In accordance with SO #3423 - The Gulf of America and SO #3424 - Mount McKinley and Landmarks Honoring the Alaskan People, new USGS data releases specific to those named places will utilize the new name Gulf of America and the restored name Mount McKinley. Per USGS practice, historical data will retain the name of the geographic features as they were known at the time the data were originally released.

Data Release

Radon-222 Times-Series Data Related to Submarine Groundwater Discharge Along the Western Margin of Indian River Lagoon, Florida

By Cheyenne S. Everhart, Christopher G. Smith, and Nicholas J. Zaremba

USGS, St. Petersburg, Florida

Summary

Indian River Lagoon (IRL) is one of the most biologically diverse estuarine systems in the continental United States, stretching 200 kilometers (km) along the Atlantic coast of central Florida. The width of the lagoon varies between 0.5–9.0 km and is characterized by shallow, brackish waters with significant human development along both shores.

Scientists from the U.S. Geological Survey (USGS) St. Petersburg Coastal and Marine Science Center, working in collaboration with the St. Johns River Water Management District, collected time-series of surface water radon-222 (radon-in-water) during two sampling periods in 2017 to investigate submarine groundwater discharge at Indian River Lagoon (IRL). Time-series radon data were collected at two sites, Eau Gallie North and Riverwalk Park, along the western shore of IRL. Eau Gallie North (EGN) is near the central section of IRL while Riverwalk Park (RWP) is approximately 20 km north of the Eau Gallie site. Stationary instrument moorings were deployed concurrently with continuous radon surface water mapping along shore-parallel transects conducted by the U.S. Geological Survey in May, September and November surveys outlined in previously published data releases (https://doi.org/10.5066/F7QF8S05 and https://doi.org/10.5066/F76Q1WG4). At each of the two study sites, a nearshore mooring (~10 meters (m) from shore) and an offshore mooring (~80–120 m from shore) were deployed to collect time-series of surface water radon-222 for six days. Surface water was continuously pumped into an air-water exchanger, where dissolved radon-222 was purged from the water into a gaseous phase inside the exchanger. Radon-222 in the exchanger was continuously pumped into and measured by a commercially available radon-in-air detector (RAD7, Durridge, Inc). Water temperatures in the exchanger, as well as water level and conductivity, were measured every 5 minutes. Radon-in-air measurements were corrected to radon-in-water activities using the temperature-salinity dependent air-water partitioning coefficient (Schubert and others, 2012). This data release contains the radon-222 time-series data, water temperature, conductivity, salinity and water level data collected during the mooring deployments of the May 2017, September 2017, and November 2017 surveys.

Data

File Name and Description	Metadata (XML format)	Metadata (text format)	Download File
Radon_Time-Series_May_2017.zip Radon-222 time-series, water temperature, conductivity, salinity and water level data (.csv, .docx)	Radon_Time-Series_metadata.xml	Radon_Time-Series_metadata.txt	Radon_Time-Series_May_2017.zip (506 KB)
Radon_Time-Series_SeptNov_2017.zip Radon-222 time-series, water temperature, conductivity, salinity and water level data (.csv, .docx)	Same as above	Same as above	Radon_Time-Series_SeptNov_2017.zip (178 KB)

Figure 1. Location maps showing (A) Eau Gallie North and (B) Riverwalk Park study sites located in the central section of the Indian River Lagoon on the Atlantic Coast of Florida. The May 2017 nearshore and offshore time-series mooring positions are shown in green. The September/November 2017 nearshore and offshore time-series mooring positions are shown in purple.

Suggested Citation

Everhart, C.S., Smith, C.G., and Zaremba, N.J., 2018, Radon-222 time-series data related to submarine groundwater discharge along the western margin of Indian River Lagoon, Florida: U.S. Geological Survey data release, https://doi.org/10.5066/P9N3QNFH.