New Methods to Measure Reservoir Storage Capacity and Sedimentation in Loch Lomond Reservoir

Science Center Objects

A new method of measuring the storage capacity and sedimentation of Loch Lomond Reservoir, Santa Cruz shows promise to help water managers more effectively assess changes in water-storage capacity in similar basins with steep, narrow drainages in mountainous terrain. The method employs a combination of bathymetric scanning using multibeam-sidescan sonar, and topographic surveying using laser scanning. The techniques employed in the study help improve understanding of the quantitative effects of increased sedimentation rates on reservoir storage capacity. Understanding the resulting reductions in storage capacity can also help water managers more effectively adjust storage dynamically to prevent flooding.

Several methods have been used to monitor the storage capacity of, and the rate of sedimentation in, Loch Lomond Reservoir over the years of its operation since 1961. Each of these methods requires different equipment for data collection and different techniques for data processing, and therefore has a different accuracy level. In an effort to accurately define the storage capacity of the reservoir, the USGS examined each of these methods to determine the most accurate and cost-effective approach for performing bathymetric and topographic surveys of the reservoir bed. The report discusses each of these methods and its limitations, and describes the application of a new state-of-the-art method for combined bathymetric and topographic surveying to establish a new baseline for calculations of reservoir stage capacity. This study has been a cooperative effort between the USGS California Water Science Center and the City of Santa Cruz









Data Available

topographic survey of Loch Lomond Reservoir

Full-basin topographic survey of Loch Lomond Reservoir using vessel-mounted topographic LIDAR and interferometric batheymetric sidescan sonar. 

Loch Lomond Merged Bare Earth Topographic/Bathymetric XYZ File Sources

Topo: Riegle full resolution bare earth between waterline up to level of spillway retaining wall (
Cleaning: All vegetation removed. All points below waterline and above top of spillway retaining wall removed.
Data file: (
Processor: Steven Quan
SBET Control Station: SFML NetR5 on dam bench mark

Bathymetry: Caris export of cleaned Swathplus data from 0.5m cube surface. 
Data file: LochLomond_50cm_xyz.txt
Processor: Kate Thomas
UltraEdit: converted to positive z values by removing "-" sign
Data file: LochLomond_50cm_xy+z.tx
Processor: Rikk Kvitek
SBET Control Station: SFML NetR5 on dam bench mark

Merged topo & bathymetry
Processor: Rikk Kvitek
PFM: Combined 0.5 m Bathy & full resolution bare earth Topo files into 1m cube IHO Special Order
Data file: LL_TopoBthy50cmBE_UTM_HAE1m.pfm
Fledermaus: export 1m xyz topo/bathy bare earth
Data file:
Corpscon: converted topo/bathy NAD83 UTM HAE xyz to:

Data files: 1m resolution


Date files: 0.5 m resolution


Control station bench mark solution

NGS OPUS solution for Static GPS data collect at dam BM March 29, 2009.

Geographic data

2009 thalweg location

Sediment data

Link to data available on the National Water Inventory System (NWIS) database

Photo archive