Lake Tahoe Tributary Monitoring Active
The Lake Tahoe Interagency Monitoring Program (LTIMP) is an essential part of integrated science in the Lake Tahoe Basin and has provided long-term, consistent, reliable, and accessible tributary monitoring data for decades.
Deteriorating water quality and clarity in Lake Tahoe prompted the initiation of environmental programs in the Lake Tahoe basin. Water-quality data, especially nutrient and sediment data, for streams and ground-water aquifers that discharge to Lake Tahoe are needed to document the local and regional effectiveness of environmental programs and to assure compliance with California and Nevada water-quality management programs. The Lake Tahoe Interagency Monitoring Program (LTIMP) was started in 1979 to help understand why clarity was declining in Lake Tahoe. Currently, LTIMP stream monitoring is a partnership between the United States Geological Survey (USGS), the University of California-Davis (UC Davis), the Tahoe Regional Planning Agency (TRPA), the Lahontan Regional Water-Quality Control Board, and the California Tahoe Conservancy. The USGS continues to collect data necessary to assess the health of Lake Tahoe tributaries and ensure the data are publicly available.
Currently, water managers in Lake Tahoe are concerned about
- current tributary nutrient and suspended sediment concentrations and loads (status),
- assessing trends in nutrient and sediment concentrations and loads (trends), and
- what factors influence the observed status and trends.
Lake Tahoe Hydro Mapper
Since the late 1980’s, USGS has collected discharge, sediment, and water quality data at seven major drainages as part of LTIMP. Continuous, real-time measurements of turbidity recently were added to LTIMP sites. Similarly, the U.S. Department of Agriculture, National Resources Conservation Service (NRCS) has conducted continuous snowpack and soil monitoring in basin headwaters, with daily snow measurements dating back to the late 1970’s or early 1980’s at most sites. These data can be combined with remotely sensed datasets available from USGS and NASA and analyzed to determine the key factors controlling measured fine sediment and nutrient loads in LTIMP streams draining to Lake Tahoe.
Lake Tahoe Basin data can now be accessed through the Lake Tahoe Hydro Mapper. The Hydro Mapper is an interactive map viewer which allows users to see real-time information on stream flow discharge, stage, nutrient, turbidity, sediment loads, and storage data. Data from NRCS Snow Telemetry (SNOTEL) and National Weather Service Advanced Hydrologic Prediction Service are included with other local and regional hydrologic data, weather radar, watershed extents, and other ancillary geospatial data.
Available Data
USGS Nevada Water Science Center scientists are collecting streamflow and water-quality data at pertinent Lake Tahoe tributaries to estimate nutrient and sediment loads to the lake and assess trends in stream water quality. Within the Lake Tahoe watershed, these data are collected at the following sites:
USGS Site ID | USGS Site Name |
---|---|
10336610 | UPPER TRUCKEE RV AT SOUTH LAKE TAHOE, CA |
10336645 | GENERAL C NR MEEKS BAY CA |
10336660 | BLACKWOOD C NR TAHOE CITY CA |
10336676 | WARD C AT HWY 89 NR TAHOE PINES CA |
10336780 | TROUT CK NR TAHOE VALLEY, CA |
10336698 | THIRD CK NR CRYSTAL BAY, NV |
10336700 | INCLINE CK NR CRYSTAL BAY, NV |
Monitoring Expansion Following the Caldor Fire
In water year 2022, LTIMP was expanded to monitor impacts of the Caldor fire. Over 10,000 acres were burned in the Upper Truckee and Trout Creek Watersheds. In response, the LTIMP program was expanded to increase the number of storm samples, add analyses of dissolved organic carbon, ammonium, and isotopes of fire-retardant related compounds with funding provided by TRPA. The expanded monitoring will continue for three years with a planned report to summarize the study results.
Below are multimedia items associated with this project.
Below are publications associated with this project.
Estimated flood flows in the Lake Tahoe basin, California and Nevada
Streamflow and water-quality data for selected watersheds in the Lake Tahoe basin, California and Nevada, through September 1998
Land use change and effects on water quality and ecosystem health in the Lake Tahoe basin, Nevada and California
Lake Tahoe Interagency Monitoring Program; tributary sampling design, sites, and periods of record
Surface- and ground-water characteristics in the Upper Truckee River and Trout Creek watersheds, South Lake Tahoe, California and Nevada, July-December 1996
Selected hydrologic features of Lake Tahoe Basin and surrounding area, California and Nevada, 1998
Concentrations and distribution of manmade organic compounds in the Lake Tahoe Basin, Nevada and California, 1997-99
Precipitation-runoff simulations for the Lake Tahoe Basin, California and Nevada
Volatile Organic Compounds in Lake Tahoe, Nevada and California, July-September 1997
Flood of January 1997 in the Lake Tahoe Basin, California and Nevada
Hydrogeology of Lake Tahoe Basin, California and Nevada, and results of a ground-water quality monitoring network, water years 1990-92
Stream and Ground-Water Monitoring Program, Lake Tahoe Basin, Nevada and California
- Overview
The Lake Tahoe Interagency Monitoring Program (LTIMP) is an essential part of integrated science in the Lake Tahoe Basin and has provided long-term, consistent, reliable, and accessible tributary monitoring data for decades.
Deteriorating water quality and clarity in Lake Tahoe prompted the initiation of environmental programs in the Lake Tahoe basin. Water-quality data, especially nutrient and sediment data, for streams and ground-water aquifers that discharge to Lake Tahoe are needed to document the local and regional effectiveness of environmental programs and to assure compliance with California and Nevada water-quality management programs. The Lake Tahoe Interagency Monitoring Program (LTIMP) was started in 1979 to help understand why clarity was declining in Lake Tahoe. Currently, LTIMP stream monitoring is a partnership between the United States Geological Survey (USGS), the University of California-Davis (UC Davis), the Tahoe Regional Planning Agency (TRPA), the Lahontan Regional Water-Quality Control Board, and the California Tahoe Conservancy. The USGS continues to collect data necessary to assess the health of Lake Tahoe tributaries and ensure the data are publicly available.
Currently, water managers in Lake Tahoe are concerned about
- current tributary nutrient and suspended sediment concentrations and loads (status),
- assessing trends in nutrient and sediment concentrations and loads (trends), and
- what factors influence the observed status and trends.
Lake Tahoe Hydro Mapper
Since the late 1980’s, USGS has collected discharge, sediment, and water quality data at seven major drainages as part of LTIMP. Continuous, real-time measurements of turbidity recently were added to LTIMP sites. Similarly, the U.S. Department of Agriculture, National Resources Conservation Service (NRCS) has conducted continuous snowpack and soil monitoring in basin headwaters, with daily snow measurements dating back to the late 1970’s or early 1980’s at most sites. These data can be combined with remotely sensed datasets available from USGS and NASA and analyzed to determine the key factors controlling measured fine sediment and nutrient loads in LTIMP streams draining to Lake Tahoe.
Lake Tahoe Basin data can now be accessed through the Lake Tahoe Hydro Mapper. The Hydro Mapper is an interactive map viewer which allows users to see real-time information on stream flow discharge, stage, nutrient, turbidity, sediment loads, and storage data. Data from NRCS Snow Telemetry (SNOTEL) and National Weather Service Advanced Hydrologic Prediction Service are included with other local and regional hydrologic data, weather radar, watershed extents, and other ancillary geospatial data.
Available Data
USGS Nevada Water Science Center scientists are collecting streamflow and water-quality data at pertinent Lake Tahoe tributaries to estimate nutrient and sediment loads to the lake and assess trends in stream water quality. Within the Lake Tahoe watershed, these data are collected at the following sites:
USGS Site ID USGS Site Name 10336610 UPPER TRUCKEE RV AT SOUTH LAKE TAHOE, CA 10336645 GENERAL C NR MEEKS BAY CA 10336660 BLACKWOOD C NR TAHOE CITY CA 10336676 WARD C AT HWY 89 NR TAHOE PINES CA 10336780 TROUT CK NR TAHOE VALLEY, CA 10336698 THIRD CK NR CRYSTAL BAY, NV 10336700 INCLINE CK NR CRYSTAL BAY, NV Monitoring Expansion Following the Caldor Fire
In water year 2022, LTIMP was expanded to monitor impacts of the Caldor fire. Over 10,000 acres were burned in the Upper Truckee and Trout Creek Watersheds. In response, the LTIMP program was expanded to increase the number of storm samples, add analyses of dissolved organic carbon, ammonium, and isotopes of fire-retardant related compounds with funding provided by TRPA. The expanded monitoring will continue for three years with a planned report to summarize the study results.
- Multimedia
Below are multimedia items associated with this project.
- Publications
Below are publications associated with this project.
Filter Total Items: 34Estimated flood flows in the Lake Tahoe basin, California and Nevada
Lake Tahoe, the largest alpine lake in North America, covers about 192 square miles (mi2) of the 506-mi2 Lake Tahoe Basin, which straddles the border between California and Nevada (Fig. 1). In cooperation with the Nevada Department of Transportation (NDOT), the U.S. Geological Survey (USGS) estimates the flood frequencies of the streams that enter the lake. Information about potential flooding ofAuthorsE. James Crompton, Glen W. Hess, Rhea P. WilliamsStreamflow and water-quality data for selected watersheds in the Lake Tahoe basin, California and Nevada, through September 1998
The U.S. Geological Survey, in cooperation with the Tahoe Regional Planning Agency, and the University of California, Davis-Tahoe Research Group, has monitored tributaries in the Lake Tahoe Basin since 1988. This monitoring has characterized streamflow and has determined concentrations of nutrients and suspended sediment, which may have contributed to loss of clarity in Lake Tahoe. The Lake TahoeAuthorsT.G. Rowe, D.K. Saleh, S.A. Watkins, C.R. KratzerLand use change and effects on water quality and ecosystem health in the Lake Tahoe basin, Nevada and California
Human activity in the Lake Tahoe Basin has increased substantially in the past four decades, causing significant impacts on the quality and clarity of the lake's famous deep, clear water. Protection of Lake Tahoe and the surrounding environment has become an important activity in recent years. A variety of agencies, including the Tahoe Regional Planning Agency, Tahoe Research Group of the UniversiAuthorsWilliam Forney, Lora Richards, Kenneth D. Adams, Timothy B. Minor, Timothy G. Rowe, J. LaRue Smith, Christian G. RaumannLake Tahoe Interagency Monitoring Program; tributary sampling design, sites, and periods of record
No abstract available.AuthorsTimothy G. RoweSurface- and ground-water characteristics in the Upper Truckee River and Trout Creek watersheds, South Lake Tahoe, California and Nevada, July-December 1996
The Upper Truckee River and Trout Creek watersheds, South Lake Tahoe, California and Nevada, were studied from July to December 1996 to develop a better understanding of the relation between surface water and ground water. Base flows at 63 streamflow sites were measured in late September 1996 in the Upper Truckee River and Trout Creek watersheds. Most reaches of the main stem of the Upper TruckeeAuthorsT.G. Rowe, Kip K. AllanderSelected hydrologic features of Lake Tahoe Basin and surrounding area, California and Nevada, 1998
No abstract available.AuthorsJ. LaRue Smith, J. Christopher Stone, Timothy G. Rowe, James V. GardnerConcentrations and distribution of manmade organic compounds in the Lake Tahoe Basin, Nevada and California, 1997-99
The U.S. Geological Survey, in cooperation with the Tahoe Regional Planning Agency and the Lahontan Regional Water-Quality Control Board, sampled Lake Tahoe, major tributary streams to Lake Tahoe, and several other lakes in the Lake Tahoe Basin for manmade organic compounds during 1997-99.Gasoline components were found in all samples collected from Lake Tahoe during the summer boating season. MethAuthorsMichael S. Lico, Nyle PenningtonPrecipitation-runoff simulations for the Lake Tahoe Basin, California and Nevada
No abstract available.AuthorsAnne E. JetonVolatile Organic Compounds in Lake Tahoe, Nevada and California, July-September 1997
No abstract available.AuthorsCarol J. Boughton, Michael S. LicoFlood of January 1997 in the Lake Tahoe Basin, California and Nevada
No abstract available.AuthorsTimothy G. Rowe, Gerald L. Rockwell, Glen W. HessHydrogeology of Lake Tahoe Basin, California and Nevada, and results of a ground-water quality monitoring network, water years 1990-92
No abstract available.AuthorsC. E. ThodalStream and Ground-Water Monitoring Program, Lake Tahoe Basin, Nevada and California
No abstract available.AuthorsCarol J. Boughton, Timothy G. Rowe, Kip K. Allander, Armando R. Robledo - Partners