Estuaries November 10. Flushing time (or residence time): time required to replace water with...
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![Page 1: Estuaries November 10. Flushing time (or residence time): time required to replace water with “new” water. Several ways to compute: Flushing time (or.](https://reader035.fdocuments.net/reader035/viewer/2022081603/5697bfd41a28abf838cad091/html5/thumbnails/1.jpg)
EstuariesEstuaries
November 10November 10
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Flushing time (or residence time): time required Flushing time (or residence time): time required to replace water with “new” water. Several ways to replace water with “new” water. Several ways to compute:to compute:
Tidal Prism method:Tidal Prism method:
p
pf V
VVt
p
pf V
VVt
Where tf is number of tidal cycles required to “flush”; V is low tide volume of estuary V = (ave depth at MLLW) x (surface area)
Assumes complete mixing of tidal prism volume with low tide volume – not very realistic: Can assume some mixing parameter α
0<α≤1: fraction of intertidal volume (tidal prism)mixed with low tide volume. But how do we determine α?
In reality, water from head of estuary doesn’t get to mouth in 1 cycle; water that leaves on one cycle may return on next.One solution: Break estuary into segments each size of 1 tidal excursion
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For Tampa Bay:
Bay Volume = 3.8147 x 10 9 m3 = 1.008 x 1012 gal. = 1008 billion gal.Bay Area = 1,031 km2 = 1.031 x 10 9 m2 Ave. Bay Depth = 3.7 m = 12.4 ftDeepest part of the bay is approx. 20 m = 67 ft Bay Length = 53 kmShoreline length: over 1,450 km Tidal Range = 0.7 m = 2.34 ft (difference between high and low tide)Tidal Prism = Tidal Range x Bay Area = 7.217 x 108 m3 = 191 billion gal = 19% of Bay Volume (amount of water flowing in/out of the bay on one tidal cycle)Volume of fresh water entering bay: approx. 60 m3 s-1 = 1369.4 MGD
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Fraction Fresh water method: Fraction Fresh water method:
o
eofw
fw
o
eof
S
SSVV
R
V
S
SS
R
Vt
)( where
)(
V: Volume of Estuary
R: River inflowSo: Salinity at the mouthSe: Average salinity of estuaryVfw: volume of fresh water in
estuary
Time for all the fresh water in an estuary to be replaced by river inflow – Assumes that river inflow mixed evenly throughout estuary.
In reality, much more complicated – Tampa Bay modelFor Tampa Bay: tidal prism method gives 3-7 days fraction fresh water method gives 40-120 days Other definitions:
Bay Volume/Residual Circulation ~ 45 daysBay length/mean tidal excursion ~ 7 days
Residence Time varies with where you are in the bay and when you look
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Estuarine CirculationEstuarine Circulation
Pressure gradient force = friction forcePressure gradient force = friction force
sityeddy visco vertical: 1
or
drag bottom : 1
2
2
z
uA
x
p
Jux
p
zo
o
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Separate pressure gradient into external Separate pressure gradient into external (barotropic) and internal (baroclinic):(barotropic) and internal (baroclinic):
2
2
or z
uAJu
x
zg
xg
xgz
xg
x
p
zo
o
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Pressure as a function of depth (z) at two locations along the axis of the bay. Pressure difference drives residual flow and is due both to variation in elevation of the sea surface (external) and to variation in density of the water (internal). Tidal mixing stirs fresher water from the head of the bay with saltier water from the mouth, keeping density more or less constant with depth but increasing from head to mouth.
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Total flow is driven by the sum of the external and internal pressure gradient forces and is into the bay at depth and out of the bay near the surface
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In rectangular estuary, get 2 layer In rectangular estuary, get 2 layer flow: flow:
0looking up “classic” picture
out
in
headmouth
mixing
Strength of mean circulation depends on Az (or J) which is parameterization of all time-Dependent processes, i.e. tidal mixing
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In V-shaped estuary, get lateral gradients:In V-shaped estuary, get lateral gradients:
00
0
in
out
In deeper part of estuary, baroclinic (internal) pressure gradient is stronger – dominates balance because z is larger
In shallow flanks, barotropic pressure gradient dominates balance
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+Modeled (black) and Observed (red) current components (northward and eastward) averaged for December 1997 from the Port Manatee ADCP site. Red/black dotted lines are +/- ¼ standard deviation of the ADCP data
Tampa Bay observed Residual Circulation from ADCP moorings
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Average Bottom Salinity for August 31, 1991
Average salinity shows tongue of saltier water moving up ship channel …
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Average Surface Salinity for August 31, 1991
… with fresher water moving out near the surface
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Internal pressure gradient force drives flow into the bay in the deeper channels
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External pressure gradient force drives flow out of the bay at shallower depths
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Residence time is determined by the residual circulation and tidal mixing, and is shortest in the channels where circulation and mixing are strongest
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Knudsen RelationsKnudsen Relations
VVii: Residual circulation inflow w/ salinity S: Residual circulation inflow w/ salinity Sii
VVoo: Residual circulation outflow w/ salinity S: Residual circulation outflow w/ salinity Soo
VViiSSii=V=VooSSoo
VVoo - V - Vii = X = R+P-E (net fresh water input) = X = R+P-E (net fresh water input)
VVii=(X S=(X Soo)/(S)/(Sii - S - Soo))
VVoo =(X S =(X Sii)/(S)/(Sii - S - Soo))
If you know X, SIf you know X, Sii, S, Soo, can estimate V, can estimate Vii, V, Voo
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Fresh Water
Salt Water
Surfacez=h(x)
Mean Sea Level
Mouth
Head
z
z=0
Total Flow
VoSo
Vi
Si
X=50 m3s-1
So = 34Si = 35Vi=(X So)/(Si - So) = 1700 m3s-1
Vo =(X Si)/(Si - So) = 1750 m3s-1
X
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Residual Circulation Residence Residual Circulation Residence TimeTime
RT=strength of residual circulation across a RT=strength of residual circulation across a section vs. volume bounded by that section section vs. volume bounded by that section
RT = Volume/VRT = Volume/Vii
For Tampa Bay, Volume = 3.8147 x 10 For Tampa Bay, Volume = 3.8147 x 10 99 m3 m3 RT= 2.244 x 10 6 sec = 26 daysRT= 2.244 x 10 6 sec = 26 days Compare with Volume-weighted average from Compare with Volume-weighted average from
Burwell (2000)Burwell (2000)
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In larger estuaries, Coriolis is not In larger estuaries, Coriolis is not negligible – flow is concentrated to negligible – flow is concentrated to the right – in 2-layer flow:the right – in 2-layer flow:
Secondary transverse circulation
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General Land UseGeneral Land Use
Urban
Ag & rural
Wetlands & water
Mining
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Gaged and Ungaged Basins of
the Tampa Bay
Watershed
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1930 1940 1950 1960 1970 1980 1990 2000YEAR
2 0
4 0
6 0
1 0
3 0
5 0
7 0
FL
OW
- M
GD
2 0
4 0
6 0
8 0
1 0 0
3 0
5 0
7 0
9 0
FL
OW
- C
FS
CRYSTAL SPRINGS NEAR ZEPHYRHILLS
J.W . PARK ER 16O C T2003D ATA TH R U 31M AY2003
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Permitted Surface Water Permitted Surface Water UseUse
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Real-time observations are combined with a model of currents and water level to provide a predictive capability for storm surge prediction and mitigation, search and rescue, environmental management/permitting, and hazardous material spills
Sewage Spill Trajectory
Desal Plant
+
+ Piney Point Phosphate Plant
Phosphate Discharge Trajectory
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Big Bend Discharge
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EPC Station 2
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