CODE COUNTS FOR INPUT FILE 'BOM2009.MA'
CODE TABLES FROM DATABASE AS OF: Aug 03 2010 14:34:35 (20100803143435)
VALUES FOUND IN CODE TABLES:

COUNT      FIELD          CODE TABLE   VALUE        DEFINITION
--------   ------------   ----------   ----------   ----------
    4814  'Act_Code    ' 'ACT       ' 'CR        '  Create record
   10755  'Act_Code    ' 'ACT       ' 'CS        '  Surface Spike, caused by a minor start-up transient problem that leads to inaccurate temperature measurements in the top few meters of a temperature profile. CSIRO Code (CSCB)
       1  'Act_Code    ' 'ACT       ' 'CT        '  Constant temperature, hit bottom.The temperature profile exhibits constant temperature which is considered to be erroneous when compared to neighbouring profiles and/or climatology and/or known characteristics of the region. The constant temperatures could occur over all of the profile or part of it. (The reasons could be sensor failure,depth calculation error, nose falling off the XBT, XBT sitting on the bottom,etc.)
      90  'Act_Code    ' 'ACT       ' 'FS        '  Fine structure error: leakage, PET fault, cusping, sticking bit. The temperature profile exhibits erroneous fine structure when compared to neighbouring profiles and/or climatology and/or known characteristics of the region. (The reasons could be signal leakage, XBT recording system failures (sticking bit, cusping, PET Fault, etc), complete instrument failure, etc)
     211  'Act_Code    ' 'ACT       ' 'HB        '  Hit Bottom. When the probe hits the bottom, the temperature trace usually goes isothermal. Contact with the bottom is often indicated by a small horizontal spike or undulation. The spike can be due to overheating of the thermistors or physical contact with the bottom. Data recorded beyond the hit bottom event is rejected as erroneous. CSIRO Code (CSCB)
     196  'Act_Code    ' 'ACT       ' 'HF        '  High Frequency Interference. As for spikes, high frequency interference is caused by electrical, or electromagnetic, interference, but results in continual spiking over a wide range of depths. Interference may sometimes appear severe but the temperature records underneath can often be successfully interpolated by filtering. CSIRO Code (CSCB)
     236  'Act_Code    ' 'ACT       ' 'IP        '  This history group operates on the complete input record
     282  'Act_Code    ' 'ACT       ' 'IV        '  Inversion. Confirmed increase in temperature with depth observed at some point in the profile. Confirmation is established through the observation of the same feature in a neighbouring (usually a repeat) drop. These features usually occur is specific regions. CSIRO Code (CSCB)
     186  'Act_Code    ' 'ACT       ' 'LE        '  Leakage. Appears as apparent structure of "jitter" over a range of depths (or the entire profile) that is considered to be unusual as there is little evidence of similar structure in the region, and or there is no confirmation from a neighbouring profile. This flag can be used if there is some element of doubt whether the XBT system is working correctly, i.e., if there is a suspected signal leakage problem with the recording equipment. Leakage can also be a result of insulation penetration which has not healed leading to continuous leakage, or damage to the launcher cable or recorder. CSIRO Code (CSCB)
     576  'Act_Code    ' 'ACT       ' 'NG        '  No good trace
     106  'Act_Code    ' 'ACT       ' 'NU        '  Inversion in Mixed Layer Confirmed. A nub is a special type of inversion in which an increase of temperature with depth is observed within or at the base of the mixed layer. Confirmation is established through the observation of the same feature in a neighbouring (usually a repeat) drop. CSIRO Code (CSCB)
       6  'Act_Code    ' 'ACT       ' 'PE        '  Position error. Profile position has been erroneously encoded. Corrected if possible.
     634  'Act_Code    ' 'ACT       ' 'PI        '  Inversion Probable. A probable inversion is defined as an increase in temperature with depth observed at some point in the profile, but which is not fully confirmed by a repeat or neighbouring drop. The feature is considered to be probably real as inversions are known to occur in the region or similar features are found in neighbouring drops. CSIRO Code (CSCB)
    2406  'Act_Code    ' 'ACT       ' 'QC        '  Quality Control
     560  'Act_Code    ' 'ACT       ' 'RE        '  Repeat Drop. Is defined as an XBT deployed within 15 minutes of another one due to suspected previous probe malfunctions, desire to confirm a suspected real feature, or high density sampling. CSIRO Code (CSCB)
     237  'Act_Code    ' 'ACT       ' 'SA        '  Surface Anomaly. The surface anomaly is a special case of fine structure that is limited to the top 20 metres of the water column. A warm surface layer can sometimes form from solar heating and light winds (often referred to as the afternoon effect). The afternoon effect can warm surface layers of between 2-10 m thick by up to 1DegC. Cooler freshwater layers due to precipitation or riveroutflow can also cause a surface anomaly to develop. A surface anomaly is generally larger than 0.2DegC. CSIRO Code (CSCB)
     121  'Act_Code    ' 'ACT       ' 'SP        '  Spike. Isolated or intermittent spikes can be the result of external electrical or electromagnetic interference that influences the XBT system"s output.  CSIRO Code (CSCB)
     963  'Act_Code    ' 'ACT       ' 'TO        '  Temperature/depth offset. The temperature profile exhibits erroneous temperature/depth offsets compared to neighbouring profiles and/or climatology and/or known characteristics of the region. The offsets can occur.at depth, or over sections of the profile, or over the complete profile (The reason could be instrument drift/sensor failure, encoding error, XBT fall rate error, XBT start-of-descent timing error, etc)
    1650  'Act_Code    ' 'ACT       ' 'WB        '  Wire Break. The XBT wire breaks, a short circuit causes the temperature readings to go off scale either to the low (wire breaks from the spool in the launcher) or to the high (wire breaks from the descending probe"s spool) temperature end of the scale. The main cause of wire breaks can be fouling or if the terminal depth of the probe is reached. Often a wire stretch will precede a wire break. CSIRO Code (CSCB)
      43  'Act_Code    ' 'ACT       ' 'WS        '  Wire Stretch. A true wire stretch causes an abnormal increase of temperature with depth (usually > 0.2DegC observed over a large range of depths). A wire stretch because of an increase in tension in the wire (due to poor unreeling) can result in a similar bulge to the high temperature side of an XBT profile. These malfunctions can look very similar to temperature inversions, and must be confirmed by a check between neighbouring profiles (usually repeat drops), or have been observed in an area where inversions are known to occur, and flagged as real. Unconfirmed features are flagged according to the degree of confidence. If the anomaly is suspected to be erroneous it should be flagged as a wire stretch. See the CSIRO Quality Control Cookbook for further clarification. CSIRO Code (CSCB)
       2  'Act_Parm    ' 'PC_HIST   ' 'LALO      '  QPos flag has been changed
       4  'Act_Parm    ' 'PC_HIST   ' 'LATI      '  Latitude as decimal degrees
    4814  'Act_Parm    ' 'PC_HIST   ' 'RCRD      '  Indicates a record has been created or actions are taken against the entire record
   19253  'Act_Parm    ' 'PC_PROF   ' 'TEMP      '  Temperature (degrees C)
    2407  'D_P_Code    ' 'DP        ' 'D         '  Independent parameter is Depth
    2407  'Data_Avail  ' 'AVAIL     ' 'A         '  Available
    2407  'Data_Type   ' 'TYPE      ' 'XB        '  XBT
 3669555  'Depres_Q    ' 'QUAL      ' '0         '  No quality control (QC) has been performed on this element.
    2407  'Digit_Code  ' 'DIGMC     ' 'D         '  Digital data logger and unreduced
    2407  'Dup_flag    ' 'DUP       ' 'N         '  Parameter is not a duplicate
   19259  'Ident_Code  ' 'IDENT     ' 'CS        '  CSIRO in Australia
    4814  'Ident_Code  ' 'IDENT     ' 'NO        '  NODC (Washington)
   19259  'PRC_Code    ' 'PRC       ' 'CSCB      '  CSIRO QC Cook Book Software
    2407  'PRC_Code    ' 'PRC       ' 'cv01      '  NODC convert CSIRO MEDSASCII to GTSPP MEDSASCII format
    2407  'PRC_Code    ' 'PRC       ' 'tstm      '  NODC format test of a MEDS-ASCII data file
 1446228  'Prof_Q_Parm ' 'QUAL      ' '1         '  QC has been performed; element appears to be correct.
 1018700  'Prof_Q_Parm ' 'QUAL      ' '2         '  QC has been performed; element appears to be inconsistent with other elements.
   28059  'Prof_Q_Parm ' 'QUAL      ' '3         '  QC has been performed; element appears to be doubtful.
 1165712  'Prof_Q_Parm ' 'QUAL      ' '4         '  QC has been performed; element appears to be erroneous.
   10856  'Prof_Q_Parm ' 'QUAL      ' '5         '  The value has been changed as a result of QC.
    2407  'Prof_Type   ' 'PC_PROF   ' 'TEMP      '  Temperature (degrees C)
    2407  'Profile_Type' 'PC_PROF   ' 'TEMP      '  Temperature (degrees C)
    2407  'Q_Date_Time ' 'QUAL      ' '1         '  QC has been performed; element appears to be correct.
    2403  'Q_Pos       ' 'QUAL      ' '1         '  QC has been performed; element appears to be correct.
       4  'Q_Pos       ' 'QUAL      ' '5         '  The value has been changed as a result of QC.
    2407  'Q_Record    ' 'QUAL      ' '1         '  QC has been performed; element appears to be correct.
    2407  'SRFC_Code   ' 'PC_CODE   ' 'ACCS      '  Accession number
    2407  'SRFC_Code   ' 'PC_CODE   ' 'CRC$      '  32 bit circular redundancy code (Special IGOSS Indicator)
    2407  'SRFC_Code   ' 'PC_CODE   ' 'CSID      '  CSIRO unique ID
    2407  'SRFC_Code   ' 'PC_CODE   ' 'GCLL      '  Call Sign
    2407  'SRFC_Code   ' 'PC_CODE   ' 'GOCR      '  Originators Cruise Number
    2407  'SRFC_Code   ' 'PC_CODE   ' 'IOTA      '  CSIRO Indian Ocean Temperature Identifier containing both the data source (CSIRO, BOM, LEVITUS, WOCE, NODC) as a word and the reliability of the data QC in the SRFC_Q_PARM field (IF CSIRO did QC by hand, then 1 or 2, and IF data arrived from WOD, then 7 is used.
    2407  'SRFC_Code   ' 'PC_CODE   ' 'OFFS      '  The OFFSET as measured and reported by the Data Acquisition Software - SIPPICAN MK9 or 12 and/or the CSIRO DEVIL System
    2407  'SRFC_Code   ' 'PC_CODE   ' 'PEQ$      '  XBT fall rate equation (WMO code 1770)
    2407  'SRFC_Code   ' 'PC_CODE   ' 'PLAT      '  Platform
    2407  'SRFC_Code   ' 'PC_CODE   ' 'RCT$      '  XBT recorder type (WMO code 4770)
    2407  'SRFC_Code   ' 'PC_CODE   ' 'SCAL      '  The SCALING Factor reported by the Data Acquisition Systems - Also used to calibrate the temperature data from the XBT
    2407  'SRFC_Code   ' 'PC_CODE   ' 'SER#      '  The SERIAL Number of the Probe
    2407  'SRFC_Code   ' 'PC_CODE   ' 'SHP#      '  Ship name
    2407  'SRFC_Code   ' 'PC_CODE   ' 'TWI#      '  SOOP Line Number
       1  'SRFC_Parm   ' 'SC_PEQ$   ' '011       '  Sippican T-5, Coefficient a 6.828, Coefficient b -1.82
    2406  'SRFC_Parm   ' 'SC_PEQ$   ' '052       '  Sippican Deep Blue, Coefficient a 6.691, Coefficient b -2.25
    2407  'SRFC_Parm   ' 'SC_RCT$   ' '71        '  CSIRO Devil-2 XBT acquisition system
   31291  'SRFC_Q_Parm ' 'QUAL      ' '0         '  No quality control (QC) has been performed on this element.
    2407  'SRFC_Q_Parm ' 'QUAL      ' '1         '  QC has been performed; element appears to be correct.
    2407  'Standard    ' 'STD_TEMP  ' '2         '  In situ sensor, precision to 0.1 degrees C
    2407  'Stream_Ident' 'IDENT     ' 'CS        '  CSIRO in Australia
    2407  'Stream_Ident' 'TYPE      ' 'XB        '  XBT
    2407  'Uflag       ' 'UFLAG     ' 'U         '  Add this station to file during update
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