Discharge. Discharge (Streamflow) is: Q = Velocity (L T -1 ) x Area (L 2 ) Units: L 3 T -1 e.g., m 3 s -1. Velocity. Area
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1 Discharge Discharge (Streamflow) is: Q = Velocity (L T -1 ) x Area (L 2 ) Units: L 3 T -1 e.g., m 3 s -1 Velocity Area
2 Where is the average velocity?? 3 Source: Brooks et al., Hydrology and the Management of Watersheds
3 Real data: deepest part does not have the most flow!
4 Where is the mean velocity? Typical Vertical Velocity Curve Flow 0.3 Depth Fraction Fraction of Mean Vertical Velocity
5 Where is the average velocity?
6 Measuring discharge
7 Choosing a cross-section section for Straight; measuring discharge Free from obstructions (logs, rocks, algae, etc.); Smooth bottom and banks; Minimal turbulence;
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10 Surveying a cross-section: section: Methods String and line level Stadia rod Measure key points, not systematic spacing! Extend to above bankfull;
11 Simplest is? Measuring velocity
12 Measuring velocity Floats Usually an orange for 5 or so meters; Measure distance and time; Multiply velocity by 0.85;
13 Measuring velocity Most common are current meters: Vertical axis Price Price AA; Pygmy; Pygmy; Horizontal axis (propeller type) Ott Ott (originally German); Chinese Chinese imitation used in Vietnam;
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16 Current meters Hand-held using a wading rod; Suspended from a boat or a bridge; Need heavy weight ( fish( fish ) ) of kg; Challenge to keep a boat on a straight line in a fast-moving river!
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21 Depth of velocity measurements Very shallow streams (<0.4 m) measure at 0.6 of the depth; Deeper streams measure at 0.2 and 0.8 times the depth;
22 Depth of velocity measurements Very shallow streams (<0.4 m) measure at 0.6 of the depth; Deeper streams measure at 0.2 and 0.8 times the depth;
23 Streamflow Computation Q = Σ(q x ) Q = Σ(a x v x ) a = Area v = Velocity q x = v x b ( x+ 1) b 2 ( x 1) d x
24 Current meters are very accurate!
25 Number of measurements across the stream is most important factor for a good measurement of streamflow
26 Duration of velocity measurements Minimum of 40 seconds; Maximum of 70 seconds (otherwise takes too long!);
27 Velocity also varies over time, even at constant flow!
28 Velocity head Higher velocity streams have more momentum; Momentum causes water to pile up against an obstruction; Height of water (H) is proportional to velocity; V = (2gH) 0.5 where g is gravity (980 cm s -2 )
29 Rating curve
30 Stage and Discharge Why is the change in discharge than the change in stage?
31 Back-calculating calculating discharge: Manning s s equation Q = (A R S 0.5 )/n Q = Discharge (L 3 T -1 ); A = Cross-sectional sectional area of the stream (L 2 ) R = Hydraulic radius, which is the area divided by wetted perimeter; usually substitute mean depth; S = Slope (m/m); n = Manning s s roughness coefficient;
32 Back-calculating calculating discharge: Manning s s equation Q = (A R S 0.5 )/n Most commonly used to back-calculate calculate flow after large floods, as high water mark is usually visible, so we can measure A, R, S, and estimate n after the fact;
33 Manning s s n Roughness refers to the loss of energy by friction, form shape, sinuosity, obstructions, etc.; Usually assumed to be about , 0.05, but can vary from 0.01 for a concrete channel to 0.15 for a densely vegetated floodplain; Decreases as flow depth increases! Estimating n is an art!
34 35 Palouse River at Colfax: n 0.01
35 36 Columbia River at Vernita: n = 0.024
36 37 Clearwater at Kamiah: n = 0.033
37 38 Spokane River at Spokane: n = 0.038
38 39 Grande Ronde at LaGrande: n = 0.043
39 40 SF Clearwater at Grangeville: n = 0.05
40 41 Boundary Creek at Porthill: n = 0.073
41 42 Ötz near Ötz Village : n = 0.15?
42 Second field site Identify bankfull Identify location for x-sectionx Estimate Manning s s n
43 Significant figures
44 Controls of Channel Morphology What determines channel morphology? Width, depth, slope, roughness, discharge, velocity, sediment load, sediment size Change 1 variable, and the stream morphology may change 45
45 The Floodplain Q in Floodplain High Roughness = Lower Velocity = Lower Competence = Sediment Deposition 46 Note: Floodplains also Q out affect other water quality variables. Ex: nutrient reduction, biodegradation of Note: Floodplains may also organics be a source of contaminants
46 Channel Balance of Forces 47 E.W. Lane (1955)
47 Level II Flowchart Bankfull Maximum Depth (d mbkf ) Floodplain Area Width (W fpa ) Entrenchment Ratio (W fpa / W bkf ) Sinuosity (Stream Length/ Valley Distance) Water Surface Slope (Vertical Distance / Linear Distance) Channel Materials D-50 Bankfull Bankfull Surface Mean Width (W bkf ) Depth (d bkf ) Width/Depth Ratio (W bkf / d bkf ) 48 Stream Type Level II
48 4 Levels of Classification 1. Broad morphological classification 49 General description 2. Morphological description of stream types Delineation and interpretation of reaches Rosgen stream classification: A, B, C, etc. 3. Stream state or condition Determination of existing condition Estimation of departure from potential
49 Aggradation: The process by which sediments collect in streambeds and floodplains, thereby raising their elevation Degradation: The process by which streambeds and floodplains are lowered by erosion and sediment transport Dynamic Equilibrium: Streams are in a state of dynamic equilibrium resilience to rapid change!! Rapid aggradation or degradation can occur if dynamic equilibrium is upset
50 Example: Degraded Channel Consequences of Slope Increase and Roughness Reduction 51
51 Example: Degraded Channel Riparian Vegetation Disconnecte d Deep Channel Incision New Floodplain Starting to Form 52
52 Channel Degradation Roots access capillary fringe and shallow groundwater In incised channel, vegetation connection to shallow groundwater is lost, hence channel stability is further reduced 53
53 Unstable Channels - Examples Headcuts Slumping banks 54
54 55 Channel Recovery
55 Convert water level (stage) to discharge with a rating curve Discharge (m) Stage (m)
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62 Streamflow Measurement The essential reference: USGS Water-supply paper 2175: Measurement and computation of streamflow: Volume 1. Measurement of stage and discharge Volume 2. Computation of discharge Covers: Velocity x Area Weirs: v-notch, rectangular Flumes: trapezoidal, H, Parshall Dye Tracers
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