1 Hydroacoustic Sediment Surrogates and Methods —test results for a small urban river— Mark N Landers, Federal Interagency Sedimentation.

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1 Hydroacoustic Sediment Surrogates and Methods —test results for a small urban river— Mark N Landers, Federal Interagency Sedimentation Project Chief January 10, 2012 USGS, Reston, VA, and WEB-EX water.usgs.gov/fisp

2 Yellow River at Gees Mill Road near Metro Atlanta, GA,

3

4

5 Yellow River at Gees Mill Road near Metro Atlanta, GA

6 Yellow River at Gees Mill Road near Metro Atlanta, GA, Acoustic Doppler Current Profilers (A) 1.2MHz (B) 1.5MHz (C) 3.0MHz

7 Acoustic Doppler Current Profiler Configuration

8

  Urick’s Method: SSC = 10 (A+B ( RL + 2TL)) 2TL=20log 10 (ψr) + 2r( α s + α w ) α w = f 2 (55.9−2.37T T 2 − T 3 ) 10 −15 Measured Backscatter Computed WaterAttenuation Acoustic Surrogates of SSC

  Urick’s Method: Acoustic Surrogates of SSC SSC = 10 (A+B ( RL + 2TL)) 2TL=20log 10 (ψr) + 2r( α s + α w ) Measured Backscatter Computed WaterAttenuation Near Field for 3.0 MHz SW (27mm dia) is 1.16m; for 1.5MHz SL (50mm dia) is 1.98m; for 1.2MH RDI ChanMaster (70mm dia) is Correction at 1m for each is about 4%, 20%, and 70%, respectively.

Hybrid Urick- Sheng- Hay Method: Acoustic Attenuation by Sediment:

  Backcatter Amplitude Profiles: Measured & Normalized Acoustic Attenuation by Sediment: Slope = 2TL Slope = 2r( α w + α s ) Slope = 2r( α s ) Relative Backscatter

13   Urick’s Method: Acoustic Surrogates of SSC SSC = 10 (A+B ( RL + 2TL)) 2TL=20log 10 (ψr) + 2r( α s + α w ) Measured Backscatter Computed WaterAttenuation Measured Sediment Attenuation

Acoustic Surrogates of SSC

15 Acoustic Surrogates of SSC

Conclusions re: Acoustic Backscatter and Attenuation as Surrogates of Suspended Sediment Concentration The methods proposed by Topping et al. (2007) to empirically measure acoustic attenuation from profiling ADCP measurements do apply for a stream in the southeastern USA. The methods proposed by Topping et al. (2007) to empirically measure acoustic attenuation from profiling ADCP measurements do apply for a stream in the southeastern USA. Using both relative acoustic backscatter (RB) and acoustic attenuation as explanatory variables results in a significantly improved model of SSC xs, compared with traditional sonar equations using only RB. Using both relative acoustic backscatter (RB) and acoustic attenuation as explanatory variables results in a significantly improved model of SSC xs, compared with traditional sonar equations using only RB. Fluvial suspended sediment concentration can be determined by high- resolution acoustic measurements with much greater accuracy than using traditional SSC ~ streamflow discharge ratings. R 2 improved from 0.57 to (0.79 to 0.80); and model residual standard error improved from 73% to (34% to 40%). Fluvial suspended sediment concentration can be determined by high- resolution acoustic measurements with much greater accuracy than using traditional SSC ~ streamflow discharge ratings. R 2 improved from 0.57 to (0.79 to 0.80); and model residual standard error improved from 73% to (34% to 40%).

Sediment Size from Acoustic Attenuation

18 Sediment Size from Acoustic Attenuation

19 Sediment Size from Acoustic Attenuation

Representative particle sizes cannot be determined from these data by optimizing the theoretical acoustic attenuation equation using measured acoustic attenuation for single acoustic frequencies nor for ratios of multiple acoustic frequencies. Representative particle sizes cannot be determined from these data by optimizing the theoretical acoustic attenuation equation using measured acoustic attenuation for single acoustic frequencies nor for ratios of multiple acoustic frequencies. Suspended sediment PSD is significantly correlated with ratios of measured acoustic attenuation at different frequencies. Suspended sediment PSD is significantly correlated with ratios of measured acoustic attenuation at different frequencies. Conclusions re: Acoustic Attenuation Surrogates of Sediment Size

This study has identified the following needs for further research: Evaluate measured and theoretical acoustic attenuation for characterization of suspended sediment size. The data needed for this research includes concurrent measurements of SSC, full PSD, and multi-frequency profiles of acoustic backscatter and attenuation on different streams having diverse sediment characteristics. Evaluate measured and theoretical acoustic attenuation for characterization of suspended sediment size. The data needed for this research includes concurrent measurements of SSC, full PSD, and multi-frequency profiles of acoustic backscatter and attenuation on different streams having diverse sediment characteristics. Test, validate, and develop generalized methods for use of acoustic backscatter and attenuation for estimation of suspended sediment concentration and load. Test, validate, and develop generalized methods for use of acoustic backscatter and attenuation for estimation of suspended sediment concentration and load. Recommendations for Further Research

Sediment Size from Acoustic Attenuation