response of the groundwater system to a base level drop: the dead sea case
DESCRIPTION
Response of the groundwater system to a Base Level Drop: The Dead Sea Case. Yael Kiro, Yoseph Yechieli, Vladimir Lyakhovsky, Eyal Shalev, Abraham Starinsky. Hebrew University of Jerusalem Geological Survey of Israel. The Dead Sea level during the past 70 years. Continuous drop gw response. - PowerPoint PPT PresentationTRANSCRIPT
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Response of the groundwater Response of the groundwater system to a Base Level Drop: The system to a Base Level Drop: The
Dead Sea CaseDead Sea Case
Yael Kiro, Yoseph Yechieli, Vladimir Lyakhovsky, Yael Kiro, Yoseph Yechieli, Vladimir Lyakhovsky, Eyal Shalev, Abraham Starinsky Eyal Shalev, Abraham Starinsky
Hebrew University of Jerusalem
Geological Survey of Israel
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The Dead Sea level during the past 70 years
-420
-410
-400
-390
1930 1950 1970 1990Time (year)
Ele
vatio
n (
m)
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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Location map
maps.google.com
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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Groundwater levels in the Tureibe region
The rate of the groundwater level drop is smaller than the rate of the DS level drop
Yechieli et al., 2004
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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Groundwater levels in Wadi Arugot
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-414
2002 2003 2004 2004 2006 2007 2008Year
elev
atio
n (
m)
EG
11 a
nd
DS
-411
-409
-407
-405
elev
atio
n (
m)
EG
6
DS EG11 EG6
Groundwater levels drop at the same rate as the Dead Sea in all boreholes
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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The transition zone during the Dead Sea level drop
The transition zone drops and widens over time
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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The response of the groundwater system involves two aspects:
The response of the groundwater level
The response of the transition zone
• an instantaneous lake level drop
• a continuous lake level drop
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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Problem settings
Constant inflow
no flow
no flowspecified pressure according to the lake level at each time step
W-SW E-NE
1400 1200 1000 800 600 400 0m200160018002000
EG-9 EG-10
AR-2
EG-6
EG-11
EG-17
E G-16
-390
-370
-360
-350
-380
-410
-420
-430
-440
-450
-460
-470
-400EG-12
EG-8AR-3
22020050
<0.5
10
25
100
150
WATER TABLE
Equal Chloride concentration (gr/l)
1
EG-7EG-13
EG-19
AR-1
Low permeability layer
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
Dead Sea salinity 340 g/L
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t
h
T
n
x
h
2
2
Bear, 1979
00,
0,
,0
xh
tLx
h
hth
0
2/0
222
,0k
tknL
T
eL
hKhtQ
n porosity B[L] aquifer thickness
h[L] groundwater head h0[L] flow section at x=0
T[L2/T] transmisivity (T=KB) L[L] aquifer length
K[L/T] hydraulic conductivity
An instantaneous lake level drop
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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Freshwater discharge
4/
0
2/
0
2
2
/
eA
eAQQ
gw
k
tk
gw
0
0max
2
2
s
gw
L
hhKA
FKB
nL
Simulations:
An instantaneous lake level drop
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
0.0E+002.0E-064.0E-066.0E-068.0E-061.0E-051.2E-051.4E-051.6E-05
0 10 20 30 40 50 60 70time (year)
Q-Q
0 (m
2/s)
simulation with salinewaterbest fit for the salinewater simulation
fresh water simulation
analytic solution
τgw
A
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The response of the transition zoneThe response of the transition zone depends on
• The response rate of the fresh water (τgw)
• The horizontal density gradient
Depends on the transition zone slope
Depends on the hydraulic gradient
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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The response of the transition zone
•Saline water circulates in steady-state
• As the lake level drops, the saline water flows towards the lake
• When the groundwater reaches a new equilibrium, the saline water circulation reappears
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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The response of the transition zone
N
Q
hLnBC
LQ
hBK
TLTL
gwTZ
25.00
25.05.10
2max
Transition zone characteristic time
τgw[T] groundwater characteristic time L[L] aquifer length
Kmax[L/T] hydraulic conductivity αL[L] longitudinal dispersivity
Δh[L] lake level drop αT[L] transversal dispersivity
B[L] aquifer thickness n porosity
Q0[L3/T] inflow C, N factors
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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A continuous lake level drop
t
h
T
n
x
h
2
2
00,
0,
,0
xh
tLx
h
Rtth
0
2/
20
0
2
12/
1)(
k
tk
s gwek
nRLQtQ
n porosity Kmax[L/T] hydraulic conductivity
h[L] groundwater head B[L] aquifer thickness
T[L2/T] transmisivity (T=KB) L[L] aquifer length
τgw[T] groundwater characteristic tine F factor
R [L/T] rate of lake level drop t [T] Time
Q[L3/T] discharge at x=0 ρs[M/L3] saline water density
Q0[L3/T] inflow ρ0[M/L3] fresh water density
FBK
nLgw
max
2
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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0
0.001
0.002
0.003
0.004
0.005
0.006
0.007
0 10 20 30 40 50 60
time (years)
Q-Q
0 (k
g/se
c)
simulation
analysis
τgw
A quasi-equilibrium is reached, in which the groundwater level drops but the discharge to the lake and the hydraulic gradient remain constant
A continuous lake level drop
0
2/
20
0
2
12/
1)(
k
tk
s gwek
nRLQtQ
FKB
nLgw
2
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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-419
-418
-417
-416
-415
050100150200250300350400
distance from the Dead Sea (m)
elev
atio
n (m
)
EG7
EG17
EG11
EG16DS
Oct-05
Jul-04
May-05
May-06
simulationborehole
Field measurements and simulation results
Simulation results and field data both indicate that the hydraulic gradient remained constant during the past few years.
The groundwater level maintained a quasi-equilibrium
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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The response of the transition zone to a continuous lake level drop
The saline water circulation reappears during the lake level drop
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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The effect of bathymetry
The transition zone widens when the bathymetry slope is larger
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
mm TL 01.010
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Seasonal changes in the fresh-saline interface
-422
-421
-420
-419
-418
-417
-416
01/05 03/05 05/05 07/05 09/05 11/05 01/06 03/06 05/06 07/06 09/06 11/06 01/07 03/07 05/07date
elev
atio
n (
m)
EG
17
-423.5
-422.5
-421.5
-420.5
-419.5
-418.5
-417.5
elev
atio
n (
m)
DS
groundwater level 100mS/cm 150 mS/cm 75 mS/cm DS
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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Summary• We defined two characteristic times that
describe the groundwater response rate:
(i) A groundwater characteristic time (τgw) which depends on the aquifer diffusivity and its length.
(ii) A transition zone characteristic time (τTZ) which depends on τgw, and the hydraulic gradient.
• During a continuous lake level drop after a time interval proportional to τgw, the discharge to the lake and the hydraulic gradient attains a constant value.
• At this stage, the saline water circulation reappears
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The hydraulic gradient increases until it attains quasi-equilibrium and remains constant
A continuous lake level drop
Quasi-equilibrium
IntroductionInstantaneous drop
gw responseInstantaneous drop
TZ responseContinuous drop
gw responseContinuous drop
TZ response
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