Bathymetry Changes Caused by a Tropical Storm Chris Scheiner and Gary Pelton US Army Corps of Engineers.

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Presentation transcript:

Bathymetry Changes Caused by a Tropical Storm Chris Scheiner and Gary Pelton US Army Corps of Engineers

Outline Tropical Storm Irene River flooding Resulting lake bathymetry change

Upper Connecticut River Basin Dams on Connecticut River tributaries – Reduce Connecticut River flooding by limiting tributaries – Dams hold back water in the tributaries until the Connecticut River passes flood stage

Tropical Storm Irene August 28, 2011 Caused near-record pool heights – North Hartland Lake: 100 feet above normal Ottaquechee River – Quechee, VT – Reached flood stage – Overtopped a dike on Corps property

North Hartland Lake Project

Dewey’s Mills Pond

Bathymetry Sediment 1-2 ft. deep on dry land Potential underwater impact Survey performed in 2007 Comparison survey

Bathymetry Sounding Line Sounding Pole

Bathymetry

Local polynomial interpolation (RMSE: 1.38 ft.)

Bathymetry Local polynomial interpolation (RMSE: 1.12 ft.)

Bathymetry

Sediment Deposition 36 sites Change varied: – Min. 2.5 ft. deeper – Max. 6 ft. shallower Average change: – 1.4 ft. shallower

Hydrography Sediment deposition – Attributable to normal inflow over four years? – Only caused by flooding? – Knowledge of sediment loading required – Can be estimated from water clarity

Water Clarity Secchi disk depth – 6 1 week Clarity vs. Loading – Case studies – Estimated 70mg sediment/L water Secchi Disk

Sediment Deposition Comparison sites – Average depth change: 1.4 foot decrease Pond area – 52 acres Sediment addition – 74 acre-feet – 3.2 million ft 3

Sediment Deposition Sediment transported – Sediment: clay/sand mixture – Estimated average density 87 lb/ft 3 dry – ~140,000 tons sediment W. Lapham Use of temperature profiles beneath streams to determine rates of vertical ground-water flow and vertical hydraulic conductivity. US Geological Survey. 35p.

Sediment Deposition Estimated loading: 70mg sediment / L water 140,000 tons sediment 1.6 million acre-feet water -WY DEQ Ocean Lake TMDL for Sediment. Fremont County, WY. 46p. -D. Rasmussen South Branch Root river Watershed Clean Water Partnership Study. Chapter 6. Filmore County, MN. 19p. -B Spear, D Smith, B Largay, J Haskins Turbidity as a Surrogate Measure for Suspended Sediment Concentration in Elkhorn Slough, CA. The Watershed Institute. 26p.

Sediment Deposition Required flow – 1.6 million acre-feet water Three inlets – Combined flow ~1.2 cfs Time to transport estimated sediment – 1600 years

Sediment Deposition Required flow – 1.6 million acre-feet water Gauge station flow – 4400 cfs Time to transport estimated sediment – 5.5 months

Sediment Deposition Not enough time – 2 days, not 5 months Possible estimate errors – Deposited sediment overestimated – Water flow underestimated – Loading underestimated

Summary Normal flow conditions can’t be responsible Circumstantial evidence suggests flooding is major cause Further refinement of calculations may verify

Equipment Accuracy Garmin GPSmap 62st – 5+ satellites – Accuracy feet Sampling site spacing feet Average slope ~2% Accuracy acceptable Wind- larger impact GPSmap 62st

Conclusions Significant bathymetry changes possible during major storm events Recreational-grade GPS equipment suitable for small-scale bathymetric surveys

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