outflow components. evapotranspiration (evap) l evapotranspiration is the result of surface water...
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OUTFLOW COMPONENTS
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Evapotranspiration (EVAP)
Evapotranspiration is the result of surface water and soil evaporation and transpiration from the plants within the depressional basin.
Since the precise period when the seven day ponding
or fourteen day saturation will change from year to year, it cannot be assumed that the evaporation or evapotranspiration rate will the the maximum rate during the growing season.
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Some Sources of EVAP Data
NRCS Field Office Technical Guide (FOTG) or in the Irrigation Field Guide.
The FAO Modified Blainey Criddle method (FAO Paper 24)
Annual Free Water Surface Evaporation map in the NOAA Tech. Report Nation Weather Service (NWS) 33, “Evaporation Atlas for the Contiguous 48 United States”
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Conversion of Mean Annual Evaporation
To facilitate conversion of the average annual evaporation rate to monthly rates, a percentage-by-month can be generated using NOAA Technical Report NWS 34, “Mean Monthly, Seasonal and Annual Pan Evaporation for theUnited States,: dated December 1982.
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Steps for EVAP Chart
1. The first column of the chart are the months
2. Obtain the monthly percentage
3. Compute the average monthly average EVAP
4. Compute the average daily EVAP rate for each
month.
5 a) compute the EVAP for the number of days for
the critical duration
b) Sum the EVAP for the total number of months and divide this number by the number of months used.
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Example 6Calculating Average EVAP
For the site used in Example 1, A site located at the southeast corner of Morton County, Kansas
Step 1. the Average Annual Evaportation is:
67 inches
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Calculating Average EVAP continued
Step 2. The WETS Table shows the 50% chance, 28 degree killing frost free period to be 4/9 thru 10/26. The monthly percentages for Kansas are as follows:
Month Percent
April 9
May 12
June 14
July 15
August 14
Sept. 10
October 7
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Calculating Average EVAP continued
Steps 3, 4 & 5: Figure for 7-Day Ponding (critical period = 7 days)
Month Daily Ave. 7-Day Ave.
Month % (INCHES) (INCHES) (INCHES)
April 9 6.03 0.20 1.41
May 12 8.04 0.26 1.81
June 14 9.38 0.31 2.19
July 15 10.05 0.32 2.69
August 14 9.38 0.30 2.12
Sept. 10 6.70 0.22 1.56
Oct. 7 4.69 0.15 1.10
Total 54.27 1.76 12.88
Daily Average: 0.25 in. 7-Day Average EVAP: 1.84 in.
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Soil WATER (SW)
The soil moisture is the total water that the soil can hold when saturated, without any water standing above the soil surface.
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Available Water Holding Capacity
AWC can be used for the total soil moisture, unless one believes that the soil is at wilting point (15 bar pressure) at the time that the critical period begins. » If this is the case then additional water
would need to be added to go from 1/10 bar to soil saturation.
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Example 7 Soil Water Holding Capacity
HORIZON DEPTH (in/in) (in)
A 0 - 8 0.21 1.68
Bt 8 - 12 0.12 0.48
Total 2.16
» If the 10 percent additional water is added
SW = AWC x 1.10 = 2.16 x 1.1 = 2.38 in.
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Deep Percolation
Any water movement starting at the ground surface and moving down below the root zone is classified as deep percolation
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Example 8 -- Deep Percolation
PERMi = perm. rate (in/hr) x 24 hr/da x (i) days
i = critical duration for deep perc.
for i = 7 days
PERM7 = perm. rate (in/hr) x 24 hr/da x 7 days perm. rate = 0.002 in/hr
= 0.002 in/hr x 24 hr/da x 7 days = 0.34 in.
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Outflow Equation
Outflow = (EVAPn + SW + PERMi ) x Pa
where n = number of days evap
i = critical duration for infiltration
Pa = depression bottom surface area
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Example 9 Outflow Calculation
Using the site used in Example 1, located at the southeast corner of Morton County, Kansas, with a depression bottom surface area of 1.0 acres
Outflow = (EVAP7 + SW + PERM7) x Pa
= (1.84 + 2.38 + 0.34)in. x 1.0 ac = 4.56 ac-in
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Example of aWater Balance
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Water Balance
For hydrology component of Wetland Delineation to meet Inundation:
Inflow - Outflow>=0.00 ac-in (for specific period)
Inflow = (RO / Ps ) + (Rd x Pa )
Outflow = (EVAPn + SW + PERMi ) x Pa
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Example 10 -- Water Balance
Inflow = (5.00 / 1.13) + (2.95 x 1.0) = 7.37 ac-in
Outflow = (1.84 + 2.16+ 0.34)in. x 1.0 ac. = 4.34 ac-in
w/ 30% additional to AWC
= (1.84 + 2.38+ 0.34)in. x 1.0 ac. = 4.56 ac-in
Inflow - Outflow = 7.37 - 4.34 = + 3.03 ac-in
w/ 30% additional to AWC
Inflow - Outflow = 7.37 - 4.56 = + 2.81 ac-in
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Maximum Depression Surface Area
Pa-max = DA x (50% chance RO) = _____ Acres
(EVAPn+SW+PERMi - Rd ) x Ps
Pa-max = Maximum Acres allowed in Wetland with
existing inputs
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Example 11 - Maximum Depression SurfaceArea
Pa-max = ( 25 x 0.20 ) = 6.9 Acres
(1.84+ 2.38+0.34 - 2.95 ) x 1.13
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Minimum Drainage Area (AD)
AD = [(EVAPn + SW + PERMi - Rd) x Ps RO
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Example 12 Minimum Drainage Area
Usng Example 10 and asuming 10% addition to AWC
AD = (1.84 + 2.38 + 0.34 - 2.95) x 1.13
0.20
= 9.1 acres/wetland acre
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Example 13 -- Kimball Co.
The site is a playa depression Given: RO = 0.08 ac-in/ac RCN = 81 DA = 34 acres Rd = 2.26 in. EVAP = 27 in/year ( make chart below) PERM = 0.003 in/hr SW = 2.36 in.
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Minimum Ponding ...
Given the above informatiion, what is the
minimum ponding depth required to offset losses
for seven (7) days?
Min. water depth = Total Outflow (losses)
Outflow = (EVAP7 + SW + PERM7 ) x Ps
= (0.87+2.36+0.50) x 1.13 = ____
in.
Example 13 -- EVAP
MONTH % OF Annual Monthly Et 7-days Et
BY MONTH INCHES INCHES APRIL 6 ______ ______ MAY 13 ______ ______ JUNE 19 ______ ______ JULY 25 ______ ______ AUGUST 21 ______ ______ SEPTEMBER 13 ______ ______ OCTOBER 3 ______ ______ TOTAL ______ AVERAGE Evapotranspiration (EVAP7)
______(total/7mo.)
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Minimum Ponding ...
Given the above informatiion, what is the
minimum ponding depth required to
offset losses for seven (7) days?
Min. water depth = Total Outflow (losses)
Outflow = (EVAP7 + SW + PERM7 ) x
Ps
= (0.87+2.36+0.50) x 1.13
= ____ in.
Example 13 Minimum Ponding Depth
Given the above informatiion, if surveying the depression to find the wetland surface area, what is the minimum ponding depth required to offset losses for seven (7) days?
Min. water depth = Total Outflow (losses)
Outflow = (EVAP7 + SW + PERM7 ) x Ps
= (0.87+2.36+0.50) x 1.13 = ____ in.
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Example 13 -- Problem
What is the maximum playa depression near level bottom surface area that will meet the wetland criteria of 7 days ponding and minimum drainage area per acre of wetland??
Use a depression shape factor Ps of 1.13
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Example 13 -- Max. Wetland Area
Pa-max = DA x (50% chance RO) = ____ ac
(EVAP7+SW+PERM7 -Rd)xPs
Pa-max = 34 x 0.08 = ____ ac
(0.87+2.36+0.50 -2.26)x1.13
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Example 13 -- Minimum AD
AD = [(EVAP7 + SW + PERM7 - Rd) x Ps
RO
AD= (0.87+2.36+0.50 - 2.26) x 1.13 = ____ ac
0.08
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Questions and Review
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Enduntil next time