Paper No. 1
Presentation Time: 8:05 AM

CONTINUOUS GROUNDWATER MONITORING COLLOCATED AT USGS STREAMGAGES (Invited Presentation)


CONSTANTZ, Jim, US Geological Survey, 345 Middlefield Rd, Menlo Park, CA 94025, EDDY-MILLER, Cheryl, U.S. Geological Survey, 2617 E. Lincolnway, Cheyenne, WY 82001, CALDWELL, Rod, U.S. Geological Survey, 3162 Bozeman Ave, Helena, MT 59001, BARLOW, Jeannie R.B., 308 South Airport Road, Jackson, MS 39208 and WHEELER, Jerrod, U.S. Geological Survey, 1225 Market St, Riverton, WY 82501, jconstan@usgs.gov

USGS Office of Groundwater funded a 2-year pilot study collocating groundwater wells for monitoring water level and temperature at several existing continuous streamgages in Montana and Wyoming, while U.S. Army Corps of Engineers funded enhancement to streamgages in Mississippi. To increase spatial relevance with in a given watershed, study sites were selected where near-stream groundwater was in connection with an appreciable aquifer, and where logistics and cost of well installations were considered representative. After each well installation and surveying, groundwater level and temperature were easily either radio-transmitted or hardwired to existing data acquisition system located in streamgaging shelter. Since USGS field personnel regularly visit streamgages during routine streamflow measurements and streamgage maintenance, the close proximity of observation wells resulted in minimum extra time to verify electronically transmitted measurements. After field protocol was tuned, stream and nearby groundwater information were concurrently acquired at streamgages and transmitted to satellite from seven pilot-study sites extending over nearly 2,000 miles (3,200 km) of the central US from October 2009 until October 2011, for evaluating the scientific and engineering add-on value of the enhanced streamgage design. Examination of the four-parameter transmission from the seven pilot study groundwater gaging stations reveals an internally consistent, dynamic data suite of continuous groundwater elevation and temperature in tandem with ongoing stream stage and temperature data. Qualitatively, the graphical information provides appreciation of seasonal trends in stream exchanges with shallow groundwater, as well as thermal issues of concern for topics ranging from ice hazards to suitability of fish refusia, while quantitatively this information provides a means for estimating flux exchanges through the streambed via heat-based inverse-type groundwater modeling. In June USGS Fact Sheet 2012-3054 was released online, summarizing the results of the pilot project.