Bathymetry and Acoustic Backscatter data for Jenkinson Lake, California collected during three USGS field activities, 2022-604-FA, 2022-649-FA, and 2023-634-FA
August 22, 2024
Bathymetry and acoustic-backscatter data were collected during three separate SWATHPlus surveys of Jenkinson Lake, California to determine any impacts on the lake floor following the 2021 Caldor fire. Data were collected and processed by the U.S. Geological Survey (USGS), Pacific Coastal and Marine Science Center (PCMSC) with fieldwork activity numbers 2022-604-FA (January 2022), 2022-649-FA (August 2022), and 2023-634-FA (July 2023). This data release provides 1-m resolution bathymetry and backscatter data for the entire lake and 0.5-m resolution bathymetry data for the shallower upper basin for each of the three surveys. Data are provided as GeoTIFF images.
Associated data: Joshua B. Logan, and Amy E. East, 2024, Digital Surface Models and orthomosaic images from UAS surveys of Jenkinson Lake, El Dorado County, CA: U.S. Geological Survey, https://doi.org/10.5066/P14QWDYN.
Associated data: Joshua B. Logan, and Amy E. East, 2024, Digital Surface Models and orthomosaic images from UAS surveys of Jenkinson Lake, El Dorado County, CA: U.S. Geological Survey, https://doi.org/10.5066/P14QWDYN.
Citation Information
| Publication Year | 2024 |
|---|---|
| Title | Bathymetry and Acoustic Backscatter data for Jenkinson Lake, California collected during three USGS field activities, 2022-604-FA, 2022-649-FA, and 2023-634-FA |
| DOI | 10.5066/P13BSSDY |
| Authors | Peter Dartnell, Amy East, Joshua Logan, Gerald Hatcher, Jackson E Currie, Rachel K Marcuson, David B Powers, Peter Dal Ferro, Jennifer A McKee |
| Product Type | Data Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Pacific Coastal and Marine Science Center |
| Rights | This work is marked with CC0 1.0 Universal |
Related
Post-fire sediment yield from a western Sierra Nevada watershed burned by the 2021 Caldor Fire
Watershed sediment yield commonly increases after wildfire, often causing negative impacts to downstream infrastructure and water resources. Post-fire erosion is important to understand and quantify because it is increasingly placing water supplies, habitat, communities, and infrastructure at risk as fire regimes intensify in a warming climate. However, measurements of post-fire sediment...
Authors
Amy East, Joshua B. Logan, Peter Dartnell, Helen Willemien Dow, Donald N. Lindsay, David B. Cavagnaro
Peter Dartnell (Former Employee)
Physical Scientist
Physical Scientist
Amy East
Research Geologist
Research Geologist
Email
Phone
Joshua Logan
Physical Scientist
Physical Scientist
Email
Phone
Jackson Currie
Physical Scientist
Physical Scientist
Email
Phone
Related
Post-fire sediment yield from a western Sierra Nevada watershed burned by the 2021 Caldor Fire
Watershed sediment yield commonly increases after wildfire, often causing negative impacts to downstream infrastructure and water resources. Post-fire erosion is important to understand and quantify because it is increasingly placing water supplies, habitat, communities, and infrastructure at risk as fire regimes intensify in a warming climate. However, measurements of post-fire sediment...
Authors
Amy East, Joshua B. Logan, Peter Dartnell, Helen Willemien Dow, Donald N. Lindsay, David B. Cavagnaro
Peter Dartnell (Former Employee)
Physical Scientist
Physical Scientist
Amy East
Research Geologist
Research Geologist
Email
Phone
Joshua Logan
Physical Scientist
Physical Scientist
Email
Phone
Jackson Currie
Physical Scientist
Physical Scientist
Email
Phone