Title :
Detecting storm-generated suspended materials in Lake Michigan using ADCP echo intensities
Author :
Miller, G.S. ; Saylor, J.H. ; McCormick, M.J.
Author_Institution :
Great Lakes Environ. Res. Lab., NOAA, Ann Arbor, MI, USA
Abstract :
Data from acoustic Doppler current profilers deployed in the nearshore region of southeastern Lake Michigan provide evidence of sediment resuspension episodes and cross-shelf flux of materials during strong winter storms. Significant increases (+20 dB) in echo intensity and current velocities correlate well with satellite imagery of a sediment-laden plume transporting material in a cyclonic flow around the lake basin´s perimeter. A decrease in echo intensity to near-background levels following resuspension events suggests that the larger particles settle out, leaving the very fine material that remains visible in satellite imagery for many days. Although there were no concurrent total suspended material measurements during the event, the ADCP results suggest that resuspension events and plume movements can be detected
Keywords :
hydrological techniques; lakes; sedimentation; sonar; turbidimetry; turbidity; ADCP; Lake Michigan; USA; United States; acoustic Doppler current profiler; acoustic backscattering amplitude; acoustic measurement technique; cross-shelf flux; current velocity; dynamics; echo intensity; hydrology; lake; nearshore; resuspension; sediment-laden plume; sedimentation; storm-generated suspended materials; suspended sediment; suspension; turbid water; turbidimetry; winter storm; Acoustic materials; Acoustic signal detection; Event detection; Lakes; Ocean temperature; Satellites; Sea measurements; Sediments; Springs; Storms;
Conference_Titel :
Current Measurement, 1999. Proceedings of the IEEE Sixth Working Conference on
Conference_Location :
San Diego, CA
Print_ISBN :
0-7803-5505-9
DOI :
10.1109/CCM.1999.755252
