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REFERENCES
1. Schall, J. D., 1996, "Scour Monitoring and Instrumentation," Near Bridge Piers," USGS Water Resources Investigations
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revised October 1998. 9. Horne, W., 1993, "Scour Inspection Using Ground Penetrating
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ASCE Hydraulics Division Conference, San Antonio, TX. Flood Discharge in Unstable Stream Channels Using Ground-
3. Richardson, E. V. and Lagasse, P. F., 1999, "Stream Stability penetrating Radar," Geology, Vol. 25, No. 5, May.
and Scour at Highway Bridges," a compendium of papers from 11. Bath, W. R., 1999, "Remote Methods of Underwater Inspec-
ASCE Water Resource Engineering Conferences between tion of Bridge Structures," FHWA Report RD-99-100, Turner-
1991 and 1998.
Fairbank Highway Research Center, McLean, VA.
4. Mueller, D. S., and Landers, M. N., 1999. "Portable Instrumen-
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5. Schall, J. D., Richardson, J. R., and Price, G. R., 1994, "Low- 13. Richardson, E. V., and Davis, S. R., 2001, "Evaluating Scour
cost Bridge Scour Measurements," proceedings of the 1994 at Bridges," Hydraulic Engineering Circular No. 18, Federal
ASCE Hydraulic Measurements Conference. Highway Administration Publication FHWA NHI 01-001,
6. Mellor, C. A., and Fisher, P. F., 1999. "Side Scan Sonar Washington D.C.
Imagery and its Applicability to the Analysis of Scour at Tidal 14. Lagasse, P. F., Schall, J. D., and Richardson, E. V., 2001,
Bridges Examples from North Carolina," ASCE, Proceedings "Stream Stability at Highway Structures," Hydraulic Engi-
of 1999 International Water Resource Engineering Conference, neering Circular No. 20, Federal Highway Administration
August 812, 1999, Seattle, WA, Session BS-3. Publication FHWA NHI 01-002, Washington D.C.
7. Barksdale, G., 1994, "Bridge Scour During the 1993 Floods in 15. Lagasse, P. F., Zevenbergen, L. W., Schall, J. D., and Clopper,
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ASCE Hydraulic Engineering Conference. measures," Hydraulic Engineering Circular No. 23, Federal
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Techniques Used to Detect Existing and Infilled Scour Holes Washington D.C.
