Datensätze / Temperature profiles from expendable bathythermograph (XBT) casts from the R/V THOMAS G. THOMPSON in the North Pacific Ocean in support of the Integrated Global Ocean Services System (IGOSS) project from 15 February 1975 to 22 March 1975 (NODC Accession 7


Temperature profiles from expendable bathythermograph (XBT) casts from the R/V THOMAS G. THOMPSON in the North Pacific Ocean in support of the Integrated Global Ocean Services System (IGOSS) project from 15 February 1975 to 22 March 1975 (NODC Accession 7

Published By National Oceanic and Atmospheric Administration, Department of Commerce

Issued mehr als 9 Jahre ago

US
beta

Summary

Art der Freigabe
ongoing release of a series of related datasets

Datenlizenz
Not Applicable

Inhaltslizenz
Creative Commons CCZero

Bestätigung
automatisiert zertifiziert

Description

XBT data were collected from the R/V THOMAS G. THOMPSON in support of the Integrated Global Ocean Services System (IGOSS) project. Data were collected by the US Navy; Ships Of Opportunity (USS) from 15 February 1975 to 22 March 1975. Data were processed by NODC to the NODC standard Universal Bathythermograph Output (UBT) format. Full format description is available from NODC at www.nodc.noaa.gov/General/NODC-Archive/bt.html. The UBT file format is used for temperature-depth profile data obtained using expendable bathythermograph (XBT) instruments. Standard XBTs can obtain profiles at depths of about 450 or 760 m. With special instruments, measurements can be obtained to 1830 m. Cruise information, position, date, and time are reported for each observation. The data record comprises pairs of temperature-depth values. Unlike the MBT data file, in which temperature values are recorded at uniform 5m intervals, the XBT Data File contains temperature values at non-uniform depths. These depths are at a minimum number of points ("inflection points") required to record the temperature curve to an acceptable degree of accuracy. On output, however, the user may request temperature values either at inflection points or interpolated to uniform depth increments.