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The flow or movement of water
Hydrology The flow or movement of water
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Hydrologic cycle Student Watershed Research Project (SWRP) PSU - Environmental Sciences and Resources
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Surface Runoff Surface hydrology focuses primarily on streams and their channels
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Measuring Flow Discharge or gage height commonly used for surface water flows Discharge or flow are measured in ft3/sec or m3/sec Width x depth x velocity = flow Width to depth ratio
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Hydrographs Graph of a stream’s discharge over time
“Real-time” and historical data may be available through Water Resources Dept, your local watermaster or USGS Water Year = Oct - Sept
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Annual Hydrograph 10/7/01 is when flow begins to increase above 10 cfs
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Peak Flows Watermaster has determined 1,873 cfs to be “flood stage” for this site Gales Creek exceeded this level 4 times in water year 2001 Highest discharge for year = 4,622 csf on 1/8/02
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Multi-year Hydrograph
Jan-02 Flood Stage
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Flood Frequency Gales Creek appears to reach “flood stage” at least once per year (except 2001) 1999 appears to have highest discharge for the 8 years we have data for – even higher than 1996 What makes a 100-year flood?
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Flood Frequency Find maximum annual discharges
Can query “Peak Streamflow” on USGS site Rank peak discharges from largest to smallest Calculate recurrence interval (RI) RI = # years + 1 flood rank
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Gales Creek Peak Streamflow
Year Flow (cfs) 1995 2490 1996 4780 1997 2660 1998 2770 1999 6170 2000 2500 2001 4622 Rank Year Flow (cfs) 1 1999 6170 2 1996 4780 3 2001 4622 4 1998 2770 5 1997 2660 6 2000 2500 7 1995 2490
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Recurrence Interval Recurrence Interval = # years + 1 flood rank
Discharge (cfs) 1999 6170 1996 4780 2001 4622 1998 2770 1997 2660 2000 2500 1995 2490 Recurrence Interval = # years + 1 flood rank = = 4 2 For Gales Creek, 1996 was a “4-year flood”
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100-Year Flood Requires 99 years of data
Only the largest flood during that 100 year period would be a “100-year flood” Very few sites with 100 years of data The Flood of 1996 was far from a 100-year event
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1996 1862 is the Historic Peak for this site
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Flood Recurrence at Albany
Rank Year Discharge (cfs) 1 1862 340,000 2 1890 291,000 3 1881 266,000 34 1996 125,000 35 1922 122,000 36 1909 119,000 117 1977 18,000 = = 3.5 34 For the Willamette in Albany, 1996 was a “3-4 year flood”
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Flood Recurrence at Portland
Rank Year Discharge (cfs) 1 1996 420,000 2 1997 293,000 3 1974 283,000 26 1992 105,000 27 1991 102,000 28 1977 58,100 29 2001 53,000 = = 30 1 For the Willamette in Portland, 1996 was a “30-year flood”
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Stream Channel The energy from gradient can alter the
Sinuosity Entrenchment Width to Depth Ratio of a stream channel below bankfull
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Determining “Bankfull” channel
Top of point bar Change in vegetation Topographic break in slope Staining or change in substrate material or size Change in nature or amount of debris deposits
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Entrenchment Vertical containment Estimated as:
Width of stream at 2x bankfull depth Width at bankfull 2x Bankfull Depth (Floodprone Width) Bankfull
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Entrenchment Entrenchment Entrenched <1.4 Moderately Entrenched
1.4 – 2.2 Slightly Entrenched >2.2 Entrenchment of 1.0 means the floodprone width = bankfull width
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Width to Depth Ratio Width / Depth at Bankfull
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Width to Depth Width/Depth Ratio Low <12 Moderate 12 – 40 High
>40 As the width to depth ratio increases, the stream gets wider and shallower.
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Sinuosity Is stream straight or does it meander?
How much longer would channel be if it were stretched into a straight line? Estimated as: Channel length Straight length
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Sinuosity Sinuosity Low <1.2 Moderate 1.2 – 1.5 High >1.5
Sinuosity of 1.0 means the stream channel has the same gradient as the valley
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Gradient Channel slope (Rise over Run)
Can be difficult to measure, estimate by characteristics: Gradient Characteristics 0-2% Calm water surface; almost no sound 2-4% Rough surface; must raise voice slightly to be heard >4% Turbulent flow; must shout to be heard
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Rosgen Stream Classification
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