On depth and temperature biases in bathythermograph data: Development of a new correction scheme based on analysis of a global ocean database

Anderson, E.R., 1980. Expendable Bathythermograph (XBT) accuracy studies. Technical Report 550, Naval Ocean Systems Center, San Diego, California, 201 pp.

Arthur D. Little, Inc., 1965. Experimental evaluation of Expendable Bathythermographs. ASW Sonar Technology Report AD632008, Department of NAVY, Bureau of Ships, NObsr-93055, pp. 1–51.

Australian Oceanographic Data Center, 1999. Guide to MK12-XBT System (Including Launching, Returns and Faults), pp. 1–63

Bartz, R., 1992. Development of an Expendable Particle Sensor. Progress Report to Office of Naval Research, Sea Tech Inc., Contract No. N00014-90-C-0123, Item No. 0001AG, Corvallis, Oregon, pp. 1–5.

Biggs, 1992, Nutrients, plankton, and productivity in a warm-core ring in the Western Gulf of Mexico, Journal of Geophysical Research, 97, 2143, 10.1029/90JC02020

Boedecker, 2001

Boyer, 2006, World Ocean Database 2005

Budeus, 1993, On-cruise calibration of XBT probes, Deep-Sea Research, 40, 1359, 10.1016/0967-0637(93)90116-K

Casciano, 1967, Mechanical Bathythermograph, Geo-Marine Technology, 19

Conkright, 2002, Ocean Database 2001, vol. 1: Introduction

Dinkel, 1973, Reliability study of mechanical bathythermograph, Marine Technology Society Journal, 7, 41

Domingues, 2008, Improved estimates of upper-ocean warming and multi-decadal sea-level rise, Nature, 453, 1090, 10.1038/nature07080

Emery, W.J., Thompson, R.E., 2004. Data Analysis Methods in Physical Oceanography. Elsevier B.V., Amsterdam, 637 p

Emery, 1986, A low-cost digital XBT system and its application to the real-time computation of dynamic height, Journal of Atmospheric and Oceanic Technology, 3, 75, 10.1175/1520-0426(1986)003<0075:ALCDXS>2.0.CO;2

Fang, C.L., 2002. XBT/CTD comparisons. Project Report for OC3570, Naval Postgraduate School, Monterey, California (available at 〈http://www.weather.nps.navy.mil/sguest/OC3570/CDROM/summer2002/Fang〉)

Fargion, G.S., Davis, R., 1994. GulfCet cruise 07 hydrographic data. Technical Report 94-03-T of the Department of Marine Biology Texas A&M University, Galveston, pp. 1–128.

Fedorov, 1978, Systematic differences in isotherm depths derived from XBT and CTD data, POLYMODE News, 50, 1

Fenner, D.F., Cronin, W.J., 1978. Bearing stake exercise: sound speed and other environmental variability. Naval Ocean Research and Development Activity, NORDA Report 18, pp. 1–60.

Francis, S.A., Campbell, G.C., 1965. A low cost expendable bathythermograph. In: Proceedings of the Third National Marine Sciences Symposium held April 21–23, 1965, Miami, FL, pp. 85–89.

Franklin National Facility, 1991. Cruise Summary, Cruise FR 10/91. Miscellaneous Publications, CSIRO Division of Oceanography for Franklin National Facility.

Gould, W.J., 1991. RRS Charles Darwin Cruise 50, 29 June–22 July 1990. Oceanography of the Iceland Basin. The fate of Iceland and Scotland overflow water. IOS Deacon Laboratory, Cruise Report 221, pp. 1–51.

Gouretski, V.V., Koltermann, K.P., 2004. WOCE Global Hydrographic Climatology, Berichte des Bundesamt für Seeschiffahrt und Hydrographie, Nr. 35/2004, CDROMs.

Gouretski, 2007, How much is the Ocean really warming?, Geophysical Research Letters, 34, L01610, 10.1029/2006GL027834

Green, 1984, Bulk dynamics of the expendable bathythermograph XBT, Deep-Sea Research, 31, 415, 10.1016/0198-0149(84)90093-1

Hallock, 1992, The fall rate of the T-7 XBT, Journal of Atmospheric and Oceanic Technology, 9, 470, 10.1175/1520-0426(1992)009<0470:TFROTT>2.0.CO;2

Hanawa, K., Rual, P., Bailey, R., Sy, A., Szabados, M., 1994. Calculation of new depth equations for expendable bathythermographs using a temperature-error-free method (Application to Sippican/TSK T-7, T-6 and T-4 XBTs). UNESCO Technical Papers in Marine Sciences, vol. 67, pp. 1–51.

Hanawa, 1995, A new depth-time equation for Sippican or TSK T-7, T-6 and T-4 Expendable bathythermographs (XBT), Deep-Sea Research, 42, 1423, 10.1016/0967-0637(95)97154-Z

Hanawa, 1992, New Detection method for XBT depth error and relationship between the depth error and coefficients in the depth-time equation, Journal of Oceanography, 48, 221, 10.1007/BF02239006

Hanawa, 1987, Detection of systematic errors in XBT data and their correction, Journal of the Oceanographical Society of Japan, 43, 68, 10.1007/BF02110635

Hanawa, 1991, Re-examination of depth error in XBT data, Journal of Atmospheric and Oceanic Technology, 8, 422, 10.1175/1520-0426(1991)008<0422:ROTDEI>2.0.CO;2

Heinmiller, 1983, Systematic errors in expendable bathythermograph, Journal of Physical Oceanography, 12, 592

Intergovernmental Oceanographic Commission, 1975

Intergovernmental Oceanographic Commission, 1989. Integrated Global Ocean Services System IGOSS. Summary of Ship-Of-Opportunity Programmes and Technical Reports, Hamburg Germany, 16–20 October 1989, IOC/INF-804, pp. 1–183.

Intergovernmental Oceanographic Commission, 1992. Ad Hoc meeting of the IGOSS Task Team on quality control for automated systems, Marion, Massachusetts, USA, 3–6 June 1991, IOC/INF-888, pp. 1–179.

Iselin, 1936, A study of the circulation of the western North Atlantic, Papers in Physical Oceanography and Meteorology, 4

Ishii, 2009, Reevaluation of historical ocean heat content variations with time-varying XBT and MBT depth bias corrections, Journal of Oceanography, 65, 287, 10.1007/s10872-009-0027-7

Kezele, 1993, XBT test data comparison and analysis, Sea Technology, 34, 15

Kizu, 2002, Recorder-dependant temperature error of expendable bathythermograph, Journal of Oceanography, 58, 469, 10.1023/A:1021261214950

Kizu, 2002, Start-up transient of XBT measurement, Deep-Sea Research, 49, 935, 10.1016/S0967-0637(02)00003-1

Kizu, 2005, Inter-manufacturer difference and temperature dependency of the fall rate of T-5 expendable bathythermograph, Journal of Oceanography, 61, 905, 10.1007/s10872-006-0008-z

Kizu, 2008, Evaluation of the fall rates of the present and developmental XCTDs, Deep-Sea Research, Part I, 55, 571, 10.1016/j.dsr.2007.12.011

Landau, 1966

Levitus, 2000, Warming of the World Ocean, Science, 287, 2225, 10.1126/science.287.5461.2225

Levitus, 2005, Warming of the World Ocean, 1955–2003, Geophysical Research Letters, 32, L12602, 10.1029/2004GL021592

Levitus, 2009, Global ocean heat content 1955–2008 in light of recently revealed instrumentation problems, Geophysical Research Letters, 36, L07608, 10.1029/2008GL037155

Lyman, 2006, Recent cooling of the upper ocean, Geophysical Research Letters, 33, L18604, 10.1029/2006GL027033

Magruder, P.M., 1970. Some characteristics of temperature microstructure in the Ocean. Thesis, US Naval Postgraduate School, pp. 1–156.

Manzella, 2003, Improved near real time data management procedure for the Mediterranean ocean forecasting system—voluntary observing ship program, Annals of Geophysics, 21, 49, 10.5194/angeo-21-49-2003

Owens, N.J.P., 1993. BOFS 'Sterna 92' Cruise Report: RRS James Clark Ross 02 26/11/92–18/12/92, Plymouth Marine Laboratory, pp. 1–81.

Palmer, M.D., Antonov, J.I., Barker, P., Bindoff, N., Boyer, T., Carson, M., Domingues, C.M., Gille, S., Glecker, P., Good, S., Gouretski, V., Guinehut, S., Haines,K., Harrison, D.E., Ishii, M., Johnson, G.C., Levitus, S., Lozier, M.S., Lymann, J.M., Meijers, A., von Schuckmann, K., Smith, D., Wijffels, S., Willis, J., Future observations for monitoring global ocean heat content, in press.

Pelegri, 2005, Hydrographic cruises off northwest Africa: the Canary current and the Cape Ghir region, Journal of Marine Systems, 54, 39, 10.1016/j.jmarsys.2004.07.001

Pérez-Martell, E., Cianca, A., 1997. XBT Lines. In: Informes técnicos del Instituto Canario de Ciencias Marinas 7, pp. 7–8.

Plessey-Sippican Corp., 1975. Plessey-Sippican expendable bathythermograph system Plessey-Sippican MP0400, Issue 1.

Reseghetti, 2007, Factors affecting the quality of CTD data, XBT data—results of analysis on profiles from the Western Mediterranean Sea, Ocean Science, 3, 59, 10.5194/os-3-59-2007

Reiniger, 1968, A method of interpolation with application to oceanographic data, Deep-Sea Research, 9, 185

Roemmich, 1987, Digitization and calibration of the expendable bathythermograph, Deep-Sea Research, 32, 299, 10.1016/0198-0149(87)90088-4

Rual, 1994, New depth equation for commonly used expendable bathythermographs: Sippican and TSK T-4, T-6 and T-7 probes, International WOCE Newsletter, 17, 13

Rual, 1995, New depth equation for old Sparton XBT-7 expendable bathythermographs, International WOCE Newsletter, 19, 33

Rual, 1996, New depth equation for Sparton XBT-7 expendable bathythermographs, preliminary results, International WOCE Newsletter, 24, 39

Schiermeier, 2007, Artefacts in ocean data hide rising temperatures, Nature, 447, 8, 10.1038/447008a

Seeaver, 1982, Experimental and analytical error of the expendable bathythermograph, Journal of Physical Oceanography, 12, 592, 10.1175/1520-0485(1982)012<0592:EAAEOT>2.0.CO;2

Shenoi, 1976, New techniques in Bathythermograph systems, Defence Science Journal, 26, 97

Singer, 1990, On the error observed in electronically digitized T-7 XBT data, Journal of Atmospheric and Oceanic Technology, 7, 603, 10.1175/1520-0426(1990)007<0603:OTEOIE>2.0.CO;2

Stegen, 1975, A portable, digital recording, Expendable Bathythermograph (XBT) system, Deep-Sea Research, 22, 447

Stewart, R.L., 1963. Test and Evaluation of the Mechanical Bathythermograph. Unpublished manuscript. Marine Science Department, US Navy Oceanographic Office, Washington, DC.

Szabados, M.W., 1991. Evaluation of the Expendable Bathythermographic (XBT) Fall Rate Equation. Ocean Observations Division/Office of Ocean Services, National Ocean Service, NOAA, pp. 19–27.

Tabata, 1978, On the accuracy of sea-surface temperatures and salinities observed in the Northeast Pacific Ocean, Atmosphere–Ocean, 16, 237, 10.1080/07055900.1978.9649032

Thadathil, 1998, An evaluation of XBT depth equations for the Indian Ocean, Deep-Sea Research, 45, 819, 10.1016/S0967-0637(97)00100-3

Thadathil, 2002, XBT fall rate in waters of extreme temperature: a case study in the Antarctic Ocean, Journal of Atmospheric and Oceanic Technology, 19, 391, 10.1175/1520-0426-19.3.391

Turner, D., 1992. R/V Discovery Cruise Report SR01. November 11, 1992–December 17, 1992, pp. 1–93.

Warren, 2008, Nansen-bottle stations At the Woods Hole Oceanographic Institution, Deep-Sea Research, 55, 379, 10.1016/j.dsr.2007.10.003

Watts, 1990, XBT systematic depth error correction, The Synoptician, 1, 6

Wijffels, 2008, Changing Expendable Bathythermograph fall rates and their impact on estimates of thermosteric sea level rise, Journal of Climate, 21, 5657, 10.1175/2008JCLI2290.1

Willis, 2009, Situ data biases and recent ocean heat content variability, Journal of Atmospheric and Oceanic Technology, 26, 846, 10.1175/2008JTECHO608.1

Wisotzki, A., Fahrbach, E., 1991. XBT-Data measured from 1984 to 1991 in the Atlantic sector of the Southern Ocean by R.V. “Meteor” and R.V. “Polarstern”. Technical Report 18, Alfred Wegener Institut, Bremerhaven, pp. 1–86.

Woodruff, 2008, The evolving SST record from ICOADS, vol. 33, 65

Wright, 1989, Field evaluation of real-time XBT systems, vol. 5

Wüst, G.G., Bennecke, G., Meyer, H.H.F., 1932. Ozeanographische Methoden und Instrumente. Wissenschaftliche Ergebnisse der Deutschen Atlantischen Expedition auf dem Forschungs- und Vermessungsschiff „Meteor“ 1925–1927, Band IV, Erster Teil.

Yoshida, 1989, Correction of XBT depth error, Journal of the Tokyo University of Fisheries, 76, 55

Zanasca, P., 1996. On Board XBTs Calibration. NURC, Internal Notes, La Spezia, pp. 1–17.