GW036553
Page 66
10. Lower Lachlan
Page 67
Rainfall deviation from average
Page 68
-1000
-800
-600
-400
-200
0
200
400
600
800
1972 1976 1980 1984 1988 1992 1996 2000 2004 2008 2012 2016 2020
Rain
fall
Resid
ual M
ass
Hillston Airport Forbes Airport
Yearly groundwater take—Lower Lachlan alluvium
Page 69
Hydrograph—Lower Lachlan GW025401
Page 70
Hydrograph—Lower Lachlan GW030174
Page 71
Hydrograph—Lower Lachlan GW030405
Page 72
11. Lower Murrumbidgee
Page 73
Rainfall deviation from average
Page 74
-600
-400
-200
0
200
400
600
800
1000
1200
1400
1972 1976 1980 1984 1988 1992 1996 2000 2004 2008 2012 2016 2020
Rain
fall
Resid
ual M
ass
Yanco Hay
Yearly groundwater take—Lower Murrumbidgee
Page 75
Yearly groundwater take—Lower Murrumbidgee (shallow)
Page 76
Hydrograph—GW040862
Page 77
Hydrograph—GW040863
Page 78
Hydrograph—GW036025
Page 79
Hydrograph—GW036799
Page 80
Location of local management zones for Lower Murrumbidgee
Page 81
12. Upper Murray alluvium
Page 82
Rainfall deviation from average
Page 83
-800
-600
-400
-200
0
200
400
600
800
1000
1200
Jan
-7
5
Jan
-8
0
Jan
-8
5
Jan
-9
0
Jan
-9
5
Jan
-0
0
Jan
-0
5
Jan
-1
0
Jan
-1
5
Jan
-2
0
Culcairn(74188) Corowa(74034) Deniliquin (74128)
Yearly groundwater take—Upper Murray alluvium
Page 84
0
2,000
4,000
6,000
8,000
10,000
12,000
14,000
16,000
200
0-
01
200
1-
02
200
2-
03
200
3-
04
200
0-
05
200
5-
06
200
6-
07
200
7-
08
200
8-
09
200
9-
10
201
0-
11
201
1-
12
201
2-
13
201
3-
14
201
4-
15
201
5-
16
201
6-
17
201
7-
18
Usage V
olu
me (
ML)
Annual Extratction Pre WSP Annual Extraction Post WSP
Yearly Extraction Limit
Yearly groundwater take—Upper Murray
Page 85
0
2,000
4,000
6,000
8,000
10,000
12,000
14,000
16,000
2011-12 2012-13 2013-14 2014-15 2015-16 2016-17 2017-18
Vo
lum
e (
ML)
Annual Extraction LTAAEL LTAAEL +10 trigger 5 year average annual extraction
Hydrograph—GW036306 (Hopefield)
Page 86
Hydrograph—GW036281 (Howlong)
Page 87
13. Lower Murray alluvium
Page 88
Rainfall deviation from average
Page 89
-800
-600
-400
-200
0
200
400
600
800
1000
1200
Jan
-7
5
Jan
-8
0
Jan
-8
5
Jan
-9
0
Jan
-9
5
Jan
-0
0
Jan
-0
5
Jan
-1
0
Jan
-1
5
Jan
-2
0
Culcairn(74188) Corowa(74034) Deniliquin (74128)
Yearly groundwater take—Lower Murray alluvium
Page 90
0
20,000
40,000
60,000
80,000
100,000
120,000
140,000
160,000
20
06
-07
20
07
-08
20
08
-09
20
09
-10
20
10
-11
20
11
-12
20
12
-13
20
13
-14
20
14
-15
20
15
-16
20
16
-17
20
17
-18
Vo
lum
e(M
L)
Annual Extraction 3-Year Average Annual Extraction LTAAEL LTAAEL +5% trigger
Hydrograph—GW036823 Swan Hill
Page 91
Hydrograph—GW036765 (Womboota)
Page 92
Hydrograph—GW036742 (Deniliquin)
Page 93
Hydrograph—GW036586 Blighty
Page 94
Hydrograph—GW036638 Urana
Page 95
Hydrograph—GW036352 Lowesdale
Page 96