Heay Data Description Summary - Icefloe.neticefloe.net/files/HLY1001_Data_Synopsis.pdf · Joaquin...

Heay Data Description Summary

Dale Chayes, Lamont-Doherty Earth Observatory ofColumbia University <[email protected]>

Steve Roberts, National Center forAtmospheric Research <[email protected]>

Tom Bolmer, Woods Hole Oceanogralphic Institution <[email protected]>

Heay Data Description Summaryby Dale Chayes, Steve Roberts, and Tom Bolmer

$Date$ $Rev$

Publication date $Date: 2010-07-02 05:59:23 -0800 (Fri, 02 Jul 2010) $

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Table of Contents1. HLY1001 Overview ........................................................................................................ 1

1.1. Introduction ........................................................................................................ 11.2. Cruise Track ........................................................................................................ 21.3. Science Personnel ................................................................................................. 3

2. Distribution Contents ....................................................................................................... 62.1. Introduction to Data .............................................................................................. 62.2. SCS Data Overview .............................................................................................. 62.3. LDS Data Overview: ............................................................................................ 72.4. Directories: .......................................................................................................... 7

2.4.1. 1_Minute_Averaged_Data: ........................................................................... 82.4.2. data ......................................................................................................... 8

3. Merged Data ................................................................................................................ 153.1. LDEO Averaged One Minute Data File .................................................................. 15

A. Appendix- Elog ............................................................................................................ 19A.1. Acquisition Problems and Events (Elog) ................................................................. 19A.2. Comments about the data .................................................................................... 29

A.2.1. General Comments about Healy data ........................................................... 29A.2.2. Specific Comments about this cruise ........................................................... 30

B. Underway data plots ..................................................................................................... 35B.1. Weather Summary for the Cruise .......................................................................... 35B.2. TSG Summary for the Cruise ............................................................................... 35

C. Sensors used on the Cruise ............................................................................................. 37C.1. Sensors Used ..................................................................................................... 37

C.1.1. Shipboard Sensors .................................................................................... 37C.1.2. CTD Sensors from HLY0902 ..................................................................... 62C.1.3. Software Versions of some data acquisition and control software ....................... 63

D. Calibrations ................................................................................................................. 64D.1. Calibration Sheets .............................................................................................. 64

D.1.1. Meteorology & Radiometer Sensors ........................................................... 64D.1.2. Underway Ocean Flow through Sensors ....................................................... 70D.1.3. Gravimeters ........................................................................................... 76

E. Instrument Locations on the Healy ................................................................................... 78E.1. Instrument Locations on the Healy ........................................................................ 78

E.1.1. Layout plot of instrument locations ............................................................. 78E.1.2. Table of Survey measurements ................................................................... 80

F. Revision History .......................................................................................................... 84F.1. Revision History ............................................................................................... 84

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List of Figures1.1. hly1001_track_large.png ................................................................................................ 2

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List of Tables1.1. HLY1001 Science Groups .............................................................................................. 11.2. Science Personnel ......................................................................................................... 32.1. SCS Data Overview ...................................................................................................... 62.2. Directories: .................................................................................................................. 72.3. 1_Minute_Averaged_Data: ............................................................................................. 82.4. SCS_Data: .................................................................................................................. 82.5. Extra files in the directory SCS_Data: ............................................................................ 112.6. LDS_Data: ................................................................................................................ 112.7. Raw: ........................................................................................................................ 122.8. Images: .................................................................................................................... 132.9. Meta_Data: ................................................................................................................ 132.10. Plots: ...................................................................................................................... 143.1. LDEO Averaged One Minute Data File .......................................................................... 15A.1. Elog Summary .......................................................................................................... 19C.1. Meteorology & Radiometers ........................................................................................ 60C.2. Underway Ocean Sensors ............................................................................................ 61C.3. Sonars ...................................................................................................................... 61C.4. Naigation .................................................................................................................. 62C.5. CTD Sensors ............................................................................................................. 62C.6. Software Versions of some Recording Programs .............................................................. 63E.1. Table of Survey measurements ..................................................................................... 80F.1. Revision History of the Healy Data Description Summary Document ................................... 84

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Chapter 1. HLY1001 Overview

1.1. IntroductionCruise HLY1001 of the US Coast Guard Research Icebreaker Healy for the NASA-funded ISCAPEprogram took place from May 15 to June 21, 2010 in the Bering and Chukchi Seas, with a final transitacross the north eastern Pacific Ocean. The cruise started in Dutch Harbor and ended in Seward, Alaska.

Kevin Arrigo of Stanford University was the chief scientist and Don Perovich of the US Army ColdRegions Research Lab was the co-chief scientist.

During HLY1001 the ICESCAPE 2010 program sampled 140 stations, including 135 hydrographicstations and 10 sea ice stations (5 were combined hydrographic/sea ice stations). Our stations extendedfrom the coast of Alaska westward to the US-Russian border – and from the Bering Strait northward toBarrow, Alaska. We made our full suite of optical measurements at more than 20 stations – often underideal conditions of fully clear or fully diffuse skies. We sampled stations along 13 different hydrographicsections through the Chukchi Sea.

The cruise covered a number of relate science areas as outlined in the table below.

Table 1.1. HLY1001 Science Groups

Group Leader

Phytoplankton physiology and primary productivity Kevin Arrigo

Sea ice distribution, optical properties, and physicalstructure

Don Perovich

Dissolved organic matter characterization andbacterial production

MALINA (Eva Ortega, Atsushi Matsuoka, CedrcicFichot)

Inorganic carbon chemistry Nick Bates (Kristen Shake, Marlene Jeffries,Rebecca Garley, Mike Kong)

Particle export Claudia Benitez-Nelson (Sharmila Pal)

Ice optical properties and dissolved organic mattercharacterization

Karen Frey

Ocean optical properties Stan Hooker

Particle size distribution, and phytoplanktontaxonomic composition

Sam Laney

Ocean optical properties, phytoplanktonphysiology, and primary productivity

Greg Mitchell

Physical oceanography Bob Pickart

Particle size distribution and optical properties Rick Reynolds

Nutrients and hydrography Jim Swift

Onboard technical support for science on this leg was provided by Dale Chayes (LDEO/ColumbiaUniversity), Steve Roberts (UCAR), Scott Hiller (SIO/UCSD), and David Hassilev (USCG - ESUcontractor). Tom Bolmer (WHOI) and Bob Arko (LDEO/Columbia University) provided remote supportfrom shore.

HLY1001 Overview

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The project was funded by the National Aeronautics Space and Administration (NASA) as part of theirICESCAPE Program.

1.2. Cruise TrackThe following track charts show the station locations and the full track for the cruise, including the transits.

Figure 1.1. hly1001_track_large.png

HLY1001 Overview

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1.3. Science Personnel

Table 1.2. Science Personnel

Last Name First Name Institution Role/Position Phone Email

Kevin Arrigo StanfordUniversity

Chief Scientist 650-723-3599 [email protected]

Frank Bahr WHOI Technician 508-289-2910 [email protected]

Susan Becker SIO Technician 858-534-4983 [email protected]

Zach Brown StanfordUniversity

Student 650-736-0688 [email protected]

Joaquin Chaves NASA Scientist 410-294-0762 [email protected]

Dale Chayes LDEO/ColumbiaUniversity

Science SystemEngineer

845-365-8434 [email protected]

HLY1001 Overview

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Ruzica Dadic University ofWashington

Post-doc 206-543-7180 [email protected]

Cedric Fichot U of SouthCarolina

GraduateStudent

(706)-254-1629 [email protected]

Karen Frey ClarkUniversity

Scientist 508-793-7209 [email protected]

Rebecca Garley BermudaInstitute ofOcean Sciences


Kathryn Hansen NASA Jounalist 301-352-4638 [email protected]

David Hassilev ESU ESU NetworkSystemsTechnican


Scott Hiller SIO Lead CTDTechnician


Stanford Hooker NASA Scientist 301-286-9503 [email protected]

Benny Hopson BASC IndigenousObserver

TBD TBD

Marlene Jeffries BermudaInstitute ofOcean Sciences


Mike Kong UAF Scientist (907) 474-5926 [email protected]

Haley Kingsland StanfordUniversity


Sam Laney WHOI Scientist 508 289 3647 [email protected]

Bonnie Light University ofWashington

Scientist - SeaIce Team


Kate Lowry StanfordUniversity


Atsushi Matsuoka Laboratoired'Oceanographiede Villefranche(UPMC)

Scientist +33(0)493763911

[email protected]

Melissa Miller SIO Technician 858-534-4983 [email protected]

Matt Mills StanfordUniversity

Res. Assoc. 650-736-0688 [email protected]

Greg Mitchell SIO Scientist 858-534-2687 [email protected]

Parisa Nahavandi SIO Technician 858-534-8262 [email protected]

Aimee Neeley NASA Scientist 410-294-0243 [email protected]

Eva Ortega-Retuerta Laboratoired'OceanographieMicrobienne de

Postdoc -MicrobialEcology

+33 430 19 2403

[email protected]

HLY1001 Overview

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Banyuls -France

Sharmila Pal University ofSouth Carolina

GraduateStudent


Molly Palmer StanfordUniversity


Emily Peacock WHOI Technician 508 289 3568 [email protected]

Don Perovich CRREL co-ChiefScientist - SeaIce Studies


Bob Pickart WHOI Scientist 508-289-2858 [email protected]

Chris Polashenski DartmouthCollege -CRREL

Student - SeaIce OpticalProperties


Alejandro Quintero SIO Technicain 858-534-2079 [email protected]

Rick Reynolds SIO - UCSD Scientist 858-822-4407 [email protected]

Steve Roberts NCAR SoftwareEngineer


Brian Schieber SIO Researcher 858-534-8947 [email protected]

Brian Seegers SIO Researcher 858-534-8947 [email protected]

Kristen Shake UAF Student (907) 474-5243 [email protected]

Dariusz Stramski SIO - UCSD Scientist 858-534-3353 [email protected]

Jim Swift SIO Scientist - CTD/HydrographyTeam Leader


Kuba Tatarkiewicz SIO - UCSD Scientist 858-733-1138 [email protected]

Luke Trusel ClarkUniversity


Gert vanDijken StanfordUniversity

Technician 650-736-1231 [email protected]

Shohei Watanabe UniversiteLaval

Student 418-656-2131x8153

[email protected]

Elliot Weiss SIO UndergraduateStudent


Christie Wood ClarkUniversity


Karen Young NASA Journalist 203-673-3119 [email protected]

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Chapter 2. Distribution Contents2.1. Introduction to Data

The Healy data acquisition systems continuously log data from the instruments used during the cruise.This document describes:

The structure and organization of the data on the distribution media.

The format and contents of the data strings.

Formulas for calculating scaled, calibrated values from logged data.

Information about the specific instruments in use during the cruise.

A log of instrumentation issues, adjustments , acquisition problems, and events during the cruise that mayaffect the data.

Calibration data for the instruments in use during the cruise.

IMPORTANT: Read the section: Acquisition Problems and Events for important information that mayaffect the processing of this data.

There are two logging system on the Healy. The US Coast Guard Seattle Electronic Support Unit (ESU)runs the NOAA/SCS logging system and the LDEO support group runs the Lamont Data System (LDS)logging system. Although this provides some redundancy in logging, LDS is is required to provideprecision time-stamping, real-time reformatting, and logging of data that SCS was not designed to supportincluding the sonar systems, web cameras, and gravity meters.

The NOAA-developed Scientific Computer System (SCS) (version 4.2) is a data acquisition, anddisplay system designed for Oceanographic, Atmospheric, and Fisheries research applications and wasoriginally intended to log data from supporting sensors (not the mapping sonar's) on survey launches. Itacquires sensor data from shipboard oceanographic, atmospheric, and fisheries sensors and provides thisinformation to scientists in real time via text and graphic displays, while simultaneously logging the data todisk for later analysis. SCS also performs quality checks by monitoring I/O, providing delta/range checksand plotting data after acquisition.

The LDEO Data System (LDS) is derived the logging code originally developed on the R/V Conrad in1986 and has evolved through use on the Conrad, Ewing, Nathaniel B. Plamer, R/V Gould, six SCICEXsubmarine cruises and a number of smaller, short field programs since 1987. LDS is the result of significantrestructuring of the code base in 2004 and has been data acquisition system on the R/V Langseth sinceshe went into service.

2.2. SCS Data OverviewSCS receives all of its data through asynchronous serial (RS-232) connections. In SCS a time tag is addedat the beginning of each line of data in the form,

mm/dd/yyyy,hh:mm:ss.sss,[data stream from instrument] where:

Table 2.1. SCS Data Overview

Format Value used

mm 2 digit month of the year

Distribution Contents

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Format Value used

dd 2 digit ay of the year

yyyy 4 digit year

hh 2 digit hour of the day

mm 2 digit minute

ss.sss seconds

An example string from the Seabeam Centerbeam file is:

04/13/2007,06:49:20.920,$SBCTR,2007,4,13,06:49:09.437,57.158792,-165.664322 ,69.15,60*00

All times are reported in UTC. Each file type has it's own NEMA string name ($SBCTR as an example).

The delimiters that separate fields in the raw data files are commas. Care should be taken when reprocessingthe data that the field's separations are clearly understood.

By design, SCS separates different data records from a single serial data stream into different directories.For instance, a GPS receiver may transmit $GPGGA, $GPHDT, and $GPGLL records. In the SCS dataarchitecture, each of these messages will be logged in a different directory.

2.3. LDS Data Overview:LDS receives most of its data through serial ports like SCS and like SCS, prepends a time stamp. UnlikeSCS, LDS uses remote nodes to acquire and timestamp data and provide it to the central LDS logger. Datafrom the two ship's gyrocompasses is handled by a remote node installed on the bridge and data formthe two gravity meters is handled by a node in IC/Gyro. Remote nodes are substantively different thanterminal servers in that they timestamp the data locally which eliminates the network latency associatedwith acquiring data through a terminal server and then providing the timestamp later.

An example LDS data record is shown below. The first field is the instrument identifier, the second isa precioisn time stamp and the remainder is the raw data from the device, in this case, an LDEO iLabBGM-3 gravity meter interface:

bgm222 2008:264:00:00:26.9340 04:025508 00

2.4. Directories:Table 2.2. Directories:

Directory Description

1_Minute_Averaged_Data: This directory contains one minute averages ofmany of the the under way data types.

data: This directory contains the data directories below.

SCS_Data: This directory contains serial data collected bythe SCS version 4.2 data collection system indifferent directories. Directory names are labeledby the instrument name and string type of the datacollected. A description of the data contained in thisdirectory is below.

LDS_Data: This directory contains data collected by the LamontLDS data collection system in different directories.


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Directory names are labeled by the name of theinstrument. A description of the data contained inthis directory is below.

Raw: This directory contains raw data as recordedby individual instruments and put into differentdirectories. Directory names are labeled by theinstrument name. A description of the datacontained in this directory is below.

Meta_data: This directory contains documents useful in the postanalysis of the data on this DVD media set. Thedata types are separated into different directories. Adescription of these directories is below.

Plots: This directory contain daily and hourly plots ofunderway data that were generated in LDS.

Ice_observations: Directories of the Ice Observations taken for thecruise.

2.4.1. 1_Minute_Averaged_Data:

Table 2.3. 1_Minute_Averaged_Data:


HLY0901_distance.csv.gz Distance along track from port.

HLY0901_Averaged.csv.gz All the Under way data averaged for 1 minute.

Shapefile All of the 1 minute under way data averaged at 1minute spacing in shp, shx and dbf GIS files.

2.4.2. data

2.4.2.1. SCS_Data:

Table 2.4. SCS_Data:


/aft_a_frame Wire tension, wire out, and wire speed for the AftA frame winches.

/air_temp_f Temperature data from the ship temperature snsoron the bridge in Fahrenheit. Data is derived fromdata from files in the rmyoung_air directory.

/air_temp3a_f Temperature data from the MET3A sensor on top ofthe HCO shack in Fahrenheit. Data is derived fromdata from files in the met3a_sen directory.

/air_temp_bow Temperature data from the temperature sensor onthe Jackstaff in Fahrenheit.

/ashtech_attitude Attitude in NMEA format from the Ashtech ADU5GPS receiver.


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/ashtech_gga Position data in NMEA GGA format from theAshtech ADU5 GPS receiver.

/ashtech_gll Position data in NMEA GLL format from theAshtech ADU5 GPS receiver.

/ashtech_hdt Heading data in NMEA HDT format from theAshtech ADU5 GPS receiver.

/flomet Flow meter data just upstream of the TSG andFluorometer.

/flomet_b >Flow meter data just upstream of the B TSG andFluorometer. (if this second sensor is installed)

/fluro Flurometer for the TSG sensor.

/fluro_b Flurometer for B TSG sensor. (if this second sensoris installed)

/glonass_gga >Position data in NMEA GGA format from theGLONASS GPS receiver.

/glonass_gll Position data in NMEA GLL format from theGLONASS GPS receiver.

/gyro_mk27 Heading data in NMEA HDT format from theSperry MK27 gyro compass.

/gyro_mk39 Heading data in NMEA HDT format from theSperry MK39 gyro compass.

/ibs_waypoints Waypoints from the Healy's Integrated BridgeSyste.m

/isus ISUS Nitrate Sensor small file.

/isus3v ISUS Nitrate Sensor 3V full file.

/knudsen Depth data in a proprietary PKEL format receivedfrom Knudsen 320 B/R serial output.

/met3a_sen Meterology data from the top of the Jackstaff.

/oxygen Oxygen values from the TSG.

/oxygen_b Oxygen values from B TSG. (if this second sensoris installed)

/pcode_aft_gga Position data in NMEA GGA format from theTrimble Centurion receiver located in the Computerlab.

/pcode_aft_gll Position data in NMEA GLL format from theTrimble Centurion receiver located in the Computerlab.

/pcode_aft_vtg Course and speed over ground in NMEA VTGformat from the Trimble Centurion receiver locatedin the Computer lab.

/pcode_aft_zda Time and date data in the NMEA ZDA format.Data retrieved from the Trimble Centurion receiverlocated in the Computer lab.


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/pcode_bridge_gga Position data in NMEA GGA format from theTrimble GPS receiver located on the bridge.

/pcode_bridge_gll Position data in NMEA GLL format from theTrimble GPS receiver located on the bridge.

/pcode_bridge_vtg Course and speed over ground data in NMEA VTGformat from the Trimble GPS receiver located onthe bridge.

/posmv_gga Position data in NMEA GGA format from the POS/MV

/posmv_gst Pseudorange error statistics in NMEA GST formatfrom the POS/MV

/posmv_hdt Heading data in NMEA HDT format from the POS/MV

/posmv_pashr Roll, pitch and heave from POS MV inertialnavigation system.

/posmv_vtg Course and speed over ground in NMEA VTGformat from the POS/MV

/posmv_zda Time and date data in NMEA ZDA format from thePOS/MV

/pressure_sen Pressure sensor in the Uncontaminated SeawaterSystem before the Bio Chem Lab which measuresheader pressure in PSI.

/rmyoung_air Temperature, humidity, air pressure data inNMEA XDR format from the ship RM Youngmeteorological system near the bridge.

/rmyportwind Wind speed and direction data in NMEA WMVformat from the ship RM Young weather vane onthe port side of the Healy Mast Yard.<

/rmystbdwind Wind speed and direction data in NMEA WMVformat from the ship RM Young weather vane onthe starboard side of the Healy Mast Yard.

/samos_data Meterology data for SAMOS.

/seabeam_center Center depth data from the Seabeam 2112

/solar_radiometers Solar Radiometer data for SW and IW.

/sperry_speedlog Ground/water speed data from the Sperry SpeedLog.

/stbd_a_frame Wire tension, wire out, and wire speed for thestarboard A frame winches.

/surface_par Photosynthetic Active Radiation volts andMicroeinstens/m2 se from the surface par sensor.

/sv2000 Sound Velocity data from the SV2000 soundvelocimeter located in the ADCP BB150 sonar well.

/temp_incubat Temperatures from the Incubators.


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/true_wind_port True wind speed data derived from gyro data andrmyportwind.

/true_wind_stbd True wind speed data derived from gyro data andrmystbdwind.

/tsg Thermosalinograph and fluorometer data from theTSG instruments in the Bio/Chem Lab.

/tsg_b Thermosalinograph and fluorometer data from theB TSG instruments in the Bio/Chem Lab. (if thissecond sensor is installed)

/wind_aft Wind data from the UltraSonic wind sensor on topof the HCO Shack.

/wind_bow Wind data from the UltraSonic wind sensor on topof the Jack Staff.

/wind_mid Wind data from the UltraSonic wind sensor on theYard.

2.4.2.2. Extra files in the directory SCS_Data:

Table 2.5. Extra files in the directory SCS_Data:


ACQLOG.LOG Contains the data as to what occurred with SCSdata. It shows when data collection was started andstopped. Includes startup and shutdown events.

Incidents_YYYYMMDD-TTTTTT.DTM Contains any incident data, which were triggeredin SCS. Refer to the SCS documentation for thedefinition of "incidents".

sensor_YYYYMMDD-TTTTTT.scf Contains the configuration file for data collection asconfigured by SCS.

2.4.2.3. LDS_Data:

Table 2.6. LDS_Data:


/AloftConCam Contains picture files separated by folders named byYear and Day of the Year (YYYYJJJ). The picturefiles are in 5 minute JPEG format.

/FantailCam Contains picture files separated by folders named byYear andDay of the Year (YYYYJJJ). The picturefiles are in 5 minute JPEG format.

/adcp_nav >Contains the navigation data sent to the ADCPs.

/adu5 Contains the data from the ADU5 GPS.

/aggps Contains the data from the AG GPS.

/ais

/bgm221 Contains the data from the BGM221 Gravimeter.


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/bgm222 Contains the data from the BGM222 Gravimeter.

/events

/hdgextract Contains the extracted Heading data from thePOSMV.

/mk27 Contains the data from the MK27 Gyro.

/mk30 Contains the data from the MK30 Gyro.

/posatt Contains the attitude data from the POSMV GPS.

/posnav Contains the navigation data from the POSMV GPS.

/posreform2sb Contains the navigation data from the POSMV GPSreformatted for the SeaBeam.

/sbctr Contains the center beam data from the SeaBeam.

/sbsv Contains the surface sound velocity data for theSeaBeam.

/seabeam Contains the data from the SeaBeam.

/tsg_met Contains the all data from SIO TSG and Metsensors.

/SwapPingHLY >Contains ping results for Healy/Louis wirelessnetwork(swap) connection. Not currently active.

/SwapRoute Contains routing table stats for Healy/Louiswireless network(swap) connection. Not currentlyactive.

/SwapStatsHLY >Contains Healy wireless stats for Healy/Louiswireless network(swap) connection. Not currentlyactive.

/SwapStatsLSL Contains Louis wireless stats for Healy/Louiswireless network(swap) connection. Not currentlyactive.

/winch_aft >Wire tension, wire out, and wire speed for the AftA frame winches.

/winch_stbd Wire tension, wire out, and wire speed for theStarboard A frame winches.

2.4.2.4. Raw:

Table 2.7. Raw:


/adcp150 150 Khz ADCP data.

/adcp75 75 KHz ADCP data.

/ctd CTD data in directories by Cast number.

environmental_sensors Temperature and Humidity Sensor data for theClimate control chambers

/knudsenraw Knudsen 320B/R data.


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/tsg_met All the TSG and MET data.

/xbt Expendable Bathythermograph data.

2.4.2.5. Images:

Contains satellite imagery in jpeg format

Satellite_Images

Table 2.8. Images:


/dmsp Data from the Defense Meteorology SatelliteProgram passes logged by the Healy's Terascan .Directories are identified by Year, Month, Day

/hrpt Data from the NOAA weather satellite passeslogged by the Healy's Terascan . Directories areidentified by Year, Month, Day

2.4.2.6. Meta_Data:

Table 2.9. Meta_Data:


/elog Contains the technical support staff narrative ofimportant events, which occurred both to thenetwork and to individual sensors.

/Bridge_Logs

DDMMMYY.doc The "smooth log" containing events recorded by thebridge watch.

DDMMMYYWX.xls Weather log recorded by the watch.

DDMMMYYNAV.xls Navigation logs recorded by the watch.

/Sensor_Formats Contains html and PDF files documenting theformats of all the files collected under way duringthe cruise.

./Systems_Calibrations All of the calibrations sheets for the underwayinstruments are here.

./WHOisWHO The directory has information about contacts for theScience personnel on this cruise.

2.4.2.7. SVP:

Sound speed profiles used for the Seabeam


14

2.4.2.8. Plots:

Table 2.10. Plots:


./knudsen_hourly_plots: Directories of the SIOSEIS plots of the Knudsen 3.5kHz data are in directories named by year, month,and day. These images are in the png format. Thereare two plots for each window in time. One is a largesized plot and one is a smaller plot. The files start 10minutes before the file name and 10 minutes afterthe hour the file is named for. The Time axes useTwo-Way Travel Time. The Speed of Sound used is1500 m/sec. To get the depth in meters from theseplots multiply the time depth by 750.

./surface_daily_plots Directories containing daily plots of under way data.

2.4.2.9. Ice_observations:

Directories of the Ice Observations taken for the cruise.

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Chapter 3. Merged Data3.1. LDEO Averaged One Minute Data File

The data are summarized into an averaged one (1) minute data file by the LDEO technician. This file takesthe average value centered on the minute, (30 seconds either side of the whole minute). The averages arecalculated from the raw values as they are logged. There has been no quality control done on these filesprior to the averaging. Those wishing more accurate and quality controlled values should process the datain the directories described below in the document. See the below NOTE.

This entry is an example of a 1 minute averaged file from the LDEO shipboard science supportpersonnel. Use the header information in the file for your cruise to see what your file contains.

Example File Name: HLY0902_track.csv

6489,2009/04/06 10:45,58.7901313,-168.7344088,12.6,6.9,15.4,52.5,-1.686,11.760,0.1640,0.105,0.090,0.009,0.00,1.22,325.99,273.48,273.42,1.66,0.13,99.71,999.75,116.25,4.32,160.66,6.68,117.60,3.82,164.25,6.31,5.809,2.148,11.814,2,-76,-6,0,1,-60,1,0,13.25,162.1,7.58,1.77

Table 3.1. LDEO Averaged One Minute Data File

Field Data Example Units

01 ID 6489 sample count

02 date 2009/04/06 10:45 date time UTC (year/month/day hour:minute)

03 lat 58.7901313 $INGGA, POSMVLatitude (decimaldegrees)

04 lon -168.7344088 $INGGA, POSMVLongitude (decimaldegrees)

05 cog 12.6 $INVTG, POSMVCourse Over Ground(angular distance from0 (North) clockwisethrough 360, 1 minuteaverage)

06 sog 6.9 $INVTG, POSMVSpeed Over Ground(Knots, 1 minute average

07 heading 15.4 $PASHR, POSMV shipheading(angular distancefrom 0 (North) clockwisethrough 360, 1 minuteaverage)

08 depth 52.5 $SBCTR, Seabeamcenterbeamdepth(meters, 1 minuteaverage)

Merged Data

16


09 SST -1.686 $PSSTA, SBE3sRemoteTemperature,Sea Chest intake(Celsius, 1 minuteaverage)

10 TSG_InTemp 11.760 $PSTSA, SBE45 WaterTemperature (Celsius, 1minute average)

11 TSG_Cond 0.1640 $PSTSA, SBE45 WaterConductivity(millisiemens/centimeter, 1 minuteaverage)

12 TSG_Sal 0.105 $PSTSA, SBE45 WaterSalinity (PSU, 1 minuteaverage)

13 SCF-FL 0.090 $PSFLA, SeapointFluorometer (Ug/l, 1minute average)

14 SCF-FL-V 0.009 $PSFLA, SeapointFluorometer (Volts, 1minute average)

15 tsg_flow_A 0.00 $PSFMA, Flowmeter in-line with PSTSGA,PSOXA, PSFLA(LitersPerMinute,minimum value in 1minute interval)

16 SWR 1.22 $PSSRA, Short WaveRadiation (W/M^2, 1minute average)

17 LWR 325.99 $PSSRA, Long WaveRadiation (W/M^2, 1minute average)

18 LWR_Dome_T 273.48 $PSSRA, LWD DomeTemperature (Deg K, 1minute average)

19 LWR_Body_T 273.42 $PSSRA, LWD BodyTemperature (Deg K, 1minute average)

20 PAR 1.66 $PSSPA, Surface PAR(uE/Sec/M^2, 1 minuteaverage)

21 JS_Air_Temp 0.13 $PSATC, Bow JackstaffAir Temperature (Deg C,1 minute average)

Merged Data

17


22 Bridge_RH 99.71 $PSMEB, Bridge RMYoung RelativeHumidity (%, 1 minuteaverage)

23 Bridge_Baro 999.75 $PSMEB, Bridge RMYoung BarometricPressure (millibars, 1minute average)

24 JS_WndDirR 116.25 $PSWDC, JackstaffRelative wind direction(deg, 1 minute average)

25 JS_WndSpdR 4.32 $PSWDC, JackstaffRelative wind speed (m/s, 1 minute average)

26 JS_WndDirT 160.66 $PSWDC, Jackstaff Truewind direction (deg, 1minute average)

27 JS_WndSpdT 6.68 $PSWDC, Jackstaff Truewind speed (m/s, 1minute average)

28 MM_WndDirR 117.60 $PSWDB, Main MastRelative wind direction(deg, 1 minute average)

29 MM_WndSpdR 3.82 $PSWDB, Main MastRelative wind speed (m/s, 1 minute average)

30 MM_WndDirT 164.25 $PSWDB, Main MastTrue wind direction (deg,1 minute average)

31 MM_WndSpdT 6.31 $PSWDB, Main MastTrue wind speed (m/s, 1minute average)

32 SBE_Oxy 5.809 $PSOXA, SBE-43Oxygen(ml/l, 1 minuteaverage)

33 SBE_Oxy_Raw 2.148 $PSOXA, SBE-43Oxygen(Volts, 1 minuteaverage)

34 SBE_Oxy_T 11.814 $PSOXA, SBE-43OxygenTemperature(Deg C, 1minute average)

35 WinchAft 2 Aft A-Frame Winchnumber

36 TensionAft -76 Aft A-Frame WinchWire tension(Pounds, 1minute average)

Merged Data

18


37 WireOutAft -6 Aft A-Frame WinchWire out (Meters, 1minute average)

38 SpeedAft 0 Aft A-Frame WinchWire speed(Meters/minute, 1 minuteaverage)

39 WinchSbd 1 Starboard A-FrameWinch number

40 TensionSbd -60 Starboard A-FrameWinch Wiretension(Pounds, 1 minuteaverage)

41 WireOutSbd 1 Starboard A-FrameWinch Wire out (Meters,1 minute average)

42 SpeedSbd 0 Starboard A-FrameWinch Wirespeed(Meters/minute, 1minute average)

43 StbdWndSpdT 13.25 RMYoung True WindSpeed, starboard(Knots,1 minute average)

44 StbdWndDirT 162.1 RMYoung True WindDirection,starboard(angulardistance from 0 (North)clockwise through 360, 1minute average)

45 OxySat 7.58 Dissolved oxygen (DO)saturation as a funcitonof T and S (Weiss)(ml/L,1 minute average)

Use these with caution.

19

Appendix A. Appendix- ElogA.1. Acquisition Problems and Events (Elog)

A electronic logbook (elog) is utilized on the ship for logging of science related problems and events asthey happen. A dump of the logbook is done at the end of the cruise and saved in the Meta_Data directoryunder the “elog” subdirectory. Two logbooks are kept: one by the technical support personnel and oneby the science party watch standers if there were any at the watch standers station for the cruise. Severaldump formats are made available such as html, csv, xml and raw. These logs should be consulted to helpidentify instrument and system anomalies affecting data quality. Times are reported in GMT (UTC, Z).

Below here is a summary of technical logbook. For exact details you should check the files in elog. Thescience watchstanders log is not summarized here. The user should look for the table that attempts todocument all of the various settings used during the cruise. The user should also look in the Elog filesdistributed on the USB Disk drive.

Also, in the Meta_Data directory there may be some PDF files for data that was collected but not part ofthe normal science routine.

Table A.1. Elog Summary

DATE Time (UTC)

06/15 13:22 Start remaining LDS loggers forstart of HLY1001

06/15 15:27 Start up Knudsen deck unit andPC

06/15 15:28 Start up ADCP150 deck unit

06/15 15:28 Start up ADCP75 deck unit

06/15 15:58 Start up EM122 TRU and SIS

06/15 16:06 Start EM122 pinging

06/15 16:07 Start Knudsen pinging and sync toEM122

06/15 16:11 Start SCS logging. start SAMOSlogger.

06/15 16:59 EM122 HDDS.exe died andgridding stopped.

06/15 17:03 EM122 SIS GUI restartedHDDS.exe. Real time gridworking.

06/15 17:32 ECC turned on SSW for backflushing.

06/15 17:34 TSG started water flow at 13:24.

06/16 03:20 TSG Oxygen Values look suspect.

06/16 05:16 EM122 new SVP added.

06/16 06:55 EM122 error message thatposition input is missing.

Appendix- Elog

20

DATE Time (UTC)

06/16 07:54 EM122 new SVP added.

06/16 18:54 POSMV reporting significantheading inaccuracies since 10Z.

06/16 18:55 EM122 complaining aboutposition input missing.

06/16 23:14 TSG Oxygen jumped back to~ 8ml/L. Some Incubators onthe Bow connected around 17Zcausing drop in flow. Biochemflow increased.

06/17 00:22 POSMV Heading seems to beback to normal.

06/17 01:12 EM122 new SVP.

06/17 01:16 EM122 SIS Runtime ParameterGUI seems broken.

06/17 02:32 EM122 reload old SVP.

06/17 02:46 TSG Oxygen large drop back to~2ml/L at 01Z.

06/17 03:07 aft-pcode GPS ZDA is not valid.

06/17 04:42 TSG SBE-43 Oxygen sensor notbehaving. New sensor installed,#1333

06/17 05:53 EM122 error message Positioninput missing.

06/17 10:01 EM122 reload older SVPisothermal 1450.

06/17 17:39 POSMV warnings in SIScontinue. Restarted POSVIEW,still not updating properly.

06/17 17:45 EM122 HDDS.exe warning.Restarted HDDS manually.

06/17 17:45 aft-pcode GPS keys loaded. ZDAstill bad.

06/17 17:54 EM122 restart HDDS via SISGUI.

06/17 18:51 POSMV RJ45 connection wasloose. Reseated and connectionnow stable.

06/17 19:43 POSMV seems stable.

06/17 22:15 EM122 reload SVP isothermal1445.

06/17 22:27 EM122 stop and start SIS.Runtime parameter pull downnow work.

Appendix- Elog

21

DATE Time (UTC)

06/17 20:27 EM122 new survey at 2 metergrid.



06/18 15:13 POSMV noted still odd troubleswith heading.

06/18 22:59 create temp data logger to sendGPGGA from AGGPS to ascience instrument in main lab.

06/19 01:17 EM122 complaining missingposition input.

06/19 04:28 Science Sea Water pumpsadjusted prior to entering the ice.


06/19 05:30 Bridge weather sensors securedfor translator box fix.

06/19 05:44 EM122 HDDS.exe problem.restart but die again.

06/19 05:57 EM122 HDDS.exe restarted inshallow water with +10 pitchstabilization.

06/19 06:27 RM Young translator box, Model26700, serial no. 14102-01 andLD485/232 converter removedfrom the bridge. New one installedand data restarted.

06/19 08:12 EM122 new SVP isothermal of1460.

06/19 10:39 EM122 lost bottom around 20meters. HDDS died and won'trestart.

06/19 10:58 EM122 HDDS restart butstruggling at 21 meters depth.

06/19 12:31 EM122 Bridge Helm display verydifferent from other SIS displays.

06/19 12:33 EM122 45 Postgres processesrunning on SIS.

06/19 13:03 EM122 HDDS quit. Restarted.

06/19 13:04 EM122 stop and restart bridgehelm display. bogus speed is gone.

06/19 15:47 Knudsen min depth from 20 to 10.

Appendix- Elog

22

DATE Time (UTC)

06/19 18:30 EM122 new SVP istohermal1435.

06/19 19:16 EM122 HDDS quit again.

06/19 19:24 EM122 reload SVP istohermal1443.

06/19 19:25 EM122 pith stabilization at +10max depth 30.

06/19 21:06 Knudsen min depth 15m and Txblank 8m.

06/19 21:55 2 incubators hooked up 1/2 hourago. ~2PSI drop in TSP pressurenoted.

06/19 23:37 EM122 stop and restart SIS. Newsurvey HLY1001_03 at 5m grid.

06/19 23:44 EM122 HDDS died. Restarted.



06/20 00:36 EM122 HDDS died. Restarted.New survey HLY1001_04 50mgrid.

06/20 05:31 EM122 HDDS died. SIS diedtoo. Restarted. Then HDDS diedagain.

06/20 08:04 ADU5 lost heading. reset unit.

06/20 18:51 EM122 back to SVP isothermal1450.

06/20 19:39 EM122 to SVP isothermal 1465.

06/20 20:39 MX512 antenna unmounted.

06/21 01:18 EM122 new SVP from CTD01301.



06/21 21:46 EM122 on station experimentwith K-Sync ping rates.


06/22 00:20 Terrascan, added NOAA-16.


06/22 11:07 EM122 SIS complain aboutposition input missing.

Appendix- Elog

23

DATE Time (UTC)



06/23 22:34 MX512 antenna deinstalled.

06/23 22:42 remove NOAA-16 from Terascan.

06/24 03:21 EM122 SIS complain positioninput missing.


06/24 03:48 Knudsen Echo Control failed.restarted.

06/24 04:21 EM122 and POS control complainabout loss of Vertical Velocity.new CAT5 cables POS to Moxaswitch in HCO.

06/24 10:57 EM122 SIS complain missingposition.

06/24 11:09 EM122 new SVP from CTD03101 and ARGO floatR4901045_78 for deep.

06/24 11:23 EM122 new modified SVP.

06/24 21:23 EM122 new SVP from ARGOfloat R4901045_78.

06/25 00:29 Terascan rebooted.

06/25 06:41 Board of Lies webcam restarted.

06/25 08:44 Science Sea Water flow rateschanged.

06/25 13:00 EM122 102 postgres processes onSIS.

06/25 23:48 All HCO posmv rack instrumentslost power due to plug coming out.Fixed and all restarted.

06/26 00:19 Science Sea Water seeing icechips in BioChem Lab andstoppages of water.

06/26 02:40 Aloft Con Web Cam realignedafter bumped.


06/28 05:07 EM122 reload SVP from CTD03101 with 1450 surface.

06/28 11:32 EM122 reload more realistic SVPfrom CTD 03101.

Appendix- Elog

24

DATE Time (UTC)



06/29 07:44 EM122 reload SVP from CTD03101.





07/01 02:15 SCS stopped POSMV seriallogging at 6/30 16:40Z.

07/01 02:33 Evidentally LDS serial logging toSCS stopped at 6/30 16:40Z.

07/01 02:35 LSD to SCS loose connecterfixed. SCS getting LDS POSMVdata.



07/01 16:13 EM122 new SVP from CTD atstation 54.





07/03 06:19 EM122 reload SVP from ARGOfloat R4901045_078.

07/03 16:49 ADU5 stopped. Reset.

07/05 00:03 POSMV heading has wandered onstation.

07/05 02:31 POSMV secondary solution not inuse warning. Dryed 2nd receiverfrom rain it is working again.

Appendix- Elog

25

DATE Time (UTC)

07/05 02:49 POSMV dry both antennas withpaper towels.


07/05 08:02 EM122 new SVP from XCTDC3_00002.


07/05 09:29 NOAA-17 priorites reset inTerascan.


07/05 17:09 EM122 new SVP from CTD atstation 65.


07/06 11:10 EM122 new SVP from XBTT7_00050.

07/06 11:49 Note Bridge Met Sensors havingproblems again.


07/06 16:43 EM122 SVP from ARGO floatR4901045_078.

07/06 17:36 SCS display remove bridgesensors and use MET3A sensors.




07/07 17:55 SCS template for NOAA wxmessage changed to reflect Bridgesensors not working.



07/08 03:50 Bridge Met Sensors back online with new analog to digitalconverter.


Appendix- Elog

26

DATE Time (UTC)

07/08 19:12 EM122 new SVP from CTD 18.




07/09 04:39 EM122 SIS complaining aboutmissing navigation.

07/09 05:23 EM122 SIS GUI tools->Customno work. 103 postgres processesrunning.

07/09 07:05 EM122 load SVP from CTD06901.

07/09 11:24 EM122 reload SVP from ARGOfloat R4901045_078.

07/10 23:44 forward-pcode GPS has notreported any data since 6/2914:35Z.



07/11 14:00 Knudsen min depth to 50m.


07/12 06:21 Terascan start elevation from 10to 12 degrees.

07/12 06:59 LDS port and Starboard winchports were wrong.


07/12 07:10 EM122 SIS complaining aboutmissing navigation.


07/12 23:44 Terascan remove f-15 since nogood passes.


07/13 10:02 EM122 SIS stopped logging dueto full disk.

Appendix- Elog

27

DATE Time (UTC)

07/13 10:23 EM122 SIS stopped and restarted.New survey HLY1001_05.Moved files to make room.


07/14 19:03 SIO now calculates Pressure at sealevel and reports this in a newNMEA strings. The NOAA wxmessages have been updated.

07/15 17:12 EM122 new SVP from CTD 33.

07/15 18:56 EM122 85 postgress processes.Bridge Helms display have no lator long are displaying. On startingit says no Data base access.GoogeUpdate.exe was running.

07/15 18:58 EM122 new SVP from XBTD 46.


07/15 23:46 Terascan getting o data since 20Z.Not getting heading cable wasdisconnected for some reason.Reconnected cable - working.

07/16 02:57 EM122 reboot SIS computer.Start SIS, gridding and Helmsdisplay.


07/16 14:29 EM122 SIS complain about nonav input in TRU.

07/16 14:29 EM122 SIS complain about nonav input in TRU.

07/16 14:32 EM122 reload SVP from CTD 25.


07/17 00:06 Reset ADU5 after stoppedoutputting attitude.

07/17 01:59 EM122 SIS complaining aboutmissing nav.

07/17 02:26 Science UncontaminatedSeawater flow changed.

07/17 08:24 LDS winch recording stopped.Files renamed since they werecrossed over for the cruise.


Appendix- Elog

28

DATE Time (UTC)

07/17 22:37 EM122 new SVP from WorldAtlas for July at 171W 62.5N.


07/18 08:36 EM122 SIS crash trying to loadGeoTiff background.



07/19 05:22 EM122 SIS custom tools notopen. 103 postgress processes.


07/19 05:28 EM122 reload SVP from WorldAtlas for July at 171W 58.5N.

07/19 07:17 EM122 reload SVP from WorldAtlas for July at 167W 56.5N.


07/19 15:53 Knudsen setting changed due towater depth change.

07/19 16:42 Knudsen setting changed due towater depth change.

07/19 20:28 TSG SBE45 wiring changed sodata now goes through SIO Serialbox in BioChem.

07/19 20:34 POSMV #1 heading errorgrowing.

07/19 20:38 POSMV secondary GPS reportingno data.

07/19 20:56 EM122 stopped to switch tosecondary POSMV.

07/19 22:51 POSMV replaced starboardsecondary antenna. Not seesatellites form secondary antenna.

07/19 22:55 POSMV secondary antennaworking with cable on deckoutside.

07/20 01:32 POSMV #1 running. Will work onsecondary antenna problems.

07/20 04:30 POSMV note heading accuracyhad dropped. System back up togood levels.

Appendix- Elog

29

DATE Time (UTC)

A.2. Comments about the dataThis section provides some general guidance about data from Healy along w/ specific details of issuesduring this cruise.

A.2.1. General Comments about Healy data

The SCS system has to be stopped when fixing some kinds of issues. If this is the case, you should consultthe elog entries for possible explanations and look for the corresponding data in the LDS_Data dir.

The Knudsen data written into SCS_Data/Knudsen often has an inconsistent time in the data. The timethat the SCS writes to the start of the KEA file should be used. The Knudsen internal clock adds about22.8 seconds to the internal clock each day near 00:00. But this is reset when the recording program isstarted up and when watchstanders manually synchronize the time. Use only the SCS time stamp for timein this data and it should be fine. The accuracy of the time in the SEG-Y files and KEB files should beinspected and compared to the time-stamped KEA records.

The EM122 Multibeam data is raw and unedited. Depending on the intended use, this data may needprocessing, including but not necessarily limited to editing . Like nearly all multibeams, but not as badas some, the EM122 has issues with the near-nadir beams: the bathymetry tends to be less repeatable inthe near-nadir region compared to the middle of the swath. The outer beams are noisier in the icebreakerEM122 installations than those installed on non-icebreakers.. The acoustic noise of breaking ice, plusbubble-sweep down due to the shape of the bow, and masking by ice sliding under the hull all contributeto degrading the data quality while operating in ice.

The Knudsen subbottom data is not an accurate source of water depth for a number of reasons, includingthe fact that it is always recorded using a sound speed of 1500 meters/second, because the beam pattern islarge (30 to 60 degrees), because of it’s bottom detection algorithm, and because, by design, it penetratesthe seafloor.

Both the mechanical windbirds and the ultrasonic anemometers can spend much of the trip iced up whenin sub-freezing weather. Care should be taken when using the data from the wind sensors. The ultrasonicanemometers are heated which helps reduce freezing issues. Depending on the relative wind direction,different wind speed and direction sensors provide more realistic estimates of the actual wind. The samegoes for temperature: stack gas driven by the wind, and heating from the ship when there is no wind canmake signficant differences in the measured values.

During the cruise various parties could be changing the water flow in the Science Sea Water system toadjust the system’s response to various flow rates in response to icing and/or filling adjusting flow to theincubators depending on the cruise. This changes the amount of water going through the TSG and hasdiscernable impact on the measurements taken. You should closely follow the Elog entries for the TSGand Science Sea Water in the Elog section in the Meta_Data directory to see when water flow rates wereadjusted. These events are not always accurately entered into Elog. These flow rate changes should affectall of the TSG data and care should be taken when using the TSG data.

The POSMV navigation system reports location as the Healy's Master Reference Point (MRP) and not atthe antenna locations above the Helicopter Control Shack (HCO). The Master Reference Point os in IC/Gyro (down by the Gym and Laundry) and can be seen in the diagram at the end of this document showinginstrument locations on the ship.

Appendix- Elog

30

A.2.2. Specific Comments about this cruise

As is always the case, there were issues with data from this cruise. This section

A.2.2.1. P-Code GPS receivers

On July 17 the ZDA (time of day) message from the Aft P-Code receiver failed to produce a correct datamessage. Reloading crypto keys did not help. This problem has not been resolved.

Data from the forward P-Code receiver on the Bridget stopped being logged by SCS about June 29. Thisissue has not been resolved. Due to the poor quality of the P-Code data compared to modern CA code GPSthis was not judged to be a high priority issue.

A.2.2.2. POS/MV

The new POS/MV was not used during this cruise because we had issues with the stability of the timeof day (ZDA) records and precision headeing when we tried to use the two receivers with a single setof (buffered) antennas. At the very end of the cruise we learnd that this was probably due to a failingantenna cable.

During the cruise we saw a few instances where the heading accurcy estimate reported by the POS wentwildly out of control. Rather than being the usual, fairly stable error estiamte of 0.022º +/- .01º, it increaseddramatically as shown in the figure below. Trouble shooting on July 19 and 20 revealed that this wasa problem wtih the antenna cable for the secondary (starboard side) antenna and the antenna cable wasreplaced.

Appendix- Elog

31

A.2.2.3. EM122 multibeam

The area of operatin during this cruise contained substantial currents and very diverse water masses. Thiscauses huge variablity in sound speed profiles from very fresh surface water, very saline layers and rapidchanges. It is not clear what the best strategy is for collection raw data under these circumstances.

The recently installed Kongsberg EM122 performed reasonably well the very shallow water (25-50m)which dominated this cruise. In the shallowest water depths (less than 30m) we found that it helped tosteer the transmit beams forward by 10º to reduce the returned signal strength.

The Sonar Information System (SIS) operating software was running a pre-release version of SIS 3.7 whichwe installed in Hawaii. It exhibited some instability during this cruise which causes the system to crashand resulted in collecting data in four separate "surveys" in the contenxt of SIS.

We saw numerous instances when SIS reported that the TRU (Transmit Recieve Unit) reported missingnavigation records. This requires further investigation.

SIS reported that HDDS.exe (the gridding engine) died about every other day. This was manually restarted.During this cruise we were running with an patched version of HDDS.exe.

Toward the end of the cruise we figured out how to load background images containing historical data intothe survey system so that new swath data was overlayed on top of it.

A.2.2.4. SSW Flow Through System

On July 16 the dissolved oxygen data started looking suspicious. The sensor was replaced on the 18th.

During this cruise there were four incubabors on the bow and we operated the pumps in "ice mode" sothere was substantial latency between the intake and arrival of water in the Biochem Lab. In general thesystem worked well even in heavy ice. There were some short duration flow issues but they did not requireany intevention and resolved themselves.

Careful attention was paid to adjusting the flow at the TSG when changes were made to the flow elsewherein the system (such as incubators.)

Appendix- Elog

32

A.2.2.5. Met System

There were some events during this cruise when the Met system lost heading and this caused incorrect"true wind" to be reported.

On July 6 the analog to digital converter in the SIO Met system interface on the bridge failed. It wasreplaced on July 8. During the failed period the temperature, humidity, and barometric pressure from thebridge sensors was radically wrong as can be seen in the figure below.

On July 19 the ship's RM Young translator box, Model 26700, serial no. 14102-01 and LD485/232 wasconverter removed from the bridge. It was replaced with a new SIO interface. This event caused a smalldisruption in the data stream.

A new record type was added to the SIO Met system to report atmospheric pressure adjusted to Mean SeaLevel. These records started at 1900Z on July 16. tsg_met 2010:190:04:38:58.6168 $PSBPA,,800.00,*6A

A.2.2.6. SCS data acquistion

SCS was only stopped for configuration changes a few times during this leg.

On July 1, there is a gap in the POS/MV data. This was caused by a loose cable. See Elog entry on07/01/2010 02:33:00 this resulted in calculating true wind wrong. SCS should check the validty of headingdata before calculating true wind. Note the error in the figure below.

Appendix- Elog

33

Appendix- Elog

34

A.2.2.7. Lamont Data System

LDS ran well during this leg.

On July 18 we created a custom output to provide re-formatted GGA records to the FFRV in the MainLab because the GPS receie they brought with them had a short (3-5m) antenna cable which was not longenough to get to a location with a decent sky view. Because of the design of LDS this did not cause andisruption of other data streams.

On July 1, the internal disk drive in the older Mac Mini on the WSWS failed. Connected an external drive,installed OS 10.5 on it and restarted.

35

Appendix B. Underway data plots

B.1. Weather Summary for the Cruise

B.2. TSG Summary for the CruiseThe following plots provide a brief overview of some of the underway data collected during this leg.

$Rev$

Underway data plots

36

37

Appendix C. Sensors used on theCruise

C.1. Sensors UsedTo see the individual Sensor Calibration Sheets go to the Meta_Data directory in the data distribution. Youshould use the Sensor's Serial number to be sure you have found the proper sheet.

C.1.1. Shipboard Sensors

C.1.1.1. SIO MET & TSG Sensors

This section containes the SIO data acquisition system configuration file (HLY10D.ACQ) which containsall of the sensor definitions and configurations for the Met and TSG system sensors which are installed,maintained and operated by Scripps on the Healy.

# HLY10D.ACQ# # STS Meteorological Acquisition Program# Serial Port and Sensor Configuration/Calibrations file # USCGC HEALY 08 Jul. 2010## Serial Ports Configuration#UNIT1 20 COMM1 19200 NONE 8 1 RS232 Output - Data output to SCSUNIT2 0 COMM2 9600 NONE 8 1 SpareUNIT3 1 COMM3 9600 NONE 8 1 RS485 Input - Bio/Chem Lab ADAM 4117, 4080, Seapoint, SBE43, ISUSUNIT4 1 COMM4 9600 NONE 8 1 RS232 Input - SBE45 TSG Bio/Chem LabUNIT5 0 COMM5 9600 NONE 8 1 RS232 Input - Scufa FluorometerUNIT6 0 COMM6 9600 NONE 8 1 RS232 Input - Optode 3835 Bio/Chem LabUNIT7 1 COMM7 9600 NONE 8 1 RS232 Input - ISUS Bio/Chem LabUNIT8 0 COMM8 9600 NONE 8 1 RS232 Input - UNIT9 0 COMM9 9600 EVEN 7 1 RS232 Input - UNIT10 0 COMM10 9600 NONE 8 1 SpareUNIT11 1 COMM11 9600 NONE 8 1 RS232 Input - MET data Jackstaff (USP23) - Wind, Air Temp, Bow Temp, Bow FlowUNIT12 1 COMM12 9600 NONE 8 1 RS232 Input - MET Helo Hanagar (USP25) - MET3A, Wind, PRC, PAR, LWR, SWRUNIT13 1 COMM13 4800 NONE 8 1 RS232 Input - GPS PcodeUNIT14 1 COMM14 4800 NONE 8 1 RS232 Input - GyroUNIT15 1 COMM15 9600 NONE 8 1 RS232 Input - Winch CTD OT-1 .322UNIT16 1 COMM16 9600 NONE 8 1 RS232 Input - Winch Aft Tw .680UNIT17 14 COMM17 9600 NONE 8 1 RS232 Output - Surf PAR to SBE11 UNIT18 1 COMM18 19200 NONE 8 1 RS232 Input - CTD Depth,Spd,Alt UNIT19 1 COMM19 9600 NONE 8 1 RS232 Input - RM Young 85004 Wind sensor Main mastUNIT20 1 COMM20 9600 NONE 8 1 RS232 Input - POSMV GPSUNIT21 1 COMM21 9600 NONE 8 1 RS232 Input - Bridge Sensors [Adam 04] (USP26) - BP, AT, RHUNIT22 0 COMM22 9600 NONE 8 1 SpareUNIT23 0 COMM23 9600 NONE 8 1 SpareUNIT24 0 COMM24 9600 NONE 8 1 Spare UNIT25 0 COMM25 9600 NONE 8 1 Spare

Sensors used on the Cruise

38

UNIT26 0 COMM26 9600 NONE 8 1 SpareUNIT27 0 COMM30 33101 NONE 8 1 UDP Port GPS, Gyro, AshtechUNIT28 0 COMM30 33402 NONE 8 1 UDP Port SBE21UNIT29 80 COMM30 33601 NONE 8 1 UDP Port Seabeam DepthUNIT30 80 COMM30 15003 NONE 8 1 UDP Port Knudsen Depth

STARTMOD# hco sensors USP25 LWR22 SWR22 PAR22 # Bridge Sensors BP, AT, RHUSP26# Main mast sensorsWND26# Bio/Chem sensorsTSG22 SST23 FLW22 PRS22 FLU22 OXY23# Jackstaff sensorsTMP22 WND27 # GPS GyroNME23 NME22 GYR01 PDR02 PDR03WCH01 WCH02OUT01 #OUT02 ENDMOD

# LD Index# B=Bow# A=AFT# P=PORT# S=Starboard# H=Helo Hangar crossbar# M=Mast# T=Bridge Top# W=Bio/Chem Lab

[GENERAL]TITLE = Healy METPRINT_EN = FALSEMK_COR = TRUEMK_UNC = FALSEMK_MET = TRUEMK_UCR = TRUEMK_LOG = TRUEFileWriteInterval = 5.0SerialWriteInterval = 15.0SPARSCL = 1000.0 0.0TIMEOUT = 400MAX_SCAN_RATE = 2.0

# SAMOS SettingsCALL_SIGN = NEPPMAIL_SERVER = 192.168.10.16MAIL_RECEP = [email protected]_RETADD = [email protected]_DCC = TRUE


39

DCC_INTERVAL = 60.0

# MET Corrected Data[OUT01]SERUNITNUM= 1MKOUTFILE = FALSEINTERVAL = 2.0ADDCRC = FALSEADDTIMESTAMP= FALSENMEA = PSSRA,PSSPA,PSMEA,PSMEB, PSWDA,PSWDB,PSATC,PSSTA,PSTSA,PSOXA,PSFLA,PSFMA,PSPSA,PSBPA,PSBPB,ZDA#NMEA = PSSRA,PSSPA,PSMEA,PSMEB, PSWDA,PSWDB,PSATC,PSSTA,PSTSA,PSOXA,PSFLA,PSFMA,PSPSA,ZDA

[OUT02]# TSG DataSERUNITNUM = 0PARAMETERS= TT, TG, SA, TT, TG, SA, LA, LO, CR, SPPARAMETER NUMBERS = 0, 0, 0, 1, 1, 1, 0, 0, 0, 0PRECISION = 3, 3, 3, 3, 3, 3, 5, 5, 1, 1MKOUTFILE = TRUEINTERVAL = 5.0ADDCRC = FALSEADDTIMESTAMP = TRUEEXTENSION = SLTHEADER = #TSG Date Time TT TG SA TT-2 TG-2 SA-2 LAT LON COG SOG

[TMP22]SENSOR = Air TemperatureMODEL = 41342LCSERIAL = 3943MFG = RM YoungCAL_LAB = ODFCAL_DATE = 09 Jun 2010LOCATION = Forward Jackstaff 85'above MWLINSTALL_DATE = Jun 2010LABELS-SC=B ATLABELS-TAB=Bow Air TempDCC = TRUESAMOS_LD=BOWNER = Healy# Module addressCMD = VLT#D5252 4-20ma# Module setup parametersMSP = 11 8 0 0 10 0 1 1 0 0 0 0 0 0 0MCP = 1 1 1 0 13 0 0 0 0 0 0 0# Emulation value 15.325Emulation = 310.0AVGTYPE=1SECSTOAVG=60.0# A/D CalibrationADCAL = 1.0, 0.0# Corrections


40

COR = 1.0, -50.0

[WND27]SENSOR = WINDMODEL = 85004SERIAL = 00894MFG = RM YoungCAL_LAB = RM YoungCAL_DATE = 20-Sep-07LOCATION = Forward Jackstaff 85'above MWLOWNER = HealyDCC = TRUESAMOS_LD=BINSTALL_DATE = 02-Feb-2009LABELS-SC=B RWS, B RWD, B TWS,B TWDLABELS-TAB=Bow RelWS, Bow RelWD, Bow TrueWS,Bow TrueWD# Module address# Module setup parametersMSP = 11 8MCP = 1 1 4 0 0 0 19 20 0 0 0 0# Emulation valueEmulation = 6.0 10.0AVGTYPE=1 2 0 0SECSTOAVG=60.0# A/D CalibrationADCAL = 1.0 0.0# Corrections Wind SpeedCOR = 0.51444, 0.0# Corrections Wind DirectionCOR2 = 1.0, 0.0

[FLW25]SENSOR = FlowMeterMODEL = P51530-POSERIAL = 60012089621MFG = SignetCAL_LAB =STSCAL_DATE = 07-Jan-2008LOCATION = Bow - Near Jackstaff BaseOWNER = HealyINSTALL_DATE = 02-Feb-2009CMD = FRQ#ADAM 4080 CHan 1# Module setup parametersMSP = 11 8 0 0 10 0 1 2 0 0 0 0 0 0 0MCP = 1 1 1 0 3 0 0 0 0 0 0 0#AVGTYPE=1#SECSTOAVG=60.0# Emulation valueEmulation = 2.0# A/D CalibrationADCAL = 1.0 0.0COR = 1.0, 0.0


41

[AWT25]SENSOR = Sea Surface TemperatureMODEL = SBE3SSERIAL = 0000MFG = SeabirdCAL_LAB = SeabirdCAL_DATE = 17-Dec-08LOCATION = Bow - Near Jackstaff BaseOWNER = HealyINSTALL_DATE = 07-Mar-2009CMD = FRQ#ADAM 4080 CHan 0RANGE = -1000000.0 1000000.0#DGH D1602 1-20Khz RS485LABELS-SC=BTmpLABELS-TAB=Bow Temp# Module setup parametersMSP = 11 8 0 0 10 0 1 1 0 0 0 0 0 0 0MCP = 1 1 1 0 11 0 0 0 0 0 0 0# Emulation valueEmulation = 5000.0# A/D CalibrationADCAL = 1.0 0.0# g,h,i,j,f0,slope,offsetCOR = 4.34337257e-3 6.32820687e-4 2.17970557e-5 1.83607060e-6 1000.0 1.0 0.0

[USP25]SENSOR = MET3AMODEL = MET3ASERIAL = 101757MFG = ParoscientificCAL_LAB = ParoscientificCAL_DATE = 27-Jun-2007LOCATION = Helo Hangar Crossbar (64' above MSL)INSTALL_DATE = 02-Feb-2009OWNER = SIO/STSTAGS-C = BP, AT, RH, DP, BSTAGS-R = BP, AT, RHLABELS-SC=BP, AT, RHLABELS-TAB=HCO Baro, HCO Air Temp, HCO RHPRC-R = 4 4 4PRC-C = 2 2 2 2 2RANGE = 800.0 1100.0RANGE2 = -50.0 50.0RANGE3 = 0.0 110.0RANGE4 = -80.0 50.0RANGE5 = 800.0 1100.0CMD = XDRDCC = TRUESAMOS_LD=H# Module setup parametersMSP = 12 8 0 0 10 0 3 1 2 3 0 0 0 0 0MCP = 1 1 5 0 0 0 0 15 37 0 0 0


42

# Emulation valueEmulation = 1000.0 20.0 50.0AVGTYPE=1 1 1 0 0SECSTOAVG=60.0# A/D CalibrationADCAL = 1.0, 0.0COR = 0.0COR2 = 30.0COR3 = 0.0COR4 = 0.0# Altitude of sensor above water line in MetersCOR5 = 19.5

[USP26]SENSOR = BRDG_BP_AT_RHMODEL = 41382VSERIAL = 1643/13352MFG = RM YoungCAL_LAB = STSCAL_DATE = 11-Feb-2010LOCATION = Top Bridge (75' above MSL)INSTALL_DATE = 02-Feb-2009# Baro Press RMY 61201 s/n 01643# Humidity RMY 41382V s/n 13352# Using ADAM-4017+ Address 4OWNER = SIO/STSDCC = TRUESAMOS_LD=TTAGS-C = BP, AT, RH, DP, BSTAGS-R = BP, AT, RHLABELS-SC=BP, AT, RHLABELS-TAB=Mid Baro, Mid Air Temp, Mid RHPRC-R = 4 4 4PRC-C = 2 2 2 2 2RANGE = 800.0 1100.0RANGE2 = -50.0 50.0RANGE3 = 0.0 110.0RANGE4 = -80.0 50.0RANGE5 = 800.0 1100.0CMD = #04\r# Module setup parametersMSP = 21 2 0 0 13 0 3 3 1 2 0 0 0 0 0MCP = 1 1 5 0 5 5 5 15 37 0 0 0# Emulation value 1021.34, 15.3121,59.7275 Emulation = 3.634, 0.6509, 0.595AVGTYPE=1 1 1SECSTOAVG=60.0# A/D CalibrationADCAL = 1.0, 0.0COR= 5.99378288E+1, 8.03485613E+2COR2= 9.82070744E+1, -4.86108458E+1COR3= 2.73058225E+1, 7.76410061E+1, 3.86418175E+0COR4 = 0.0# Altitude of sensor above water line in Meters


43

COR5 = 22.9

[USP26OLD]SENSOR = BRDG_BP_AT_RHMODEL = 26700SERIAL = 1643/13352MFG = RM YoungCAL_LAB = STSCAL_DATE = 22-Dec-2008LOCATION = Top BridgeINSTALL_DATE = 02-Feb-2009# Baro Press RMY 61201 s/n 01643# Humidity RMY 41382V s/n 13352OWNER = SIO/STSDCC = TRUESAMOS_LD=TTAGS-C = BP, AT, RH, DPTAGS-R = BP, AT, RHPRC-R = 2 2 2PRC-C = 2 2 2 2RANGE = 800.0 1150.0RANGE2 = -50.0 50.0RANGE3 = 0.0 110.0RANGE4 = -50.0 50.0CMD = XDR# Module setup parametersMSP = 21 8 0 0 10 0 4 4 1 2 0 0 0 0 0MCP = 1 1 4 0 13 13 13 15 0 0 0 0# $WIXDR,C,007.18,C,1,H,080,P,1,C,003.90,C,1,P,1035.85,B,2,D,* # Emulation valueEmulation = 1018800.00 15.10, 87.4AVGTYPE=1 1 1SECSTOAVG=60.0# A/D CalibrationADCAL = 1.0, 0.0COR = 9.99542E-4 3.42610E+0COR2 = 1.02014 9.13725E-2COR3 = 1.01578 1.17977

[PRC25]SENSOR = PrecipitationMODEL = 50202SERIAL = 1567MFG = RM YoungCAL_LAB = RM YoungCAL_DATE = 16-Jan-09OWNER = SIO/STSLOCATION = Helo Hangar CrossbarINSTALL_DATE = 02-Feb-2009DCC = TRUESAMOS_LD=HCMD = VLT# Module setup parametersMSP = 12 8 0 0 10 0 1 6 0 0 0 0 0 0 0


44

MCP = 1 1 1 3 13 0 0 0 0 0 0 0# Emulation value# mm/min, mm/hr, mmEmulation = 12.0# A/D CalibrationADCAL = 2.0 0.0# CorrectionsCOR = 10.0702 0.162426

[LWR22]SENSOR = Long Wave RadiationMODEL = PIRSERIAL = 34955F3MFG = Eppley LabsCAL_LAB = EppleyCAL_DATE = 04 Feb. 2010LOCATION = Helo Hangar CrossbarOWNER = SIO/STSINSTALL_DATE = 06 Apr. 2010DCC = TRUESAMOS_LD=H# ADAM 4118 Module# CH 0 PIR Thermopile# CH 1 PSP Thermopile# CH 2 LWR Dome# CH 3 LWR BodyCMD = VLT# Module setup parametersMSP = 12 8 0 0 10 0 3 4 5 2 0 0 0 0 0MCP = 1 0 4 0 9 9 3 8 0 0 0 0# Emulation valuesEmulation = 0.5 0.51 0.114# A/D CalibrationADCAL = 1.0, 0.0# Corrections for Dome Glass Temp sensorCOR = 5.0, 82500, 0.0010295, 0.0002391, 1.568e-7, 1.0, 0.0# Corrections for Body Temp sensorCOR2 = 5.0, 82500, 0.0010295, 0.0002391, 1.568e-7, 1.0, 0.0# Eppley correction factors# Thermopile Slope Offset to get the value (in uv)COR3 = 1000.0, 0.0# Cal Factor, absorption/dome glass IR (IMET=2.0, Stock Eppley=3.5)COR4 = 3.25e-6 3.5

[SWR22]SENSOR = Short Wave RadiationMODEL = PSPSERIAL = 35032F3MFG = Eppley LabsCAL_LAB = EppleyCAL_DATE = 04 Feb. 2010LOCATION = Helo Hangar CrossbarOWNER = SIO/STSINSTALL_DATE = 06 Apr. 2010


45

DCC = TRUESAMOS_LD=H# Module addressCMD = VLT# Module setup parametersMSP = 12 8 0 0 10 0 8 3 0 0 0 0 0 0 0MCP = 1 0 1 0 26 0 0 0 0 0 0 0# Emulation valueEmulation = 10.0# A/D CalibrationADCAL = 1.0, 0.0# Slope, Offset, Cal FactorCOR = 0.001, 0.0, 8.17e-6

[PAR22]SENSOR = Surface PARMODEL = QSR-2200SERIAL = 20270MFG = Bisopherical InstrumentsCAL_LAB = Bisopherical InstrumentsCAL_DATE = 08-April-2010LOCATION = Helo Hangar CrossbarINSTALL_DATE = 03-May-2010OWNER = SIO/STSDCC = TRUESAMOS_LD=HCMD = VLT# Module setup parametersMSP = 12 8 0 0 10 0 1 1 0 0 0 0 0 0 0MCP = 1 1 1 0 13 0 0 0 0 0 0 0#Emulation valueEmulation = 1.0AVGTYPE = 1SECSTOAVG = 30.0# AD Volts Module DGH D5132# A/D CalibrationADCAL = 1.0, 0.0# Corrections Surface PAR V/(MicroEinsteins/sec/cm2)# Output in Air 0.01509 *10000 / Probe Net Response 0.095883# Slope, Offset, scaleCOR = 1573.79, 0.0, 1.0

[WND25]SENSOR = WINDMODEL = 85004SERIAL = 00703MFG = RM YoungCAL_LAB = RM YoungCAL_DATE = 20-Sep-07LOCATION = Helo Hangar CrossbarOWNER = SIO/STSINSTALL_DATE = 02-Feb-2009DCC = TRUESAMOS_LD=H


46

LABELS-SC=A RWS, A RWD, A TWS,A TWDLABELS-TAB=Aft RelWS, Aft RelWD, Aft TrueWS,Aft TrueWD# Module address# Module setup parametersMSP = 12 8MCP = 1 1 4 0 0 0 19 20 0 0 0 0# Emulation valueEmulation = 6.0 10.0AVGTYPE=1 2 0 0SECSTOAVG=60.0# A/D CalibrationADCAL = 1.0 0.0# Corrections Wind SpeedCOR = 0.51444, 0.0# Corrections Wind DirectionCOR2 = 1.0, 0.0

[FLW25]SENSOR = FlowMeterMODEL = P51530-POSERIAL = 60012089621MFG = Signet# Module address# Module setup parametersMSP = 12 8MCP = 1 1 4 0 0 0 19 20 0 0 0 0# Emulation valueEmulation = 6.0 10.0AVGTYPE=1 2 0 0SECSTOAVG=15.0# A/D CalibrationADCAL = 1.0 0.0# Corrections Wind SpeedCOR = 0.51444, 0.0# Corrections Wind DirectionCOR2 = 1.0, 0.0

[WND26]SENSOR = WINDMODEL = 85004SERIAL = 00704MFG = RM YoungCAL_LAB = RM YoungCAL_DATE = 20-Sep-07LOCATION = Main Mast yardarmOWNER = SIO/STSINSTALL_DATE = 25-Jan-2008DCC = TRUESAMOS_LD=MLABELS-SC=Mid RWS, Mid RWD, Mid TWS,Mid TWDLABELS-TAB=Mid RelWS, Mid RelWD, Mid TrueWS,Mid TrueWD# Module address# Module setup parametersMSP = 19 8


47

MCP = 1 1 4 0 0 0 19 20 0 0 0 0# Emulation valueEmulation = 6.0 10.0AVGTYPE=1 2 0 0SECSTOAVG=60.0# A/D CalibrationADCAL = 1.0 0.0# Corrections Wind SpeedCOR = 0.51444, 0.0# Corrections Wind DirectionCOR2 = 1.0, 0.0

[TSG22]SENSOR = ThermosalinographMODEL = SBE45SERIAL = 0228MFG = SeabirdCAL_LAB = SeabirdCAL_DATE = 20 Feb. 2010LOCATION = Bio/Chem LabINSTALL_DATE = 11-APR-2010OWNER = SIO/STSDCC = TRUESAMOS_LD=W# Module setup parametersMSP = 4 3 0 0 10 0 2 1 2 0 0 0 0 0 0MCP = 1 1 6 0 0 0 16 17 18 35 0 0# Emulation valueEMULATION = 9.0 3.8AVGTYPE=1 1 0 0 0SECSTOAVG=60.0# A/D CalibrationADCALTYPE = 0 3ADCAL = 1.0 0.0ADCAL2 = 10.0 0.0# polynomial max coeffecients 8# Temp corrections# a0, a1, a2, a3COR = 1.0, 0.0# g,h,i,j,CPcor,CTcor,WBOTCCOR2 = 1.0, 0.0# Nominal Pressure at TSGCOR3 = 0.0

[SST22]SENSOR = Sea Surface TemperatureMODEL = SBE3SSERIAL = 4063MFG = SeabirdCAL_LAB = SeabirdCAL_DATE = Jan09LOCATION = UCW IntakeOWNER = SIO/STSINSTALL_DATE = 26-Jan-09


48

DCC = TRUESAMOS_LD=ICMD = $v\rRANGE = -1000000.0 1000000.0#DGH D1602 1-20Khz RS485# Module setup parametersMSP = 3 1 0 0 10 0 1 1 0 0 0 0 0 0 0MCP = 1 1 1 0 11 0 0 0 0 0 0 0# Emulation valueEmulation = 5000.0SECSTOAVG=60.0# A/D CalibrationADCAL = 1.0 0.0# g,h,i,j,f0,slope,offsetCOR = 4.29954091e-3 6.37146260e-4 2.12509560e-5 1.65873526e-6 1000.0 1.0 0.0

[SST23]SENSOR = Sea Surface TemperatureMODEL = SBE3SSERIAL = 2694MFG = SeabirdCAL_LAB = SeabirdCAL_DATE = 30 Mar. 2010LOCATION = UCW IntakeOWNER = SIO/STSINSTALL_DATE = 10 Apr. 2010DCC = TRUESAMOS_LD=ICMD = $v\rRANGE = -1000000.0 1000000.0#DGH D1602 1-20Khz RS485# Module setup parametersMSP = 3 1 0 0 10 0 1 1 0 0 0 0 0 0 0MCP = 1 1 1 0 11 0 0 0 0 0 0 0# Emulation valueEmulation = 5000.0SECSTOAVG=60.0# A/D CalibrationADCAL = 1.0 0.0# g,h,i,j,f0,slope,offsetCOR = 4.31955279e-3 6.18022494e-4 1.96620446e-5 1.55917127e-6 1000.0 1.0 0.0

[FLW22]SENSOR = FlowMeterMODEL = C-ES45-B003SERIAL = 09061005MFG = FlocatCAL_LAB =STSCAL_DATE = 07-Jan-2008LOCATION = TSG Flow - Bio/Chem LabOWNER = SIO/STSCMD = #010\r#ADAM 4080 CH0# Module setup parameters


49

MSP = 3 17 0 0 13 0 1 1 0 0 0 0 0 0 0MCP = 1 1 1 0 3 0 0 0 0 0 0 0#AVGTYPE=1#SECSTOAVG=60.0# Emulation valueEmulation = 2.0# A/D CalibrationADCAL = 1.0 0.0# Corrected K factor 3/8" 910 Pulses Per Liter Coef=1.0/(910*(1/60))COR = 6.6e-2, 0.0

[FLW23]SENSOR = FlowMeterMODEL = C-ES45-B003SERIAL = 02030692MFG = FlocatCAL_LAB =STSCAL_DATE = 07-Jan-2008LOCATION = FLO-Thru system Bio/Chem LabOWNER = SIO/STSCMD = #011\r#ADAM 4080 CH1# Module setup parametersMSP = 3 17 0 0 13 0 1 1 0 0 0 0 0 0 0MCP = 1 1 1 0 3 0 0 0 0 0 0 0#AVGTYPE=1#SECSTOAVG=60.0# Emulation valueEmulation = 2.3# A/D CalibrationADCAL = 1.0 0.0# Corrected K factor 3/8" 310 Pulses Per Liter Coef=1.0/(310*(1/60))COR = 0.1941 0.0

[FLU22]SENSOR = FluorometerMODEL = SCFSERIAL = SCF2957MFG = SeapointCAL_LAB = SeapointCAL_DATE = 15-Dec-2007LOCATION = FLO-Thru system Bio/Chem LabINSTALL_DATE = 01-Feb-2009OWNER = SIO/STSDCC = TRUESAMOS_LD=WCMD = #020\r# ADAM 4117 CH0PRC-C = 4PRC-R = 3LABELS-TAB=Fluromtr ug/lLABELS-SC=Flu ug/l# Module setup parametersMSP = 3 2 0 0 13 0 1 1 0 0 0 0 0 0 0


50

MCP = 1 1 1 0 3 3 0 0 0 0 0 0# Emulation valueEmulation = 1.1#SECSTOAVG=60.0# A/D CalibrationADCAL = 1.0,0.0# 0-5V# 30X Range 0-5g/l COR=1.0 0.0# 10X Range 0-15g/l COR=3.0 0.0# 3X Range 0-50g/l COR=10.0 0.0# 1X Range 0-150g/l COR=30.0 0.0# Currently on 3X rangeCOR = 10.0, 0.0

[FLU23]SENSOR = FluorometerMODEL = SCUFASERIAL = 0600MFG = TurnerCAL_LAB = TurnerCAL_DATE = 15-Dec-2007LOCATION = FLO-Thru system Bio/Chem LabINSTALL_DATE = 07-Feb-2008OWNER = SIO/STSCMD = #02\rTAGS-C = FL, TBTAGS-R = FL, TBPRC-C = 4, 4PRC-R = 3, 3RANGE = -10.0 15000.0RANGE2 = -200.0 200.0# ADAM 4117 CH2 CH3# Module address# Module setup parametersMSP = 3 2 0 0 13 0 8 3 4 0 0 0 0 0 0MCP = 1 1 2 0 3 3 0 0 0 0 0 0# Emulation valueEmulation = 2.0, 6.0# A/D CalibrationADCAL = 1.0 0.0# 0-5V# 0 - 50 ug/l of chlorophyll a (SCUFA II)# 0 200 ppb of Rhodamine (SCUFA III)# 0 200 NTU (turbidity, SCUFA II or SCUFA III)COR = 10.0, 0.0COR2 = 10.0, 0.0

[FLU20]# Fluorometer #2 FL-2SENSOR = FluorometerMODEL = 10-AU-005SERIAL = 5110FXXDMFG = TurnerCAL_LAB = Turner


51

CAL_DATE = ??LOCATION = FLO-Thru system Bio/Chem LabOWNER = Calcofi 04-2003# Module setup parametersMSP = 0 3 0 0 10 0 1 7 0 0 0 0 0 0 0MCP = 1 1 1 0 0 0 0 0 0 0 0 0PRC-R = 3PRC-C = 3# Emulation valueEMULATION = 2.0# A/D CalibrationADCAL = 1.0 0.0COR = 1.0, 0.0

[OXY22]SENSOR = OxygenMODEL = SBE-43SERIAL = 1333MFG = SeabirdCAL_LAB = SeabirdCAL_DATE = 20-Jan-2009LOCATION = FLO-Thru system Bio/Chem LabINSTALL_DATE = 28-Feb-2009OWNER = SIO/STSDCC = TRUESAMOS_LD=WCMD = #021\rCMD2 = 0# ADAM 4117 CH1# Module setup parametersMSP = 3 2 0 0 13 0 1 1 0 0 0 0 0 0 0MSP2 = 4 3 0 0 10 0 1 1 0 0 0 0 0 0 0MCP = 1 1 4 0 0 0 34 23 0 0 0 0# Emulation value S=0 then 4.23ml/lEmulation = 1.744 6.0#SECSTOAVG=30.0# A/D CalibrationADCAL = 1.0, 0.0# VoffsetCOR = 0.0# Corrections Oxygen TempCOR2 = 1.0 0.0# Corrections Oxygen# soc, Voffset, Tau20, A, B, C, ECOR3 = 0.4660, -0.4960, 1.04, -1.3843e-3, 1.2053e-4, -1.9443e-6, 0.036# Soc = 0.3828#Voffset = -0.4782#Tau20 = 1.83#A = -8.3074e-04#B = 2.0208e-004#C = -3.7052e-006#E nominal = 0.036

[OXY23]


52

SENSOR = OxygenMODEL = SBE-43SERIAL = 1333MFG = SeabirdCAL_LAB = SeabirdCAL_DATE = 16 Feb. 2010LOCATION = FLO-Thru system Bio/Chem LabINSTALL_DATE = 12 Apr. 2010OWNER = SIO/STSDCC = TRUESAMOS_LD=WCMD = #021\rCMD2 = 0# ADAM 4117 CH1# Module setup parametersMSP = 3 2 0 0 13 0 1 1 0 0 0 0 0 0 0MSP2 = 4 3 0 0 10 0 1 1 0 0 0 0 0 0 0MCP = 1 1 4 0 0 0 34 23 0 0 0 0# Emulation value S=0 then 4.23ml/lEmulation = 1.744 6.0#SECSTOAVG=30.0# A/D CalibrationADCAL = 1.0, 0.0# VoffsetCOR = 0.0# Corrections Oxygen TempCOR2 = 1.0 0.0# Corrections Oxygen# soc, Voffset, Tau20, A, B, C, ECOR3 = 0.4127, -0.4837, 1.16, -1.1070e-3, 1.4105e-4, -2.1867e-6, 0.036# Soc = 0.3828#Voffset = -0.4782#Tau20 = 1.83#A = -8.3074e-04#B = 2.0208e-004#C = -3.7052e-006#E nominal = 0.036

[USP35]SENSOR = OxygenMODEL = Optode 3835SERIAL = 719MFG = AanderaaCAL_LAB = AanderaaCAL_DATE = 21-Nov-2007LOCATION = FLO-Thru system Bio/Chem LabINSTALL_DATE = 01-Feb-2008OWNER = SIOCMD = 0TAGS-C= XX XX XX XX XX XX XX XXTAGS-R= XX XX XX XX XX XX XX XXPRC-C = 2 2 2 2 2 2 2 2PRC-R = 2 2 2 2 2 2 2 2RANGE = -10000.0 10000.0


53

RANGE2 = -10000.0 10000.0RANGE3 = -10000.0 10000.0RANGE4 = -10000.0 10000.0RANGE5 = -10000.0 10000.0RANGE6 = -10000.0 10000.0RANGE7 = -10000.0 10000.0RANGE8 = -10000.0 10000.0# mmol/l Sat% Tmp Dphase Bphase Bamp Bpot RawTem# Module setup parametersMSP = 6 3 0 0 10 0 8 3 4 5 6 7 9 10 12MCP = 1 1 8 0 0 0 0 0 0 0 0 0# Emulation value#Emulation = 2500.0 2500.0 0 0 22.16 26.54Emulation = 277.04 98.12 20.22 26.90 27.40 319.97 222.0 -18.81# A/D CalibrationADCAL = 1.0, 0.0COR = 0.0COR2 = 0.0COR3 = 0.0

[OXY35]SENSOR = OxygenMODEL = Optode 3835SERIAL = 719MFG = AanderaaCAL_LAB = AanderaaCAL_DATE = 21-Nov-2007LOCATION = FLO-Thru system Hydro LabINSTALL_DATE = 01-Feb-2008OWNER = SIOTAGS-C= OT OC OX OSTAGS-R= OT OCPRC-C = 3 3 3 3PRC-R = 3 3RANGE = -10000.0 10000.0RANGE2 = -10000.0 10000.0RANGE3 = -10000.0 10000.0RANGE4 = -10000.0 10000.0DELIMITERS = \t \s :# Module setup parametersMSP = 6 3 0 0 10 0 11 9 5 0 0 0 0 0 0MCP = 1 1 4 0 0 0 31 23 0 0 0 0# Emulation value#Emulation = 2500.0 2500.0 0 0 22.16 26.54Emulation = 22.16 26.54 0 0 0 0 0# A/D CalibrationADCAL = 1.0, 0.0

[XMS22]SENSOR = TransmissometerMODEL = CstarSERIAL = ?? MFG = WetlabsCAL_LAB = Wetlabs


54

CAL_DATE = ???LOCATION = FLO-Thru system Bio/Chem LabOWNER = ???INSTALL_DATE = ??# Wetlabs Cstar# Module addressCMD = #l\r# Module setup parametersMSP = 3 3 0 0 10 0 1 1 0 0 0 0 0 0 0MCP = 1 1 2 0 3 24 0 0 0 0 0 0# Emulation valueEmulation = 2500.0# A/D CalibrationADCAL = 1.0 0.0COR = 20.0, 0.0COR2 = 0.25

[USP22]SENSOR = NITRATEMODEL = ISUSSERIAL = 141MFG = MBARICAL_LAB = SATLANTICCAL_DATE = 06-JULY-2008LOCATION = FLO-Thru system Bio/Chem LabINSTALL_DATE = 01-Feb-2008OWNER = NOAATAGS-C = XXTAGS-R = XXPRC-C = 3PRC-R = 3LABELS-TAB = ISUSLABELS-SC = ISUSCMD = #024\r# ADAM 4117 CH4# Module address# Module setup parametersMSP = 3 2 0 0 13 0 1 1 0 0 0 0 0 0 0MCP = 1 1 1 0 13 0 0 0 0 0 0 0#AVGTYPE=1#SECSTOAVG=60.0# Emulation valueEmulation = 3.0# A/D CalibrationADCAL = 1.0,0.0COR = 27.1177685950413, -8.38972107438016

[IST01]SENSOR = CTD DepthMODEL = SBE11SERIAL = XXXXMFG = SeabirdCAL_LAB = n/aCAL_DATE = n/a


55

LOCATION = 01 LabOWNER = SIO/STS# Module addressCMD = 0# CTD Depth, Rate of descent, AltimeterTAGS-C = IP, IV, IATAGS-R = IP, IV, IAPRC-C = 2, 4, 1PRC-R = 2, 4, 1RANGE = -10.0 15000.0RANGE2 = -200.0 200.0RANGE3 = -10.0 500.0# Module setup parametersMSP = 18 3 0 0 10 0 3 1 2 3 4 5 0 0 0MCP = 0 1 3 0 0 3 0 0 0 0 0 0AVGTYPE=0 1 0SECSTOAVG=10.0# Emulation Value# Depth, Speed, AltimeterEmulation = 1500.0 0.95 45.0# A/D CalibrationADCAL = 1.0 0.0# Corrections COR = 0.0 0.0COR2 = 60.0 0.0COR3 = 0.0 0.0

[NME23]SENSOR = GPSMODEL = POSMVSERIAL = MFG = Applanix - HCOCAL_LAB = n/aCAL_DATE = n/aLOCATION = HealyINSTALL_DATE = OWNER = HealyDCC = TRUE# Module setup parametersMSP = 20 8AVGTYPE=0 0 0 2 1 0 0 0SECSTOAVG=60.0# Emulation ValueEmulation = 32.3456 -117.5678 4000.0 90.0 12.0 1018724200.0 25.0 220.0

[NME22]SENSOR = GPSMODEL = P-CODESERIAL = MFG = Computer LabCAL_LAB = n/aCAL_DATE = n/aLOCATION = Computer LabINSTALL_DATE =


56

OWNER = Healy# Module setup parametersMSP = 13 8#AVGTYPE=0 0 0 2 1 0 0 0#SECSTOAVG=60.0# Emulation ValueEmulation = 32.3456 -117.5678 4000.0 90.0 12.0 1018724200.0 25.0 220.0

[GYR22]SENSOR = GyroMODEL = MK37SERIAL = ???MFG = SperryCAL_LAB = n/aCAL_DATE = n/aLOCATION = BridgeINSTALL_DATE = 95OWNER = HealyDCC = TRUEADDTOFILE = FALSE# Module setup parametersMSP = 14 8AVGTYPE = 2#SECSTOAVG=60.0# Emulation ValueEmulation = 250.0

[TSG90]SENSOR = ThermosalinographMODEL = SBE21SERIAL = ????MFG = SeabirdCAL_LAB = SeabirdCAL_DATE = 22-Sep-06LOCATION = Forward TSGINSTALL_DATE = ??OWNER = ShipTAGS-R = TT TC SA SV STTAGS-C = TT TC SA SV STPRC-R = 2 3 2 2 2PRC-C = 2 3 2 2 2RANGE = -20.0 50.0RANGE2 = -20.0 80.0RANGE3 = -20.0 80.0RANGE4 = 0.0 2000.0RANGE5 = -20.0 50.0# Module setup parametersMSP = 28 15 0 0 10 0 5 5 7 8 4 6 0 0 0#MCP = 1 1 5 0 0 3 16 17 18 0 0 0MCP = 1 1 5 0 0 3 0 0 0 0 0 0# Emulation valueEMULATION = 20.0 50.0 35.0 15.0#ftsgauss 2007:114:22:02:32.2955 1518631F0A993122E47D 1434.63 1.08 -1.64 2.60 29.87 # 1434.63 = sound velocity


57

# 1.08 = TSG Temp sensor (SBE21)# -1.64 = TSG Hull Temp sensor# 2.60 = TSG Conductivity# 29.87 = TSG Salinity #AVGTYPE=1 1 0 0 0#SECSTOAVG=60.0# A/D CalibrationADCAL = 1.0 0.0# polynomial max coeffecients 8# Temp corrections# a0, a1, a2, a3COR = 1.0, 0.0# g,h,i,j,CPcor,CTcor,WBOTCCOR2 = 10.0, 0.0

[NME02]SENSOR = GPSMODEL = GPSSERIAL = ??MFG = GPSCAL_LAB = n/aCAL_DATE = n/aLOCATION = ShipINSTALL_DATE = ??OWNER = Ship# Module setup parametersMSP = 27 14# Emulation ValueEmulation = 32.3456 -117.5678 4000.0 90.0 12.0 1018724200.0 25.0 220.0

[GYR01]SENSOR = GyroMODEL = MK37SERIAL = ???MFG = SperryCAL_LAB = n/aCAL_DATE = n/aLOCATION = BridgeINSTALL_DATE = 95OWNER = ShipDCC = TRUEADDTOFILE = TRUE# Module setup parametersMSP = 20 8# Emulation ValueEmulation = 250.0

[PDR02]SENSOR = DepthMODEL = Seabeam 2100SERIAL = MFG = SeabeamCAL_LAB = n/aCAL_DATE = n/a


58

LOCATION = Computer LabINSTALL_DATE = COMMENT = Center Beam DepthOWNER = ShipDCC = TRUECMD = SBCTR# Module setup parametersLABELS-TAB=KnudsenLABELS-SC=KnudsenMSP = 29 14# Emulation Value#Emulation = $SBCTR,2007,4,24,20:55:13.890,59.929585,-170.380448,44.44,20*00Emulation = 1021.2# A/D CalibrationADCAL = 1.0 0.0# Corrections COR = 0.0

[PDR03]SENSOR = DepthMODEL = KnudsenSERIAL =MFG = KnudsenCAL_LAB = n/aCAL_DATE = n/aLOCATION = Computer LabINSTALL_DATE =COMMENT = Knudsen DepthOWNER = Ship# Module setup parametersLABELS-TAB=SeabeamLABELS-SC=SeabeamMSP = 30 15 0 0 10 0 1 11 0 0 0 0 0 0 0MCP = 0 1 1 0 0 0 0 0 0 0 0 0EMPTY_TOKS=TRUE# Emulation ValueEmulation = 1021.2# A/D CalibrationADCAL = 1.0 0.0# CorrectionsCOR = 0.0

[ASH01]SENSOR = AttitudeMODEL = ADU2SERIAL = ??MFG = AshtechCAL_LAB = n/aCAL_DATE = n/aLOCATION = ShipOWNER = ShipINSTALL_DATE = ??# Module setup parametersMSP = 27 14


59

#AVGTYPE = 2 0 0#SECSTOAVG = 30.0# Emulation ValueEmulation = 270.0 10.0 5.0

[WCH01]SENSOR = Winch ReadoutsMODEL = MarkeySERIAL = OT-1MFG = CAL_LAB = n/aCAL_DATE = n/aLOCATION = CTD wireOWNER = HealyADDTOFILE = TRUECMD = 0# Module setup parametersMSP = 15 3 0 0 10 0 8 4 6 2 0 0 0 0 0MCP = 0 1 3 0 0 0 0 0 0 0 0 0DELIMITERS=,# Emulation ValueEmulation = 1500.0 59.0 2350.0# A/D CalibrationADCAL = 1.0 0.0# Corrections COR = 1.0 0.0

[WCH02]SENSOR = Winch ReadoutsMODEL = MarkeySERIAL = OTW2MFG = CAL_LAB = n/aCAL_DATE = n/aLOCATION = Aft A-Fram wireOWNER = HealyADDTOFILE = TRUECMD = 0# Module setup parametersMSP = 16 3 0 0 10 0 8 4 6 2 0 0 0 0 0MCP = 0 1 3 0 0 0 0 0 0 0 0 0DELIMITERS=,# Emulation ValueEmulation = 1500.0 59.0 2350.0# A/D CalibrationADCAL = 1.0 0.0# Corrections COR = 1.0 0.0

[TSG07]SENSOR = ThermosalinographMODEL = SBE21SERIAL = 3107MFG = Seabird


60

CAL_LAB = SeabirdCAL_DATE = 16-Jan-08LOCATION = AFT LAB-UCW lineOWNER = SIO/STSINSTALL_DATE = 01-Feb-2008# Module setup parametersMSP = 9 6 1 0 10 0 2 1 2 0 0 0 0 0 0MCP = 1 0 6 0 11 12 16 17 18 35 0 0# Emulation values T=18.5 C=46.1270 S=34.7685Emulation = 3459.333 9953.81# A/D CalibrationADCAL = 1.0 0.0# Temp Corrections# G, H, I, J, F0, Slope, OffsetCOR = 4.17247463e-003 6.20503326e-004 1.84513429e-005 1.06226845e-006 1000.0 1.0 0.0# Cond Corrections# G, H, I, J, Ctcor, Cpcor, Slope, OffsetCOR2 = -4.30844123e+000 5.08760573e-001 -4.37311950e-004 4.71047367e-005 3.25e-06 -9.57e-08 1.0 0.0

[PRS22]SENSOR = PressureMODEL = Hiller1SERIAL = 001PMFG = HillerCAL_LAB = HillerCAL_DATE = 15-Dec-2007LOCATION = FLO-Thru system Bio/Chem LabINSTALL_DATE = 01-Feb-2008OWNER = SIO/STSCMD = #026\r# ADAM 4117 CH6# Module setup parametersLABELS-TAB=Prs PSILABELS-SC=Prs PSIMSP = 3 2 0 0 13 0 1 1 0 0 0 0 0 0 0MCP = 1 1 1 0 3 0 0 0 0 0 0 0# Emulation valueEmulation = 2.6AVGTYPE = 1SECSTOAVG = 15.0# A/D CalibrationADCAL = 1.0,0.0COR = 10.0, 0.0

C.1.1.2. Meteorology & Radiometers

Table C.1. Meteorology & Radiometers

Sensor Description Serial # Last Calibration Date Status

Port Anemometer RM Young 09101 L001 02/06/07 Collected

Stbd Anemometer RM Young 09101 L003 03/07/07 Collected


61

Sensor Description Serial # Last Calibration Date Status

Bridge Air Temperature RM Young 26700 1643 02/22/08 Collected

Bridge Barometer & Rel.Hum.

RM Young 26700 13352 02/09/10 Collected

HCO PAR BSI QSR-2200 20270 08-April-2010 Collected

HCO Shortwave Radiation Eppley Labs PSP 35032F3 06 Apr. 2010 Collected

HCO Longwave Radiation Eppley Labs PIR 34955F3 04 Feb. 2010 Collected

HCO Barometer, AirTemperature & Rel. Hum,

Paroscientific MET3A 101757 06/27/07 Collected

Jack Staff Air Temperature RM Young 41342LC 15166 03/20/10 Collected

Jack Staff UltrasonicAnemometer


Starboard Yard ArmUltrasonic Anemometer


C.1.1.3. Underway Ocean Sensors

Table C.2. Underway Ocean Sensors

Sensor Description Serial # Last CalibrationDate

Status

TSG SeaBird SBE45 0228 02/20/10 Collected

SSW Intake SeaTemp

SeaBird SBE3S 4063 01/??/09 Collected

Flowmeter at TSG Flocat C-ES45-B003

09061005 01/07/08 Collected

Fluorometer at TSG Seapoint SCF SCF2957 12/15/07 Collected

Oxygen Sensor atTSG

SeaBird SBE-43 1333 02/16/10 Collected

Water Pressure atTSG

Hiller1 001P 01/16/08 Collected

Flowmeter BowIncubators

Signet P51530-PO 60012089621 01/07/08? Collected

Temperature BowIncubators

Seabird SBE3S 2694 03/30/10 Collected

C.1.1.4. Sonars

Table C.3. Sonars


Status

Knudsen -subbottom

320 B/R K2K-00-0013 N/A Collected

RDI OS150 ADCP Ocean Sureyor 80 N/A Collected


62


Status

RDI OS75 ADCP Ocean Sureyor 172 N/A Collected

Multibeam EM122 1º x 2º 106 N/A Collected

C.1.1.5. Navigation

Table C.4. Naigation


Status

P-Code GPS (aft) Trimble Centurion 0220035469 N/A Collected

3D GPS Thales (Ashtech)ADU5

AD520033513 N/A Collected

DGPS Trimble AG132 0224016199 N/A Collected

POS/MV-320 Version 4 SingleFrequency (L1)

2306 May 2010 Collected

POS/MV-320 Version 4 DualFrequency (L1,L2)

Not Collected

P-Code GPS (fwd) Rockwell ? N/A Collected

GYRO 1 Sperry MK39 PN03956-1982416-2

340 ? Collected

GYRO 2 Sperry MK27A4800880-1

025 N/A Collected

C.1.2. CTD Sensors from HLY0902

Table C.5. CTD Sensors

Sensor Comments Serial # Last service /Calibration Date

Status

CTD fish SBE 911plus 639 01/18/08

Pressure Sensor #1 Digiquartz with TC 83012 01/18/08 Collected

Temperature #1 SBE3- Primary 2855 01/21/08 Collected

Temperature #2 SBE3- Secondary 2796 01/27/08 Collected

Conductiity #1 SBE4- Primary 2619 12/14/07 Collected

Conductiity #2 SBE4- Secondary 2545 12/14/07 Collected

Pump SBE5 Primary 3115 01/08 NA

Pump SBE5 Secondary 3112 01/08 NA

Deck Unit SBE 11-Plus 2 0417 12/07 NA

Altimeter PSA916 843 01/08 Collected

Oxygen SBE43 459 12/12/07 Collected

Fluorometer Chelsea-Aquatrack3

088234 03/07 Collected


63

Sensor Comments Serial # Last service /Calibration Date

Status

Transmisometer Wetlabs CST-390DR 01/08 Collected

PAR BioshpericalQSP2300

70115 01/07 Collected

Carousel SBE32- 12 place 347 01/08 NA

C.1.3. Software Versions of some data acquisition andcontrol software

This section correctly reflects information about some of the key software packages used during this cruise.

Table C.6. Software Versions of some Recording Programs

System Program Version number

CTD Seabird SeaSave 7.20c

XBT Turo XBT software (not usedduring this cruise)

3.03.01

XBT Sippican MK21 2.1.2

ADCP 75 VMDAS (not used during thiscruise)

1.46

ADCP 150 VMDAS (not used during thiscruise)

1.46

ADCPs UHDAS June 2010 Version

POS/MVs MV-Posview 5.1.0.2

EM122 SIS 3.7 Beta Build 90 DBVersion 18.0

NOAA SCS Acquistion SCS 4.2

SIO Met/TSG MetAcq 2.04e

Terascan/WDS WDS

Lamont Data System LDS May 2010

64

Appendix D. Calibrations

D.1. Calibration Sheets

D.1.1. Meteorology & Radiometer Sensors

D.1.1.1. Yard Arm R.M. Young Wind Bird

Calibrations

65

D.1.1.2. Yard Arm R.M. Young Wind Bird

Calibrations

66

D.1.1.3. Bridge Barometer

Calibrations

67

D.1.1.4. Bridge Air Temperture / Relative Humidity

Calibrations

68

D.1.1.5. HCO PAR

The data file for the HCO PAR sensor is not currently available.

D.1.1.6. HCO Shortwave Radiation Pyranometer

This is an old Calibration Sheet since the current PDF file is PSP-35032F3-CAL-2010-Feb-04.pdf notreadable.

Calibrations

69

D.1.1.7. Longwave Radiation Pyrgeometer

Calibrations

70

D.1.1.8. HCO MET3A Station

D.1.1.9. Jack Staff Air Temperature

No Calibration Sheet is available.

D.1.1.10. Jack Staff Ultrasonic Anemometer


D.1.1.11. Starboard Yard Arm Ultrasonic Anemometer


D.1.2. Underway Ocean Flow through SensorsThe following is a list of the calibration sheets for the sensors in the Healy's Science Seawater system.

431333 Final cal.pdfSBE3 T4063 18Feb10.pdf

Calibrations

71

SBE45 C0228 20Feb10.pdfSBE45 T0228 20Feb10.pdf

Scanned copies of the calibration sheets follow.

Calibrations

72

Calibrations

73

Calibrations

74

Calibrations

75

Calibrations

76

D.1.3. Gravimeters

D.1.3.1. BGM 221

This is the most current Calibration Sheet available.

D.1.3.2. BGM 222

This is the most current Calibration Sheet available.

Calibrations

77

78

Appendix E. Instrument Locations onthe Healy

E.1. Instrument Locations on the Healy

E.1.1. Layout plot of instrument locations

This layout should NOT to be used for exact measurements. It is included here for getting a generalunderstanding of instrument locations on the ship. This version is current as of 2007.

Instrument Locations on the Healy

79


80

E.1.2. Table of Survey measurements

Table E.1. Table of Survey measurements

Consolidated Survey Data

Elements of:

AvondaleSurvey

WestlakeSurvey

LamontSurvey

Meters relative to MRP unless otherwise stated

X = fore & aft with + foreward

Y = port & starboard with + to starboard

Z= vertical with + upwards

X Y Z

Item Survey Description North East Elevation

1 Avondale MRP SeediscussionWestlakeFinalReport

34.30 0.00 9.15

2 Westlake MRP byDefinition

0.00 0.00 0.00

3 Westlake EM122

TransverseArray

Centerline -7.679 0.030 9.242

LongitudinalArray

Centerline -4.386 0.711 9.238

4 Westlake Transducers

Starboard -Forward toAft

Transducer-

Bathy 20003.5 kHz

-10.252 1.362 9.243

Transducer-

Bathy 150034 kHz *

-11.866 1.559 9.245

Transducer-

DopplerSpeed Log

-12.168 0.414 9.245

Transducer-

SpareTransducerWell

-13.081 1.449 9.237


81


5 Westlake Port -Forward toAft

Transducer-

VM 150 -9.726 -1.395 9.230

Transducer-

OceanSurveyor75 kHz

-10.819 -1.290 9.230

Transducer-

Bathy 200012 kHz

-11.859 -1.492 9.234

Transducer-

SpareTransducerWell

-13.078 -1.394 9.235

6 Westlake Gyros

StarboardGyro

Centerline 4.741 0.207 -19.604

Port Gyro Centerline 4.746 -0.207 -19.609

7 Westlake Antennas

REF DWGTBD

Antenna9-4 * - GPSAntenna(4.1.5)

4.587 -6.622 -24.000

Antenna4-6 * -NorthstarGPS (4.1.1)

9.374 -4.970 -23.406

Antenna4-2 * -Northstar(4.1.2)

9.362 -3.617 -23.451

P CODEGPSAntenna *

9.368 -2.645 -23.609

Antenna4-3 * -Northstar(4.1.4)

9.355 3.638 -23.363

GLONASGPSAntenna*

9.379 5.066 -23.515

Antennabase (4A)

-53.872 -0.011 -22.025

Antennabase (4B)

-49.758 0.038 -22.010


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Antennabase (4C)

-49.785 1.629 -22.020

Antennabase (4D)

-49.771 -1.546 -22.008

TrimbleCenturion**

-52.726 -1.717 -21.113

TimeServer **

-52.671 1.838 -21.115

8 Westlake VerticalRef

MRV-M-MV -

Measuredat Top ofmountingbracket

Center(mid-point)- calculated

-2.100 0.291 -0.775

TSS 333B- MarineMotionSensor -

scribe atopmountingplate

Center ofTSS 333B

1.210 0.329 -0.013

9 LDEO POS/MV

From TO X Y Z

IMU PortAntenna(Master)

-2.9719 -3.9140 -5.5310

MRP IMU -49.5710 1.7110 -16.7990

MRP Transmitarray

-4.3860 0.7110 9.2380

MRP PortAntenna(Master)

-52.5429 -2.2030 -22.3300

10 WestlakeRaw

Fan Tail

Aft/Port -86.737 -4.906 -3.617

Forward/Port

-77.600 -4.881 -3.589


83


Forward/Starboard

-72.590 6.676 -3.653

84

Appendix F. Revision HistoryF.1. Revision History

Table F.1. Revision History of the Healy Data Description Summary Document

Date Version editor Comment

- - Tom The original version waspart of the mondo MS-Word file

August 1-6, 2009 2.01 Dale Converted to XMLand DocBook 5.0 forHLY0904 (Pickart)

June 2010 - Tom Added the remainingsection of thereport. Converted fromMicrosoft WORD to xml

July 20, 2010 - Dale Migrate to a less cruise-id-specific version

$Date$ $Rev$ $Author$ Migrate into Subversion

Although the science component of many cruises on the Healy, including this one, are funded fromvarious sources, science technical support is largely funded by the Arctic Section of the US NationalScience Foundation Office of Polar Programs through grants to the Lamont-Doherty Earth Observatoryof Columbia University, the University Corporation for Atmospheric Research, the Woods HoleOceanographic Institution, Scripps Institution of Oceanography, and through congressionally mandatedbudget authority for the US Coast Guard polar icebreakers.

The opinions contained in this document are those of the authors and do not represent the official positionsof any organization.

This document was authored using SynchroSoft Oxygen Version 11.2 and a DocBook V5 DTD.

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