﻿CRUISE REPORT: AR07E
(Updated APR 2015)







Highlights


                          Cruise Summary Information

               Section Designation  AR07E (aka: 64PE312)
Expedition designation (ExpoCodes)  64PE20090924
                  Chief Scientists  Hendrik M. van Aken / NIOZ
                             Dates  2009 SEP 24 - 2009 PCT 13
                              Ship  RV Pelagia
                     Ports of call  Scheveningen to Galway 

                                                  59° 56.88' N
             Geographic Boundaries  42° 45.19' W                 9° 0' W
                                                  52° 27.94' N

                          Stations  42
      Floats and drifters deployed  0
    Moorings deployed or recovered  1 deployed, 1 recovered

                             Contact Information:

                           Dr. Hendrik M. van Aken
                    Netherlands Institute for Sea Research
            P.O. Box 59 • 1790AB Den Burg/Texel • The Netherlands 
         Tel: 31(0)222-369416 • Fax: 31(0)222-319674 • aken@nioz.nl




































                         RV Pelagia Shipboard Report:

                         Cruise 64PE312, Project THOR


                                 H.M. van Aken
                                Chief Scientist


THOR 2009

                NIOZ  Royal Netherlands Institute for Sea Research

                                  Texel, 2009



















Table of contents


nr.  Chapter                                                              page

     Acknowledgements                                                       3

1    Cruise Narrative                                                       4
1.1  Highlights                                                             4
1.2  Cruise Summary Information                                             4
1.3  List of Principal Investigators                                        5
1.4  Scientific Programme and Methods                                       5
1.5  List of Cruise Participants                                            6

2    Underway Measurements                                                  7
2.1  Navigation                                                             7
2.2  Echo Sounding                                                          7
2.3  Thermo-Salinograph Measurements                                        7
2.4  Meteorological data                                                    7
2.5  Vessel mounted ADCP measurements                                       7

3    Hydrographic Measurements -Descriptions, Techniques, and Calibrations  8
3.1  Conductivity-temperature-depth probe (CTD)                             8
3.2  Reference temperature measurements                                     8
3.3  Data Management                                                        8

4    Preliminary Results                                                    9
4.1  The Irminger Sea                                                       9
4.2  The Iceland Basin                                                     10
4.3  The Rockall Trough                                                    11

     Appendix A (cruise summary file)                                      12
       Description of the parameters in *.CTD files                        17
     Appendix B (mooring summary file)                                     22





                               Acknowledgements

                        The research reported here has 
                        received funding from the European
                        Community's 7th framework
                        programme (FP7/2007-2013) under
                        grant agreement No. GA212643
                        (THOR: "Thermohaline Overturning –
                        at Risk", 2008-2012) and also
                        contributes to the Dutch CLIVARNET
                        Atlantic Monitoring Programme
                        (CAMP). The moored equipment was
                        funded by the LOCO investment
                        programme of the Netherlands
                        Foundation for Scientific Research
                        (NWO).





1  Cruise Narrative

1.1  Highlights

a: Goals: The re-survey of former WOCE Hydrographic Program Repeat Section
   A1/AR7E between Ireland and Greenland with an additional section near
   Ireland and the recovery and deployment of a long term mooring in the
   Irminger Sea as part of the EU THOR programme.

b: Expedition Designation (EXPOCODE): 64PE312

c: Chief Scientist: Dr. Hendrik M. van Aken
   Netherlands Institute for Sea Research (NIOZ)
   P.O. Box 59
   1790AB Den Burg/Texel
   The Netherlands
   Telephone: 31(0)222-369416
   Telefax: 31(0)222-319674
   e-mail: aken@nioz.nl

d: Ship: RV Pelagia, Call Sign: PGRQ, Captain: Mr. John Ellen
   length 66 m.
   beam 12.8 m
   draft 4 m
   maximum speed 11 knots

e: Ports of Call: Scheveningen to Galway

f: Cruise dates: September 24 2009 to October 13 2009


1.2  Cruise Summary Information

Summary

In the evening of Thursday 24 September, RV Pelagia left Scheveningen and set 
course to the position in the Irminger Sea where the LOCO2 profiling mooring 
has been be recovered and re-deployed. After leaving port the underway 
recording system for navigational, meteorological, ADCP, and sea surface data 
was activated. After the mooring activities a CTD survey was carried out 
along the AR7E section between Greenland and Ireland, and along an additional 
small section near Ireland. On October 13 RV Pelagia entered the port of 
Galway.

Cruise Track

The cruise was carried out in the northern North Atlantic Ocean. The cruise
track is shown in figure 1


Figure 1: Cruise track of Pelagia cruise 64PE312, from Scheveningen 
          (Netherlands) to Galway (Ireland).


Mooring Deployments

Mooring LOCO2-6 was recovered after which mooring LOCO2-7 was deployed on 
October 2. The mooring operations took place during daytime. The position of 
the deployment of LOCO2-7 is: 59°12.21'N, 39°30.49'W (cross in Figure 2), the 
deployment time is 17:44 UTC. During the last 10 minutes before deployment

Pelagia has followed a course over ground in the direction of 314° relative 
to North. Both LOCO2-6 and 2-7 are profiling moorings, fitted with a 
McLane/FSI CTD profiler, two RDI Long Ranger ADCPs and an SBE Microcat CTD. 
They were deployed at a depth of about 3000 m at the foot of the East 
Greenland slope, approximately in the centre of the Irminger Gyre. See also 
Appendix B.

Number of Hydrographic Stations

A total of 42 CTD casts were performed along the former WOCE AR7E section, 
and 6 stations along the additional section across the Irish continental 
slope. The location of these casts is shown in figure 2. The mutual station 
distance is about 30 nautical miles, while over steep topography that 
distance was reduced to about 15 miles. Due to adverse weather conditions a 
planned CTD station 30 miles east of the Hatton Bank had to be cancelled. 
Further information on the time, location can be found in the Cruise Summary 
File (Appendix A).


Figure 2: Hydrographic stations along the former WOCE hydrographic Program 
          section AR7E, surveyed during Pelagia cruise 64PE312.


1.3  List of principal Investigators

Name               Responsibility     Affiliation
-----------------  -----------------  ------------
Dr. H.M. van Aken  Ocean hydrography  NIOZ/Texel
Ir. R. Gelderloos  moorings           KNMI/De Bilt


1.4  Scientific Programme and Methods

The dual goal of the research carried out during the cruise was to establish 
the hydrography along a zonal section between Greenland and Ireland to allow 
the study of inter-annual hydrographic variability and to service an 
instrumented mooring in the Irminger Sea, both as part of the EU THOR 
programme, and as an extension of the CAMP monitoring programme of NIOZ.

The zonal section is the former A1E/AR7E section of the WOCE Hydrographic 
Programme, which has been surveyed near-annually since 1990. The re-survey of 
this section is carried out in order to determine climate related inter-
annual changes of the hydrographic structure in the North Atlantic Ocean.

The CTD frame was fitted with weights in order to secure a fast enough 
falling rate. This package was lowered with a velocity of about 1 m/s, except 
in the lowest 100 m where the veering velocity was reduced. Measurements 
during the down-cast went on to within 12 m from the bottom, until the bottom 
switch indicated the proximity of the bottom. During the up-cast a few 
temperature samples where taken with the SBE35 reference thermometer at 
prescribed depths, when the CTD winch was stopped.

The mooring which was recovered (LOCO2-6) and re-deployed (LOCO2-7) was 
funded as part of the Dutch Long-term Ocean Climate Observations programme 
(LOCO). This programme aims at the establishment of a monitoring system which 
records climate relevant oceanographic parameters at several locations in the 
world ocean. The moorings contain a profiling CTD which will record on a 
daily basis profiles of temperature and salinity between ~2400 and 160 m 
depth (McLane profiler). Additionally ADCPs will record the velocity profiles 
in the upper and lower 600 m. Mooring LOCO2-7 is the 7-th of a series of 
moorings, each deployed for one year in the centre of the Irminger gyre.

On board data processing of the ACDP data was carried out. From the profiler 
data preliminary ASCII files with temperature and density as functions of the 
pressure were produced. Not enough time was available for complete data 
processing, which will be carried out back at NIOZ. Because of a 
misunderstanding the Microcat was redeployed before the data were retrieved. 
These data will become available only when the mooring is recovered in 2010.

In support of the CTD observations the sea surface temperature and salinity 
were recorded continuously as well as several meteorological parameters. Also 
the currents in the upper 600 m were recorded with the vessel mounted 
acoustic Doppler current profiler (VMADCP).


1.5  Lists of Cruise Participants

Scientific crew
person            responsibility           Institute
----------------  -----------------------  ------------
H.M. van Aken     Chief Scientist          NIOZ/Texel
R. Gelderloos     Moorings & hydrowatch    KNMI/De Bilt
A.J. Asjes        Electronic engineering   NIOZ/Texel
L. Wuis           Marine engineering       NIOZ/Texel
B.A. Grijseels    Hydrowatch               IMAU/Utrecht
K.T. Frankhuizen  Hydrowatch               IMAU/Utrecht
M.L.M. Witteveen  Hydrowatch               IMAU/Utrecht
P. Bakker         Hydrowatch               IMAU/Utrecht
V. Kamphuis       Hydrowatch               IMAU/Utrecht
F. Kellerer       Irish National observer  NUI/Galway

NIOZ: Royal Netherlands Institute for Sea Research, Texe
IMAU: Institute for Marine and Atmospheric Research, Utrecht University.
MI:   Marine Institute, Galway, Ireland


Ships crew

J.C. Ellen        Captain
J. van Haaren     First Mate
E. Verheyen       Second Mate
J. Seepma         Chief Engineer
M. Frankfort      Second Engineer
S. Maas Able      Seaman
R. van der Heide  Able Seaman
J. Vitoria        Able Seaman
G. Vermeulen      Able Seaman
A. Lont           Cook
A. Popov          Steward



2  Underway Measurements

2.1  Navigation

A differential GPS receiver was used for the determination of the position. 
The data from the Sercel GPS receiver and the gyro compass were recorded 
every ten seconds in the underway data logging system. An additional Seapath 
dual antenna GPS receiver also determined the ship’s heading. Data processing 
will be carried out back at NIOZ.

2.2  Echo Sounding

The 3.5 kHz echo sounder was used on board to determine the water depth.
The uncorrected depths from this echo sounder were recorded in the underway 
data logging system.


2.3  Thermo-Salinograph Measurements

The Sea Surface Temperature and Salinity were measured continuously with
the SBE Seacat thermo-salinograph system with the water intake at a depth of
about 3 m. These sensors will be calibrated by comparison with the CTD-cast 
at 3 m.


2.4  Meteorological data

Air temperature and humidity, relative wind velocity and direction as well as
air pressure and solar radiation were measured and recorded by the underway
logging system. The connection with the solarimeter appeared to be defect.
Therefor the solar radiation data are missing from the meteorological 
records.


2.5  ADCP measurements

The 75 kHz ADCP mounted under the Pelagia has been used to collect current 
data from the Irish continental break onwards. The final processing of the 
data will take place back at Texel. The VMADCP data were collected with a 
dedicated service computer, together with the appropriate navigational data. 
Daily these data were transferred to the appropriate directory of the ships 
computer network. On board the first phase of VMADCP data processing took 
place. 



3  Hydrographic measurements - Descriptions, Techniques, and Calibrations

3.1  CTD Data Collection and Processing

A recently (August 2009) calibrated SBE 9/11+ CTD, SN-0942, has been used to 
measure temperature, salinity, and turbidity profiles. The sensors mounted on 
the CTD were an SBE3 temperature sensor SN-034384, SBE4 conductivity sensor 
SN-040995, a Digiquartz pressure sensor SN-113589, and a Wetlab CStar beam 
transmission meter SN-CST-1112DR with a path length of 25 cm.

The CTD was mounted in a special rack, which did not contain water samplers. 
The sensors of the CTD were recently calibrated by the manufacturer. To 
control the temperature measurements an SBE 35 Deep Ocean Standards 
thermometer was mounted next to the temperature sensor of the CTD. Reference 
temperature samples were taken with this thermometer in deep low-gradient 
layers.

For the data collection the new Seasave software for Windows (version V 
7.18c), produced by SBE, was used. The CTD data were recorded with a 
frequency of 24 data cycles per second. After each CTD cast the data were 
copied to a hard disk of the ship's computer network, where a daily back-up 
copy was made.

The CTD data were processed with the recently obtained calibration data, 
using the Seasoft software, also produced by SBE, and reduced to 1 dbar 
average ASCII files. These were used for the preliminary analysis of the 
data. The final data processing will be completed at Royal NIOZ, Texel.


3.2 Reference temperature measurements

Mounted on the CTD-rack was a high precision SBE35 reference temperature 
sensor, which recorded the temperature on commands given by the CTD operator. 
These SBE35 temperature data will be used to control the calibration of the 
CTD temperature sensor. The preliminary difference TSBE35-TCTD amounts to -
0.002°C (±0.001°C stdev).

 
3.3 Data Management

All raw data were copied to a cruise directory on the network computer in 
different groups of sub-directories. Subsequent processed data, final 
products, documents and figures were copied to separate sub-directories 
within the cruise directory. Back ups of the network disks were made on a 
daily basis. At the end of the cruise copies of the whole cruise directory 
have been made on portable hard-disk. By help of paper measurement forms and 
computerized data inventory files all data are tracked. A final inventory of 
the mooring activities, hydrographic stations, and the available raw data 
files was made in a cruise summary file (Appendix A).

 

4 Preliminary results

4.1 The Irminger Sea 

The θ-S diagram for the CTD stations in the Irminger Sea (Figure 3) shows 
that the most saline water in this basin is observed over the Reykjanes Ridge 
(stations 15 to 17) and over the continental slope of Greenland (stations 6 
en 7).


Figure 3: θ-S diagram for the CTD stations in the Irminger Sea, from the 
          Greenland continental shelf to the top of the Reykjanes Ridge.


After the cold winter of 2008 a cold and fresh Sub-Arctic Mode Water was 
formed in the Irminger Sea with a potential temperature of about 4.5°C and a 
salinity of 34.85. During the THOR cruise from 2009 the central Irminger Sea 
was strongly salinified compared to 2008, with sub-surface salinity maxima 
from 34.93 to 35.01 near the density levels of the 2008 Mode Water.

At the levels of the Labrador Sea Water (LSW) class or vintage, formed in 
2000, the θ-S properties hardly had changed, compared to 2007. No trace was 
found yet of the Labrador Sea Water vintage, formed by deep convection in 
2008. The high-density Labrador Sea water, formed in the cold period of 1988 
to 1994 (LSW94), still visible as a deep salinity minimum in the Irminger Sea 
in 2007, could not be recognized in 2009 from the q-S properties.

The near-bottom temperatures and salinities in the homogeneous near bottom 
layers in the western half of the Irminger Sea reflect that the temperature 
and salinity of the Denmark Strait Overflow Water is colder and less saline 
than observed during hydrographic surveys in 2007 and 2008.


Figure 4: Profiles of potential temperature, salinity, and potential density 
          anomaly from the CTD casts in the Irminger Sea.

 
The hydrographic profiles from the Irminger Sea (Figure 4) show a doming of 
the isopycnals in the cyclonic Irminger gyre (part of the sub-arctic gyre), 
with stations 8 to 10 in the centre of the gyre. These stations also show the 
lowest sub-surface salinities and temperatures. The density distribution in 
the upper 1000 m agrees with a southward baroclinic geostrophic transport 
west of station 8 relative to 1000 dbar of about 1.5 Sv (1 Sv = 106 m3/s), 
and a northward transport between station 8 and station 17 over the Reykjanes 
Ridge of about 4.4 Sv.

The deep density differences between neighbouring CTD-stations over the 
continental slope of Greenland agree with a strong bottom intensified 
southward flow of Denmark Strait Overflow Water (DSOW) along the Greenlandic 
slope. The deep density gradient between stations 15 and 17 suggest a 
northward baroclinic flow of the saline Icelandic Slope Water en the upper 
parts of the North East Atlantic Deep Water along the Reykjanes ridge.


4.2  The Iceland Basin

In the upper layers of the Iceland Basin the main difference with the 2007 
survey is a less strong gradient in the frontal zone of the North Atlantic 
Current in 2009. The range of the near surface salinity in the Iceland Basin 
is similar in both years.

 
Figure 5: θ-S diagram for the CTD stations in the Iceland Basin between the 
          Reykjanes Ridge and the Hatton Bank.


The θ-S diagram and the hydrographic profiles for the 2009 survey of the 
Iceland Basin (Figures 5 and 6) again shows a thick layer with a salinity 
minimum. This is a combination of the LSW vintages formed in 1988 to 1994 and 
in 2004. The latter occupied the deeper part of the basin and is absent west 
of 27°W. the salinity value in the salinity minimum connected with the 
LSW2000 vintage has increased with over 0.01 since 2007. the salinity increase 
of the LSW94 class since 2007 is smaller, ~0.007. The relative salinity 
maximum, connected with the intermediate saline layer between both LSW cores 
increased in salinity value, but decreased in amplitude, compare to the 
salinities of both LSW cores.

 
Figure 6: Profiles of potential temperature, salinity, and potential density 
          anomaly from the CTD casts in the Iceland Basin.

 
As in 2007 a near bottom layer of Iceland-Scotland Overflow (ISOW) water can 
be recognized as the coldest water over most of the western slope in the 
Iceland Basin. The salinity and potential temperature of this water type in 
2009 is warmer and more saline than in 2007. ISOW shows in the hydrographic 
profiles as a thick layer with near homogeneous, relatively high salinity. 
The relatively high potential density in these ISOW layers agrees with a 
baroclinic bottom intensified southward flow of ISOW over the western slope 
of the Iceland Basin. East of the deepest point in the Iceland Basin, The 
Maury Channel, the bottom density is also relatively high compared to the 
same levels at the station in the Maury Channel, indicative for a bottom 
intensified northward baroclinic flow over the slope of the Hatton Bank. The 
usual near-bottom salinity minimum due to the presence of Lower Deep Water in 
this northward flow is absent in the 2009 data.

 

4.3  The Rockall Trough

Compared to the other Irminger and Iceland Basins, the Rockall Trough does 
show less intrusive structures (Figure 7). Overall the q-S structure in 2009 
hardly differs from the structure observed in 2007. The salinity minimum near 
q = 3.2°C, connected with the presence of a core of LSW, decreased in 
salinity with only about 0.003 over the last 2 years.

 
Figure 7: θ-S diagram for the CTD stations in Rockall Trough.

 
Below the salinity minimum of the LSW core, a salinity maximum of slightly 
over 34.93 is observed at a depth of about 2700 m, related to the aged ISOW. 
Near the bottom near 2900 m on the additional CTD section a salinity minimum 
of S = 34.92 is observed, related to the presence of the upper layers of 
Lower Deep Water (LDW), extending from the Porcupine Abyssal Plain into the 
Rockall Trough. The low salinity is caused by the presence of small amounts 
of Antarctic Bottom Water in the LDW. In 2007 the LDW reached further north, 
and could also be observed at the CTD station on the AR7E section.






























Appendix A.  Cruise Summary Pelagia Cruise 64PE312


CAST TYPE
CTD        CTD cast            MOR  Mooring

EVENT CODE
BE         Begin               BO   Bottom
EN         End
RE         Recovered           DE   Deployed


SHIP/CRS. WOCE   STN CAST         DATE      TIME   EVENT  LATITUDE     LONGITUDE         UNC.   MAX     COMMENTS CTD
EXPOCODE  SECT.  NBR  NO  TYPE              UTC    CODE   Deg Min.  H  Deg Min.  H  NAV  DEPTH  PRESS                    DATA file
-------   -----  --- ---- ---- -----------  -----  -----  --- ----- -  --- ----- -  ---  -----  -----  ----------------  ---------
64PE312           01   1  CTD  28-Sep-2009  09:31  BE     52  27.96 N  15  14.30 W  GPS  1373   
64PE312           01   1  CTD  28-Sep-2009  09:36  BO     52  27.94 N  15  14.31 W  GPS  1373    203   test  ctd         PE312011  
64PE312           01   1  CTD  28-Sep-2009  09:42  EN     52  27.95 N  15  14.28 W  GPS  1373   
64PE312           02   1  MOR  02-Oct-2009  09:51  RE     59  12.00 N  39  31.54 W  GPS  3048          mooring  LOCO2-6  
64PE312           03   1  MOR  02-Oct-2009  17:44  DE     59  12.21 N  39  30.49 W  GPS  3042          mooring  LOCO2-7  
64PE312   AR7E    04   1  CTD  03-Oct-2009  08:58  BE     59  56.88 N  42  45.19 W  GPS   195   
64PE312   AR7E    04   1  CTD  03-Oct-2009  09:03  BO     59  56.87 N  42  45.15 W  GPS   196    183                     PE312041  
64PE312   AR7E    04   1  CTD  03-Oct-2009  09:10  EN     59  56.86 N  42  45.11 W  GPS   194   
64PE312   AR7E    05   1  CTD  03-Oct-2009  11:13  BE     59  53.91 N  42  15.17 W  GPS   388   
64PE312   AR7E    05   1  CTD  03-Oct-2009  11:22  BO     59  53.89 N  42  15.18 W  GPS   388    376                     PE312051  
64PE312   AR7E    05   1  CTD  03-Oct-2009  11:32  EN     59  53.92 N  42  15.18 W  GPS   388   
64PE312   AR7E    06   1  CTD  03-Oct-2009  13:24  BE     59  50.66 N  41  44.72 W  GPS  1847   
64PE312   AR7E    06   1  CTD  03-Oct-2009  14:00  BO     59  50.53 N  41  44.49 W  GPS  1853   1847                     PE312061  
64PE312   AR7E    06   1  CTD  03-Oct-2009  14:40  EN     59  50.26 N  41  44.36 W  GPS  1859   
64PE312   AR7E    07   1  CTD  03-Oct-2009  18:38  BE     59  44.68 N  40  44.61 W  GPS  2414   
64PE312   AR7E    07   1  CTD  03-Oct-2009  19:17  BO     59  44.68 N  40  44.59 W  GPS  2414   2415                     PE312071  
64PE312   AR7E    07   1  CTD  03-Oct-2009  20:05  EN     59  44.69 N  40  44.58 W  GPS  2414   
64PE312   AR7E    08   1  CTD  03-Oct-2009  23:37  BE     59  40.05 N  39  44.69 W  GPS  2807   
64PE312   AR7E    08   1  CTD  04-Oct-2009  00:26  BO     59  40.03 N  39  44.70 W  GPS  2807   2821                     PE312081  
64PE312   AR7E    08   1  CTD  04-Oct-2009  01:28  EN     59  40.07 N  39  44.60 W  GPS  2807   
64PE312   AR7E    09   1  CTD  04-Oct-2009  04:47  BE     59  34.20 N  38  46.33 W  GPS  2984   
64PE312   AR7E    09   1  CTD  04-Oct-2009  05:39  BO     59  34.20 N  38  46.33 W  GPS  2984   3006                     PE312091  
64PE312   AR7E    09   1  CTD  04-Oct-2009  06:45  EN     59  34.20 N  38  46.34 W  GPS  2984   
64PE312   AR7E    10   1  CTD  04-Oct-2009  10:20  BE     59  27.92 N  37  46.69 W  GPS  3142   
64PE312   AR7E    10   1  CTD  04-Oct-2009  11:18  BO     59  27.90 N  37  46.70 W  GPS  3142   3164                     PE312101  
64PE312   AR7E    10   1  CTD  04-Oct-2009  12:26  EN     59  27.85 N  37  46.77 W  GPS  3136   
64PE312   AR7E    11   1  CTD  04-Oct-2009  15:44  BE     59  23.48 N  36  51.24 W  GPS  3124   
64PE312   AR7E    11   1  CTD  04-Oct-2009  16:37  BO     59  23.49 N  36  51.00 W  GPS  3124   3148                     PE312111  
64PE312   AR7E    11   1  CTD  04-Oct-2009  17:42  EN     59  23.49 N  36  51.00 W  GPS  3124   
64PE312   AR7E    12   1  CTD  04-Oct-2009  21:09  BE     59  17.73 N  35  53.72 W  GPS  3118   
64PE312   AR7E    12   1  CTD  04-Oct-2009  22:02  BO     59  17.75 N  35  53.70 W  GPS  3112   3140                     PE312121  
64PE312   AR7E    12   1  CTD  04-Oct-2009  23:06  EN     59  17.78 N  35  53.78 W  GPS  3112   
64PE312   AR7E    13   1  CTD  05-Oct-2009  02:29  BE     59  11.79 N  34  56.29 W  GPS  2520   
64PE312   AR7E    13   1  CTD  05-Oct-2009  03:11  BO     59  11.81 N  34  56.20 W  GPS  2514   2528                     PE312131  
64PE312   AR7E    13   1  CTD  05-Oct-2009  04:00  EN     59  11.81 N  34  56.19 W  GPS  2514   
64PE312   AR7E    14   1  CTD  05-Oct-2009  07:47  BE     59  06.03 N  33  53.61 W  GPS  2508   
64PE312   AR7E    14   1  CTD  05-Oct-2009  08:34  BO     59  06.00 N  33  53.72 W  GPS  2514   2524                     PE312141  
64PE312   AR7E    14   1  CTD  05-Oct-2009  09:30  EN     59  06.03 N  33  53.75 W  GPS  2514   
64PE312   AR7E    15   1  CTD  05-Oct-2009  12:37  BE     59  01.35 N  33  00.25 W  GPS  2301   
64PE312   AR7E    15   1  CTD  05-Oct-2009  13:16  BO     59  01.32 N  33  00.28 W  GPS  2301   2309                     PE312151  
64PE312   AR7E    15   1  CTD  05-Oct-2009  14:02  EN     59  01.28 N  33  00.35 W  GPS  2301   
64PE312   AR7E    16   1  CTD  05-Oct-2009  17:32  BE     58  56.17 N  32  01.57 W  GPS  1786   
64PE312   AR7E    16   1  CTD  05-Oct-2009  18:01  BO     58  56.15 N  32  01.51 W  GPS  1786   1788                     PE312161  
64PE312   AR7E    16   1  CTD  05-Oct-2009  18:35  EN     58  56.14 N  32  01.52 W  GPS  1792   
64PE312   AR7E    17   1  CTD  05-Oct-2009  21:50  BE     58  50.87 N  31  06.63 W  GPS  1487   
64PE312   AR7E    17   1  CTD  05-Oct-2009  22:16  BO     58  50.90 N  31  06.74 W  GPS  1481   1486                     PE312171  
64PE312   AR7E    17   1  CTD  05-Oct-2009  22:47  EN     58  50.92 N  31  06.75 W  GPS  1481   
64PE312   AR7E    18   1  CTD  06-Oct-2009  01:52  BE     58  44.82 N  30  11.78 W  GPS  1652   
64PE312   AR7E    18   1  CTD  06-Oct-2009  02:25  BO     58  44.79 N  30  11.74 W  GPS  1682   1680                     PE312181  
64PE312   AR7E    18   1  CTD  06-Oct-2009  03:03  EN     58  44.65 N  30  11.94 W  GPS  1664   
64PE312   AR7E    19   1  CTD  06-Oct-2009  06:34  BE     58  41.01 N  29  14.02 W  GPS  2219   
64PE312   AR7E    19   1  CTD  06-Oct-2009  07:14  BO     58  40.98 N  29  13.93 W  GPS  2231   2253                     PE312191  
64PE312   AR7E    19   1  CTD  06-Oct-2009  08:04  EN     58  40.99 N  29  13.80 W  GPS  2243   
64PE312   AR7E    20   1  CTD  06-Oct-2009  11:13  BE     58  35.04 N  28  19.79 W  GPS  2103   
64PE312   AR7E    20   1  CTD  06-Oct-2009  11:51  BO     58  34.96 N  28  19.59 W  GPS  2109   2111                     PE312201  
64PE312   AR7E    20   1  CTD  06-Oct-2009  12:36  EN     58  34.86 N  28  19.64 W  GPS  2103   
64PE312   AR7E    21   1  CTD  06-Oct-2009  15:51  BE     58  30.15 N  27  24.49 W  GPS  2762   
64PE312   AR7E    21   1  CTD  06-Oct-2009  16:33  BO     58  30.20 N  27  24.40 W  GPS  2237   2232                     PE312211  
64PE312   AR7E    21   1  CTD  06-Oct-2009  17:19  EN     58  30.20 N  27  24.20 W  GPS  2237   
64PE312   AR7E    22   1  CTD  06-Oct-2009  20:18  BE     58  25.98 N  26  32.85 W  GPS  2658   
64PE312   AR7E    22   1  CTD  06-Oct-2009  21:02  BO     58  25.95 N  26  32.78 W  GPS  2664   2680                     PE312221  
64PE312   AR7E    22   1  CTD  06-Oct-2009  21:53  EN     58  25.98 N  26  32.51 W  GPS  2670   
64PE312   AR7E    23   1  CTD  07-Oct-2009  01:28  BE     58  19.78 N  25  32.49 W  GPS  2786   
64PE312   AR7E    23   1  CTD  07-Oct-2009  02:18  BO     58  20.08 N  25  33.54 W  GPS  2780   2799                     PE312231  
64PE312   AR7E    23   1  CTD  07-Oct-2009  03:19  EN     58  20.07 N  25  34.80 W  GPS  2774   
64PE312   AR7E    24   1  CTD  07-Oct-2009  07:02  BE     58  12.39 N  24  38.20 W  GPS  2798   
64PE312   AR7E    24   1  CTD  07-Oct-2009  07:51  BO     58  12.30 N  24  38.34 W  GPS  2792   2818                     PE312241  
64PE312   AR7E    24   1  CTD  07-Oct-2009  08:50  EN     58  12.35 N  24  38.28 W  GPS  2792   
64PE312   AR7E    25   1  CTD  07-Oct-2009  11:55  BE     58  04.70 N  23  45.10 W  GPS  2951   
64PE312   AR7E    25   1  CTD  07-Oct-2009  12:50  BO     58  04.52 N  23  45.63 W  GPS  2945   2976                     PE312251  
64PE312   AR7E    25   1  CTD  07-Oct-2009  13:48  EN     58  04.85 N  23  47.07 W  GPS  2939   
64PE312   AR7E    26   1  CTD  07-Oct-2009  17:25  BE     57  54.97 N  22  49.15 W  GPS  3006   
64PE312   AR7E    26   1  CTD  07-Oct-2009  18:16  BO     57  54.91 N  22  49.01 W  GPS  3006   3038                     PE312261  
64PE312   AR7E    26   1  CTD  07-Oct-2009  19:12  EN     57  54.89 N  22  49.00 W  GPS  3006   
64PE312   AR7E    27   1  CTD  07-Oct-2009  22:42  BE     57  46.47 N  21  55.22 W  GPS  3060   
64PE312   AR7E    27   1  CTD  07-Oct-2009  23:37  BO     57  46.45 N  21  55.13 W  GPS  3054   3091                     PE312271  
64PE312   AR7E    27   1  CTD  08-Oct-2009  00:43  EN     57  46.35 N  21  55.14 W  GPS  3054   
64PE312   AR7E    28   1  CTD  08-Oct-2009  02:25  BE     57  42.42 N  21  30.12 W  GPS  2640   
64PE312   AR7E    28   1  CTD  08-Oct-2009  03:11  BO     57  42.48 N  21  30.12 W  GPS  2646   2709                     PE312281  
64PE312   AR7E    28   1  CTD  08-Oct-2009  04:06  EN     57  42.46 N  21  30.13 W  GPS  2646   
64PE312   AR7E    29   1  CTD  08-Oct-2009  06:00  BE     57  36.99 N  21  01.96 W  GPS  2317   
64PE312   AR7E    29   1  CTD  08-Oct-2009  06:41  BO     57  36.99 N  21  01.98 W  GPS  2317   2330                     PE312291  
64PE312   AR7E    29   1  CTD  08-Oct-2009  07:28  EN     57  36.99 N  21  01.99 W  GPS  2317   
64PE312   AR7E    30   1  CTD  08-Oct-2009  09:02  BE     57  35.19 N  20  37.43 W  GPS  2170   
64PE312   AR7E    30   1  CTD  08-Oct-2009  09:43  BO     57  35.19 N  20  37.42 W  GPS  2170   2183                     PE312301  
64PE312   AR7E    30   1  CTD  08-Oct-2009  10:30  EN     57  35.25 N  20  37.36 W  GPS  2170   
64PE312   AR7E    31   1  CTD  08-Oct-2009  12:22  BE     57  30.07 N  20  08.92 W  GPS  1318   
64PE312   AR7E    31   1  CTD  08-Oct-2009  12:44  BO     57  30.13 N  20  08.63 W  GPS  1310   1317                     PE312311  
64PE312   AR7E    31   1  CTD  08-Oct-2009  13:15  EN     57  30.27 N  20  08.29 W  GPS  1298   
64PE312   AR7E    32   1  CTD  08-Oct-2009  18:53  BE     57  21.97 N  19  16.08 W  GPS   995   
64PE312   AR7E    32   1  CTD  08-Oct-2009  19:10  BO     57  21.99 N  19  16.00 W  GPS   995    990                     PE312321  
64PE312   AR7E    32   1  CTD  08-Oct-2009  19:31  EN     57  21.99 N  19  16.00 W  GPS   995   
64PE312   AR7E    33   1  CTD  09-Oct-2009  06:44  BE     57  05.79 N  17  27.07 W  GPS  1327   
64PE312   AR7E    33   1  CTD  09-Oct-2009  07:10  BO     57  05.77 N  17  27.07 W  GPS  1327   1330                     PE312331  
64PE312   AR7E    33   1  CTD  09-Oct-2009  07:38  EN     57  05.77 N  17  27.10 W  GPS  1327   
64PE312   AR7E    34   1  CTD  09-Oct-2009  11:21  BE     56  57.94 N  16  32.09 W  GPS  1216   
64PE312   AR7E    34   1  CTD  09-Oct-2009  11:43  BO     56  57.96 N  16  31.96 W  GPS  1216   1216                     PE312341  
64PE312   AR7E    34   1  CTD  09-Oct-2009  12:10  EN     56  58.01 N  16  31.85 W  GPS  1212   
64PE312   AR7E    35   1  CTD  09-Oct-2009  15:35  BE     56  48.07 N  15  40.74 W  GPS   650   
64PE312   AR7E    35   1  CTD  09-Oct-2009  15:47  BO     56  47.99 N  15  40.64 W  GPS   650    646                     PE312351  
64PE312   AR7E    35   1  CTD  09-Oct-2009  15:59  EN     56  47.94 N  15  40.65 W  GPS   646   
64PE312   AR7E    36   1  CTD  09-Oct-2009  19:42  BE     56  40.16 N  14  47.59 W  GPS   187   
64PE312   AR7E    36   1  CTD  09-Oct-2009  19:45  BO     56  40.16 N  14  47.55 W  GPS   186    176                     PE3123561  
64PE312   AR7E    36   1  CTD  09-Oct-2009  19:50  EN     56  40.14 N  14  47.57 W  GPS   187   
64PE312   AR7E    37   1  CTD  09-Oct-2009  22:19  BE     56  34.74 N  14  11.68 W  GPS   333   
64PE312   AR7E    37   1  CTD  09-Oct-2009  22:25  BO     56  34.72 N  14  11.71 W  GPS   331    323                     PE312371  
64PE312   AR7E    37   1  CTD  09-Oct-2009  22:34  EN     56  34.74 N  14  11.65 W  GPS   332   
64PE312   AR7E    38   1  CTD  10-Oct-2009  00:52  BE     56  29.24 N  13  35.86 W  GPS  1934   
64PE312   AR7E    38   1  CTD  10-Oct-2009  01:29  BO     56  29.27 N  13  35.74 W  GPS  1934   1944                     PE312381  
64PE312   AR7E    38   1  CTD  10-Oct-2009  02:07  EN     56  29.37 N  13  35.65 W  GPS  1928   
64PE312   AR7E    39   1  CTD  10-Oct-2009  03:58  BE     56  24.89 N  13  09.44 W  GPS  2391   
64PE312   AR7E    39   1  CTD  10-Oct-2009  04:39  BO     56  24.94 N  13  09.50 W  GPS  2391   2416                     PE312391  
64PE312   AR7E    39   1  CTD  10-Oct-2009  05:23  EN     56  24.92 N  13  09.52 W  GPS  2391   
64PE312   AR7E    40   1  CTD  10-Oct-2009  08:31  BE     56  17.20 N  12  19.62 W  GPS  2601   
64PE312   AR7E    40   1  CTD  10-Oct-2009  09:18  BO     56  17.15 N  12  19.56 W  GPS  2601   2628                     PE312401  
64PE312   AR7E    40   1  CTD  10-Oct-2009  10:14  EN     56  17.11 N  12  19.68 W  GPS  2601   
64PE312   AR7E    41   1  CTD  10-Oct-2009  13:15  BE     56  09.35 N  11  29.75 W  GPS  2637   
64PE312   AR7E    41   1  CTD  10-Oct-2009  13:59  BO     56  09.32 N  11  29.61 W  GPS  2637   2670                     PE312411  
64PE312   AR7E    41   1  CTD  10-Oct-2009  14:51  EN     56  08.66 N  11  29.40 W  GPS  2643   
64PE312   AR7E    42   1  CTD  10-Oct-2009  17:41  BE     56  01.75 N  10  43.32 W  GPS  2363   
64PE312   AR7E    42   1  CTD  10-Oct-2009  18:23  BO     56  01.81 N  10  43.21 W  GPS  2363   2389                     PE312421  
64PE312   AR7E    42   1  CTD  10-Oct-2009  19:14  EN     56  01.82 N  10  43.23 W  GPS  2363   
64PE312   AR7E    43   1  CTD  10-Oct-2009  22:24  BE     55  52.89 N  09  51.15 W  GPS  1918   
64PE312   AR7E    43   1  CTD  10-Oct-2009  22:57  BO     55  52.91 N  09  51.23 W  GPS  1918   1926                     PE312431  
64PE312   AR7E    43   1  CTD  10-Oct-2009  23:35  EN     55  52.95 N  09  51.22 W  GPS  1918   
64PE312   AR7E    44   1  CTD  11-Oct-2009  01:16  BE     55  48.98 N  09  25.85 W  GPS   818   
64PE312   AR7E    44   1  CTD  11-Oct-2009  01:31  BO     55  48.92 N  09  25.71 W  GPS   812    813                     PE312441  
64PE312   AR7E    44   1  CTD  11-Oct-2009  01:50  EN     55  49.00 N  09  25.86 W  GPS   815   
64PE312   AR7E    45   1  CTD  11-Oct-2009  03:38  BE     55  45.02 N  09  00.07 W  GPS   123   
64PE312   AR7E    45   1  CTD  11-Oct-2009  03:40  BO     55  45.03 N  09  00.05 W  GPS   123    114                     PE312451  
64PE312   AR7E    45   1  CTD  11-Oct-2009  03:42  EN     55  45.04 N  09  00.00 W  GPS   122   
64PE312           46   1  CTD  11-Oct-2009  21:33  BE     55  11.60 N  13  19.70 W  GPS  2836   
64PE312           46   1  CTD  11-Oct-2009  22:21  BO     55  11.81 N  13  19.79 W  GPS  2836   2868                     PE312461  
64PE312           46   1  CTD  11-Oct-2009  23:09  EN     55  12.48 N  13  18.76 W  GPS  2836   
64PE312           47   1  CTD  12-Oct-2009  01:47  BE     55  00.12 N  12  42.82 W  GPS  2891   
64PE312           47   1  CTD  12-Oct-2009  02:35  BO     55  00.11 N  12  42.43 W  GPS  2891   2931                     PE312471  
64PE312           47   1  CTD  12-Oct-2009  03:27  EN     55  00.10 N  12  42.68 W  GPS  2891   
64PE312           48   1  CTD  12-Oct-2009  06:03  BE     54  47.30 N  12  07.63 W  GPS  2873   
64PE312           48   1  CTD  12-Oct-2009  06:54  BO     54  47.30 N  12  07.54 W  GPS  2873   2980                     PE312481  
64PE312           48   1  CTD  12-Oct-2009  07:50  EN     54  47.30 N  12  07.52 W  GPS  2873   
64PE312           49   1  CTD  12-Oct-2009  10:30  BE     54  35.90 N  11  30.22 W  GPS  2592   
64PE312           49   1  CTD  12-Oct-2009  11:12  BO     54  35.92 N  11  30.27 W  GPS  2598   2626                     PE312491  
64PE312           49   1  CTD  12-Oct-2009  11:58  EN     54  35.88 N  11  30.28 W  GPS  2598   
64PE312           50   1  CTD  12-Oct-2009  13:18  BE     54  30.33 N  11  11.52 W  GPS   
64PE312           50   1  CTD  12-Oct-2009  13:32  BO     54  30.30 N  11  11.35 W  GPS   739    739                     PE312501  
64PE312           50   1  CTD  12-Oct-2009  13:46  EN     54  30.28 N  11  11.16 W  GPS   732   
64PE312           51   1  CTD  12-Oct-2009  15:10  EN     54  24.07 N  10  54.01 W  GPS   330   
64PE312           51   1  CTD  12-Oct-2009  15:17  EN     54  24.05 N  10  53.98 W  GPS   330    327                     PE312511  
64PE312           51   1  CTD  12-Oct-2009  15:24  EN     54  24.04 N  10  53.91 W  GPS   330   



Description of the parameters in *.CTD files

CTDPRS    dbar    Pressure, measured with the CTD, expressed in dbar
CTDTMP    ITS-90  Temperature, measured with the CTD, expressed in °C
                  according to the ITS-1990 temperature scale
CTDSAL    PSS-78  Practical salinity according to the PSS-1978 scale, measured
                  with the CTD, dimensionless
THETA     deg.C   Potential temperature, derived from the CTD measurements,
                  expressed in °C according to the ITS-1990 temperature scale
GAMMA     kg/m3   Potential density anomaly, derived from the CTD
                  measurements, expressed in kg/m3
BattCoef  m–1     Beam attenuation coefficient, measured with a transmission
                  meter in the CTD system, expressed in m–1




Appendix B.  Mooring summary file of LOCO2-7

Mooring
LOCO 2-7

Barcode
41942 
                                                             Unc.
                Latitude     Longitude    deployment time   Depth  Heading
               -----------  -----------  -----------------  -----  -------
               59° 12.21'N  39° 30.49'W  02-Oct-2009 17:44   3042    314°

                                              height   Depth    recording rate/
instruments &                 T&T    released  above   in water   release bump
   cables          S/N     Barcode   length   bottom    (m)          code            remarks
---------------  --------  -------  --------  ------  --------  ---------------  ---------------
bottom weight                            1              3017                     corrected depth
                                                  1     3016  

5 m chain                                5
                                                  6     3011  

releases                                 2              3009  
OCEANO RT             162     3834 
OCEANO AR             156    11211       8              3009  
Microcat cable       2671    00925     569              3002          5 min
                                       568
                                                576     2441  

chain                                    2
                                                578     2439  

Longranger ADCP      3714     7504       2                           20 min      downlooking
                                                580     2437  

chain                                    2
bumper                       00994                      2434  
                                                582     2435  

cable                                 2283

McLane profiler  11564-02     2912                    150-2400        1 day
                                               2865      152  

bumper                       01335                       153  
chain                                    2
                                               2867      150  

sub-surface                  01373       1
  buoy                                         2868      149  

chain                                    2
                                               2870      147  

cable                                   20
                                               2890      127  
chain                                    2
                                               2892      125  

Longranger ADCP      3652      857       1                           20 min      downlooking
                                               2893      124  

floating line                           15
top buoy                     01380             2908      109  

ARGOS baken         60675     2103                                               Id =23127





CCHDO Data Processing Notes

Date        Person        Data Type    Action          Summary
----------  ------------  -----------  --------------  -------------------
2014-10-08  Diggs, Steve  CTD/BTL/DOC  Submitted       WOCE formatted data
            One ZIP archive includes WOCE formats for CTD and BOT.  Two 
            cruise reports included.  ExpoCode needs to be changed from 
            33KB258/1 to 33KB20131219.

2015-03-30  Kappa, Jerry  CrsRpt       Website Update  PDF version online
            The PDF version of the cruise report is now online.  It includes 
            all reports provided by the cruise PIs, CCHDO summary pages, 
            linked table of contents, figures, tables and appendices, and 
            these data processing notes.

2015-04-06  Kappa, Jerry  CrsRpt       Website Update  TXT version online
            The TXT version of the cruise report is now online.  It includes 
            all reports provided by the cruise PIs, CCHDO summary page, 
            table of contents, tables, appendices, and these data processing 
            notes.
