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  5. Towed and FloatingTransient Electromagnetic Surveys at Sites within the Mississippi Alluvial Plain: March and October, 2018
  6. Water-borne towed-transient electromagnetic survey data, on the Big Sunflower River near Indianola, Mississippi, October 2018

Water-borne towed-transient electromagnetic survey data, on the Big Sunflower River near Indianola, Mississippi, October 2018

Dates

Publication Date
Time Period
2018-10-21

Citation

Eric A. White, Carole D. Johnson, Ryan F. Adams, Shane J. Stocks, Wade H. Kress, James R. Rigby, and John W. Lane, Jr., 2022, Water-borne towed-transient electromagnetic survey data, on the Big Sunflower River near Indianola, Mississippi, October 2018: U.S. Geological Survey.

Summary

Water-borne towed transient electromagnetic method, commonly referred to as FloaTEM, was acquired along a single survey track on the Big Sunflower River during October 2018. During the survey, approximately 8.89 line-kilometers were collected in Sunflower County near Indianola, Mississippi. Data were collected by members of the U.S. Geological Survey, Hydrogeophysics Branch, and Lower-Mississippi Gulf Science Center and the Aarhus University Hydrogeophysics Group. FloaTEM data acquired along the approximately 8.9 line kilometers were collected to characterize the subsurface resistivity structure in support of a U.S. Geological Survey groundwater investigation of the Mississippi Alluvial Plain. FloaTEM data were collected using an Aarhus [...]

Contacts

Point of Contact :
Eric A. White, U.S. Geological Survey, Water Mission Area, Observed Systems Division, Technical Development and Transfer Team
Originator :
Eric A. White, Carole D. Johnson, Ryan F. Adams, Shane J. Stocks, Wade H. Kress, James R. Rigby, John W. Lane, Jr.
Metadata Contact :
Eric A White, U.S. Geological Survey, WATER
Publisher :
U.S. Geological Survey
Distributor :
Eric A White, U.S. Geological Survey, WATER

Attached Files

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Water-borne_towed-transient_electromagneitc_survey_data_Big Sunflower_River_near_Indianola_Mississippi_October_2018_v1.xml
Original FGDC Metadata
View 		119.75 KB application/fgdc+xml
20181018_Big_Sunflower_River_IndianolaMS_FloaTEM_NAD83_Albers_Conus_Rhoa_AVG_export.xyz 3.84 MB chemical/x-xyz
20181018_Big_Sunflower_River_IndianolaMS_FloaTEM_NAD83_Albers_Conus_Rhoa_RAW_export.xyz 20.79 MB chemical/x-xyz
20181018_Big_Sunflower_River_IndianolaMS_FloaTEM_WGS84_Lat-Long_Rhoa_AVG_export.xyz 3.87 MB chemical/x-xyz
20181018_Big_Sunflower_River_IndianolaMS_FloaTEM_WGS84_Lat-Long_Rhoa_RAW_export.xyz 20.93 MB chemical/x-xyz
20181018_Big_Sunflower_River_IndianolaMS_FloaTEM_WGS84_UTM_15N_Rhoa_AVG_export.xyz 3.87 MB chemical/x-xyz
20181018_Big_Sunflower_River_IndianolaMS_FloaTEM_WGS84_UTM_15N_Rhoa_RAW_export.xyz 20.92 MB chemical/x-xyz

Purpose

Surface geophysical methods can provide information for the characterization of the subsurface structure of the earth for aquifer investigations. Floating transient electromagnetic (FloaTEM) surveys provide resistivity soundings of the subsurface, which can be related to lithology and hydrogeology. In the floating TEM method, electrical current is cycled through a wire in a transmitter loop (Tx), which in turn produces a static magnetic field. When the current is abruptly terminated, an instantaneous current is induced in the earth, and it moves downward and outward as the induced current decays with time. The decay is controlled by the resistivity of the earth. A receiver (Rx) towed behind the Tx loop measures the secondary magnetic field as a function of time (dB/dt). Decaying voltage measurements at the receiver are converted to apparent resistivity, which can be inverted to recover the depth-dependent resistivity structure of the earth.

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  • USGS Lower Mississippi-Gulf Water Science Center

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