CRUISE REPORT PRIVATE  

HUDSON 95011

LABRADOR SEA

WOCE LINE A1W

8 JUNE - 4 JULY, 1995


A.  CRUISE NARRATIVE

1.  Highlights

a. WOCE Designation:        WOCE Line A1W

b. Expedition Designation:  Hudson 95011

c. Chief Scientist:         John R. N. Lazier
                            Ocean Circulation Division
                            Physical and Chemical Sciences Branch
                            Department of Fisheries and Oceans
                            Bedford Institute of Oceanography
                            P.O. Box 1006
                            Dartmouth, NS, Canada B2Y 2A4

                            FAX: 902 426 7827
                            Internet: LazierJ@mar.dfo-mpo.gc.ca

d. Ship:                    CSS Hudson

e. Ports of Call:           June 8  BIO, Dartmouth, NS, Canada
                            July 4  St. John's, Newfoundland, Canada

f. Cruise Dates:            June 8, 1995 to July 4, 1995
		

2. Cruise Summary Information

a. Cruise Track 

A cruise track is shown in Figure 1*.  Ship position at midnight on each day 
of the cruise is indicated with an asterisk.  

The station positions are shown in Figures 2* and 3*.  Figure 2* shows the 
stations occupied along A1W while Figure 3* shows stations along the 
southerly line from Greenland that approximately follows AR5.  Some station 
numbers are indicated for clarity.  The various types of stations are also 
indicated. 

Figure 1*. Cruise Track for 95011.  Asterisks indicate a time of 0000 Z on 
           the day indicated.

Figure 2*. The type and location of stations occupied along A1W.

Figure 3*. Stations along the southerly line from Greenland that approximately 
           follows AR5.

b. Total Number of Stations Occupied

61 Full depth WHP small volume CTD stations with up to 23 rosette 
bottles.  Depending on the station, water samples were analyzed for 
CFCs, carbon tetrachloride, methyl chloroform, total carbonate, 
alkalinity, oxygen, salinity, nutrients, tritium, helium, and oxygen 
isotopes.

  3 CTD casts with no water samples

  8 MVCTD casts, with an additional cast with MVCTD attached to CTD rosette 
    frame

 59 Full depth velocity profiles using a lowered ADCP attached to the 
    CTD/rosette

  6 Float deployments

  4 IES Mooring Recoveries (2 unsuccessful attempts)

  4 Sound source mooring recoveries 

  1 IES mooring deployed

  2 Current meter moorings deployed

  3 Current meter moorings recovered (2 through dragging)

 
c. Floats and Drifters Deployed

A total of six floats were launched during the cruise, all on the A1W line. 
Of the six, three were ALACE (Autonomous Lagrangian Circulation Explorer) 
floats launched for Ray Schmitt of WHOI (1 float) and Russ Davis of SIO (2 
floats).  The remaining three were deep lagrangian floats launched for Eric 
d'Asaro of APL/UW.

d. Moorings Deployed or Recovered

The multi-instrument mooring deployed during the BIO cruise to AR7W in 1994 
(WOCE Expocode 18HU94008, mooring number 1168) was recovered and a duplicate 
mooring was deployed (mooring number 1194) in the same location.  The 
deployed mooring consisted of 6 Seacat temperature/conductivity recorders, 6 
Aanderaa current meters, 1 Acoustic Doppler Current Profiler (ADCP), 1 WOTAN 
(weather observations through ambient noise) and 1 CTD with a device for 
measuring the total partial pressure of dissolved gas in the water.

A current meter mooring consisting of one current meter positioned 15 m off 
the bottom was deployed along the 1000 m isobath on the Labrador side of A1W 
(mooring number 1200).  This mooring was deployed for Peter Rhines of the 
University of Washington.

A total of four RAFOS Sound Source moorings were recovered.  The R/V Oceanus 
deployed these moorings in August 1993.  The Sound Sources were used in a 
RAFOS float program lead by Tom Rossby of the University of Rhode Island.  
Over the past 2 years, floats have been set in and near the North Atlantic 
Current in order to map the lagrangian velocity fields on isopycnal surfaces 
in the upper pycnocline throughout the Newfoundland Basin.  The Sound 
Sources are used to spatially locate the floats during the program.

Four of a total of six Inverted Echo Sounders (IES) were recovered from the 
area of the ACM6 mooring line.  The Echo Sounders measured the travel time 
of an acoustic signal between the instrument and the surface.  The data can 
be used to determine the vertical density field and dynamic height.  Randy 
Watts of the University of Rhode Island led this program.

During the Clarke 95003 cruise (WOCE Expocode 18HU95003), two planned 
recoveries of moorings could not be completed due to release problems.  
During this cruise, Hudson dragged the area hoping to recover these 2 
moorings.  The operation was successful, as all current meters on mooring 
1124 on the 3900 m isobath and 3 of the 4 current meters on mooring 1122 on 
the 2500 m isobath were recovered.


3. List of Principal Investigators

Name/Affiliation                    Responsibility
--------------------------------------------------------------------------
John R. N. Lazier/BIO               CTD data, shipboard ADCP data, 
LazierJ@mar.dfo-mpo.gc.ca           moored instrument data, salinity

Robert Houghton/LDEO                oxygen ratio
houghton@ldeo.columbia.edu
	
Peter Jones/BIO                     oxygen, alkalinity, carbonate, CFCs
JonesP@mar.dfo-mpo.gc.ca

Robert Pickart/WHOI                 lowered ADCP
pickart@rsp.whoi.edu

Peter Rhines/UW                     moored instrument data
rhines@killer.ocean.washington.edu

Peter Schlosser/LDEO                tritium, helium data
peters@ldeo.columbia.edu

Peter Strain/BIO                    nutrients
StrainP@mar.dfo-mpo.gc.ca

Randy Watts/URI                     IES, sound sources, current meter data
randy@drw.gso.uri.edu                     

See Section 7 for addresses.


4. Scientific Programme and Methods

a. Narrative

One of the aims of the annual occupation of the WOCE AR7W (or A1W) line 
across the Labrador Sea is to monitor the water mass properties in the 
region especially the Labrador Sea Water (LSW) which is renewed by deep 
convection in winter to as much as 2300 m.  The temperature and salinity of 
this water mass changes by varying amounts each winter depending on the 
severity of the winter and the temperature and salinity of the waters that 
are mixed up by the convection.  Estimates of its average temperature and 
salinity for the years 1990-1995, except 1991, are shown in Figure 4*.

Between 1990 and 1993 the temperature decreased by approx. 0.1 °C while the 
salinity increased by approx. 0.009 resulting in an increase in density 
(=sigma+1000 kg m^-3) of approx. 0.02 kg m^-3.  The temperature decrease is 
due to large heat losses to the atmosphere in the two abnormally severe 
winters.  The increase in salinity results from the convection penetrating 
deeper than in previous years into layers of higher salinity.  Some of the 
higher salinity water becomes incorporated in the convecting layer and 
raises its salinity. 

Between 1993 and 1994 the estimates in Figure 4* show the average temperature 
and salinity decreased and between 1994 and 1995 the averages increased.  
Over both winters these changes where such that no significant change in sigma 
resulted.

The temperature vs. salinity curves in Figure 5* and 6* give a more detailed 
view of the LSW properties in 1994 and 1995.  In the core of the water mass, 
where 34.682 < sigma < 34.687 kg m^-3, the temperature and salinity 
variation along sigma surfaces is significantly greater in 1994.  In 1995 
the temperature and salinity gradients along sigma surfaces over 7 of the 9 
stations is less than half the range in 1994.  This difference seems to be 
an effect of the convection process and possibly an important clue to how 
convection works but as of now the connection is not understood. 

The 2nd objective of the Labrador Sea part of the program was to replace the 
NOAA/ACCP funded mooring in the centre of the central gyre.  The purpose of 
the mooring is to obtain data throughout the year to better understand the 
formation of the LSW and the variability in its properties induced by 
interannual variations in the heat and salt fluxes.  The mooring placed in 
May 1994 was recovered intact yielding 6 complete Seacat records and almost 
6 complete current meter records. 

In the Labrador Sea we also successfully launched three "Deep Lagrangian 
Floats" for Eric d'Asaro of the Applied Physics Laboratory, University of 
Washington, Seattle; one ALACE float for Ray Schmitt of the Woods Hole 
Oceanographic Institution and two ALACE floats for Russ Davis of the Scripps 
Institution of Oceanography. 

On the original plan was the requirement to recover 4 sound source moorings 
for Tom Rossby of the University of Rhode Island and 6 inverted echo 
sounders for Randy Watts also of the University of Rhode Island.  But 
following the failure to recover 2 moorings in the Newfoundland Basin on 
cruise 95003 the plan was altered to include dragging for these. 

All the sound sources were recovered intact, however, only 4 of the IES's.  
The dragging was successful in recovering all the current meters on mooring 
1124 on the 3900 m isobath and 3 of the 4 current meters on mooring 1122.  
Two attempts were made to get mooring 1124.  The first on June 30 recovered 
4 current meters and the second on July 2 recovered the rest of the mooring 
including two current meters and the release.

On the way between the sound source moorings and between Cape Farewell and 
the northern most sound source mooring we obtained CTD and chemistry data at 
roughly 40 mile spacings. The motivation for these stations was to observe 
the characteristics of the LSW across the entrance to the Irminger Sea and 
between 48 and 52 °N west of the Mid Atlantic Ridge along roughly 37 °W.  
The latter section crosses the path of the LSW that flows from the western 
into the eastern basin of the North Atlantic. 

Figure 7* shows one comparison from these two sections constructed from the 
CTD data.  Shown are estimates of the layer thickness between sigma surfaces 
0.002 kg m^-3 apart.  Since LSW is formed by convection the water mass is 
nearly homogeneous in the Labrador Sea.  As it flows away from the Labrador 
Sea the thickness of the layer is an indicator of its presence.  The higher 
thick curve in Figure 7* is from four of the stations southeast of Cape 
Farewell at the entrance to the Irminger Sea.  The other thick curve is the 
average from the stations south of the Charlie Gibbs Fracture Zone 
representing the water flowing into the eastern basin.  The layer thickness 
across the entrance to the Irminger Sea is about 4 times that of the other 
curve and is centred on a sigma of approx. 34.687.  The peak in the other 
curve is centred at sigma = 34.665 kg m^-3.  The peak at the higher sigma 
value represents Labrador Sea Water formed in 1993, 94 or 95 as it closely 
matches the sigma for those years shown in Figure 4 for the Labrador Sea.  
The lower sigma peak for the water passing through to the eastern basin suggests 
a source that is of a lower density than any of the values plotted on Figure 
4*.  In 1990, for example, the Labrador Sea Water was at sigma  approx. 
34.672 kg m^-3 that is slightly higher than the peak in Figure 6*.  This 
suggests the water passing through to the eastern basin was probably formed 
before 1990.

Figure 4*. The average temperature and salinity of the Labrador Sea Water in 
           1990, 1992, 1993, 1994 and 1995.  The dotted curves are lines of 
           constant Sigma 1.5 (= density referenced to 1500 db minus 1000 kg m^-3.

Figure 5*. Temperature vs. salinity curves for stations 32 to 42 (sites 13 
           to 21) obtained in May 1994.  Dotted curves as in Figure 4*.

Figure 6*. Temperature vs. salinity curves for stations 16 to 34 (sites 13 
           to 21) obtained in June 1995.  Dotted curves as in Figure 4*.

Figure 7*. Estimates of layer thickness in decibars (db) every 0.002 kg m^-3 
           in Sigma 1.5 and their averages at two sets of stations.  The higher 
           peak centred at 34.687 kg m^-3 is from stations 45 to 48 southeast of 
           Cape Farewell.  The peak at 34.665 is from stations 59 to 79.

5.  Major Problems and Goals Not Achieved

Unfortunately, ice prevented the occupation of four CTD stations on the Cape 
Farewell Shelf at the northern extension of the AR5 line.  Therefore the 
first station on AR5 was in about 3000 m of water.

Also, two inverted echo sounders were not recovered due to release problems.

6.  Other Incidents of Note

The MVCTD is a profiling CTD system that can be deployed when a ship is 
steaming at 10 knots.  The system has been tested on a previous cruise to 
the Newfoundland Basin (Clarke, WOCE Expocode 18HU94030) and further testing 
was conducted during this cruise.  A total of eight casts were completed 
using the MVCTD and winch gear (one cast was performed with the MVCTD 
attached to the CTD rosette frame) during this cruise.  Sadly, however, at 
Station 56 the instrument was lost during recovery.

A rack containing three digital thermometers was lost on Station 41, cast 2. 
A setscrew holds the rack to the SIO bottle, but allows the rack to rotate 
about the attachment to the bottle.  Speculation is that the setscrew became 
loose and when the bottle was fired, the rack fell off the bottle.

On Station 65 the CTD was brought back onboard with a kink in the 
winch/conducting wire.  The kink was located about 5 m from the CTD.  A 
splice and retermination was carried out.  The probable cause of the kink 
was a lowering of the CTD on the upcast at about 3500 m that resulted in 
slack wire.

The heave compensation winch was also tested on this cruise.  This system 
was designed to modulate the speed of the winch to compensate for the 
heaving motion of the ship.  It was first tested on the Clarke 95003 (WOCE 
Expocode 18HU95003) cruise and found to make the motion of the CTD worse.  
The electronics were then adjusted to reduce to zero the component of 
acceleration fed to the control amplifier.  The controller was tried on two 
stations during this cruise with major reduction of the variations of the 
CTD speed.  Unfortunately (!!) the weather was always good and the heave 
motion was less than ± 1 m/s.  We cannot say what the performance will be in 
rough seas.

On station 37 the watchkeepers noted that a group of sample ID numbers 
ranging from 155601 to 155700 were missing.  To keep the ID numbers 
consecutive for each cast, the watchkeepers decided to skip ID numbers 
155590 to 155700.  Thus, station 35 ends with ID number 155589 and station 
37 starts with ID number 155701.

7.  List of Cruise Participants

Name                  Responsibility                 Affiliation
-----------------------------------------------------------------
Larry Bellefontaine   Salinometer/Watchkeeper        BIO
Brian Beanlands       MVCTD                          BIO
Gerry Boudreau        Computers/Watchkeeper          BIO
Pierre Clement        Nutrients/Oxygens              BIO
Jean-Guy Dessureault  MVCTD                          BIO
Bob Gershey           CFC/Alkalinity/Carbonate       BDR Research
Mike Hingston         CFC/Alkalinity/Carbonate       BDR Research
Anthony Isenor        Data Quality/Watchkeeper       BIO
Peter Jones           Assistant Scientist            BIO
John Lazier           Chief Scientist                BIO
Jonathon Lilly        Watchkeeper                    UW
Christopher Meinen    Sound Sources/IES/Watchkeeper  URI
Mike Mulroney         Sound Sources/IES/Watchkeeper  URI
Maureen Noonan        Helium/Tritium Sampling        LDEO
Patrick Roussel       Watchkeeper                    Dal
Murray Scotney        Moorings/CTD/Watchkeeper       BIO
Randy Watts           Sound Sources/IES              URI
Frank Zemlyak         CFC/Alkalinity/Carbonate       BIO

BIO   Bedford Institute of Oceanography
      P.O. Box 1006
      Dartmouth, NS, CANADA B2Y 2A4

BDR   BDR Research Ltd.
      Box 652, Station 'M'
      Halifax, Nova Scotia
      Canada, B3J 2T3

Dal   Dalhousie University
      Halifax, Nova Scotia

LDEO  Lamont-Doherty Earth Observatory of Columbia University
      Palisades, NY, 10964, USA

URI   University of Rhode Island Narragansett Marine Lab
      South Ferry Road, Narragansett
      Rhode Island 02882

UW    University of Washington
      Seattle, WA, USA

WHOI  Woods Hole Oceanographic Institution
      Woods Hole, MA 02543, USA


B.  UNDERWAY MEASUREMENTS

1.  Navigation and Bathymetry
    (Anthony W. Isenor)

The navigation system onboard CSS Hudson consisted of a Trimble Navigation 
Loran-GPS 10X decoder and AGCNAV.  The decoder received the satellite fixes 
and decoded the signals to obtain latitude, longitude and time.  The decoder 
signals were about 1 Hz.  The navigation data were logged at one minute 
intervals on a PC.  This PC was running the AGCNAV software package; a PC 
based display, and waypoint setting software package developed at the 
Atlantic Geoscience Centre at BIO.  This software graphically displayed ship 
position, waypoints, course, speed, etc. to the various science working 
areas.

The echo sounder system used for collecting bathymetric data consisted of a 
Raytheon Line Scan Recorder, Model LSR 1811-1 (serial number A105) connected 
to a hull mounted 12kHz transducer.  The transducer beam width was 15 
degrees.  The sweep rate of the record was adjusted throughout the course of 
data collection to aid in identifying the bottom signal.  The recorder was 
also linked to a clock, and thus could indicate 5 minute intervals on the 
sounder paper.  The system was used to collect bathymetric soundings at 5 
minute intervals while underway between stations on A1W and AR5.

Sounding data collection started on June 11, 1995 13:55 Z at the southwest 
end of line A1W.  In total there were 1448 soundings collected, 442 
soundings along A1W and 1006 along AR5. No soundings were collected while 
steaming between A1W and AR5.  The sounding data collection stopped on June 
26, 1995 at 11:25 Z, position 45.0006 N and 30.9984 W.

2.  Acoustic Doppler Current Profiler
    (Murray Scotney)

The CSS Hudson was equipped with a hull mounted RDI acoustic doppler current 
profiler.  The transducer (serial number 177) had SC ADCP electronics 
(serial number 607) converted for shipboard use.  Logging, using Transect 
software on a 386 PC, was started on June 8, 1995 at 1908Z along the Scotian 
Shelf.  The configuration of the equipment resulted in a bin length of 8 
metres and a total of 50 bins.  The raw data were stored to disk and backed 
up every few days.  The data were also averaged in real-time over 10 minute 
intervals.  ADCP logging was stopped on July 3, 1995 on the Grand Banks.

3.  Thermosalinograph
    (Anthony W. Isenor)

An experimental alongtrack measuring system developed by the Biological 
Sciences Branch at BIO was used for the first time on this cruise.  The 
system consisted of a Seabird Model 25 CTD equipped with a Syphalitic 
Nepelometer (fluorometer) and a ship board mounted irradiance meter.

The Seabird was placed in a 200 litre container and seawater was pumped into 
the container from the ships seawater lines collected at a depth of about 5 
m below the surface.  The container had a discharge line positioned such 
that the volume in the container was approximately 140 litres.  The flow 
rate into the container was about 45 litres per minute.  

A total of three computers were used to produce the final data file.  One 
computer received navigation data from the Bridge navigation computer.  The 
navigation data was logged and then rebroadcast to a Seabird deckunit, where 
it was merged with the CTD signal.  The merged signal was then sent to a 
second computer where a real-time display of position, time, temperature, 
salinity , chlorophyll and irradiance was shown.  This computer 
rebroadcasted a one second ASCII representation of the merged signal to a 
third computer where the data were stored to hard disk.  The logging 
computer's Seabird processing coefficients are given in Appendix 1.

4.  XBT and XCTD

No probes were used

5.  Meteorological observations

The ship's crew carried out routine reporting of meteorological variables.

6.  Atmospheric Chemistry

There was no atmospheric chemistry programme.

7.  Moving Vessel CTD
    (Anthony W. Isenor)

The MVCTD (described in Clarke et al., 1995) was an instrument development 
project lead by Jean-Guy Dessureault.  This device consisted of a special 
winch, power block, launch and recovery chute, a heavy brass body containing 
a Falmouth Scientific Instruments CTD, Onset Tattletail 8 computer and radio 
modem.  The system was capable of obtaining profiles at a depth greater than 
1000 m while steaming at 10 knots.  A profile was obtained by turning on the 
CTD by sending a signal to the fish via the radio modem.  The operator then 
entered the target depth and the ships speed into the PC computer that 
controlled the winch and power block and initiated the profile.  The entire 
operation of deploying and recovering the fish was completely under computer 
control.  The radio modem was then used to download the data from the fish 
when recovery was complete.

The MVCTD was used successfully on seven casts.  At Station 1, The MVCTD was 
attached to the rosette frame carrying the Seabird CTD.  This will allow a 
comparison of the MVCTD and Seabird CTD datasets.



C.  HYDROGRAPHIC MEASUREMENTS - DESCRIPTIONS, TECHNIQUES AND CALIBRATIONS


1.  CTD Measurements
    (Anthony Isenor)

a.  Description of the Equipment and technique

The CTD measurements were made with a standard SEABIRD model 9Plus CTD (S/N 
09P 7356-0299, BIO System #4, deck unit S/N 11P9984-0353). This unit was 
equipped with a model 3-02/F temperature sensor (S/N 031422), a model 4-02/0 
conductivity sensor (S/N 041124), a paroscientific digiquartz model 410K-105 
pressure sensor (S/N 53355) and a model 13-02 dissolved oxygen sensor (S/N 
130284).  All but the pressure sensor were mounted in a duct through which a 
pump pulls sea water.  Hence the water flow past the actual sensors was 
independent of the lowering rate; this simplified the data processing 
considerably.

The Seabird CTD was mounted vertically within a custom designed and built 
CTD/Rosette frame.  This frame was square rather than round to better 
accommodate the restricted space of Hudson's winch room and winch room door. 
All the pressure cases as well as the sample bottles were mounted 
vertically to improve the package's stability as in descended through the 
water column.  In the centre of the frame was a 10 inch diameter aluminum 
tube that contained at its upper end a General Oceanics Model 1015-24 bottle 
rosette unit (BIO rosette #3, S/N 1185).  The bottom of this tube was 
designed to hold an RDI 150 kHz Broadband ADCP in a shortened pressure case. 
On this cruise, the short pressure case RDI was not available; instead a 
full length RDI pressure case was clamped vertically down one side of the 
central tube.  On another side was clamped the pressure case for the Seabird 
CTD.  The CTD sensors and pump were mounted on the third side and on the 
fourth was clamped a rechargeable battery pack for the RDI and below it a 
General Oceanics model 6000 12 kHz pinger unit.

The rosette bottles were made by the Physical and Chemical Oceanographic 
Data Facility of the Scripps Institution of Oceanography.  The bottles were 
mounted six to each side of the rosette frame.  Each bottle collected 10 
litres of water.

b.  Sampling Procedure and data processing techniques

The CTD was deployed with a lowering rate of 60 metres/min (40 metres/min in 
the upper 200 metres or deeper if the conditions were rough).  It was 
recovered at a rate of 75 metres/min (60 metres/min when deeper than 4000 
metres or when conditions were rough).

The CTD data was recorded onto disk by a 486 computer using SEABIRD SEASOFT 
Version 4.205 software.  A screen display of temperature, oxygen and 
salinity profiles vs. pressure were used to decide the depths at which 
bottles were to be tripped on the up cast.  The bottles were tripped using 
the enable and fire buttons on the SEABIRD deck unit.  

At the end of each station, the SEASAVE software was used to create 1 and 2 
dbar processed data files, an IGOSS TESAC message and a processed rosette 
trip file.  All the raw and processed data files associated with the station 
were then transferred to the ship's MicroVAX computer for archive and 
subsequent access and distribution to various users on the vessel.

The data processing used the following steps:

DATCNV    Converted the raw data to physical parameters.

SPLIT     Split the data into DOWN and UP cast.

WILDEDIT  For every block of 12 scans, flagged all scans whose 
          pressure, temperature, conductivity and oxygen values 
          differed from the mean by more than 2 standard deviations. 
          Recomputed the mean and standard deviation from unflagged 
          data then marked as bad all scans exceeding 4 standard 
          deviations from these new values.

FILTER    Low pass filtered pressure and conductivity channels.  
          Time constant used for conductivity was 0.045 seconds, for 
          pressure 0.150 seconds.

LOOPEDIT  Marked as bad, all cycles on the down trace for which 
          the vertical velocity of the CTD unit was less than 0.1 
          metres/sec.

ALIGNCTD  Aligned the temperature, conductivity and oxygen values 
          relative to the pressure values accounting for the time 
          delays in the system.  Time offsets of 0.010 secs for 
          conductivity, 0.000 secs for temperature and 3.000 secs 
          for oxygen were used.

CELLTM    A recursive filter used to remove the thermal mass 
          effects from the conductivity data. Thermal anomaly amplitude 
          and time constants of 0.0300 and 9.0000 were used.

DERIVE    Computed oxygen values.

BINAVG    Averaged the down cast into 1 and 2 dbar pressure bins. 
          (Note: The procedure to produce the 2 dbar averages takes 
          about 5% of the total processing time).

DERIVE    Computed salinity, potential temperature and sigmatheta. 

ROSSUM    Averaged 3 seconds of CTD data after every bottle trip.  
          Used in comparison with water sample data.

c.  Calibration data

The CTD calibrations used during this cruise were supplied by Seabird 
Electronics.  The slope and offset applied to the conductivity sensor was 
based on data from the BIO Cruise 95003 (WOCE Expocode 18HU95003, see 
below).  The applied calibrations were as follows:

BIO SEABIRD CTD System # 4

Temperature Sensor (#031422 )

  Temperature = 1/{a + b[ln(fo/f)] + c[ln^2[fo/f] + d[ln^3(fo/f)]} - 273.15

      where ln indicates a natural logarithm,
            f is the frequency
            a  =  3.68096068 E-03
            b  =  5.98528033 E-04
            c  =  1.47933699 E-05
            d  =  2.18572143 E-06
            fo =  6142.890
            slope = 1, offset = 0      (Seabird calibration dated July 6, 1994)


Pressure Sensor (#53355)

  Pressure = c (1 - To^2/T^2) (1 - d[1 - To^2/T^2])

      where T is the pressure period (µsec)
            c = c1 + c2 U + c3 U^2
            d = d1 + d2 U
            To = T1 + T2 U + T3 U^2 + T4 U^3 + T5 U^4
            U is the temperature (°C)
            c1 =  -4.290243 E+04 psia
            c2 =   5.137240 E-01 psia/°C
            c3 =   1.334070 E-02 psia/°C^2
            d1 =   4.039500 E-02
            d2 =   0
            T1 =   2.993058 E+01 µsec
            T2 =  -8.855370 E-05 µsec/°C
            T3 =   3.597730 E-06 µsec/°C^2
            T4 =   5.583850 E-09 µsec/°C^3
            T5 =   0
            AD590M = 1.146000 E-02
            AD590B = -8.11354 E+00
            slope = 1, offset = 0      (Seabird calibration, February 2, 1993)

Conductivity Sensor (#041124)

  Conductivity = (af^m + bf^2 + c + dt)/[10(1-9.57(10^-8)p)]

      where f is the frequency
            p is pressure (dbars)
            t is the temperature (°C)
            m =  4.2
            a =  1.35924955 E-05
            b =  4.87959496 E-01
            c = -4.19483432 E+00
            d = -1.04684736 E-04
            Slope = 1.00039254 E+00
            Offset = -5.400 E-04


Oxygen Sensor (#130284)

  Oxygen = *see equation in doc file.

      where Soc = 2.5328
            oc is the oxygen sensor current (µamps)
            oc = mV + b
            m =  2.4528 E-07
            V is the oxygen temperature sensor voltage signal
            b = -3.9245 E-09
            tau =  2.0
            doc/dt  is the time derivative of oc
            Boc = -0.0322
            OXSAT is the oxygen saturation value dependent on T and S
            T is the water temperature (°C)
            S is salinity (psu)
            e is natural log base
            tcor = -0.033
            wt = 0.670
            To oxygen sensor internal temperature (°C)
            To = kV + c
            k = 8.9625
            c = -6.9161
            pcor =  1.5 E-04
            P is the pressure (psia)

A previous cruise in April/May 1995 (see Clarke, WOCE Expocode 18HU95003) to 
the Newfoundland Basin used the same CTD and sensors as this cruise.  
Fortunately, preliminary analyses of the 95003 dataset were complete on our 
departure. Clarke and Yashayeav determined that no temperature calibration 
of the CTD was necessary.  However, a conductivity calibration was 
necessary.  Based on the work of Clarke and Yashayeav, the conductivity 
calibration applied to the CTD data during collection of this dataset was as 
follows:

     Conductivity(CTD) = -0.00054 + 1.00039254 * Conductivity(CTD)

Subsequent analysis of the CTD salinities as compared to the water samples 
salinities was carried out using a total of 1102 comparison data points.  
The median salinity difference was found to be:

          Salinity(Water Sample) - Salinity(CTD) = 0.0005

The duplicate water sample salinity analysis (see Salinity Replicate 
Analysis section) indicated that the median difference between water sample 
salinities was also 0.0005.  This indicated no significant difference 
between our ability to compare duplicate water sample salinities and our 
ability to compare the water sample salinities with the CTD.  Thus, no 
pressure independent offset in salinity will be applied.

However, the CTD salinities were found to have a pressure dependent offset 
relative to the water sample salinities.  To remove this offset, we first 
defined the interquartile range (IQR) in 3 layers in the water column, 0 to 
<1500 dbars, 1500 to <3000 dbars and =>3000 dbars.  The IQR is defined using 
the difference between values at the 25 and 75 percentile, Q1 and Q3 
respectively (note that Q2 would be the 50 percentile, or the median).  In 
each layer, we neglect all differences outside of the range

	difference  < Q2 - 1.5 * (Q3 - Q1) and
	difference  > Q3 + 1.5 * (Q3 - Q1)

	where difference = Salinity(Water sample) - Salinity(CTD) 

Using the valid points from all layers (a total of 931 points), we fit a 
third order polynomial to the differences.  The fitted equation is:

difference = 0.00122 + 3.47869*10^-7*P - 4.96435*10^-10*P^2 + 6.48289*10^-14*P^3
 
This equation produces an offset of about 0.0012 in the surface and -0.0012 
at 4000 dbar.

Considering the CTD temperature measurements as compared to the digital 
thermometers (see Reversing Thermometer Replicate Analysis section) we note 
that the interthermometer comparison indicated differences of 0.002°C.  The 
difference between the thermometers and the CTD were also about 0.002°C.  
Thus, we will not apply any temperature calibration to the CTD.

The CTD oxygen data was calibrated using a combination of upcast water 
sample data and downcast CTD profile data.  No CTD data were obtained for 
the following stations: 9, 15, 17, 18, 20, 21, 22, 25, 26, 27, 31, 36, 38, 
45, 49, 51, 54, 56, 62, 64, 68, 75, 80, 81, 84, 87 and 88.  The details of 
the calibration procedure and results are given in Appendix 2.  Note that 
the WOCE SEA file column CTDOXY contains the down cast CTD oxygen data used 
in the calibration as opposed to the discrete CTD oxygen data obtained at 
the time of bottle trip.	

2.  Salinity
    (Anthony W. Isenor)

a.  Description of Equipment and Technique

Salinity samples were analyzed on a Guildline Autosal model 8400 
salinometer, Ocean Circ Unit B.  Samples were drawn into medicine bottles.  
New caps, equipped with plastic liners, were placed on the sample bottles 
for each use.

The salinometer cell was filled and rinsed three times with sample water 
before readings were recorded.  Three readings of the salinometer were 
recorded for every sample and standardization.  The last two readings were 
averaged and entered into the water sample database as the conductivity of 
the water sample.

b.  Sampling Procedure and Data Processing Technique

Salinity samples were drawn into medicine bottles after three rinses.  The 
bottles were filled up to the shoulders and then capped with new caps with 
plastic liners.  

One conductivity file for the entire cruise was prepared.  The file 
consisted of a sequential record number, the bath temperature, sample ID 
number, average conductivity ratio and a quality flag.  A PC based program 
running under a commercial DBMS computed the salinity using the average 
conductivity ratio and the standard IAPSO formula.  Any changes in the 
salinometer readings between successive standardizations were assumed to 
have occurred as a linear drift of the instrument.  Thus, the program 
applied a correction to the ratios, which varied linearly with the samples 
analyzed.  The salinity data was then placed in the water sample database.

c.  Laboratory and Sample Temperatures

Full cases of samples were taken from the winch room to the GP lab where 
they were left for a period of at least 10 hours to equilibrate to 
laboratory temperature before being analyzed.

The baths in the salinometer were kept at 21°C for the first 79 stations and 
thereafter at 24°C.  The change in operating temperature was due to our 
inability to hold the laboratory at about 21°C in the southern, warmer 
region of operation.

d.  Replicate Analysis

A duplicate salinity sample was drawn from one of the rosette bottles on 
every cast.

A total of 58 duplicate salinity samples were drawn and statistically 
analyzed.  Statistics of the duplicate differences follow.  All replicate 
values and their quality flags are shown in Table C.1 below.


Statistic                        Value
---------------------------------------
Number of Duplicate Differences  58
Minimum                          0
Maximum                          0.0059
Mean                             0.0009
Median                           0.0004
Standard Deviation               0.0011

e.  Standards Used

The salinometer was standardized on June 12, 1995 using IAPSO standard 
water, Batch P126, prepared on November 24, 1994.  A check on the 
standardization using a new ampoule was carried out at the beginning and end 
of every 32 bottle case and at intermediate points during a case if 
instrument drift was suspected.  A restandardization was conducted on June 
20, 1995.

Table C.1  Replicate water sample salinity values with their quality flags.

Sample ID   Salinity   WOCE QF
 Number
------------------------------
155204      32.4623      2
155204      32.4618      2

155227      31.7400      2
155227      31.7384      2

155228      34.1117      2
155228      34.1118      2

155237      32.8259      2
155237      32.8263      2

155243      31.7877      2
155243      31.7862      2

155247      33.2100      2
155247      33.2092      2

155254      32.7362      2
155254      32.7389      2

155256      34.6949      2
155256      34.6951      2

155267      34.8148      2
155267      34.8175      2

155279      34.8650      2
155279      34.8642      2

155298      34.8797      2
155298      34.8795      2

155316      34.8800      2
155316      34.8797      2

155339      34.9005      2
155339      34.9007      2

155356      34.8762      2
155356      34.8794      2

155378      34.8701      2
155378      34.8693      2

155418      34.8358      2
155418      34.8356      2

155442      34.8340      2
155442      34.8340      2

155457      34.9102      2
155457      34.9098      2

155487      34.8336      2
155487      34.8344      2

155503      34.9078      2
155503      34.9068      2

155537      34.8415      2
155537      34.8411      2

155588      34.3154      2
155588      34.3154      2

155714      34.8611      2
155714      34.8617      2

155731      34.8905      2
155731      34.8911      2

155759      34.8952      2
155759      34.8244      4

155776      34.7804      2
155776      34.7806      2

155778      34.5600      2
155778      34.5604      2

155782      34.3570      2
155782      34.3576      2

155808      34.7382      2
155808      34.7358      2

155821      34.8450      2
155821      34.8454      2

155838      34.9286      2
155838      34.9290      2

155866      34.8528      2
155866      34.8524      2

155882      34.9389      2
155882      34.9380      2

155920      34.8129      2
155920      34.8121      2

155940      34.9044      2
155940      34.9050      2

155954      34.8654      2
155954      34.8705      

155975      34.8797      2
155975      34.8805      2

155994      34.8943      2
155994      34.8964      2

156009      34.9496      2
156009      34.9494      2

156038      34.8752      2
156038      34.8693      2

156059      34.8762      2
156059      34.8780      2

156072      34.9135      2
156072      34.9117      2

156096      34.9093      2
156096      34.9095      2

156139      35.3421      2
156139      35.3415      2

156141      34.8995      2
156141      34.8999      2

156164      34.8996      2
156164      34.8994      2

156199      34.9347      2
156199      34.9347      2

156210      34.9002      2
156210      34.8994      2

156233      34.9055      2
156233      34.9055      2

156275      35.5071      2
156275      35.5067      2

156280      34.9141      2
156280      34.9145      2

156302      34.9117      2
156302      34.9117      2

156340      34.9416      2
156340      34.9412      2

156365      35.6322      2
156365      35.6322      2

156370      34.9306      2
156370      34.9304      2

156395      34.9263      2
156395      34.9259      2

156399      34.9031      2
156399      34.9035      2

156403      34.8968      2
156403      34.8972      2

156410      34.9237      2
156410      34.9241      2


3.  Oxygen
    (Pierre Clement)

a.  Description of Equipment and Technique

The oxygen samples wee analyzed using an automated procedure developed by 
the Physical and Chemical Services Branch (PCS) of the Bedford Institute of 
Oceanography (BIO) from a manual titration system (Levy et al. 1977).  The 
PCS procedure is a modified Winkler titration from Carritt and Carpenter 
(1966), using a whole bottle titration.  In this method there is no starch 
indicator and a wetting agent (Wetting Agent A, BDR) is introduced to reduce 
bubble formation.  The automated titration system consists of an IBM PC 
linked to a Brinkmann PC800 colorimeter and a Metrohm 665 Multi-Dosimat 
Automatic Titrator.  A full description of the system and method can be 
found in Jones, et al. (1992) with the following exception:  Page 2-4, 
section 2.3 Method - Sample titration should read, 'The stopper is not 
replaced and the acid rinsed down the stopper's end into the flask.  The end 
is then rinsed into the flask with deionized water.  One drop of wetting 
agent and the magnetic stirring bar are then added.'

b.  Sampling Procedure and Data Processing Technique

The sampling bottles were 125ml Iodine flasks with custom ground stoppers 
(Levy et al. 1977).  The flask volumes were determined gravimetrically.  The 
matched flasks and stoppers were etched with Identification numbers and 
entered into the Oxygen program database. 

For this cruise 10 litre rosette bottles were used to obtain the original 
sample.  The oxygen subsamples were drawn immediately following the drawing 
of the CFC and helium subsamples. The oxygen subsamples were drawn through 
the bottles spigot with a latex or silicone tube attached so as to introduce 
the water to the bottom of the flask. The flask and its stopper were 
thoroughly rinsed and filled to overflowing.  The flow was allowed to 
continue until at least two to three flask volumes overflowed. The flask was 
then slowly retracted with continuous low flow to ensure that no air was 
trapped in the flask.  The flask was then brought to the reagent station and 
one ml each of the Alkaline Iodide and Manganous Chloride Reagents were 
added and the stoppers carefully inserted, again ensuring that no air was 
entering into the flasks.  The flasks were thoroughly shaken then carried to 
the lab for analysis.

c.  Replicate Analysis

There were 1212 unique sample id numbers that were analyzed for dissolved 
oxygen, of which 1130 had one sample value, 79 had two sample values and 3 
had three sample values. A duplicate oxygen sample was drawn from one of the 
rosette bottles on every cast.  On one cast, duplicate samples were drawn 
from all the rosette bottles.

Statistics of the replicate differences follow.  Only acceptable values were 
used in calculating the replicate differences.  The calculated replicate 
statistics used the absolute value of the replicate differences.  Of the 79 
unique ids that had one replicate sample, the replicate difference was not 
calculated for five sample id numbers (155248, 155251, 155260, 155785 and 
155786) because one of the sample values was unacceptable.  All of the 
replicate sample values and their quality flags are listed in Table C.2 
below.

Number of replicate differences
   =  (79 - 5) sample id numbers having one replicate * 1 possible difference
   +  (3) sample id numbers having two replicates * 3 possible differences
   =  83

Median of [(absolute difference/sample mean concentration of all samples) * 
100%] = 0.22 %


Statistic       Value (µmoles/kg)
----------------------------------
Minimum             0.0
Maximum            40.8
Mean                2.2
Median              0.6
Standard Deviation  5.6

Cumulative Frequency   Oxygen Difference (µmoles/kg)
----------------------------------------------------
50 %                       < or equal to 0.6
68 %                       < or equal to 1.3
95 %                       < or equal to 6.9


Table C.2  Replicate water sample oxygen values in µmoles/kg, along with 
           their quality flags.

Sample ID   Oxygen   WOCE 
Number                QF
--------------------------
155219       304.4    2
155219       303.0    2

155226       327.4    2
155226       327.4    2

155231       320.6    2
155231       320.9    2

155236       323.9    2
155236       323.9    2

155239       305.3    2
155239       306.2    2

155248       343.8    3
155248       330.5    2

155251       311.2    3
155251       315.3    2

155260       308.8    2
155260       309.1    3

155271       294.3    2
155271       295.1    2

155283       295.8    2
155283       298.2    2

155294       287.0    2
155294       286.6    2

155312       296.0    2
155312       295.9    2

155343       300.5    2
155343       300.9    2

155367       299.3    2
155367       299.6    2

155380       291.4    2
155380       291.5    2

155401       301.7    2
155401       330.0    2

155402       302.4    2
155402       302.8    2

155403       310.7    2
155403       310.7    2

155404       317.1    2
155404       319.1    2

155405       326.6    2
155405       327.3    2

155413       277.6    2
155413       277.3    2

155430       300.7    2
155430       293.8    2

155453       299.1    2
155453       301.0    2

155485       298.2    2
155485       299.1    2

155499       299.2    2
155499       299.4    2

155516       300.8    2
155516       301.1    2

155525       280.9    2
155525       285.0    2

155535       298.8    2
155535       298.2    2

155537       301.3    2
155537       301.8    2

155547       290.4    2
155547       291.0    2
155547       291.0    2

155556       298.3    2
155556       298.3    2
155556       297.2    2

155580       299.3    2
155580       299.3    2

155712       292.5    2
155712       298.0    2

155725       297.3    2
155725       299.8    2

155757       295.9    2
155757       295.9    2
155757       296.1    

155777       364.8    2
155777       365.7    2

155779       322.0    2
155779       321.9    2

155781       391.5    2
155781       393.0    2

155785       385.8    3
155785       388.7    2

155786       305.9    2
155786       311.6    3

155817       286.3    2
155817       286.0    2

155847       283.0    2
155847       292.6    2

155858       278.1    2
155858       281.7    2

155910       281.7    2
155910       282.0    2

155929       271.6    2
155929       271.7    2

155951       278.7    2
155951       276.2    2

155969       274.6    2
155969       275.0    2

155988       273.4    2
155988       273.7    2

156020       280.6    2
156020       281.7    2

156037       288.9    2
156037       294.1    2

156063       273.9    2
156063       270.9    2

156071       279.4    2
156071       276.9    2

156072       275.9    2
156072       276.1    2

156073       275.4    2
156073       275.9    2

156074       275.4    2
156074       275.8    2

156075       269.2    2
156075       275.5    2

156076       274.9    2
156076       275.2    2

156077       275.0    2
156077       274.8    2

156078       275.1    2
156078       275.7    2

156079       280.5    2
156079       282.3    2

156080       281.1    2
156080       285.5    2

156081       284.6    2
156081       285.9    2

156082       282.3    2
156082       282.3    2

156083       274.1    2
156083       276.5    2

156084       268.8    2
156084       269.4    2

156085       250.3    2
156085       256.7    2

156086       229.1    2
156086       228.9    2

156087       223.1    2
156087       224.1    2

156097       274.2    2
156097       274.3    2

156130       274.7    2
156130       275.1    2

156140       281.5    2
156140       281.5    2

156163       280.5    2
156163       279.2    2

156200       265.0    2
156200       264.2    2

156211       277.7    2
156211       277.8    2

156232       275.5    2
156232       275.6    2

156270       242.4    2
156270       243.2    2

156278       274.9    2
156278       275.0    2

156303       273.9    2
156303       274.6    2

156333       286.2    2
156333       279.3    2

156334       242.9    2
156334       283.7    2

156347       271.7    2
156347       272.5    2

156371       271.0    2
156371       265.7    2


4.  Nutrients
    (Pierre Clement)

a.  Description of Equipment and Technique

Nutrient concentrations were determined using a Technicon AutoAnalyzer II.  
The chemistries were standard Technicon (Silicate 186-72W, Phosphate 
155-71W, Nitrate/Nitrite 158-71W) except for Phosphate which was modified by 
separating the Ascorbic Acid (4.0 gms/l) from the Mixed Reagent.  This 
alteration was achieved by introducing the modified Mixed Reagent instead of 
water at the start of the sample stream at 0.23 ml/min and the Ascorbic Acid 
was pumped into the stream between the two mixing coils at 0.32 ml/min. 

b.  Sampling Procedure and Data Processing Technique

Duplicate nutrient subsamples were drawn into 30 ml HDPE (Nalge) wide mouth 
sample bottles from 10 litre Niskins.  The bottles were 10% HCl washed, 
rinsed once with tap water, three times with Super-Q and oven dried at >100 
°F. 

A sample run included six Working Standards run at the beginning and end. 
Duplicate Check Standards were run every 16 samples followed by blanks as a 
Baseline Check. These Standards were made up in 33 ppt NaCl (VWR, Analar 
grade) as is the wash water.  The Standards were tested against CSK Solution 
Standards (Sagami Chemical Center, Japan). 

Analog data was converted to digital, processed and statistics calculated by 
a Pascal 6.0 in house program (Logger) on a PC.  Chart recordings, hard copy 
and disk copies of the data were kept for reference.

c.  Replicate Analysis

A total of 2068 seawater samples were analyzed for silicate, phosphate and 
NO2+NO3. Included in these samples were a total of 1030 duplicate samples 
and 2 quadruplicate samples. Statistics relating to the precision of the 
sample values follow.  All values are given in µmoles/kg.  Only the samples 
that had acceptable replicate values were included in the statistics.  All 
replicate values and their quality flags are given in Table C.3.
  
Precision is a measure of the variability of individual measurements and in 
the following analysis two categories of precision were determined: field 
and analytical precision.  Analytical precision is based on the pooled 
estimate of the standard deviation of the check standards over the course of 
a complete autoanalyzer run and is a measure of the greatest precision 
possible for a particular analysis.  Field precision is based on the 
analysis of two or more water samples taken from a single Niskin sampling 
bottle and has an added component of variance due to subsampling, storage 
and natural sample variability.

Both categories of precision were determined by computing the variance, 
(sigma-sub i)^2, of each replicate set, where "i" is the index of the 
replicate set.  In the case of analytical (field) precision, a replicate set 
consisted of all the check standards (duplicate samples).  Given p replicate 
sets and n samples within any replicate set, the mean standard deviation, 
(sigma-bar), was determined from 

*See equation in doc. file.

The precision expressed in percent was based on the mean concentration (M) 
of the check standards (analytical precision) or water samples (field 
precision) and was given by

*See equation in DOC file.

The following table indicates the analytical and field precision obtained 
for this cruise.
 
Statistic                       Silicate  Phosphate  NO2+NO3
------------------------------------------------------------
Number of Samples                 2068      2068      2068
Number of Replicates              1036      1036      1036
Mean concentration   (µmoles/kg) 10.48      1.01      14.86
Field Precision      (µmoles/kg)  0.11      0.03      0.16
Field Precision      (%)          1.07      2.70      1.08
Analytical Precision (µmoles/kg)  0.69      0.03      0.31
Analytical Precision (%)          2.06      2.84      1.86
Detection Limit      (µmoles/kg)  0.20      0.06      0.19


The laboratory temperature during all analyses was between 21 and 23 °C.

The conversion to mass units for the analytical precision and detection 
limits used a standard density of 1.02443 kg/liter corresponding to 33 ppt 
and 15°C.  The conversion of individual sample values from volume to mass 
units used a potential density with a fixed temperature of 15°C.

Duplicate samples were drawn from each rosette bottle for the determination 
of silicate, phosphate and nitrate concentrations. 

The nutrient detection limits noted in the above table were applied to the 
dataset. All values at or below the detection limits were set to zero.

Table C.3  Replicate nutrient water sample values in µmoles/kg, along with their 
           quality flags.

  ID     SiO2   PO4   NO2+NO3  QF
-----------------------------------
155201   8.80   0.98   7.90   2 2 2
155201   8.75   0.99   7.81   2 2 2

155202   8.88   1.01   8.20   2 2 2
155202   8.96   1.00   8.22   2 2 2

155203   8.92   1.04   8.10   2 2 2
155203   9.01   1.02   8.33   2 2 2

155204   8.82   1.26   7.98   2 2 2
155204   8.82   1.07   7.98   2 2 2

155205   8.95   1.08   8.09   2 2 2
155205   8.89   1.07   8.00   2 2 2

155206   8.79   1.07   8.09   2 2 2
155206   8.87   1.07   8.14   2 2 2

155207   8.80   1.07   7.91   2 2 2
155207   8.81   1.08   8.14   2 2 2

155209   8.51   1.05   7.81   2 2 2
155209   8.61   1.05   7.81   2 2 2

155210   8.51   0.98   7.76   2 2 2
155210   8.47   0.99   7.78   2 2 2

155211   8.82   1.00   7.94   2 2 2
155211   8.63   1.00   7.85   2 2 2

155212   8.74   1.00   8.08   2 2 2
155212   8.89   1.00   7.97   2 2 2

155213   8.77   1.01   8.04   2 2 2
155213   8.87   1.00   8.15   2 2 2

155214   8.57   1.02   7.96   2 2 2
155214   8.67   1.01   7.81   2 2 2

155215   8.79   1.02   8.03   2 2 2
155215   8.92   1.02   7.99   2 2 2

155216   8.76   1.02   8.12   2 2 2
155216   8.72   1.02   8.15   2 2 2

155217   8.79   1.01   8.10   2 2 2
155217   8.81   1.00   7.97   2 2 2

155219   8.61   0.97   7.87   2 2 2
155219   8.37   0.99   7.89   2 2 2

155220   8.46   0.99   7.84   2 2 2
155220   8.34   1.00   7.75   2 2 2

155221   8.25   1.01   7.80   2 2 2
155221   8.37   1.01   7.71   2 2 2

155222   8.33   1.02   7.80   2 2 2
155222   8.44   1.00   7.86   2 2 2

155223   8.41   1.01   7.81   2 2 2
155223   8.44   1.02   7.84   2 2 2

155224  11.15   1.04   9.99   2 2 2
155224  11.41   1.03  10.19   2 2 2

155225  12.18   1.04   9.45   2 2 2
155225  12.09   1.05   9.39   2 2 2

155226  11.56   1.04   8.19   2 2 2
155226  11.75   1.03   8.47   2 2 2

155227   1.11   0.50   0.00   2 2 2
155227   1.15   0.47   0.23   2 2 2

155228  12.06   1.03  13.15   2 2 2
155228  12.26   1.01  12.86   2 2 2

155229  11.90   1.02  12.32   2 2 2
155229  11.95   1.01  12.38   2 2 2

155230  10.97   1.03  11.32   2 2 2
155230  11.07   0.99  11.39   2 2 2

155231  10.50   1.02  10.32   2 2 2
155231  10.54   1.02  10.22   2 2 2

155232  11.59   1.04   9.07   2 2 2
155232  11.45   1.05   8.92   2 2 2

155233  11.13   1.02   7.90   2 2 2
155233  11.29   1.04   8.06   2 2 2

155234   1.02   0.51   0.00   2 2 2
155234   1.06   0.47   0.00   2 2 2

155235  12.45   1.04  11.28   2 2 2
155235  12.62   1.07  11.23   2 2 2

155236  11.62   1.03   9.03   2 2 2
155236  11.79   1.05   9.14   2 2 2

155237  11.31   1.04   8.14   2 2 2
155237  11.51   1.05   8.23   2 2 2

155238   0.90   0.52   0.00   2 2 2
155238   0.97   0.50   0.00   2 2 2

155239  10.99   1.02  12.52   2 2 2
155239  11.19   1.01  12.97   2 2 2

155240   8.04   0.91   8.69   2 2 2
155240   7.93   0.90   8.67   2 2 2

155241  11.17   1.04   8.52   2 2 2
155241  11.34   1.03   8.65   2 2 2

155242  10.97   1.03   7.77   2 2 2
155242  11.08   1.02   7.74   2 2 

155243   0.42   0.45   0.00   2 2 2
155243   0.49   0.44   0.00   2 2 2

155244   9.68   0.95  12.75   2 2 2
155244   9.51   0.95  12.49   2 2 2

155245  10.13   1.01  12.54   2 2 2
155245   9.76   0.98  12.19   2 2 2

155246   9.96   0.98   9.36   2 2 2
155246  10.04   0.96   9.48   2 2 2

155247  11.51   1.02   9.26   2 2 2
155247  11.74   1.03   9.11   2 2 2

155248  10.38   1.03   7.34   2 2 2
155248  10.76   1.01   7.58   2 2 2

155249   0.38   0.50   0.00   2 2 2
155249   0.38   0.46   0.00   2 2 2

155250   9.01   1.03  15.02   2 2 2
155250   8.85   1.03  15.03   2 2 2

155251   9.23   0.92  12.11   2 2 2
155251   9.29   0.93  12.24   2 2 2

155252  11.14   1.00  11.45   2 2 2
155252  10.74   1.00  11.26   2 2 2

155253  11.78   1.03   9.57   2 2 2
155253  11.58   1.04   9.42   2 2 2

155254  10.77   1.00   7.56   2 2 2
155254  10.81   1.00   7.70   2 2 2

155255   0.73   0.48   0.00   2 2 2
155255   0.80   0.47   0.00   2 2 2

155256   8.96   1.03  14.88   2 2 2
155256   9.19   1.01  14.97   2 2 2

155257   8.43   1.00  14.49   2 2 2
155257   8.48   1.01  14.61   2 2 2

155258   8.89   1.01  14.45   2 2 2
155258   8.88   0.99  14.54   2 2 2

155259   8.78   0.99  13.68   2 2 2
155259   9.00   1.00  13.99   2 2 2

155260   8.47   0.96  12.63   2 2 2
155260   8.49   0.94  12.84   2 2 2

155261   9.42   0.95  11.56   2 2 2
155261   9.47   0.99  11.37   2 2 2

155262  10.08   0.98  10.30   2 2 2
155262  10.03   0.99  10.26   2 2 2

155263   4.61   0.77   4.98   2 2 2
155263   4.65   0.75   4.78   2 2 2
155264   0.36   0.37   0.00   2 2 2
155264   0.40   0.42   0.00   2 2 2

155265   8.67   1.07  15.71   2 2 2
155265   8.85   1.03  16.03   2 2 2

155266   8.86   1.05  15.64   2 2 2
155266   9.05   1.04  15.73   2 2 2

155267   8.78   1.04  16.05   2 2 2
155267   8.79   1.06  15.79   2 2 2

155268   8.58   1.05  15.53   2 2 2
155268   8.56   1.04  15.66   2 2 2

155269   8.87   1.06  15.84   2 2 2
155269   8.79   1.07  15.84   2 2 2

155270   8.82   1.04  15.54   2 2 2
155270   8.89   1.04  15.97   2 2 2

155271   8.51   1.04  15.58   2 2 2
155271   8.59   1.04  15.77   2 2 2

155272   8.58   1.06  15.57   2 2 2
155272   8.72   1.04  15.66   2 2 2

155273   9.10   1.02  15.09   2 2 2
155273   8.88   1.02  15.18   2 2 2

155274   8.34   0.99  14.33   2 2 2
155274   8.42   0.99  14.46   2 2 2

155277  10.50   1.06  16.19   2 2 2
155277  10.58   1.07  16.11   2 2 2

155278  10.27   1.08  16.34   2 2 2
155278  10.38   1.08  16.43   2 2 2

155279  10.04   1.07  16.10   2 2 2
155279   9.99   1.08  16.66   2 2 2

155280   9.24   1.08  16.32   2 2 2
155280   9.22   1.06  16.02   2 2 2

155281   9.23   1.08  16.48   2 2 2
155281   9.25   1.07  16.29   2 2 2

155282   9.17   1.07  15.95   2 2 2
155282   9.42   1.08  16.01   2 2 2

155283   9.25   1.08  16.25   2 2 2
155283   9.42   1.10  16.62   2 2 2

155284   9.50   1.06  16.10   2 2 2
155284   9.53   1.08  16.41   2 2 2

155285   9.27   1.08  16.22   2 2 2
155285   9.19   1.07  16.13   2 2 2

155286   8.84   1.07  16.15   2 2 2
155286   8.86   1.04  15.57   2 2 2
155287   8.44   1.04  15.44   2 2 2
155287   8.40   1.05  15.64   2 2 2

155288   8.56   1.06  15.66   2 2 2
155288   8.48   1.06  15.84   2 2 2

155289   6.66   0.84  11.26   2 2 2
155289   6.76   0.83  11.26   2 2 2

155290   8.11   1.00  14.10   2 2 2
155290   8.49   1.00  14.32   2 2 2

155291   4.51   0.60   7.86   2 2 2
155291   4.51   0.60   8.07   2 2 2

155293  11.59   1.03  15.36   2 2 2
155293  11.60   1.05  15.23   2 2 2

155294  11.61   1.05  15.47   2 2 2
155294  11.54   1.03  15.27   2 2 2

155295  11.40   1.06  15.66   2 2 2
155295  11.47   1.05  15.24   2 2 2

155296  11.33   1.07  15.67   2 2 2
155296  11.34   1.08  15.70   2 2 2

155297  10.71   1.07  15.82   2 2 2
155297  10.75   1.07  15.48   2 2 2

155298  10.38   1.09  16.17   2 2 2
155298  10.34   1.08  16.47   2 2 2

155299   9.16   1.11  16.07   2 2 2
155299   9.42   1.09  15.82   2 2 2

155300   9.31   1.08  16.27   2 2 2
155300   9.41   1.08  16.12   2 2 2

155301   9.21   1.07  16.21   2 2 2
155301   9.24   1.10  16.41   2 2 2

155302   8.98   1.09  16.20   2 2 2
155302   9.08   1.10  15.91   2 2 2

155303   8.97   1.09  16.35   2 2 2
155303   9.14   1.10  16.46   2 2 2

155304   9.21   1.09  16.01   2 2 2
155304   9.19   1.09  15.73   2 2 2

155305   9.00   1.08  15.84   2 2 2
155305   8.87   1.07  15.84   2 2 2

155306   8.32   1.05  15.52   2 2 2
155306   8.56   1.06  15.59   2 2 2

155307   8.57   1.07  15.29   2 2 2
155307   8.59   1.06  15.31   2 2 2

155308   8.51   1.04  15.48   2 2 2
155308   8.67   1.06  15.42   2 2 2
155309   8.21   1.02  15.05   2 2 2
155309   8.32   1.04  15.20   2 2 2

155310   7.17   0.92  12.53   2 2 2
155310   7.09   0.89  12.51   2 2 2

155311   3.92   0.51   7.19   2 2 2
155311   4.00   0.52   7.10   2 2 2

155312  10.66   1.00  14.16   2 2 2
155312  10.77   1.00  14.22   2 2 2

155313  10.91   1.02  14.71   2 2 2
155313  10.93   1.03  14.49   2 2 2

155314  11.75   1.05  15.23   2 2 2
155314  11.83   1.06  15.31   2 2 2

155315  11.25   1.10  15.72   2 2 2
155315  11.33   1.08  15.55   2 2 2

155316  10.57   1.11  15.98   2 2 2
155316  10.64   1.11  15.86   2 2 2

155317   9.58   1.11  15.96   2 2 2
155317   9.42   1.09  15.86   2 2 2

155318   9.26   1.09  16.18   2 2 2
155318   9.30   1.09  16.02   2 2 2

155319   9.31   1.08  16.23   2 2 2
155319   9.36   1.10  16.43   2 2 2

155320   9.44   1.10  16.35   2 2 2
155320   9.49   1.12  16.07   2 2 2

155321   9.30   1.09  16.15   2 2 2
155321   9.51   1.10  15.88   2 2 2

155322   9.28   1.10  15.75   2 2 2
155322   9.38   1.08  15.58   2 2 2

155323   9.15   1.10  15.94   2 2 2
155323   9.29   1.08  15.90   2 2 2

155324   9.63   1.11  15.85   2 2 2
155324   9.65   1.10  15.76   2 2 2

155325   9.55   1.09  15.65   2 2 2
155325   9.41   1.10  15.68   2 2 2

155326   8.97   1.10  15.67   2 2 2
155326   9.15   1.09  15.46   2 2 2

155327   8.83   1.07  15.70   2 2 2
155327   8.90   1.08  15.63   2 2 2

155328   8.84   1.08  15.87   2 2 2
155328   8.91   1.06  15.80   2 2 2

155329   8.60   1.05  15.26   2 2 2
155329   8.65   1.04  15.04   2 2 2
155330   7.00   0.64   7.27   2 2 2
155330   6.98   0.64   7.31   2 2 2

155331   6.12   0.56   6.80   2 2 2
155331   6.14   0.55   6.81   2 2 2

155332  10.93   1.00  14.24   2 2 2
155332  11.10   0.99  14.10   2 2 2

155333  11.04   0.98  14.41   2 2 2
155333  11.15   0.99  14.56   2 2 2

155335  11.78   1.03  14.79   2 2 2
155335  12.01   1.02  15.02   2 2 2

155336  12.27   1.06  15.72   2 2 2
155336  12.49   1.05  15.54   2 2 2

155337  12.25   1.05  15.54   2 2 2
155337  12.20   1.06  15.39   2 2 2

155338  12.06   1.12  15.91   2 2 2
155338  11.99   1.08  16.14   2 2 2

155339  11.40   1.09  15.87   2 2 2
155339  11.44   1.07  15.83   2 2 2

155340  11.24   1.10  16.39   2 2 2
155340  11.41   1.08  16.64   2 2 2

155341   9.88   1.09  16.04   2 2 2
155341  10.03   1.06  16.35   2 2 2

155342  10.02   1.08  16.50   2 2 2
155342   9.71   1.08  16.33   2 2 2

155343   9.55   1.08  16.04   2 2 2
155343   9.66   1.06  16.25   2 2 2

155344   9.80   1.08  16.46   2 2 2
155344   9.86   1.08  16.59   2 2 2

155345   9.70   1.07  16.00   2 2 2
155345   9.75   1.10  16.21   2 2 2

155346   9.89   1.07  16.52   2 2 2
155346   9.80   1.10  16.59   2 2 2

155347   9.93   1.10  16.42   2 2 2
155347   9.76   1.11  16.21   2 2 2

155348   9.79   1.09  16.46   2 2 2
155348   9.80   1.08  16.55   2 2 2

155349   9.48   1.10  16.11   2 2 2
155349   9.50   1.06  16.19   2 2 2

155350   9.30   1.10  16.20   2 2 2
155350   9.37   1.08  16.34   2 2 2

155351   9.11   1.08  15.90   2 2 2
155351   9.44   1.07  16.09   2 2 2
155352   8.92   1.04  15.69   2 2 2
155352   8.91   1.05  15.74   2 2 2

155353   8.78   1.07  14.81   2 2 2
155353   8.83   1.06  14.98   2 2 2

155354   6.94   0.62   8.18   2 2 2
155354   6.92   0.62   8.18   2 2 2

155355  11.03   1.00  14.43   2 2 2
155355  11.01   1.00  14.35   2 2 2

155356  10.97   1.02  14.87   2 2 2
155356  11.14   1.02  14.98   2 2 2

155357  11.49   1.01  15.00   2 2 2
155357  11.72   1.02  15.07   2 2 2

155358  12.32   1.05  15.36   2 2 2
155358  12.40   1.05  15.36   2 2 2

155359  12.45   1.07  15.76   2 2 2
155359  12.50   1.06  15.93   2 2 2

155360  12.34   1.06  16.25   2 2 2
155360  12.34   1.08  15.99   2 2 2

155361  11.62   1.09  16.02   2 2 2
155361  11.63   1.10  15.93   2 2 2

155362  11.44   1.10  16.40   2 2 2
155362  11.55   1.08  16.42   2 2 2

155363  10.82   1.09  16.38   2 2 2
155363  11.74   1.10  16.29   2 2 2

155364   9.83   1.09  16.36   2 2 2
155364   9.71   1.09  16.52   2 2 2

155365   9.55   1.09  16.19   2 2 2
155365   9.60   1.08  16.38   2 2 2

155366   9.46   1.09  16.13   2 2 2
155366   9.68   1.08  16.04   2 2 2

155367   9.66   1.09  16.34   2 2 2
155367   9.71   1.09  16.47   2 2 2

155368   9.52   1.08  16.09   2 2 2
155368   9.65   1.07  16.59   2 2 2

155369   9.33   1.09  16.28   2 2 2
155369  10.19   1.09  16.38   2 2 2

155370   9.73   1.09  16.72   2 2 2
155370   9.70   1.10  16.68   2 2 2

155371   9.63   1.07  16.13   2 2 2
155371   9.41   1.08  16.13   2 2 2

155372   9.19   1.07  16.21   2 2 2
155372   9.24   1.08  16.37   2 2 2
155373   9.16   1.08  16.26   2 2 2
155373   9.38   1.08  16.07   2 2 2

155374   9.09   1.08  15.65   2 2 2
155374   9.10   1.08  16.11   2 2 2

155375   8.72   1.07  15.45   2 2 2
155375   8.77   1.06  15.62   2 2 2

155376   7.61   0.76   9.72   2 2 2
155376   7.53   0.77   9.77   2 2 2

155377   6.40   0.57   6.87   2 2 2
155377   6.53   0.56   6.85   2 2 2

155378  10.86   1.00  14.43   2 2 2
155378  10.98   1.00  14.71   2 2 2

155379  11.14   1.01  14.37   2 2 2
155379  11.24   1.02  14.88   2 2 2

155380  11.18   1.01  14.91   2 2 2
155380  11.19   1.01  14.75   2 2 2

155381  12.28   1.05  15.33   2 2 2
155381  12.60   1.05  15.68   2 2 2

155382  13.33   1.06  15.68   2 2 2
155382  13.34   1.08  16.10   2 2 2

155383  12.55   1.07  15.82   2 2 2
155383  12.42   1.09  15.89   2 2 2

155384  11.93   1.10  16.38   2 2 2
155384  11.98   1.10  16.44   2 2 2

155385  11.55   1.07  16.02   2 2 2
155385  11.61   1.09  16.42   2 2 2

155386  10.57   1.11  16.45   2 2 2
155386  10.67   1.11  16.27   2 2 2

155387   9.66   1.10  16.57   2 2 2
155387   9.80   1.10  16.32   2 2 2

155389   9.76   1.11  16.21   2 2 2
155389   9.77   1.11  16.15   2 2 2

155390   9.56   1.08  16.21   2 2 2
155390   9.60   1.07  16.02   2 2 2

155391   9.46   1.09  16.30   2 2 2
155391   9.51   1.10  16.13   2 2 2

155392   9.66   1.09  15.96   2 2 2
155392   9.59   1.08  16.15   2 2 2

155393   9.55   1.09  16.32   2 2 2
155393   9.60   1.09  16.37   2 2 2

155394   9.53   1.08  15.77   2 2 2
155394   9.59   1.10  16.43   2 2 2
155395   9.18   1.09  16.00   2 2 2
155395   9.28   1.08  15.83   2 2 2

155396   9.25   1.09  16.22   2 2 2
155396   9.17   1.08  16.16   2 2 2

155397   9.13   1.10  15.86   2 2 2
155397   9.21   1.10  15.66   2 2 2

155398   8.77   1.05  15.79   2 2 2
155398   9.02   1.07  15.54   2 2 2

155399   8.25   0.89  11.34   2 2 2
155399   8.29   0.89  11.25   2 2 2

155400   7.14   0.68   8.24   2 2 2
155400   7.31   0.69   8.28   2 2 2

155407  10.84   1.02  14.16   2 2 2
155407  10.87   0.98  14.44   2 2 2

155408  10.98   0.99  14.39   2 2 2
155408  11.16   0.98  14.53   2 2 2

155409  12.94   1.02  15.37   2 2 2
155409  13.06   1.02  15.21   2 2 2

155410  13.36   1.05  15.77   2 2 2
155410  14.27   1.05  15.31   2 2 2

155411  12.42   1.05  15.34   2 2 2
155411  12.76   1.05  15.48   2 2 2

155412  12.14   1.06  15.78   2 2 2
155412  12.26   1.07  15.58   2 2 2

155413  12.44   1.09  16.23   2 2 2
155413  12.56   1.08  16.45   2 2 2

155414  12.85   1.09  16.25   2 2 2
155414  11.88   1.08  16.45   2 2 2

155415  10.90   1.09  16.30   2 2 2
155415  11.08   1.06  16.55   2 2 2

155416   9.60   1.05  16.23   2 2 2
155416   9.79   1.07  16.39   2 2 2

155417   9.63   1.04  16.11   2 2 2
155417   9.75   1.04  16.17   2 2 2

155418   9.92   1.04  16.12   2 2 2
155418   9.86   1.03  16.08   2 2 2

155419   9.61   1.05  16.10   2 2 2
155419   9.48   1.08  16.18   2 2 2

155420   9.66   1.09  16.49   2 2 2
155420  10.36   1.09  16.69   2 2 2

155421   9.86   1.10  16.39   2 2 2
155421   9.90   1.10  16.79   2 2 2
155422   9.73   1.12  16.12   2 2 2
155422   9.77   1.10  16.25   2 2 2

155423   9.59   1.08  16.47   2 2 2
155423   9.67   1.09  16.55   2 2 2

155424   9.85   1.09  16.59   2 2 2
155424   9.82   1.08  16.48   2 2 2

155425   9.32   1.05  15.60   2 2 2
155425   9.35   1.05  15.66   2 2 2

155426   8.61   1.02  15.22   2 2 2
155426   8.61   1.03  15.40   2 2 2

155427   7.90   0.82  10.30   2 2 2
155427   7.87   0.81  10.40   2 2 2

155428   6.43   0.56   6.66   2 2 2
155428   6.49   0.55   6.79   2 2 2

155429   9.80   0.96  13.78   2 2 2
155429   9.83   0.94  13.83   2 2 2

155430  11.32   0.99  14.44   2 2 2
155430  11.41   0.99  14.50   2 2 2

155431  11.93   1.02  15.13   2 2 2
155431  11.99   1.01  14.98   2 2 2

155432  14.24   1.06  15.26   2 2 2
155432  14.00   1.06  15.24   2 2 2

155433  14.23   1.06  15.72   2 2 2
155433  14.38   1.06  15.92   2 2 2

155434  13.31   1.06  16.14   2 2 2
155434  13.36   1.06  16.21   2 2 2

155435  12.84   1.05  16.15   2 2 2
155435  12.89   1.08  16.01   2 2 2

155436  12.52   1.08  16.09   2 2 2
155436  12.43   1.09  16.15   2 2 2

155437  11.90   1.10  16.36   2 2 2
155437  12.00   1.10  16.38   2 2 2

155438   9.70   1.08  16.10   2 2 2
155438   9.76   1.10  16.14   2 2 2

155439   9.56   1.10  15.74   2 2 2
155439   9.79   1.09  16.06   2 2 2

155440   9.75   1.08  16.14   2 2 2
155440   9.76   1.09  16.16   2 2 2

155441   9.50   1.07  16.29   2 2 2
155441   9.78   1.08  16.18   2 2 2

155442   9.52   1.16  15.90   2 2 2
155442   9.38   1.16  16.00   2 2 2
155443   9.64   1.09  16.16   2 2 2
155443   9.61   1.08  16.51   2 2 2

155444   9.44   1.10  15.68   2 2 2
155444   9.54   1.09  15.78   2 2 2

155445   9.50   1.09  16.00   2 2 2
155445   9.65   1.10  16.04   2 2 2

155446   9.46   1.09  16.07   2 2 2
155446   9.58   1.09  16.17   2 2 2

155447   9.19   1.09  16.04   2 2 2
155447   9.28   1.07  16.08   2 2 2

155448   9.24   1.07  15.86   2 2 2
155448   9.21   1.08  15.65   2 2 2

155449   8.93   1.05  14.95   2 2 2
155449   9.02   1.06  15.27   2 2 2

155450   7.61   0.73   8.63   2 2 2
155450   7.83   0.74   8.66   2 2 2

155451   6.55   0.59   7.39   2 2 2
155451   6.67   0.61   7.74   2 2 2

155452   9.18   1.06  14.01   2 2 2
155452   9.29   0.99  14.11   2 2 2

155453   9.50   0.97  14.14   2 2 2
155453   9.53   0.98  14.29   2 2 2

155454  10.21   1.02  14.10   2 2 2
155454  10.46   1.04  14.20   2 2 2

155455  11.64   1.06  14.77   2 2 2
155455  11.46   1.05  14.49   2 2 2

155456  13.30   1.06  15.63   2 2 2
155456  13.36   1.09  15.53   2 2 2

155457  13.50   1.08  15.56   2 2 2
155457  13.60   1.08  15.87   2 2 2

155458  13.01   1.10  15.48   2 2 2
155458  13.16   1.09  15.62   2 2 2

155459  12.00   1.09  15.70   2 2 2
155459  12.30   1.10  15.62   2 2 2

155460  11.44   1.12  15.71   2 2 2
155460  11.57   1.13  15.71   2 2 2

155461  11.07   1.12  15.92   2 2 2
155461  11.10   1.13  16.15   2 2 2

155462   9.73   1.11  16.00   2 2 2
155462   9.82   1.10  15.90   2 2 2

155463   9.46   1.09  15.87   2 2 2
155463   9.46   1.09  15.85   2 2 2
155464   9.36   1.11  15.97   2 2 2
155464   9.36   1.12  15.77   2 2 2

155465   9.57   1.13  16.18   2 2 2
155465   9.59   1.14  16.14   2 2 2

155466   9.61   1.14  16.22   2 2 2
155466   9.62   1.12  16.30   2 2 2

155467   9.33   1.13  16.25   2 2 2
155467   9.43   1.14  16.21   2 2 2

155468   9.41   1.19  16.37   2 2 2
155468   9.39   1.13  16.33   2 2 2

155469   9.23   1.13  16.15   2 2 2
155469   9.25   1.13  16.08   2 2 2

155470   8.89   1.12  15.50   2 2 2
155470   8.91   1.11  15.56   2 2 2

155471   8.71   1.14  15.41   2 2 2
155471   8.80   1.09  15.48   2 2 2

155472   8.70   1.12  15.66   2 2 2
155472   8.82   1.12  15.84   2 2 2

155473   8.09   0.97  12.69   2 2 2
155473   8.21   0.99  12.81   2 2 2

155474   6.42   0.66   7.37   2 2 2
155474   6.45   0.66   7.33   2 2 2

155475  10.72   0.94  14.35   2 2 2
155475  10.57   1.04  14.26   2 2 2

155476  10.86   0.94  14.06   2 2 2
155476  11.01   0.94  14.33   2 2 2

155477  12.16   0.99  14.61   2 2 2
155477  12.30   0.99  14.87   2 2 2

155478  12.30   0.99  15.02   2 2 2
155478  12.48   0.99  15.06   2 2 2

155479  13.81   1.02  15.50   2 2 2
155479  13.69   1.04  15.33   2 2 2

155480  13.10   1.02  15.31   2 2 2
155480  13.40   1.01  15.31   2 2 2

155481  13.31   1.03  16.01   2 2 2
155481  13.45   1.03  15.79   2 2 2

155482  11.68   1.01  15.78   2 2 2
155482  11.86   1.01  15.96   2 2 2

155483  12.19   1.07  16.24   2 2 2
155483  12.10   1.02  16.08   2 2 2

155484  10.65   1.03  16.11   2 2 2
155484  10.59   1.06  16.53   2 2 2
155485   9.65   1.05  16.06   2 2 2
155485   9.74   1.04  16.46   2 2 2

155486   9.77   1.03  15.93   2 2 2
155486   9.86   1.07  16.46   2 2 2

155487   9.65   1.05  16.04   2 2 2
155487   9.68   1.05  15.95   2 2 2

155488   9.59   1.06  16.56   2 2 2
155488   9.65   1.06  16.22   2 2 2

155489   9.79   1.06  16.72   2 2 2
155489   9.76   1.08  16.93   2 2 2

155490   9.70   1.05  15.98   2 2 2
155490   9.79   1.05  16.33   2 2 2

155491   9.70   1.10  16.46   2 2 2
155491   9.50   1.04  16.22   2 2 2

155492   9.70   1.04  16.32   2 2 2
155492   9.70   1.02  16.03   2 2 2

155493   9.79   1.04  16.21   2 2 2
155493   9.85   1.04  16.10   2 2 2

155494   9.43   1.06  15.96   2 2 2
155494   9.61   1.05  16.02   2 2 2

155495   8.70   1.02  15.65   2 2 2
155495   8.78   1.02  15.71   2 2 2

155496   7.49   0.68   9.19   2 2 2
155496   7.55   0.70   9.21   2 2 2

155497   6.01   0.61   7.88   2 2 2
155497   5.92   0.66   7.72   2 2 2

155498   9.70   0.91  13.66   2 2 2
155498   9.70   0.92  13.64   2 2 2

155499   9.69   0.92  13.57   2 2 2
155499   9.69   0.97  14.02   2 2 2

155500   9.66   0.92  13.57   2 2 2
155500   9.84   0.94  13.63   2 2 2

155501  10.52   1.01  14.21   2 2 2
155501  10.64   0.96  14.41   2 2 2

155502  11.64   0.97  15.00   2 2 2
155502  11.76   0.99  14.80   2 2 2

155503  12.47   1.01  15.18   2 2 2
155503  12.53   1.03  15.35   2 2 2

155504  12.30   1.05  15.51   2 2 2
155504  12.24   1.02  15.49   2 2 2

155505  11.35   1.04  15.68   2 2 2
155505  11.55   1.04  15.54   2 2 2
155506  10.90   1.01  16.05   2 2 2
155506  11.02   1.05  16.19   2 2 2

155507  10.22   1.09  15.49   2 2 2
155507  10.25   1.07  15.89   2 2 2

155508   9.56   1.03  16.14   2 2 2
155508   9.59   1.03  16.16   2 2 2

155509   9.71   1.02  16.18   2 2 2
155509   9.77   1.05  15.95   2 2 2

155510   9.71   1.05  15.97   2 2 2
155510   9.74   1.04  15.61   2 2 2

155511   9.38   1.06  15.56   2 2 2
155511   9.44   1.04  15.64   2 2 2

155512   9.53   1.03  15.53   2 2 2
155512   9.47   1.04  15.73   2 2 2

155513   9.41   1.04  16.00   2 2 2
155513   9.53   1.05  15.93   2 2 2

155514   9.17   1.04  15.94   2 2 2
155514   9.20   1.02  16.33   2 2 2

155515   9.05   1.08  15.04   2 2 2
155515   9.14   1.00  15.48   2 2 2

155516   8.69   1.00  15.25   2 2 2
155516   8.69   0.98  15.39   2 2 2

155517   8.75   1.00  15.18   2 2 2
155517   8.63   1.02  15.26   2 2 2

155518   8.39   0.98  14.97   2 2 2
155518   8.45   0.97  14.98   2 2 2

155519   7.20   0.69   8.34   2 2 2
155519   7.29   0.72   8.39   2 2 2

155520   6.13   0.54   6.66   2 2 2
155520   6.28   0.55   6.64   2 2 2

155521   9.70   0.90  13.56   2 2 2
155521   9.70   0.93  14.16   2 2 2

155522   9.70   0.94  13.45   2 2 2
155522   9.31   0.94  13.47   2 2 2

155523  10.62   1.00  14.35   2 2 2
155523  10.77   0.93  14.45   2 2 2

155524  11.09   0.95  14.28   2 2 2
155524  11.01   0.95  14.76   2 2 2

155525  13.60   1.02  15.05   2 2 2
155525  13.54   1.04  14.97   2 2 2

155526  13.93   1.03  15.80   2 2 2
155526  13.99   1.02  15.68   2 2 2
155527  13.33   1.05  15.10   2 2 2
155527  13.42   1.05  15.60   2 2 2

155528  11.75   1.05  15.21   2 2 2
155528  11.78   1.04  15.37   2 2 2

155529  11.06   1.04  15.80   2 2 2
155529  11.15   1.07  15.88   2 2 2

155530  10.37   1.03  15.69   2 2 2
155530  10.28   1.06  15.71   2 2 2

155531   9.50   1.04  15.07   2 2 3
155531   9.71   1.12  14.86   2 2 3

155532   9.35   1.06  15.55   2 2 2
155532   9.38   1.07  15.90   2 2 2

155533   9.14   1.09  15.48   2 2 2
155533   9.14   1.04  15.56   2 2 2

155534   9.83   1.05  16.12   2 2 2
155534   9.77   1.08  15.89   2 2 2

155535   9.50   1.06  16.28   2 2 2
155535   9.56   1.06  16.25   2 2 2

155536   9.41   1.06  15.79   2 2 2
155536   9.50   1.07  15.61   2 2 2

155537   8.96   1.06  15.55   2 2 2
155537   9.08   1.03  15.37   2 2 2

155544   9.38   1.04  13.48   2 2 2
155544   9.50   0.93  13.50   2 2 2

155545   9.73   0.92  13.68   2 2 2
155545   9.76   1.00  13.56   2 2 2

155546   9.49   1.01  13.97   2 2 2
155546   9.49   0.94  13.75   2 2 2

155547  11.56   0.99  14.38   2 2 2
155547  11.53   0.99  14.55   2 2 2

155548  12.19   1.01  15.16   2 2 2
155548  12.40   0.99  15.10   2 2 2

155549  12.70   1.08  15.59   2 2 2
155549  12.79   1.04  15.21   2 2 2

155550  12.40   1.04  14.89   2 2 2
155550  12.46   1.05  14.89   2 2 2

155551  11.44   1.05  15.18   2 2 2
155551  11.23   1.04  15.12   2 2 2

155552  12.01   1.07  15.51   2 2 2
155552  12.22   1.08  15.78   2 2 2

155553  10.56   1.12  15.80   2 2 2
155553  10.84   1.10  15.77   2 2 2
155554   9.69   1.06  15.96   2 2 2
155554   9.75   1.09  15.99   2 2 2

155555   9.66   1.08  15.77   2 2 2
155555   9.66   1.06  15.71   2 2 2

155557   9.63   1.07  16.21   2 2 2
155557   9.60   1.09  15.84   2 2 2

155558   9.45   1.07  15.99   2 2 2
155558   9.51   1.08  15.81   2 2 2

155559   9.39   1.08  16.05   2 2 2
155559   9.48   1.07  16.28   2 2 2

155560   9.17   1.06  16.23   2 2 2
155560   9.30   1.04  16.29   2 2 2

155561   9.02   1.05  15.83   2 2 2
155561   9.02   1.04  15.77   2 2 2

155562   8.87   1.06  15.65   2 2 2
155562   8.78   1.10  15.32   2 2 2

155563   8.66   1.02  15.57   2 2 2
155563   8.69   1.03  15.43   2 2 2

155566   6.24   0.56   5.34   2 2 2
155566   6.12   0.54   5.59   2 2 2

155567   9.44   0.93  14.31   2 2 2
155567   9.32   1.05  14.12   2 2 2

155568   8.89   0.93  14.31   2 2 2
155568   9.01   0.94  14.52   2 2 2

155569   9.04   0.96  14.16   2 2 2
155569   9.07   0.93  14.42   2 2 2

155570   9.89   1.02  16.22   2 2 2
155570   9.95   1.04  16.23   2 2 2

155571  12.81   1.06  15.50   2 2 2
155571  12.87   1.06  15.73   2 2 2

155572  12.41   1.04  15.97   2 2 2
155572  12.22   1.05  15.74   2 2 2

155573  12.98   1.08  16.27   2 2 2
155573  13.32   1.07  16.48   2 2 2

155574  11.64   1.10  16.23   2 2 2
155574  11.76   1.09  16.38   2 2 2

155575  11.24   1.15  16.57   2 2 2
155575  11.33   1.06  16.74   2 2 2

155576  10.44   1.06  16.76   2 2 2
155576  10.20   1.09  16.39   2 2 2

155577   9.53   1.09  16.75   2 2 2
155577   9.65   1.07  16.75   2 2 2
155578   9.59   1.09  16.52   2 2 2
155578   9.74   1.08  16.39   2 2 2

155579   9.53   1.09  16.67   2 2 2
155579   9.59   1.08  16.92   2 2 2

155580   9.67   1.08  16.57   2 2 2
155580   9.73   1.10  16.57   2 2 2

155581   9.55   1.09  16.88   2 2 2
155581   9.58   1.11  17.08   2 2 2

155582   9.67   1.07  16.53   2 2 2
155582   9.55   1.10  16.85   2 2 2

155583   9.33   1.17  16.66   2 2 2
155583   9.30   1.06  16.75   2 2 2

155584   9.12   1.06  16.75   2 2 2
155584   9.14   1.05  16.42   2 2 2

155585   8.54   1.07  16.10   2 2 2
155585   8.84   1.04  15.66   2 2 2

155586   8.51   1.03  15.77   2 2 2
155586   9.74   1.02  15.90   2 2 2

155587   8.14   1.02  14.06   2 2 2
155587   8.26   1.01  13.91   2 2 2

155588   6.03   0.71   7.69   2 2 2
155588   6.00   0.65   7.66   2 2 2

155589   5.15   0.47   5.21   2 2 2
155589   5.18   0.50   5.15   2 2 2

155701   9.79   0.97  14.96   2 2 2
155701   9.92   1.02  14.68   2 2 2

155702  10.54   1.06  15.26   2 2 2
155702  10.57   0.99  14.97   2 2 2

155703  10.57   1.02  15.14   2 2 2
155703  10.81   1.00  15.14   2 2 2

155704  10.26   1.01  15.40   2 2 2
155704  10.44   0.98  15.10   2 2 2

155705  11.98   1.03  15.59   2 2 2
155705  12.13   1.04  15.78   2 2 2

155706  11.77   1.04  16.12   2 2 2
155706  11.71   1.04  16.12   2 2 2

155707  11.43   1.04  16.08   2 2 2
155707  11.61   1.07  15.78   2 2 2

155708  11.22   1.04  16.38   2 2 2
155708  11.31   1.07  15.87   2 2 2

155709  10.82   1.08  16.51   2 2 2
155709  10.91   1.07  16.28   2 2 2
155710  10.42   1.06  16.50   2 2 2
155710  10.54   1.16  16.24   2 2 2

155711   9.97   1.08  16.92   2 2 2
155711  10.03   1.09  16.63   2 2 2

155712   9.82   1.09  17.00   2 2 2
155712   9.90   1.17  16.77   2 2 2

155713   9.87   1.08  16.97   2 2 2
155713   9.99   1.12  16.99   2 2 2

155714   9.84   1.11  16.88   2 2 2
155714   9.81   1.09  17.31   2 2 2

155715   9.63   1.11  16.93   2 2 2
155715   9.84   1.11  16.76   2 2 2

155716   9.56   1.09  16.79   2 2 2
155716   9.59   1.13  16.83   2 2 2

155717   9.05   1.09  16.87   2 2 2
155717   9.26   1.07  16.37   2 2 2

155718   8.95   1.07  16.59   2 2 2
155718   9.10   1.14  16.06   2 2 2

155719   8.98   1.05  16.07   2 2 2
155719   8.95   1.04  16.30   2 2 2

155720   8.59   1.03  15.84   2 2 2
155720   8.68   1.04  15.27   2 2 2

155721   7.87   0.93  12.77   2 2 2
155721   7.99   0.94  12.62   2 2 2

155722   6.58   0.71   8.33   2 2 2
155722   6.61   0.71   8.31   2 2 2

155723   5.77   0.58   6.45   2 2 2
155723   5.83   0.57   6.42   2 2 2

155724   9.36   1.01  14.88   2 2 2
155724   9.42   1.00  14.52   2 2 2

155725   9.74   0.98  14.71   2 2 2
155725   9.45   1.00  14.95   2 2 2

155726  10.19   1.08  14.70   2 2 2
155726   9.86   0.98  15.25   2 2 2

155727  11.14   1.02  15.49   2 2 2
155727  11.32   1.05  15.19   2 2 2

155728  11.53   1.05  15.97   2 2 2
155728  11.71   1.07  15.72   2 2 2

155729  11.74   1.08  16.48   2 2 2
155729  11.79   1.07  15.94   2 2 2

155730  10.62   1.06  15.96   2 2 2
155730  10.53   1.06  16.00   2 2 2
155731  10.80   1.07  16.47   2 2 2
155731  10.89   1.09  16.26   2 2 2

155732  10.44   1.09  16.74   2 2 2
155732  10.62   1.10  16.45   2 2 2

155733   9.99   1.09  16.37   2 2 2
155733  10.11   1.10  16.64   2 2 2

155734   9.62   1.19  16.65   2 2 2
155734   9.62   1.08  16.80   2 2 2

155735   9.83   1.10  16.59   2 2 2
155735   9.65   1.09  16.97   2 2 2

155736   9.71   1.10  16.53   2 2 2
155736   9.80   1.10  16.68   2 2 2

155737   9.26   1.09  16.68   2 2 2
155737   9.38   1.10  16.49   2 2 2

155738   8.90   1.11  16.53   2 2 2
155738   9.08   1.07  16.12   2 2 2

155739   8.51   1.04  15.06   2 2 2
155739   8.60   1.02  15.30   2 2 2

155740   8.27   0.96  13.26   2 2 2
155740   8.18   0.96  13.48   2 2 2

155741   7.82   0.86  10.73   2 2 2
155741   7.82   0.82  10.45   2 2 2

155742   6.15   0.57   6.22   2 2 2
155742   6.12   0.63   6.20   2 2 2

155747  11.08   1.08  15.33   2 2 2
155747  10.93   1.03  15.65   2 2 2

155748  10.66   1.04  15.87   2 2 2
155748  10.72   1.04  15.55   2 2 2

155749  10.48   1.08  15.93   2 2 2
155749  10.66   1.08  16.23   2 2 2

155750  10.48   1.07  16.31   2 2 2
155750  10.71   1.10  16.06   2 2 2

155751  10.38   1.09  15.98   2 2 2
155751  10.39   1.07  16.61   2 2 2

155752  10.15   1.09  16.47   2 2 2
155752   9.97   1.08  16.40   2 2 2

155753   9.93   1.10  16.41   2 2 2
155753   9.99   1.11  16.66   2 2 2

155754   9.75   1.16  16.65   2 2 2
155754   9.78   1.11  16.21   2 2 2

155755   9.69   1.09  16.73   2 2 2
155755   9.78   1.10  16.77   2 2 2
155756   9.77   1.09  16.40   2 2 2
155756   9.71   1.10  16.97   2 2 2

155757   9.41   1.10  16.66   2 2 2
155757   9.50   1.11  16.80   2 2 2

155758   9.38   1.11  16.53   2 2 2
155758   9.47   1.11  16.58   2 2 2

155759   9.08   1.08  16.37   2 2 2
155759   9.14   1.08  16.50   2 2 2

155760   8.93   1.08  16.35   2 2 2
155760   9.02   1.08  16.29   2 2 2

155761   8.37   1.06  15.58   2 2 2
155761   8.49   1.04  15.60   2 2 2

155762   7.83   1.08  14.69   2 2 2
155762   7.83   1.00  16.74   2 2 2

155766   9.48   1.12  16.62   2 2 2
155766   9.45   1.12  16.85   2 2 2

155767   9.45   1.09  16.68   2 2 2
155767   9.45   1.10  16.68   2 2 2

155768   9.39   1.11  16.83   2 2 2
155768   9.39   1.10  16.66   2 2 2

155769   8.97   1.10  16.27   2 2 2
155769   9.06   1.09  16.52   2 2 2

155770   8.94   1.09  16.31   2 2 2
155770   9.03   1.10  16.31   2 2 2

155771   8.85   1.10  16.38   2 2 2
155771   8.73   1.10  16.30   2 2 2

155772   8.46   1.07  15.83   2 2 2
155772   8.52   1.04  15.80   2 2 2

155773   8.22   1.09  15.45   2 2 2
155773   8.37   1.05  15.80   2 2 2

155774   7.89   1.03  14.54   2 2 2
155774   7.98   1.02  14.83   2 2 2

155775   7.39   0.96  13.12   2 2 2
155775   7.45   0.97  13.12   2 2 2

155776   7.25   0.80   9.84   2 2 2
155776   7.30   0.82   9.86   2 2 2

155777   4.34   0.50   3.62   2 2 2
155777   4.37   0.44   3.62   2 2 2

155778   6.27   0.81   9.02   2 2 2
155778   6.24   0.78   9.09   2 2 2

155779   6.21   0.80   9.31   2 2 2
155779   6.24   0.81   9.53   2 2 2
155780   5.95   0.81   9.98   2 2 2
155780   5.98   0.81  10.00   2 2 2

155781   1.97   0.60   1.12   2 2 2
155781   2.00   0.35   0.82   2 2 2

155782   6.00   0.79   9.17   2 2 2
155782   6.79   0.77   9.23   2 2 2

155783   5.80   0.80   9.21   2 2 2
155783   5.80   0.79   9.34   2 2 2

155784   5.39   0.76   8.74   2 2 2
155784   5.39   0.77   8.82   2 2 2

155785   1.88   0.34   1.33   2 2 2
155785   1.94   0.30   1.44   2 2 2

155786   8.75   0.98  13.24   2 2 3
155786   8.67   0.90  13.32   2 2 3

155787  11.16   0.99  14.62   2 2 2
155787  11.47   0.95  14.70   2 2 2

155788  11.81   0.97  14.49   2 2 2
155788  11.81   1.08  14.81   2 2 2

155789  12.90   0.98  15.56   2 2 2
155789  12.99   1.00  15.78   2 2 2

155790  13.82   1.02  15.81   2 2 2
155790  13.73   1.04  15.53   2 2 2

155791  13.10   1.02  15.86   2 2 2
155791  13.30   1.03  16.08   2 2 2

155792  13.04   1.04  16.54   2 2 2
155792  13.16   1.05  16.13   2 2 2

155793  12.39   1.06  16.30   2 2 2
155793  12.53   1.04  16.49   2 2 2

155795  10.44   1.10  15.94   2 2 2
155795  10.75   1.03  15.89   2 2 2

155796   9.72   1.04  16.41   2 2 2
155796   9.75   1.04  16.00   2 2 2

155797   9.55   1.03  16.58   2 2 2
155797   9.63   1.03  16.14   2 2 2

155798   9.46   1.05  16.38   2 2 2
155798   9.60   1.04  16.25   2 2 2

155799   9.57   1.04  16.73   2 2 2
155799   9.69   1.04  16.68   2 2 2

155800   9.46   1.05  16.50   2 2 2
155800   9.72   1.04  16.53   2 2 2

155801   9.49   1.06  16.57   2 2 2
155801   9.51   1.10  16.38   2 2 2
155802   9.51   1.03  16.01   2 2 2
155802   9.74   1.04  16.50   2 2 2

155803   9.57   1.11  16.58   2 2 2
155803   9.71   1.03  16.94   2 2 2

155804   9.63   1.07  16.97   2 2 2
155804   9.68   1.06  16.55   2 2 2

155805   9.31   1.04  16.32   2 2 2
155805   9.22   1.04  16.45   2 2 2

155806   9.11   1.04  15.29   2 2 2
155806   9.25   1.07  15.32   2 2 2

155807   5.60   0.67   9.98   2 2 2
155807   5.63   0.71  10.15   2 2 2

155808   5.36   0.65   9.29   2 2 2
155808   5.39   0.64   9.56   2 2 2

155809   8.90   0.93  13.64   2 2 2
155809   8.93   0.92  13.87   2 2 2

155810   9.33   0.95  14.46   2 2 2
155810   9.42   0.93  14.38   2 2 2

155811  10.88   0.99  15.06   2 2 2
155811  11.00   1.04  14.70   2 2 2

155812  12.04   1.12  15.81   2 2 2
155812  11.98   0.98  15.77   2 2 2

155813  13.22   1.04  15.90   2 2 2
155813  13.42   1.09  15.80   2 2 2

155814  12.18   1.05  15.77   2 2 2
155814  12.21   1.03  15.79   2 2 2

155815  12.01   1.04  15.86   2 2 2
155815  12.01   1.06  16.18   2 2 2

155816  11.37   1.05  16.59   2 2 2
155816  11.40   1.05  16.56   2 2 2

155817  10.88   1.07  16.12   2 2 2
155817  10.91   1.07  16.37   2 2 2

155818   9.67   1.07  16.36   2 2 2
155818   9.67   1.05  16.28   2 2 2

155819   9.58   1.07  15.80   2 2 2
155819   9.64   1.11  16.09   2 2 2

155820   9.55   1.06  16.34   2 2 2
155820   9.47   1.07  16.02   2 2 2

155821   9.61   1.06  16.60   2 2 2
155821   9.75   1.07  16.29   2 2 2

155822   9.46   1.07  16.34   2 2 2
155822   9.55   1.07  16.48   2 2 2
155823   9.49   1.09  15.75   2 2 2
155823   9.52   1.07  16.23   2 2 2

155824   9.55   1.08  15.87   2 2 2
155824   9.38   1.06  16.05   2 2 2

155825   9.52   1.07  15.71   2 2 2
155825   9.52   1.07  15.80   2 2 2

155826   9.69   1.10  16.65   2 2 2
155826   9.84   1.08  16.22   2 2 2

155827   9.63   1.13  16.36   2 2 2
155827   9.80   1.09  16.32   2 2 2

155828   9.60   1.09  16.74   2 2 2
155828   9.72   1.09  16.42   2 2 2

155829   7.69   0.95  14.64   2 2 2
155829   7.75   0.97  14.25   2 2 2

155830   8.88   1.04  14.03   2 2 2
155830   9.02   1.05  13.73   2 2 2

155831   2.14   0.62   9.72   2 2 2
155831   2.19   0.64   9.70   2 2 2

155832   9.69   1.01  13.86   2 2 2
155832   9.89   0.99  13.84   2 2 2

155833   9.80   0.98  14.02   2 2 2
155833   9.80   1.01  14.02   2 2 2

155834  11.45   1.03  14.41   2 2 2
155834  11.45   1.04  14.26   2 2 2

155835  12.43   1.12  15.35   2 2 2
155835  12.55   1.05  15.59   2 2 2

155836   9.83   1.09  15.78   2 2 2
155836   9.74   1.09  15.88   2 2 2

155837  12.55   1.09  15.78   2 2 2
155837  12.75   1.07  15.96   2 2 2

155838  12.72   1.08  16.37   2 2 2
155838  12.81   1.12  15.77   2 2 2

155839  11.74   1.10  15.68   2 2 2
155839  11.77   1.09  15.56   2 2 2

155840  10.98   1.10  15.34   2 2 2
155840  10.95   1.09  15.37   2 2 2

155841   9.94   1.10  16.17   2 2 2
155841   9.82   1.11  15.74   2 2 2

155842   9.73   1.10  16.06   2 2 2
155842   9.79   1.09  16.04   2 2 2

155843   9.50   1.16  15.68   2 2 2
155843   9.56   1.10  16.18   2 2 2
155844   9.79   1.10  16.37   2 2 2
155844   9.85   1.09  16.10   2 2 2

155845   9.61   1.11  16.10   2 2 2
155845   9.85   1.07  16.10   2 2 2

155846   9.67   1.12  15.62   2 2 2
155846   9.67   1.11  15.99   2 2 2

155847   9.87   1.11  16.22   2 2 2
155847  10.02   1.14  15.83   2 2 2

155848  10.16   1.12  16.41   2 2 2
155848  10.08   1.11  16.66   2 2 2

155849  10.19   1.15  16.72   2 2 2
155849  10.19   1.14  16.56   2 2 2

155850  10.19   1.16  16.41   2 2 2
155850  10.22   1.17  17.08   2 2 2

155851   9.26   1.13  15.85   2 2 2
155851   9.49   1.21  15.80   2 2 2

155852   8.85   1.10  15.57   2 2 2
155852   9.05   1.10  15.72   2 2 2

155853   8.47   1.07  14.81   2 2 2
155853   8.47   1.07  15.00   2 2 2

155854   2.16   0.60   8.62   2 2 2
155854   2.13   0.63   8.57   2 2 2

155855  11.20   1.08  15.23   2 2 2
155855  11.28   1.00  15.25   2 2 2

155856  11.68   0.99  15.38   2 2 2
155856  11.65   0.98  15.04   2 2 2

155857  11.98   1.01  15.61   2 2 2
155857  12.30   1.00  15.67   2 2 2

155858  13.41   1.02  15.90   2 2 2
155858  13.58   1.01  16.03   2 2 2

155859  13.92   1.05  16.41   2 2 2
155859  14.03   1.04  16.54   2 2 2

155860  13.80   1.05  16.68   2 2 2
155860  13.85   1.05  16.31   2 2 2

155861  13.51   1.07  16.75   2 2 2
155861  13.54   1.08  16.52   2 2 2

155862  12.87   1.08  16.56   2 2 2
155862  13.27   1.08  16.48   2 2 2

155863  12.37   1.15  16.53   2 2 2
155863  12.45   1.08  16.90   2 2 2

155864  11.82   1.05  16.57   2 2 2
155864  12.08   1.09  17.01   2 2 2
155865  10.93   1.06  16.78   2 2 2
155865  11.04   1.06  16.89   2 2 2

155866  10.04   1.04  16.70   2 2 2
155866  10.13   1.07  17.12   2 2 2

155867   9.84   1.05  16.60   2 2 2
155867   9.92   1.05  16.83   2 2 2

155868  10.06   1.08  17.06   2 2 2
155868   9.89   1.06  17.12   2 2 2

155869   9.91   1.05  16.74   2 2 2
155869   9.94   1.06  17.00   2 2 2

155870  10.05   1.06  17.31   2 2 2
155870  10.19   1.09  17.31   2 2 2

155871  10.12   1.18  17.09   2 2 2
155871  10.23   1.09  17.03   2 2 2

155872  10.43   1.10  17.64   2 2 2
155872  10.40   1.12  17.45   2 2 2

155873  10.33   1.11  17.45   2 2 2
155873  10.25   1.12  17.60   2 2 2

155874  10.22   1.12  17.62   2 2 2
155874  10.30   1.12  17.90   2 2 2

155875   9.07   1.08  16.74   2 2 2
155875   9.13   1.08  16.51   2 2 2

155876   8.67   0.99  14.32   2 2 2
155876   8.78   1.02  14.44   2 2 2

155877   0.82   0.46   5.84   2 2 2
155877   0.88   0.38   6.03   2 2 2

155878  14.90   1.06  16.60   2 2 2
155878  14.79   1.14  16.51   2 2 2

155879  14.83   1.18  16.75   2 2 2
155879  14.94   1.07  16.69   2 2 2

155880  15.24   1.05  16.84   2 2 2
155880  15.16   1.05  16.61   2 2 2

155881  15.10   1.08  16.95   2 2 2
155881  14.78   1.08  16.68   2 2 2

155882  14.87   1.06  16.60   2 2 2
155882  14.92   1.06  16.70   2 2 2

155883  14.69   1.08  16.84   2 2 2
155883  14.89   1.08  17.02   2 2 2

155884  14.11   1.08  16.52   2 2 2
155884  14.28   1.07  16.86   2 2 2

155886  12.97   1.07  17.09   2 2 2
155886  13.02   1.08  17.16   2 2 2
155887  11.99   1.09  16.91   2 2 2
155887  11.85   1.08  16.66   2 2 2

155888  11.46   1.08  17.13   2 2 2
155888  11.47   1.13  16.80   2 2 2

155889  10.06   1.07  16.74   2 2 2
155889  10.29   1.06  16.88   2 2 2

155890  10.17   1.06  17.06   2 2 2
155890  10.20   1.07  17.08   2 2 2

155891  10.37   1.08  17.12   2 2 2
155891  10.20   1.08  16.83   2 2 2

155892  10.25   1.09  17.02   2 2 2
155892  10.39   1.08  17.44   2 2 2

155893  10.53   1.11  17.47   2 2 2
155893  10.56   1.10  17.66   2 2 2

155894  10.58   1.12  17.60   2 2 2
155894  10.66   1.12  17.75   2 2 2

155895  10.32   1.11  17.77   2 2 2
155895  10.40   1.19  17.73   2 2 2

155896   9.68   1.09  17.08   2 2 2
155896   9.76   1.17  17.11   2 2 2

155897   9.67   1.08  17.44   2 2 2
155897   9.64   1.09  17.31   2 2 2

155898   8.99   1.06  16.44   2 2 2
155898   8.95   1.06  16.33   2 2 2

155899   8.61   0.99  14.52   2 2 2
155899   8.64   1.01  14.35   2 2 2

155900   0.34   0.27   3.38   2 2 2
155900   0.43   0.20   3.44   2 2 2
 
155901  14.82   1.12  16.57   2 2 2
155901  15.02   1.08  16.81   2 2 2

155902  15.16   1.08  17.01   2 2 2
155902  15.27   1.08  17.10   2 2 2

155903  14.75   1.06  16.64   2 2 2
155903  14.75   1.07  16.75   2 2 2

155904  14.57   1.16  16.81   2 2 2
155904  14.70   1.06  16.94   2 2 2

155905  14.44   1.08  16.65   2 2 2
155905  14.67   1.08  17.13   2 2 2

155906  14.01   1.09  16.67   2 2 2
155906  14.10   1.09  16.92   2 2 2

155908  13.04   1.07  17.05   2 2 2
155908  13.13   1.07  17.12   2 2 2
155909  12.22   1.08  16.63   2 2 2
155909  12.30   1.09  16.84   2 2 2

155910  11.36   1.09  16.91   2 2 2
155910  11.41   1.06  17.16   2 2 2

155911  10.73   1.07  16.61   2 2 2
155911  10.70   1.07  16.70   2 2 2

155912  10.30   1.08  16.93   2 2 2
155912  10.32   1.09  17.08   2 2 2

155913  10.28   1.07  16.88   2 2 2
155913  10.31   1.15  17.04   2 2 2

155914  10.30   1.09  17.06   2 2 2
155914  10.31   1.09  16.93   2 2 2

155915  10.53   1.10  17.48   2 2 2
155915  10.64   1.09  17.57   2 2 2

155916  10.35   1.11  17.53   2 2 2
155916  10.44   1.10  17.34   2 2 2

155917  10.40   1.12  17.62   2 2 2
155917  10.46   1.13  17.88   2 2 2

155918  10.60   1.12  17.97   2 2 2
155918  10.62   1.13  17.78   2 2 2

155919   9.54   1.09  17.28   2 2 2
155919   9.52   1.08  17.06   2 2 2

155920   9.06   1.07  17.17   2 2 2
155920   9.17   1.07  16.96   2 2 2

155921   8.56   1.10  15.32   2 2 2
155921   8.64   1.03  15.54   2 2 2

155922   8.16   0.99  13.26   2 2 2
155922   8.19   0.98  13.26   2 2 2

155923   0.35   0.31   3.70   2 2 2
155923   0.41   0.25   3.81   2 2 2

155924  14.74   1.15  16.73   2 2 2
155924  14.51   1.07  16.81   2 2 2

155925  14.51   1.08  16.93   2 2 2
155925  14.54   1.08  16.94   2 2 2

155926  14.42   1.09  17.04   2 2 2
155926  14.56   1.08  17.16   2 2 2

155927  14.38   1.09  16.88   2 2 2
155927  14.39   1.09  17.17   2 2 2

155928  14.29   1.09  16.71   2 2 2
155928  14.30   1.08  16.64   2 2 2

155929  13.80   1.08  17.14   2 2 2
155929  13.80   1.16  17.03   2 2 2
155930  13.26   1.08  16.67   2 2 2
155930  12.94   1.07  16.78   2 2 2

155931  12.80   1.07  16.70   2 2 2
155931  12.74   1.06  16.81   2 2 2

155933  11.57   1.09  17.10   2 2 2
155933  11.60   1.07  17.01   2 2 2

155934  11.06   1.12  17.33   2 2 2
155934  11.12   1.08  17.08   2 2 2

155935  10.80   1.10  16.92   2 2 2
155935  10.83   1.11  17.39   2 2 2

155936  10.49   1.11  17.18   2 2 2
155936  10.57   1.12  17.19   2 2 2

155937  10.73   1.12  17.77   2 2 2
155937  10.65   1.13  17.59   2 2 2

155938  10.66   1.11  17.71   2 2 2
155938  10.69   1.22  17.38   2 2 2

155939  10.80   1.15  18.07   2 2 2
155939  10.82   1.15  18.26   2 2 2

155940  10.85   1.16  18.44   2 2 2
155940  10.90   1.16  18.48   2 2 2

155941  10.67   1.15  18.53   2 2 2
155941  10.73   1.16  18.36   2 2 2

155942   8.55   1.06  15.96   2 2 2
155942   8.64   1.04  16.39   2 2 2

155943   8.24   1.05  15.65   2 2 2
155943   8.27   1.02  15.63   2 2 2

155944   8.43   1.03  15.72   2 2 2
155944   8.32   1.03  15.59   2 2 2

155945   6.87   0.95  12.96   2 2 2
155945   6.87   0.98  12.87   2 2 2

155946   0.47   0.49   5.74   2 2 2
155946   0.47   0.57   5.60   2 2 2

155947  14.84   1.12  16.71   2 2 2
155947  14.95   1.08  16.79   2 2 2

155948  14.26   1.13  16.54   2 2 2
155948  14.29   1.10  16.97   2 2 2

155949  13.19   1.10  16.65   2 2 2
155949  13.44   1.10  16.84   2 2 2

155950  12.45   1.08  16.74   2 2 2
155950  12.48   1.05  16.72   2 2 2

155951  11.68   1.08  17.15   2 2 2
155951  11.82   1.10  17.09   2 2 2
155952  10.83   1.07  17.09   2 2 2
155952  10.77   1.09  16.84   2 2 2

155953  10.43   1.09  16.84   2 2 2
155953  10.43   1.09  16.63   2 2 2

155954  10.36   1.08  17.20   2 2 2
155954  10.36   1.20  17.13   2 2 2

155955  10.41   1.10  16.91   2 2 2
155955  10.52   1.12  17.16   2 2 2

155956  10.51   1.12  17.54   2 2 2
155956  10.74   1.14  17.47   2 2 2

155957  10.31   1.15  17.72   2 2 2
155957  10.29   1.12  17.67   2 2 2

155958  10.05   1.14  17.84   2 2 2
155958  10.11   1.13  17.90   2 2 2

155959   8.47   1.06  15.82   2 2 2
155959   8.48   1.04  16.20   2 2 2

155960   8.42   1.08  15.66   2 2 2
155960   8.50   1.04  15.79   2 2 2

155961   8.27   1.04  15.75   2 2 2
155961   8.35   1.06  15.76   2 2 2

155962   3.92   0.77   9.12   2 2 2
155962   3.93   0.84   9.07   2 2 2

155963   0.53   0.42   4.42   2 2 2
155963   0.52   0.45   4.44   2 2 2

155964  14.77   1.08  16.81   2 2 2
155964  14.54   1.27  16.44   2 2 2

155965  14.69   1.07  16.77   2 2 2
155965  14.71   1.09  16.66   2 2 2

155966  13.78   1.08  16.82   2 2 2
155966  14.15   1.08  16.74   2 2 2

155967  13.33   1.08  16.52   2 2 2
155967  13.52   1.07  16.90   2 2 2

155968  12.68   1.05  16.58   2 2 2
155968  12.79   1.08  16.68   2 2 2

155969  12.37   1.07  16.90   2 2 2
155969  12.25   1.05  16.78   2 2 2

155970  11.46   1.17  16.90   2 2 2
155970  11.55   1.03  16.94   2 2 2

155971  10.87   1.07  17.08   2 2 2
155971  11.01   1.06  17.19   2 2 2

155974  10.42   1.28  17.52   2 2 2
155974  10.50   1.12  17.60   2 2 2
155975  10.59   1.13  18.17   2 2 2
155975  10.50   1.12  17.97   2 2 2

155976  10.00   1.11  17.73   2 2 2
155976  10.03   1.10  17.67   2 2 2

155977   8.71   1.04  16.40   2 2 2
155977   8.76   1.07  16.59   2 2 2

155978   8.01   0.99  15.40   2 2 2
155978   8.04   1.00  15.39   2 2 2

155979   8.03   1.05  15.51   2 2 2
155979   8.09   1.03  15.72   2 2 2

155980   8.09   1.00  15.34   2 2 2
155980   8.17   1.01  15.23   2 2 2

155981   2.86   0.70   9.15   2 2 2
155981   2.78   0.75   9.02   2 2 2

155982   0.75   0.53   6.11   2 2 2
155982   0.73   0.63   5.94   2 2 2

155983  13.45   1.15  16.41   2 2 2
155983  13.65   1.02  16.62   2 2 2

155984  13.34   1.04  16.55   2 2 2
155984  13.39   1.04  16.66   2 2 2

155985  12.68   1.05  16.09   2 2 2
155985  12.71   1.06  16.48   2 2 2

155986  12.46   1.05  16.33   2 2 2
155986  12.60   1.05  16.23   2 2 2

155987  12.54   1.07  16.51   2 2 2
155987  12.43   1.05  16.47   2 2 2

155988  12.46   1.07  16.90   2 2 2
155988  12.63   1.07  16.96   2 2 2

155989  12.00   1.11  16.96   2 2 2
155989  11.95   1.07  17.08   2 2 2

155990  10.42   1.26  16.21   2 2 2
155990  10.53   1.05  16.87   2 2 2

155991  10.45   1.07  17.00   2 2 2
155991  10.56   1.11  17.06   2 2 2

155992  10.22   1.09  16.95   2 2 2
155992  10.25   1.13  16.70   2 2 2

155993  10.44   1.09  16.92   2 2 2
155993  10.55   1.06  16.92   2 2 2

155994  10.58   1.09  17.29   2 2 2
155994  10.58   1.09  17.31   2 2 2

155995  10.38   1.13  17.30   2 2 2
155995  10.52   1.12  17.72   2 2 2
155996  10.52   1.15  17.80   2 2 2
155996  10.66   1.14  18.02   2 2 2

155997  10.01   1.13  17.81   2 2 2
155997  10.01   1.13  17.69   2 2 2

155998   7.92   0.98  15.47   2 2 2
155998   7.98   1.25  15.29   2 2 2

155999   8.03   1.03  15.49   2 2 2
155999   8.12   1.03  15.85   2 2 2

156000   4.65   0.82  10.58   2 2 2
156000   4.71   0.86  10.62   2 2 2

156001   1.43   0.41   5.09   2 2 2
156001   1.42   0.48   5.04   2 2 2

156002  17.27   1.07  16.74   2 2 2
156002  17.70   1.22  16.77   2 2 2

156003  17.16   1.09  16.43   2 2 2
156003  17.22   1.07  16.68   2 2 2

156004  17.02   1.07  16.74   2 2 2
156004  17.22   1.09  16.79   2 2 2

156005  17.21   1.09  16.85   2 2 2
156005  17.07   1.09  17.02   2 2 2

156006  16.24   1.27  16.61   2 2 2
156006  16.13   1.09  16.81   2 2 2

156007  14.70   1.07  16.58   2 2 2
156007  14.90   1.08  17.12   2 2 2

156008  13.82   1.04  16.62   2 2 2
156008  13.99   1.07  16.69   2 2 2

156009  13.39   1.09  16.62   2 2 2
156009  13.45   1.10  16.86   2 2 2

156011  12.43   1.14  16.95   2 2 2
156011  12.65   1.08  16.98   2 2 2

156012  11.60   1.07  16.80   2 2 2
156012  11.57   1.09  16.82   2 2 2

156013  10.55   1.06  16.67   2 2 2
156013  10.61   1.05  16.90   2 2 2

156014  10.46   1.08  16.87   2 2 2
156014  10.38   1.07  16.72   2 2 2

156015  10.77   1.25  17.27   2 2 2
156015  10.46   1.08  16.75   2 2 2

156016  10.43   1.15  17.04   2 2 2
156016  10.57   1.11  17.02   2 2 2

156017  10.60   1.10  17.81   2 2 2
156017  10.71   1.11  17.85   2 2 2
156018  10.85   1.12  18.01   2 2 2
156018  10.91   1.12  17.53   2 2 2

156019  10.73   1.17  18.15   2 2 2
156019  10.85   1.17  18.03   2 2 2

156020   8.89   1.05  16.47   2 2 2
156020   8.88   1.06  16.63   2 2 2

156021   8.85   1.07  16.42   2 2 2
156021   8.97   1.05  15.99   2 2 2

156022   8.85   1.04  15.82   2 2 2
156022   9.02   1.05  16.11   2 2 2

156023   0.36   0.36   3.15   2 2 2
156023   0.36   0.43   3.09   2 2 2

156025  17.89   1.12  16.52   2 2 2
156025  17.78   1.12  16.52   2 2 2

156026  17.29   1.14  16.58   2 2 2
156026  17.40   1.14  16.71   2 2 2

156027  16.79   1.17  16.78   2 2 2
156027  16.82   1.14  16.86   2 2 2

156028  16.30   1.11  16.99   2 2 2
156028  16.33   1.13  17.12   2 2 2

156029  14.91   1.15  17.10   2 2 2
156029  15.23   1.11  17.12   2 2 2

156030  14.10   1.15  16.52   2 2 2
156030  14.19   1.09  16.54   2 2 2

156031  13.69   1.12  16.73   2 2 2
156031  13.64   1.09  16.67   2 2 2

156032  13.00   1.08  16.76   2 2 2
156032  12.92   1.09  16.80   2 2 2

156033  12.27   1.09  16.80   2 2 2
156033  12.44   1.09  16.93   2 2 2

156034  11.66   1.12  16.84   2 2 2
156034  11.66   1.10  16.76   2 2 2

156035  10.80   1.06  16.93   2 2 2
156035  10.82   1.09  17.04   2 2 2

156036  10.74   1.11  17.12   2 2 2
156036  10.79   1.10  17.29   2 2 2

156037  10.88   1.10  17.38   2 2 2
156037  10.85   1.09  17.36   2 2 2

156038  10.67   1.10  17.16   2 2 2
156038  10.70   1.10  17.21   2 2 2

156039  10.87   1.11  17.55   2 2 2
156039  10.87   1.15  17.55   2 2 2
156040  10.98   1.13  18.04   2 2 2
156040  11.01   1.11  17.93   2 2 2

156041  11.40   1.14  18.11   2 2 2
156041  11.17   1.16  17.96   2 2 2

156042  11.28   1.16  18.34   2 2 2
156042  11.43   1.17  18.56   2 2 2

156043  10.97   1.16  18.10   2 2 2
156043  11.11   1.17  18.23   2 2 2

156044   9.84   1.12  16.97   2 2 2
156044   9.98   1.11  17.12   2 2 2
 
156045   8.85   1.03  15.77   2 2 2
156045   8.94   1.02  15.98   2 2 2

156046   5.31   0.71  10.19   2 2 2
156046   5.39   0.73  10.21   2 2 2

156047   1.99   0.46   4.56   2 2 2
156047   1.96   0.46   4.63   2 2 2

156048  17.63   1.09  16.88   2 2 2
156048  17.60   1.10  16.67   2 2 2

156049  17.94   1.11  16.67   2 2 2
156049  17.96   1.07  16.82   2 2 2

156050  18.25   1.10  17.14   2 2 2
156050  18.25   1.09  16.95   2 2 2

156051  18.27   1.08  17.21   2 2 2
156051  18.36   1.10  17.25   2 2 2

156052  18.15   1.09  17.51   2 2 2
156052  18.18   1.08  17.18   2 2 2

156053  17.81   1.12  17.18   2 2 2
156053  17.52   1.12  17.14   2 2 2

156054  16.07   1.10  17.31   2 2 2
156054  16.13   1.09  17.36   2 2 2

156055  15.18   1.09  17.51   2 2 2
156055  15.12   1.09  17.53   2 2 2

156056  14.02   1.08  17.31   2 2 2
156056  14.11   1.07  17.32   2 2 2

156057  12.92   1.08  17.27   2 2 2
156057  13.12   1.11  17.27   2 2 2

156058  11.67   1.10  17.18   2 2 2
156058  11.85   1.15  17.33   2 2 2

156059  11.09   1.09  16.78   2 2 2
156059  11.21   1.09  16.78   2 2 2

156060  10.74   1.05  17.03   2 2 2
156060  10.92   1.07  16.99   2 2 2
156061  10.37   1.08  17.16   2 2 2
156061  10.45   1.10  17.05   2 2 2

156062  10.34   1.10  17.44   2 2 2
156062  10.36   1.07  17.40   2 2 2

156064  11.11   1.18  18.09   2 2 2
156064  11.28   1.15  17.89   2 2 2

156065  10.27   1.15  17.83   2 2 2
156065  10.59   1.16  17.66   2 2 2

156066  11.73   1.23  18.85   2 2 2
156066  11.79   1.22  18.73   2 2 2

156067  10.40   1.17  17.89   2 2 2
156067  10.55   1.16  17.80   2 2 2

156068   7.52   0.93  14.52   2 2 2
156068   7.37   0.92  14.54   2 2 2

156069   3.94   0.64   7.84   2 2 2
156069   3.94   0.64   8.01   2 2 2

156070   1.95   0.38   2.90   2 2 2
156070   2.01   0.37   2.95   2 2 2

156071  17.04   1.06  16.48   2 2 2
156071  17.10   1.09  16.80   2 2 2

156072  17.53   1.13  16.84   2 2 2
156072  17.09   1.09  16.32   2 2 2
156072  16.95   1.07  16.99   2 2 2
156072  17.55   1.07  17.08   2 2 2

156073  16.94   1.05  16.87   2 2 2
156073  17.00   1.12  16.76   2 2 2
156073  17.55   1.06  17.12   2 2 2
156073  17.61   1.09  17.06   2 2 2

156074  16.53   1.08  17.01   2 2 2
156074  16.88   1.09  16.93   2 2 2

156075  14.62   1.07  16.71   2 2 2
156075  15.09   1.08  16.50   2 2 2

156076  13.68   1.05  17.02   2 2 2
156076  13.59   1.07  16.96   2 2 2

156077  12.68   1.07  16.56   2 2 2
156077  12.70   1.09  16.88   2 2 2

156078  12.79   1.08  17.34   2 2 2
156078  12.53   1.08  17.17   2 2 2

156079  12.02   1.08  17.24   2 2 2
156079  11.88   1.06  16.89   2 2 2

156080  11.13   1.09  16.92   2 2 2
156080  11.39   1.06  17.12   2 2 2

156081  11.18   1.05  17.27   2 2 2
156081  11.25   1.04  17.38   2 2 2
156082  10.71   1.08  17.47   2 2 2
156082  10.86   1.07  17.17   2 2 2

156083  10.68   1.09  17.91   2 2 2
156083  11.00   1.09  17.99   2 2 2

156084  11.47   1.09  17.70   2 2 2
156084  11.41   1.10  17.85   2 2 2

156085  11.43   1.16  18.50   2 2 2
156085  11.46   1.16  18.31   2 2 2

156086  12.01   1.19  18.96   2 2 2
156086  11.96   1.22  19.48   2 2 2

156087  11.48   1.22  19.08   2 2 2
156087  11.54   1.22  19.35   2 2 2

156094  19.47   1.06  17.20   2 2 2
156094  19.53   1.14  17.05   2 2 2

156095  18.79   1.09  16.81   2 2 2
156095  19.23   1.08  16.80   2 2 2

156096  18.76   1.11  17.29   2 2 2
156096  18.79   1.10  17.23   2 2 2

156097  18.46   1.07  16.91   2 2 2
156097  18.64   1.08  17.04   2 2 2

156098  17.16   1.09  17.38   2 2 2
156098  17.37   1.10  17.30   2 2 2

156099  15.64   1.10  17.34   2 2 2
156099  15.81   1.08  16.96   2 2 2

156100  14.17   1.09  17.03   2 2 2
156100  14.20   1.08  17.18   2 2 2

156101  13.11   1.09  17.37   2 2 2
156101  13.25   1.10  17.05   2 2 2

156102  12.31   1.06  17.17   2 2 2
156102  12.31   1.09  16.83   2 2 2

156103  11.89   1.08  17.53   2 2 2
156103  11.92   1.07  17.32   2 2 2

156104  11.51   1.09  17.11   2 2 2
156104  11.51   1.07  17.20   2 2 2

156105  11.01   1.08  17.45   2 2 2
156105  11.06   1.10  17.70   2 2 2

156106  11.00   1.14  17.68   2 2 2
156106  11.06   1.13  18.02   2 2 2

156107  10.82   1.11  17.86   2 2 2
156107  11.00   1.10  17.67   2 2 2

156108  11.14   1.13  18.11   2 2 2
156108  10.99   1.16  18.34   2 2 2
156109  12.01   1.16  19.18   2 2 2
156109  12.10   1.20  19.01   2 2 2

156110  12.09   1.25  19.56   2 2 2
156110  12.20   1.25  19.96   2 2 2

156111   8.89   1.00  15.97   2 2 2
156111   8.92   1.01  15.96   2 2 2

156112   5.73   0.74  12.26   2 2 2
156112   5.88   0.75  12.45   2 2 2

156113   5.26   0.67  10.94   2 2 2
156113   5.29   0.70  11.13   2 2 2

156114   2.69   0.37   6.30   2 2 2
156114   2.74   0.37   6.35   2 2 2

156115   2.19   0.28   4.18   2 2 2
156115   2.19   0.28   4.27   2 2 2

156116   0.52   0.08   0.72   2 2 2
156116   0.52   0.08   0.74   2 2 2

156117  18.77   1.06  16.70   2 2 2
156117  18.97   1.02  16.62   2 2 2

156118  19.22   1.08  16.79   2 2 2
156118  19.46   1.04  17.09   2 2 2

156119  19.69   1.07  16.94   2 2 2
156119  19.84   1.05  17.45   2 2 2

156120  20.06   1.08  17.51   2 2 2
156120  19.95   1.10  17.36   2 2 2

156121  19.86   1.06  17.81   2 2 2
156121  20.03   1.07  17.60   2 2 2

156122  17.71   1.07  17.23   2 2 2
156122  17.80   1.07  17.44   2 2 2

156123  16.09   1.04  17.63   2 2 2
156123  16.21   1.08  17.73   2 2 2

156124  15.27   1.05  17.21   2 2 2
156124  15.27   1.04  17.30   2 2 2

156125  14.36   1.06  17.26   2 2 2
156125  13.95   1.08  17.45   2 2 2

156126  12.70   1.06  17.29   2 2 2
156126  12.85   1.11  17.08   2 2 2

156127  11.32   1.10  17.35   2 2 2
156127  11.39   1.07  17.42   2 2 2

156128  11.06   1.09  17.23   2 2 2
156128  11.09   1.10  17.00   2 2 2

156129  10.79   1.11  17.66   2 2 2
156129  10.82   1.10  17.55   2 2 2
156130  10.76   1.12  17.59   2 2 2
156130  10.76   1.12  17.80   2 2 2

156131  10.70   1.14  18.14   2 2 2
156131  10.75   1.12  18.35   2 2 2

156132  11.71   1.17  18.25   2 2 2
156132  11.51   1.17  18.98   2 2 2

156133  12.06   1.22  19.18   2 2 2
156133  12.15   1.22  19.11   2 2 2

156134  11.87   1.27  20.25   2 2 2
156134  12.19   1.24  19.90   2 2 2

156135  10.82   1.18  18.06   2 2 2
156135  10.93   1.17  17.87   2 2 2

156136   8.85   1.04  16.17   2 2 2
156136   9.00   1.07  16.08   2 2 2

156137   5.47   0.70  10.54   2 2 2
156137   5.43   0.73  10.22   2 2 2

156138   5.75   0.79  11.98   2 2 2
156138   5.81   0.79  11.75   2 2 2

156139   0.51   0.14   0.57   2 2 2
156139   0.54   0.12   0.59   2 2 2

156140  16.24   1.05  16.05   2 2 2
156140  16.38   1.06  15.88   2 2 2

156141  17.29   1.09  16.78   2 2 2
156141  17.38   1.08  16.60   2 2 2

156142  17.95   1.11  16.68   2 2 2
156142  18.42   1.10  16.80   2 2 2

156143  17.59   1.07  16.81   2 2 2
156143  18.45   1.11  16.53   2 2 2

156144  16.92   1.09  17.08   2 2 2
156144  16.91   1.08  16.75   2 2 2

156145  15.82   1.11  17.26   2 2 2
156145  15.89   1.10  16.67   2 2 2

156146  14.97   1.10  17.03   2 2 2
156146  15.24   1.08  17.03   2 2 2

156147  13.97   1.10  16.65   2 2 2
156147  14.09   1.09  16.88   2 2 2

156148  12.51   1.12  17.04   2 2 2
156148  12.71   1.12  16.93   2 2 2

156149  11.21   1.12  16.60   2 2 2
156149  11.30   1.11  16.97   2 2 2

156150  10.97   1.13  16.97   2 2 2
156150  11.15   1.13  16.60   2 2 2
156151  10.76   1.09  17.43   2 2 2
156151  10.85   1.09  17.47   2 2 2

156152  10.73   1.13  16.91   2 2 2
156152  10.73   1.13  17.22   2 2 2

156153  10.67   1.15  17.80   2 2 2
156153  10.84   1.13  18.01   2 2 2

156154  11.27   1.15  18.30   2 2 2
156154  11.42   1.16  17.87   2 2 2

156155  11.62   1.21  18.61   2 2 2
156155  11.80   1.29  18.50   2 2 2

156156  11.88   1.28  19.09   2 2 2
156156  11.85   1.27  19.57   2 2 2

156157  10.79   1.23  18.67   2 2 2
156157  10.79   1.21  18.40   2 2 2

156158   7.40   0.96  14.62   2 2 2
156158   7.66   0.99  14.43   2 2 2

156159   6.55   0.87  13.19   2 2 2
156159   6.61   0.88  13.05   2 2 2

156160   5.26   0.75  11.12   2 2 2
156160   5.26   0.80  10.94   2 2 2

156161   3.34   0.39   3.73   2 2 2
156161   3.37   0.40   3.67   2 2 2

156162   1.16   0.22   0.59   2 2 2
156162   1.16   0.20   0.61   2 2 2

156163  16.26   1.13  16.15   2 2 2
156163  16.38   1.14  15.92   2 2 2

156164  17.38   1.17  16.12   2 2 2
156164  17.41   1.17  16.25   2 2 2

156165  18.00   1.16  16.72   2 2 2
156165  18.20   1.15  16.81   2 2 2

156166  17.57   1.15  16.56   2 2 2
156166  17.66   1.17  16.83   2 2 2

156167  17.03   1.16  17.36   2 2 2
156167  17.20   1.15  17.55   2 2 2

156168  16.01   1.14  17.16   2 2 2
156168  15.97   1.15  17.24   2 2 2

156169  13.89   1.15  17.45   2 2 2
156169  14.13   1.15  17.22   2 2 2

156170  11.69   1.13  16.76   2 2 2
156170  11.70   1.14  17.24   2 2 2

156171  10.82   1.13  16.74   2 2 2
156171  10.84   1.12  16.87   2 2 2
156172  11.02   1.13  17.34   2 2 2
156172  10.87   1.14  17.51   2 2 2

156173  11.51   1.15  17.49   2 2 2
156173  11.39   1.14  17.49   2 2 2

156174  11.53   1.15  18.04   2 2 2
156174  11.62   1.16  17.90   2 2 2

156175  11.20   1.13  17.92   2 2 2
156175  11.29   1.14  17.69   2 2 2

156176  11.52   1.15  18.23   2 2 2
156176  11.64   1.15  18.50   2 2 2

156177  12.19   1.22  19.47   2 2 2
156177  12.22   1.22  19.09   2 2 2

156178  13.51   1.33  21.34   4 3 3
156178  13.45   1.33  21.07   4 3 3

156179   7.31   0.90  14.59   2 2 2
156179   7.31   0.91  14.30   2 2 2

156180   6.86   0.90  14.76   2 2 2
156180   6.84   0.92  15.07   2 2 2

156181   2.35   0.38   5.95   2 2 2
156181   2.35   0.39   5.86   2 2 2

156182   1.97   0.35   5.27   2 2 2
156182   2.00   0.34   5.17   2 2 2

156183   2.05   0.33   5.23   2 2 2
156183   2.08   0.33   5.33   2 2 2

156184   2.19   0.32   5.25   2 2 2
156184   2.22   0.33   5.33   2 2 2

156185   0.97   0.07   0.00   2 2 2
156185   0.99   0.07   0.00   2 2 2

156186  17.64   1.02  16.71   2 2 2
156186  17.31   1.02  16.73   2 2 2

156187  18.84   1.05  16.73   2 2 2
156187  19.16   1.03  17.02   2 2 2

156188  20.04   1.06  17.46   2 2 2
156188  19.68   1.07  17.64   2 2 2

156189  19.03   1.08  17.06   2 2 2
156189  19.20   1.06  17.31   2 2 2

156190  17.78   1.07  17.74   2 2 2
156190  18.19   1.07  17.64   2 2 2

156191  15.66   1.06  17.35   2 2 2
156191  15.69   1.06  17.31   2 2 2

156192  14.51   1.05  17.78   2 2 2
156192  14.60   1.04  17.56   2 2 2
156193  13.45   1.06  17.78   2 2 2
156193  13.51   1.05  17.43   2 2 2

156194  12.54   1.06  17.78   2 2 2
156194  12.56   1.04  17.89   2 2 2

156195  11.96   1.03  17.93   2 2 2
156195  12.13   1.04  17.72   2 2 2

156196  11.75   1.04  17.68   2 2 2
156196  11.83   1.06  17.49   2 2 2

156197  11.80   1.09  17.54   2 2 2
156197  11.91   1.08  17.64   2 2 2

156198  11.61   1.13  17.91   2 2 2
156198  11.91   1.10  17.86   2 2 2

156199  11.93   1.20  17.82   2 2 2
156199  11.99   1.23  17.76   2 2 2

156200  11.87   1.24  18.07   2 2 2
156200  11.86   1.22  18.23   2 2 2

156201  11.71   1.25  18.50   2 2 2
156201  11.92   1.25  18.77   2 2 2

156202  12.03   1.27  18.58   2 2 2
156202  12.05   1.26  18.79   2 2 2

156203  11.80   1.23  18.66   2 2 2
156203  11.91   1.22  18.93   2 2 2

156204   9.24   1.07  16.35   2 2 2
156204   9.00   1.09  15.90   2 2 2

156205   7.81   0.97  14.03   2 2 2
156205   7.69   0.93  14.10   2 2 2

156206   6.58   0.86  12.81   2 2 2
156206   6.67   0.87  12.85   2 2 2

156207   3.19   0.50   5.44   2 2 2
156207   3.25   0.51   5.46   2 2 2

156208   1.22   0.18   0.95   2 2 2
156208   1.28   0.18   0.90   2 2 2

156209  17.07   1.07  16.08   2 2 2
156209  17.32   1.09  16.21   2 2 2

156210  18.33   1.08  16.74   2 2 2
156210  18.31   1.10  16.52   2 2 2

156211  17.29   1.10  16.25   2 2 2
156211  17.84   1.08  16.58   2 2 2

156212  17.25   1.10  16.66   2 2 2
156212  17.11   1.12  16.56   2 2 2

156213  16.54   1.11  17.15   2 2 2
156213  16.46   1.11  16.93   2 2 2
156214  14.05   1.11  16.64   2 2 2
156214  14.25   1.10  16.60   2 2 2

156215  13.29   1.11  16.93   2 2 2
156215  13.37   1.12  17.07   2 2 2

156216  11.26   1.10  16.66   2 2 2
156216  11.32   1.11  16.58   2 2 2

156217  10.56   1.12  16.64   2 2 2
156217  10.62   1.10  16.93   2 2 2

156218  10.61   1.13  16.86   2 2 2
156218  10.59   1.10  17.17   2 2 2

156219  10.57   1.12  16.80   2 2 2
156219  10.65   1.12  16.84   2 2 2

156220  10.85   1.11  17.40   2 2 2
156220  10.93   1.14  17.56   2 2 2

156221  10.78   1.15  17.29   2 2 2
156221  11.10   1.15  17.65   2 2 2

156222  11.29   1.15  18.02   2 2 2
156222  11.15   1.19  17.96   2 2 2

156223  11.95   1.22  19.00   2 2 2
156223  11.97   1.22  18.67   2 2 2

156224  12.17   1.30  19.37   2 2 2
156224  12.25   1.29  19.53   2 2 2

156225  11.10   1.25  19.47   2 2 2
156225  11.38   1.25  19.62   2 2 2

156226   5.63   0.81  12.66   2 2 2
156226   5.66   0.80  12.57   2 2 2

156227   3.41   0.56   8.45   2 2 2
156227   3.46   0.55   8.60   2 2 2

156228   2.72   0.45   6.76   2 2 2
156228   2.69   0.45   6.95   2 2 2

156229   2.14   0.36   5.45   2 2 2
156229   2.11   0.36   5.44   2 2 2

156230   1.57   0.28   3.91   2 2 2
156230   1.62   0.29   3.96   2 2 2

156231   0.50   0.09   0.00   2 2 2
156231   0.53   0.09   0.00   2 2 2

156232  19.10   1.10  16.34   2 2 2
156232  19.43   1.10  16.52   2 2 2

156233  19.74   1.10  16.76   2 2 2
156233  19.81   1.09  16.83   2 2 2

156234  19.20   1.10  16.58   2 2 2
156234  19.17   1.12  16.27   2 2 2
156235  17.49   1.11  16.41   2 2 2
156235  17.94   1.12  16.33   2 2 2

156236  15.47   1.10  16.51   2 2 2
156236  15.65   1.07  16.65   2 2 2

156237  14.37   1.07  16.75   2 2 2
156237  14.55   1.07  16.26   2 2 2

156238  13.83   1.07  16.58   2 2 2
156238  13.77   1.08  16.46   2 2 2

156239  13.24   1.06  16.91   2 2 2
156239  13.50   1.06  16.99   2 2 2

156240  11.95   1.03  16.37   2 2 2
156240  11.97   1.02  16.62   2 2 2

156241  11.38   1.06  16.91   2 2 2
156241  11.53   1.05  16.76   2 2 2

156242  11.11   1.07  17.19   2 2 2
156242  11.11   1.07  17.09   2 2 2

156243  11.19   1.10  17.24   2 2 2
156243  11.28   1.09  17.07   2 2 2

156244  11.45   1.10  17.07   2 2 2
156244  11.33   1.10  17.26   2 2 2

156245  11.38   1.13  17.71   2 2 2
156245  11.17   1.15  17.77   2 2 2

156246   6.28   0.71  11.17   4 4 4
156246   6.30   0.71  11.23   4 4 4

156247  11.92   1.23  19.57   2 2 2
156247  11.95   1.23  19.19   2 2 2

156248  11.57   1.25  19.89   2 2 2
156248  11.72   1.24  20.14   2 2 2

156249   6.79   0.87  14.08   2 2 2
156249   6.82   0.87  13.82   2 2 2

156250   4.12   0.57   9.30   2 2 2
156250   4.06   0.57   9.40   2 2 2

156251   2.62   0.40   6.45   2 2 2
156251   2.68   0.40   6.47   2 2 2

156252   2.01   0.30   5.20   2 2 2
156252   2.01   0.29   5.16   2 2 2

156253   2.00   0.28   4.72   2 2 2
156253   2.03   0.28   4.71   2 2 2

156254   0.44   0.00   0.00   2 2 2
156254   0.44   0.00   0.00   2 2 2

156255  18.53   1.04  16.56   2 2 2
156255  18.77   1.04  16.44   2 2 2
156256  18.74   1.08  16.21   2 2 2
156256  19.09   1.05  16.13   2 2 2

156257  18.76   1.07  16.50   2 2 2
156257  18.96   1.08  16.62   2 2 2

156258  19.01   1.10  16.74   2 2 2
156258  19.09   1.10  16.46   2 2 2

156259  18.50   1.10  16.62   2 2 2
156259  18.53   1.09  16.54   2 2 2

156260  16.38   1.08  16.54   2 2 2
156260  16.50   1.07  16.46   2 2 2

156261  14.92   1.08  16.62   2 2 2
156261  15.06   1.08  16.79   2 2 2

156262  14.00   1.07  16.73   2 2 2
156262  14.04   1.06  16.93   2 2 2

156263  12.72   1.09  16.44   2 2 2
156263  12.77   1.08  16.46   2 2 2

156264  12.69   1.08  16.81   2 2 2
156264  12.55   1.09  16.73   2 2 2

156265  11.38   1.08  16.63   2 2 2
156265  11.43   1.07  16.45   2 2 2

156266  11.57   1.09  16.92   2 2 2
156266  11.60   1.08  16.82   2 2 2

156267  11.22   1.10  17.29   2 2 2
156267  11.24   1.12  17.39   2 2 2

156268  11.47   1.12  17.53   2 2 2
156268  11.41   1.12  17.74   2 2 2

156269  11.72   1.16  17.96   2 2 2
156269  11.69   1.14  17.70   2 2 2

156270  11.83   1.17  17.96   2 2 2
156270  11.94   1.18  18.13   2 2 2

156271  11.79   1.24  19.29   2 2 2
156271  12.03   1.24  19.08   2 2 2

156272  10.90   1.22  18.82   2 2 2
156272  10.93   1.22  19.21   2 2 2

156273   6.77   0.88  13.90   2 2 2
156273   6.77   0.88  13.86   2 2 2

156274   4.24   0.63  10.21   2 2 2
156274   4.23   0.63  10.25   2 2 2

156275   3.11   0.48   7.04   2 2 2
156275   3.14   0.48   6.87   2 2 2

156276   2.24   0.32   3.68   2 2 2
156276   2.24   0.32   3.64   2 2 2
156277   0.23   0.11   0.30   2 2 2
156277   0.00   0.11   0.24   2 2 2

156278  19.06   1.07  16.51   2 2 2
156278  19.21   1.08  16.26   2 2 2

156279  19.26   1.10  16.85   2 2 2
156279  19.28   1.10  16.81   2 2 2

156280  18.98   1.09  16.57   2 2 2
156280  19.25   1.09  16.47   2 2 2

156281  17.10   1.09  16.65   2 2 2
156281  17.21   1.11  16.75   2 2 2

156282  15.53   1.11  16.43   2 2 2
156282  15.42   1.09  16.65   2 2 2

156283  14.66   1.13  16.23   2 2 2
156283  14.69   1.12  16.43   2 2 2

156284  13.81   1.11  16.53   2 2 2
156284  13.85   1.10  16.49   2 2 2

156285  12.05   1.09  16.68   2 2 2
156285  12.28   1.10  16.56   2 2 2

156286  11.21   1.09  16.88   2 2 2
156286  11.21   1.09  16.88   2 2 2

156288  10.95   1.11  16.76   2 2 2
156288  11.00   1.11  16.74   2 2 2

156289  10.84   1.10  17.24   2 2 2
156289  10.92   1.14  17.38   2 2 2

156290  11.23   1.17  17.90   2 2 2
156290  11.40   1.17  17.40   2 2 2

156291  11.71   1.20  17.94   2 2 2
156291  11.73   1.20  18.00   2 2 2

156292  12.25   1.30  19.39   2 2 2
156292  12.27   1.30  19.57   2 2 2

156293   9.03   1.08  16.46   2 2 2
156293   8.97   1.08  16.52   2 2 2

156294   5.67   0.80  12.15   2 2 2
156294   5.64   0.80  12.27   2 2 2

156295   4.69   0.70  10.64   2 2 2
156295   4.69   0.70  10.72   2 2 2

156296   4.26   0.65   9.85   2 2 2
156296   4.29   0.65   9.91   2 2 2

156297   3.53   0.56   8.46   2 2 2
156297   3.53   0.57   8.52   2 2 2

156298   2.41   0.38   4.51   2 2 2
156298   2.46   0.38   4.44   2 2 2
156299   0.21   0.12   0.00   2 2 2
156299   0.21   0.13   0.00   2 2 2

156301  19.28   1.28  16.51   2 2 2
156301  19.45   1.12  16.18   2 2 2

156302  18.86   1.12  16.19   2 2 2
156302  18.91   1.14  16.32   2 2 2

156303  18.44   1.11  16.58   2 2 2
156303  18.49   1.14  16.81   2 2 2

156304  16.78   1.10  16.41   2 2 2
156304  16.39   1.11  16.32   2 2 2

156305  15.37   1.08  16.63   2 2 2
156305  15.37   1.08  16.55   2 2 2

156306  13.74   1.09  16.17   2 2 2
156306  13.94   1.30  16.41   2 2 2

156307  12.52   1.06  16.70   2 2 2
156307  12.62   1.09  16.89   2 2 2

156308  11.78   1.06  16.57   2 2 2
156308  11.78   1.09  16.70   2 2 2

156309  10.99   1.28  16.96   2 2 2
156309  11.21   1.09  17.23   2 2 2

156310  11.42   1.08  17.28   2 2 2
156310  11.41   1.09  17.22   2 2 2

156311  11.20   1.10  17.91   2 2 2
156311  11.10   1.10  17.56   2 2 2

156312  11.15   1.10  17.98   2 2 2
156312  11.54   1.11  18.46   2 2 2

156313  11.56   1.14  18.72   2 2 2
156313  11.69   1.15  18.97   2 2 2

156314  11.84   1.14  19.04   2 2 2
156314  12.11   1.18  19.60   2 2 2

156315  12.11   1.19  19.73   2 2 2
156315  12.24   1.18  19.93   2 2 2

156316  12.31   1.23  20.84   2 2 2
156316  12.18   1.23  20.49   2 2 2

156317  11.22   1.34  19.55   2 2 2
156317  11.27   1.16  19.93   2 2 2

156318   7.58   0.83  15.10   2 2 2
156318   7.43   0.88  15.12   2 2 2

156319   5.58   0.72  12.18   2 2 2
156319   5.59   0.70  12.44   2 2 2

156320   5.31   0.70  11.72   2 2 2
156320   5.36   0.71  11.84   2 2 2
156321   4.72   0.65  10.95   2 2 2
156321   4.74   0.66  11.01   2 2 2

156322   2.81   0.36   5.33   2 2 2
156322   2.84   0.35   5.46   2 2 2

156323   0.27   0.07   0.00   2 2 2
156323   0.31   0.00   0.00   2 2 2

156324  19.69   1.25  17.18   2 2 2
156324  19.85   1.08  17.13   2 2 2

156325  18.63   1.08  16.54   2 2 2
156325  18.97   1.24  16.65   2 2 2

156326  17.94   1.10  16.79   2 2 2
156326  18.09   1.11  16.92   2 2 2

156327  17.03   1.07  16.94   2 2 2
156327  17.15   1.08  16.70   2 2 2

156328  15.58   1.09  16.53   2 2 2
156328  15.60   1.07  16.41   2 2 2

156329  14.46   1.09  16.70   2 2 2
156329  14.61   1.07  16.72   2 2 2

156330  13.44   1.06  16.15   2 2 2
156330  13.24   1.07  16.17   2 2 2

156331  11.74   1.08  16.36   2 2 2
156331  11.76   1.07  16.17   2 2 2

156332  11.14   1.08  16.30   2 2 2
156332  11.23   1.08  15.94   2 2 2

156333  10.78   1.23  16.19   2 2 2
156333  10.83   1.07  16.42   2 2 2

156334  10.97   1.08  16.62   2 2 2
156334  10.83   1.08  16.84   2 2 2

156335  11.22   1.09  17.00   2 2 2
156335  11.11   1.08  16.73   2 2 2

156336  11.16   1.11  17.40   2 2 2
156336  11.22   1.12  17.14   2 2 2

156337  11.21   1.11  17.47   2 2 2
156337  11.30   1.11  17.71   2 2 2

156338  11.29   1.15  18.09   2 2 2
156338  11.49   1.15  17.95   2 2 2

156339  11.60   1.18  18.47   2 2 2
156339  11.86   1.20  18.32   2 2 2

156340  12.19   1.23  19.87   2 2 2
156340  12.08   1.23  19.72   2 2 2

156341   9.12   1.21  16.81   2 2 2
156341   9.25   1.04  17.34   2 2 2
156342   6.23   0.73  13.26   2 2 2
156342   6.08   0.78  12.99   2 2 2

156343   5.22   0.68  11.64   2 2 2
156343   5.20   0.70  11.73   2 2 2

156344   4.26   0.57  10.20   2 2 2
156344   4.27   0.59  10.23   2 2 2

156345   2.85   0.28   4.45   2 2 2
156345   2.87   0.33   4.39   2 2 2

156346   0.40   0.00   0.00   2 2 2
156346   0.42   0.07   0.00   2 2 2

156347  18.52   1.06  17.35   2 2 2
156347  18.57   1.22  17.30   2 2 2

156348  16.98   1.05  16.69   2 2 2
156348  16.71   1.07  16.44   2 2 2

156349  16.69   1.08  16.26   2 2 2
156349  16.85   1.26  15.99   2 2 2

156350  15.99   1.09  16.45   2 2 2
156350  15.97   1.09  16.49   2 2 2

156351  14.76   1.10  16.01   2 2 2
156351  14.83   1.10  16.01   2 2 2

156352  13.43   1.09  16.09   2 2 2
156352  13.44   1.09  16.24   2 2 2

156353  12.75   1.08  16.00   2 2 2
156353  12.82   1.10  16.42   2 2 2

156354  11.41   1.09  15.96   2 2 2
156354  11.46   1.07  15.67   2 2 2

156355  10.86   1.09  15.96   2 2 2
156355  10.93   1.10  15.94   2 2 2

156356  10.81   1.10  15.75   2 2 2
156356  10.85   1.13  15.84   2 2 2

156357  10.56   1.27  15.79   2 2 2
156357  10.61   1.10  15.99   2 2 2

156358  10.54   1.12  16.26   2 2 2
156358  10.65   1.11  16.03   2 2 2

156359  10.78   1.15  16.81   2 2 2
156359  10.81   1.12  16.41   2 2 2

156360  11.19   1.17  17.53   2 2 2
156360  11.21   1.19  17.20   2 2 2

156361  11.43   1.18  17.87   2 2 2
156361  11.53   1.20  18.18   2 2 2

156362  11.86   1.28  18.81   2 2 2
156362  11.72   1.28  19.16   2 2 2
156363   8.47   1.05  15.92   2 2 2
156363   8.54   1.02  15.85   2 2 2

156364   5.05   0.68  11.50   2 2 2
156364   5.16   0.74  11.33   2 2 2

156365   4.34   0.77  10.01   2 2 2
156365   4.36   0.65  10.26   2 2 2

156366   3.85   0.56   9.10   2 2 2
156366   3.73   0.57   8.84   2 2 2

156367   2.52   0.37   5.88   2 2 2
156367   2.57   0.40   5.92   2 2 2

156368   2.42   0.34   4.29   2 2 2
156368   2.44   0.36   4.23   2 2 2

156369   0.25   0.08   0.00   2 2 2
156369   0.26   0.00   0.00   2 2 2

156370  16.72   1.26  16.78   2 2 2
156370  16.87   1.10  16.90   2 2 2

156371  16.75   1.10  16.80   2 2 2
156371  16.76   1.11  16.53   2 2 2

156372  15.78   1.13  16.54   2 2 2
156372  16.05   1.12  16.45   2 2 2

156373  14.60   1.13  16.44   2 2 2
156373  14.75   1.13  16.58   2 2 2

156374  12.93   1.12  16.00   2 2 2
156374  13.05   1.14  15.94   2 2 2

156375  11.60   1.10  15.96   2 2 2
156375  11.69   1.11  16.09   2 2 2

156376  11.33   1.12  16.32   2 2 2
156376  11.42   1.12  16.24   2 2 2

156377  11.56   1.13  15.95   2 2 2
156377  11.57   1.15  16.20   2 2 2

156378   7.13   0.81  11.99   4 4 4
156378   7.06   0.78  11.82   4 4 4

156379  11.33   1.14  16.59   2 2 2
156379  11.35   1.20  16.94   2 2 2

156380  11.39   1.20  17.17   2 2 2
156380  11.59   1.39  16.90   2 3 2

156381  11.41   1.20  17.93   2 2 2
156381  11.46   1.20  18.17   2 2 2

156382  11.51   1.29  18.79   2 2 2
156382  11.53   1.27  18.49   2 2 2

156383   8.78   1.10  16.54   2 2 2
156383   8.67   1.08  16.73   2 2 2

156384   5.39   0.80  11.70   2 2 2
156384   5.40   0.73  11.85   2 2 2

156385   3.56   0.59   8.72   2 2 2
156385   3.57   0.54   8.60   2 2 2

156386   2.89   0.50   7.39   2 2 2
156386   2.92   0.47   7.43   2 2 2

156387   2.11   0.35   5.05   2 2 2
156387   2.12   0.34   4.98   2 2 2

156388   1.24   0.25   1.81   2 2 2
156388   1.26   0.19   1.84   2 2 2

156389   0.37   0.07   0.00   2 2 2
156389   0.33   0.09   0.00   2 2 2


5.  Dissolved Inorganic Carbon in Seawater
    (Bob Gershey)

a.  Description of Equipment and Technique

The total dissolved inorganic carbon content of seawater is defined as the 
total concentration of carbonate ion, bicarbonate ion and unionized species 
of carbon dioxide.  

Before analysis, the sample was treated with acid to convert all ionized 
species to the unionized form, which was then separated from the liquid 
phase and subsequently measured using the coulometric titration technique.  
This involved the reaction of carbon dioxide gas with a dimethysulfoxide 
solution of ethanoline to produce hydroxyethylcarbamic acid.  The acidic 
solution was titrated with a hydroxide ion formed by the electrolytic 
decomposition of water.  The progress of the titration was followed through 
colorimetric measurement of the absorbance of a pH indicator dye 
(thymolphthalein) in the ethanolamine solution.

A known volume of seawater was dispensed into a stripping chamber from a 
pipet of known volume and temperature controlled to within 0.4 °C.  It was 
then acidified with ten percent its volume of an eight percent solution of 
carbon dioxide-free phosphoric acid.  The solution was stripped of carbon 
dioxide gas by bubbling with a stream of nitrogen gas directed through a 
glass frit.  The carrier gas exiting the stripper passed through a magnesium 
perchlorate trap to remove water vapour and acidic water droplets.  

The gas stream was then directed into the coulometric titrator where the 
total amount of carbon dioxide gas was quantified.  The coulometer was 
calibrated in two ways.  Calibration using gas loops was accomplished by 
filling stainless steel sample loops (1.5, 2.5 ml) with 99.995% carbon 
dioxide gas and injecting these into the coulometer.  The temperature and 
pressure of the gas within the loops must be known to within 0.05 °C and 20 
Pa respectively.  Standard solutions of sodium carbonate were also used to 
calibrate the system.  These samples were treated in the same manner as a 
seawater sample.

Values were reported in units of µmol/kg.  The overall precision of the 
analysis should have been at least 1.5 µmol/kg for samples with 
concentrations in the range of 1800-2300 µmol/kg.

b.  Sampling Procedure and Data Processing Technique

Water samples were initially collected using a 10 litre rosette bottle. 
Samples for analysis of total inorganic carbon were drawn immediately 
following the drawing of the oxygen samples in order to minimize exchange of 
carbon dioxide gas with the headspace in the sampler. This exchange will 
typically result in a loss of carbon dioxide.  It was desirable that the 
samples be drawn before half the sampler was emptied and within ten minutes 
of recovery.  Clean borosilicate glass bottles were rinsed twice with 30 - 
50 ml of the sample.  The bottle was then filled from the bottom using a 
length of vinyl tubing attached to the spigot of the sampler.  The sample 
was overflowed by at least a half of the volume of the bottle (typically 250 
ml).  A headspace of 1% was left to allow for expansion without leakage.  If 
samples were not to be analyzed within four to five hours, the sample was 
poisoned with 100 µl / 250 ml of 50% saturated mercuric chloride solution.  
The bottle was tightly sealed and stored preferably at the temperature of 
collection in the dark.

c.  Replicate Analysis

In total, 113 replicate carbonate measurements were obtained for 107 sample 
id numbers; 105  sample id numbers had one replicate, while two sample id 
number had three replicates. The following is a statistical summary of the 
absolute value of the replicate differences.  Table C.4 lists all 113 
replicate measurements.

Number of Replicate Differences =  2 id had two replicates * 4 possible 
differences
+ 105 ids had one replicate * 1 possible difference  =  8 + 105 = 113

Statistic                      Value
------------------------------------
Number of Replicate Differences  113
Minimum (µmoles/kg)              0.0
Maximum (µmoles/kg)             33.3
Mean (µmoles/kg)                 0.8
Median (µmoles/kg)               0.3
Standard Deviation (µmoles/kg)   3.2


Table C.4  Replicate water sample total carbon values in µmoles/kg.

Sample ID   Total   WOCE 
 Number     Carbon   QF
-------------------------
155204      2112.8   2
155204      2112.8   2

155218      2112.1   2
155218      2113.2   2

155223      2109.0   2
155223      2109.0   2

155225      2127.0   2
155225      2127.3   2

155227      1971.4   2
155227      1971.4   2

155228      2135.7   2
155228      2135.7   2

155232      2122.7   2
155232      2122.9   2

155237      2120.1   2
155237      2120.1   2

155238      1969.0   2
155238      1968.8   2

155240      2112.4   2
155240      2113.0   2

155243      1942.9   2
155243      1942.9   2

155244      2127.5   2
155244      2128.2   2

155247      2126.2   2
155247      2126.2   2

155252      2125.8   2
155252      2125.3   2

155254      2117.1   2
155254      2117.1   2

155256      2145.2   2
155256      2145.2   2

155257      2141.5   2
155257      2142.4   2

155260      2127.7   2
155260      2129.1   2

155267      2146.7   2
155267      2146.7   2

155269      2146.2   2
155269      2147.2   2

155279      2153.2   2
155279      2153.2   2

155288      2147.4   2
155288      2148.6   2

155293      2155.8   2
155293      2156.1   2

155298      2154.3   2
155298      2154.3   2

155339      2151.0   2
155339      2151.0   2

155342      2150.2   2
155342      2150.7   2

155378      2155.7   2
155378      2155.7   2

155383      2154.7   2
155383      2155.3   2

155389      2150.8   2
155389      2151.1   2

155418      2153.0   2
155418      2153.0   2

155422      2152.3   2
155422      2152.4   2

155437      2155.4   2
155437      2155.7   2

155442      2153.3   2
155442      2153.3   2

155457      2158.9   2
155457      2158.9   2

155462      2149.6   2
155462      2151.5   2

155474      2097.4   2
155474      2095.9   

155485      2152.2   2
155485      2153.2   2

155487      2152.9   2
155487      2152.9   2

155537      2149.6   2
155537      2149.6   2

155553      2154.0   2
155553      2154.8   2

155707      2156.2   2
155707      2154.1   2

155711      2155.2   2
155711      2148.8   2

155714      2150.7   2
155714      2150.7   2

155731      2151.3   2
155731      2151.3   2

155759      2152.6   2
155759      2152.6   2

155768      2154.0   2
155768      2155.2   2

155776      2113.0   4
155776      2113.0   4

155778      2107.8   4
155778      2105.7   4

155782      2102.9   4
155782      2102.9   4

155784      2094.3   4
155784      2095.1   4

155787      2152.6   2
155787      2154.0   2

155808      2103.6   2
155808      2103.6   2

155821      2152.1   2
155821      2152.1   2

155823      2150.6   2
155823      2150.9   2

155830      2110.2   2
155830      2143.5   2

155838      2155.6   2
155838      2155.6   2

155840      2152.4   2
155840      2152.8   2

155861      2155.4   2
155861      2156.3   2

155866      2150.3   2
155866      2150.3   2

155915      2152.9   2
155915      2157.1   2

155920      2149.4   2
155920      2149.4   2
155920      2148.6   2
155920      2148.6   2

155952      2152.4   2
155952      2151.6   2

155954      2150.3   2
155954      2150.3   2

155955      2152.2   2
155955      2152.5   2

155974      2157.8   2
155974      2159.0   2

155975      2159.5   2
155975      2159.5   2

155985      2157.1   2
155985      2157.7   2

155994      2156.4   2
155994      2156.4   2

155995      2156.8   2
155995      2158.7   2

156006      2159.5   2
156006      2160.1   2

156009      2157.0   2
156009      2157.0   2

156029      2156.8   2
156029      2157.2   2

156038      2154.4   2
156038      2154.4   2
156038      2155.3   2
156038      2155.3   2
156051      2158.8   2
156051      2159.0   2

156055      2156.5   2
156055      2155.8   2

156059      2152.3   2
156059      2152.3   2

156072      2159.9   2
156072      2159.9   2

156074      2158.6   2
156074      2159.1   2

156094      2160.2   2
156094      2161.6   2

156096      2161.1   2
156096      2161.1   2

156117      2162.4   2
156117      2161.4   2

156139      2052.9   2
156139      2052.9   2

156141      2160.3   2
156141      2160.3   2

156142      2158.9   2
156142      2159.1   2

156146      2155.3   2
156146      2155.3   2

156164      2160.7   2
156164      2160.7   2

156166      2159.9   2
156166      2160.3   2

156199      2155.3   2
156199      2155.3   2

156208      2044.4   2
156208      2043.7   2

156210      2159.9   2
156210      2159.9   2

156211      2158.3   2
156211      2160.5   2

156216      2151.3   2
156216      2153.0   2

156233      2161.0   2
156233      2161.0   2

156251      2100.4   2
156251      2097.2   2

156260      2156.7   2
156260      2156.3   2

156268      2156.5   2
156268      2157.1   2

156275      2096.9   2
156275      2096.9   2

156280      2159.5   2
156280      2159.5   2

156296      2118.5   2
156296      2119.0   2

156302      2161.4   2
156302      2161.4   2

156304      2158.4   2
156304      2157.6   2

156327      2158.6   2
156327      2159.2   2

156340      2170.7   2
156340      2170.7   2

156359      2155.9   2
156359      2156.9   2

156365      2119.0   2
156365      2119.0   2

156370      2161.3   2
156370      2161.3   2

156374      2155.7   2
156374      2155.7   2

6.  Alkalinity
    (Frank Zemlyak)

a.  Description of Equipment and Technique

Total alkalinity was determined using the Marine Chemistry automated 
titration system.  Total alkalinity was determined using a potentiometric 
titration of the seawater sample using hydrochloric acid.  Once the sample 
was connected to the system, the operation proceeded automatically, from the 
reaction vessel being rinsed and filled with the sea water sample, to the 
final calculations at the conclusion of the titration.

When the reaction vessel was filled, the semi-micro combination Ross 
electrode sensed when the sample had come to equilibrium, the initial 
relative mvolt reading was then logged, at the same time, the cell 
temperature was also recorded.  At this point, a rather large quantity of 
0.2N hydrochloric acid was added to the cell with a Metrohm E-655 Dosimat.  
The addition of this large quantity of acid titrated the sample beyond the 
carbonate endpoint.  At this point, smaller aliquots (0.040mL) of acid were 
added until the sample had been titrated to and beyond the second inflection 
point.  With each addition of acid the sample was allowed to come to 
equilibrium, the mvolt reading was logged.  Thus, with these relative 
changes in the voltage in the cell, the endpoint was calculated by using a 
modified Gran function.  Using the sample salinity, sample temperature and 
the nutrients silicate and phosphate corrections were made to the final 
total alkalinity result.

b.  Sampling Procedure and Data Processing Technique

The 500 ml samples used for alkalinity analysis were collected from 10 litre 
rosette bottles in much the same fashion as the total carbonate samples. The 
alkalinity samples were drawn immediately following the drawing of the total 
carbonate samples. The samples were stored in a cold water bath whilst 
awaiting analysis.  

c.  Replicate Analysis

The precision of the alkalinity data is 3 to 5 µmoles/kg. The alkalinity 
replicates consisted of 40 duplicate measurements. A statistical summary of 
the absolute value of the replicate differences is below.  Only acceptable 
sample values were used when calculating replicate differences.  All 
replicates and their quality flags are given in Table C.5.

Statistic                       Value
-------------------------------------
Number of Replicate Differences  31
Minimum            (µmoles/kg)    0.3
Maximum            (µmoles/kg)  117.0
Mean               (µmoles/kg)   20.8
Median             (µmoles/kg)   12.1
Standard Deviation (µmoles/kg)   26.3


Table C.5  Replicate water sample total alkalinity values in µmoles/kg.

Sample ID   Total      WOCE 
 Number   Alkalinity    QF
----------------------------
155217      2196.3      2
155217      2192.8      2

155222      2186.1      2
155222      2198.2      2

155224      2213.0      2
155224      2223.5      2

155230      2225.9      3
155230      2232.4      3

155235      2224.8      3
155235      2214.9      3

155259      2248.6      2
155259      2249.3      2

155273      2262.6      3
155273      2268.4      3

155286      2264.3      3
155286      2279.5      3

155296      2265.9      2
155296      2267.1      2

155341      2267.3      3
155341      2258.3      3

155390      2269.1      3
155390      2263.0      3

155412      2272.5      2
155412      2273.7      2

155439      2268.0      2
155439      2268.8      2

155464      2262.4      2
155464      2262.6      2

155472      2280.6      2
155472      2278.8      2

155484      2284.9      3
155484      2299.2      3

155521      2295.2      2
155521      2299.7      2

155534      2285.5      2
155534      2288.4      2

155774      2274.6      3
155774      2306.3      3

155781      2205.8      2
155781      2207.3      2

155783      2266.3      3
155783      2240.8      3

155814      2294.8      2
155814      2331.6      2

155850      2288.4      2
155850      2365.2      2

155863      2312.8      2
155863      2336.8      2

155906      2326.2      2
155906      2303.5      2

155909      2285.2      2
155909      2313.8      2

155957      2281.1      2
155957      2282.9      2

155980      2297.2      2
155980      2300.9      2

156070      2308.1      2
156070      2329.4      2

156083      2332.5      2
156083      2273.9      2

156095      2416.1      2
156095      2299.0      2

156118      2296.8      2
156118      2323.0      2

156124      2283.1      2
156124      2302.0      2

156143      2289.5      2
156143      2321.2      

156171      2282.2      2
156171      2281.9      2

156188      2282.6      2
156188      2300.2      2

156209      2295.0      2
156209      2306.0      2

156256      2300.7      2
156256      2358.6      2

156305      2294.4      2
156305      2325.2      2

156376      2310.1      2
156376      2291.2      2


7.  CFCs
    (Mike Hingston)

a.  Description of Equipment and Technique

The analyses were carried out on two purge and trap systems developed at the 
Bedford Institute of Oceanography.  The water samples were injected into the 
systems directly from the syringes.  To ensure proper rinsing, at least two 
volumes of water were passed through the sample pipette before the actual 
sample volume.  The samples were purged for 4 minutes with ultra high purity 
nitrogen at a flow rate of 60 ml/min.  The components were trapped in a 
Porapak-N trap that was cooled to a temperature of less than 100 °C.  They 
were then desorbed by heating the trap up to at least 170°C.  The contents 
of the trap were then passed through a 75 m DB-624 megabore column.

b.  Sampling Procedure and Data Processing Technique

All samples were collected directly from the Niskin bottles using 100 ml 
syringes.  The syringes were rinsed three times before they were filled.  To 
prevent contamination, the CFC samples were the first samples that were 
collected from the Niskin bottles.  The samples were then stored in a water 
bath of continuously flowing surface sea water until analysis.  Air samples 
from the winch room were taken periodically to ensure that it had not become 
contaminated.  The analysis of the samples was always completed within 24 
hours after they had been drawn.

c.  Replicate Analysis

A total of 48 unique sample id numbers had replicate CFC water samples 
drawn.  In total, three sample id numbers had duplicate samples drawn and 45 
sample id numbers had triplicate samples drawn. Replicates were taken at 
each station, with some of these being run on each system to ensure that the 
results were comparable.  A statistical summary of the absolute value of the 
replicate differences is below.  Only acceptable sample values were used 
when calculating replicate differences.  All replicates and their quality 
flags are given in Table C.6.

Statistic                       CFC11  CFC12  CFC113  Carbon Tet.  Methyl Chl
-----------------------------------------------------------------------------
Number of Replicate Differences  138    136    134       137         138
Minimum            (pmoles/kg)  0.000  0.001  0.000     0.000       0.006
Maximum            (pmoles/kg)  0.332  1.033  0.186     0.646       2.786
Mean               (pmoles/kg)  0.057  0.205  0.040     0.131       0.718
Median             (pmoles/kg)  0.041  0.141  0.033     0.111       0.564
Standard Deviation (pmoles/kg)  0.057  0.202  0.031     0.109       0.634
Detection Limits   (pmoles/kg)  0.022  0.017  0.010     0.040       0.017


Table C.6  Replicate water sample CFC values in pmoles/kg.

Sample   Freon   Freon   Freon   Carbon   Methyl   WOCE QF
ID        11      12      13      Tet.     Chl.   
-----------------------------------------------------------
155220   6.600   2.984   0.307   9.910   20.167   2 2 2 2 2
155220   6.645   2.531   0.344  10.551   21.401   2 2 2 3 2

155227   5.832   2.636   0.485   9.513   15.903   2 2 2 2 2
155227   5.896   2.886   0.473   9.387   16.141   2 2 2 2 2
155227   5.848   3.378   0.558   9.811   16.810   2 2 2 2 2

155233   5.432   2.670   0.472   8.355   15.453   2 2 2 2 2
155233   5.358   3.051   0.500   7.709   16.264   2 2 2 2 2
155233   5.463   3.229   0.486   8.029   17.248   2 2 2 2 2

155246   4.963   3.251   0.362   7.194   15.312   2 2 2 2 2
155246   5.045   3.400   0.325   7.187   15.019   2 2 2 2 2
155246   4.882   2.495   0.282   6.985   15.038   2 2 2 2 2

155261   4.829   2.321   0.394   7.161   15.194   2 2 2 2 2
155261   4.591   2.342   0.346   6.760   14.463   2 2 2 2 2
155261   4.642   2.309   0.316   6.807   15.025   2 2 2 2 2

155266   3.895   2.109   0.314   5.836   11.698   2 2 2 2 2
155266   3.899   2.490   0.222   5.950   11.678   2 2 2 2 2
155266   3.802   2.509   0.408   5.808   13.322   2 2 2 2 2

155282   3.479   1.798   0.209   5.274   11.807   2 2 2 2 2
155282   3.470   2.263   0.176   5.381   10.940   2 2 2 2 2
155282   3.400   1.229   0.164   5.187   10.653   2 2 2 2 2

155301   3.560   1.580   0.171   5.610   11.334   2 2 2 2 2
155301   3.550   1.586   0.167   5.591   11.277   2 2 2 2 2
155301   3.504   1.576   0.178   5.316   10.929   2 2 2 2 2

155320   3.752   1.797   0.236   5.804   11.665   2 2 2 2 2
155320   3.631   1.852   0.275   5.810   11.854   2 2 2 2 2
155320   3.748   1.968   0.333   5.839   12.513   2 2 2 2 2

155336   2.120   1.157   0.074   3.369    6.258   2 2 2 2 2
155336   1.974   1.340   0.142   3.562    6.985   2 2 2 2 2
155336   1.984   1.146   0.047   3.394    7.188   2 2 2 2 2

155361   1.953   0.931   0.019   3.323    5.870   2 2 2 2 2
155361   1.892   1.008   0.081   3.262    6.284   2 2 2 2 2
155361   1.936   0.916   0.047   3.418    6.612   2 2 2 2 2

155419   3.561   1.641   0.244   5.579   11.303   2 2 2 2 2
155419   3.645   1.695   0.225   5.643   12.967   2 2 2 2 2
155419   3.703   1.957   0.261   5.927   12.434   2 2 2 2 2

155448   4.022   2.138   0.274   6.366   12.359   2 2 2 2 2
155448   4.021   2.762           6.300   14.242   2 2 5 2 2
155448   4.056   2.397   0.296   6.262   12.963   2 2 2 2 2

155462   3.379   1.885   0.276   5.491   11.403   2 2 2 2 2
155462   3.398   2.043   0.221   5.354   11.944   2 2 2 2 2
155462   3.322   2.059   0.200   5.250   10.847   2 2 2 2 

155481   1.473   0.428   0.066   2.789    4.732   2 2 2 2 2
155481   1.456   0.588   0.066   2.671    4.667   2 2 2 2 2
155481   1.481   0.903   0.066   2.732    4.530   2 2 2 2 2

155515   3.788   1.830   0.259   6.055   11.600   2 2 2 2 2
155515   3.904   1.891   0.192   5.828   11.488   2 2 2 2 2
155515   3.868   1.792   0.236   6.021   12.165   2 2 2 2 2

155557   3.536   1.699   0.212   5.535   11.917   2 2 2 2 2
155557   3.533   1.738   0.164   5.461   11.277   2 2 2 2 2
155557   3.583   1.650   0.213   5.576   11.403   2 2 2 2 2

155587   4.355   2.428   0.289   6.840   12.963   2 2 2 2 2
155587   4.340   2.436   0.335   7.006   12.814   2 2 2 2 2
155587   4.306   2.441   0.302   6.752   12.664   2 2 2 2 2

155718   3.912   1.920   0.243   6.033   11.993   2 2 2 2 2
155718   3.881   2.145   0.260   5.981   11.467   2 2 2 2 2
155718   3.894   1.947   0.259   5.992   11.595   2 2 2 2 2

155757   3.414   1.983   0.258   5.285   11.693   2 2 2 2 2
155757   3.408   2.244   0.376   5.483   12.348   2 2 2 2 2

155773   3.656   1.904   0.286   5.477   11.486   2 2 2 2 2
155773   3.824   2.026   0.336   5.632   11.110   2 2 2 2 2
155773   3.804   2.183   0.302   5.597   11.898   2 2 2 2 2

155790   1.448   0.772   0.059   3.038    4.773   2 2 2 2 2
155790   1.440   0.999   0.021   2.541    2.538   2 2 2 2 2
155790   1.499   0.609   0.016   2.773    4.729   2 2 2 2 2

155815   1.704   0.945   0.058   3.083    5.353   2 2 2 2 2
155815   1.726   1.261   0.038   2.937    3.464   2 2 2 2 2
155815   1.678   0.788   0.051   2.966    3.303   2 2 2 2 2

155852   3.815   1.916   0.257   5.955   11.098   2 2 2 2 2
155852   3.799   1.865   0.267   6.148   11.204   2 2 2 2 2
155852   3.958   2.029   0.211   6.079   10.563   2 2 2 2 2

155867   3.554   1.764   0.241   5.636   11.297   2 2 2 2 2
155867   3.575   2.010   0.188   5.625   11.212   2 2 2 2 2
155867   3.523   1.671   0.243   5.635   11.641   2 2 2 2 2

155899   4.391   2.355   0.441   7.081   13.959   2 2 2 2 2
155899   4.325   2.535   0.383   7.045   11.651   2 2 2 2 2
155899   4.394   2.535   0.403   7.006   11.885   2 2 2 2 2

155921   4.269   2.204   0.313   6.801   12.585   2 2 2 2 2
155921   4.414   2.335   0.448   7.096   12.004   2 2 2 2 2
155921   4.340   2.778   0.332   6.944   12.591   2 2 2 2 2

155941   2.634   1.375   0.117   3.667    7.826   2 2 2 2 2
155941   2.584   1.395   0.178   3.789    7.655   2 2 2 2 2
155941   2.673   1.492   0.139   3.688    8.751   2 2 2 2 2

155953   2.986   1.472   0.200   4.902   10.283   2 2 2 2 2
155953   2.973   1.557   0.113   4.722   10.105   2 2 2 2 2
155953   2.967   1.617   0.173   4.795    9.271   2 2 2 2 2

155966   1.285   0.330   0.101   2.180    1.266   2 2 2 2 2
155966   1.268   0.478   0.000   2.349    1.672   2 2 2 2 2
155966   1.277   1.086   0.033   2.356    4.052   2 2 2 2 2

155991   2.600   1.288   0.113   4.288    8.567   2 2 2 2 2
155991   2.599   1.425   0.089   4.323    9.376   2 2 2 2 2

156009   1.337   0.583   0.026   2.314    4.387   2 2 2 2 2
156009   1.319   0.703   0.015   2.426    5.239   2 2 2 2 2
156009   1.331   0.804   0.044   2.565    4.583   2 2 2 2 2

156040   2.549   1.202   0.110   4.040    8.480   2 2 2 2 2
156040   2.518   1.259   0.132   3.980    8.137   2 2 2 2 2
156040   2.543   1.436   0.125   4.008    8.707   2 2 2 2 2

156051   1.103   0.561   0.039   2.224    3.366   2 2 2 2 2
156051   1.268   0.859   0.135   2.357    4.279   2 2 2 2 2
156051   1.103   0.486   0.082   2.126    3.239   2 2 2 2 2

156075   1.143   0.501   0.074   2.368    3.420   2 2 2 2 2
156075   1.134   0.540   0.012   2.204    3.274   2 2 2 2 2
156075   1.080   0.448   0.022   2.169    2.952   2 2 2 2 2

156100   1.057   0.371   0.043   2.017    3.015   2 2 2 2 2
156100   1.038   0.477   0.040   2.088    3.137   2 2 2 2 2
156100   1.023   0.560   0.015   2.267    0.553   2 2 2 2 2

156135   2.581   1.272   0.153   3.454    6.454   2 2 2 2 2
156135   2.541   1.705   0.112   3.358    5.029   2 2 2 2 2
156135   2.483   1.296   0.175   3.223    7.400   2 2 2 2 2

156160   2.881   1.430   0.134   3.288    5.781   2 2 2 2 2
156160   2.794   1.695   0.201   3.421    7.127   2 2 2 2 2
156160   2.795   1.775   0.159   3.263    7.242   2 2 2 2 2

156168   0.855   0.334   0.000   1.857    2.997   2 2 2 2 2
156168   0.829   0.379   0.070   1.849    2.723   2 2 2 2 2
156168   0.870   0.469   0.024   1.871    2.441   2 2 2 2 2

156206   3.119   2.142   0.186   4.078   10.173   2 2 2 2 2
156206   3.045   2.371   0.240   3.777    9.501   2 2 2 2 2
156206   3.031   1.677   0.179   3.888    8.547   2 2 2 2 2

156214   1.051   0.606   0.000   2.321    3.570   2 2 2 2 2
156214   1.092   0.640   0.022   2.206    3.197   2 2 2 2 2
156214   1.073   0.580   0.033   2.181    3.284   2 2 2 2 2

156245   2.329                   3.194    7.548   2 5 5 2 2
156245   2.007   0.975   0.094   3.314    6.308   2 2 2 2 2
156245   1.996   1.158   0.127   3.392    6.006   2 2 2 2 2

156264   2.277   1.131   0.071   3.687    7.356   2 2 2 2 2
156264   2.219   1.352   0.120   3.783    7.300   2 2 2 2 2
156264   2.180   1.335   0.121   3.659    6.720   2 2 2 2 2

156285   1.592   0.599   0.059   3.090    4.426   2 2 2 2 2
156285   1.639   0.719   0.029   3.050    4.623   2 2 2 2 2
156285   1.607   0.732   0.054   3.026    5.304   2 2 2 2 2

156320   2.594   1.277   0.117   2.384    6.918   2 2 2 2 2
156320   2.657   1.348   0.157   2.337    6.503   2 2 2 2 2
156320   2.648   1.356   0.178   2.353    7.585   2 2 2 2 2

156330   1.195   0.474   0.035   2.604    3.349   2 2 2 2 2
156330   1.148   0.504   0.031   2.389    3.165   2 2 2 2 2
156330   1.167   0.609   0.000   2.312    3.412   2 2 2 2 2

156362   1.826   0.766   0.080   2.197    6.515   2 2 2 2 2
156362   1.821   0.790   0.056   2.281    6.459   2 2 2 2 2
156362   1.946   1.178   0.050   2.283    5.702   2 2 2 2 2

156375   1.596   0.754   0.116   3.255    4.977   2 2 2 2 2
156375   1.581   0.632   0.034   3.124    5.493   2 2 2 2 2
156375   1.561   0.726   0.024   3.018    4.762   2 2 2 2 2


d.  Standards Used

Standardization was carried out using gas standards made up at Brookhaven 
National Laboratories.  Standard volumes were corrected for lab temperature 
and pressure.  Results were reported in units of pmol/kg of sea water.  
Clean air samples were also analyzed with each station, as a check on the 
standardization.

8.  Reversing Thermometers
    (Anthony W. Isenor)

a.  Description of Equipment and Technique

Sensoren-Instrumente-Systeme digital reversing thermometers model RTM 4002 
were used to verify CTD thermistor readings on most deep stations.  The 
thermometers had a depth range of up to 10000 m.  The pressure housing was 
made of a glass tube closed at the ends by metal stoppers.  One end 
contained the platinum sensor and the other end housed the battery 
compartment.  The thermometers were placed on bottles 2 and 4 on the 
rosette, thus sampling temperature at the second and forth deepest bottle 
trips.

The thermometers were placed in standard reversing thermometer racks on the 
Niskin bottles.  Before deployment, a magnet was passed over the 
thermometers to clear the display and place the thermometer in sample mode. 
A new temperature was then recorded upon reversal of the thermometer.

b.	Sampling Procedure and Data Processing Technique

The digital thermometers indicate the temperature reading via a digital 
display.  The temperature was read and noted on log sheets.  The readings 
were later digitized and corrections applied using the water sample database 
system.  

The following table lists the number of reading from each thermometer.  

Thermometer Ser. No.   Number of Readings
--------------------   ------------------
      000T345                18
      000T347                36
      000T354                16
      000T881                36
      000T884                13
      000T885                15

In total, 134 readings were obtained.  Of these, 18 had confirmed or 
suspected problems with either the thermometer or with insufficient soaking 
time.  Thus, only 116 valid thermometer temperature values were available to 
be used in comparisons with the CTD thermistor.

c.  Calibration Data

The digital reversing thermometers were calibrated at BIO in March 1995.  

d.  Replicate Analysis

Typically, a rack containing three thermometers would be tripped when the 
second and forth Niskin bottles were fired.  Thus, we would obtain three 
independent temperature readings.  However, due to the loss of a rack of 
three thermometers and the malfunction of other thermometers, many readings 
near the end of the cruise resulted in only two independent thermometer 
readings.

A total of 52 sample id numbers had digital thermometer temperature 
replicates.  One sample id number had no replicates, 20 sample id numbers 
had one replicate and 31 sample id numbers had two replicates.  The 
following is a statistical summary of the absolute value of the replicate 
differences.  Only acceptable values were used in calculating the 
statistics.


Statistic                        Value (°C)
-------------------------------------------
Number of Replicate Differences   90
Minimum Difference                 0.000
Maximum Difference                 0.008
Mean Difference                    0.003
Median Difference                  0.002
Standard Deviation of Differences  0.003


All of the replicate reversing thermometer temperature values, along with 
the reversing thermometer pressure values are given in Table C.7.

Using the median difference as a measure of the inter-thermometer comparison 
(the mean is influenced equally by all points, including outliers), we noted 
that the estimated thermometer difference is 0.002°C.  Thus, the difference 
between thermometers was the same as the difference between thermometers and 
the CTD.  Therefore, we could not distinguish the difference between the 
thermometers and the CTD.  Consequently, we did not apply any temperature 
calibration to the CTD.


Table C.7  Replicate Reversing Thermometer samples. Temperature is in °C and 
           ITS-90 scale.

Sample ID   Thermometer      Main      WOCE
 Number    Serial Number   Corrected    QF
-------------------------------------------
155204         t345          0.171      2
155204         t347          0.175      2
155204         t354          0.176      2

155313         t345          1.825      2
155313         t347          1.831      2
155313         t881          1.830      2

155315         t354          2.824      2
155315         t884                     9
155315         t885          2.821      2

155333         t345          1.689      2
155333         t347          1.695      2
155333         t881          1.695      2

155335         t354          2.158      2
155335         t885          2.156      2

155356         t345          1.782      2
155356         t347          1.788      2
155356         t881          1.789      2

155358         t354          2.273      2
155358         t884                     9
155358         t885          2.270      2

155379         t345          1.768      2
155379         t347          1.773      2
155379         t881          1.774      2

155381         t354          2.259      2
155381         t885          2.257      2

155407         t345          1.706      2
155407         t347          1.711      2
155407         t881          1.713      2

155409         t354          2.187      2
155409         t884          2.187      2
155409         t885          2.185      2

155430         t345          1.732      2
155430         t347          1.738      2
155430         t881          1.736      2

155432         t354          2.282      3
155432         t884          2.281      3
155432         t885          2.279      3

155453         t345          1.570      2
155453         t347          1.577      2
155453         t881          1.578      2

155455         t354          2.002      2
155455         t884          2.002      2
155455         t885          2.000      2

155476         t345          1.677      2
155476         t347          1.683      2
155476         t881          1.682      

155478         t354          2.072      2
155478         t884          2.070      3
155478         t885          2.069      2

155499         t345          1.677      2
155499         t347          1.684      2
155499         t881          1.684      2

155501         t354          2.059      2
155501         t884          1.885      3
155501         t885          2.058      2

155522         t345          1.516      2
155522         t347          1.522      2
155522         t881          1.521      2

155524         t354          1.941      2
155524         t884          1.853      3
155524         t885          1.938      2

155545         t345          1.520      2
155545         t347          1.526      2
155545         t881          1.526      2

155547         t354                     9
155547         t884                     9
155547         t885          1.962      2

155568         t345          1.571      2
155568         t347          1.577      2
155568         t881          1.576      2

155570         t354          1.977      2
155570         t884                     9
155570         t885          1.975      2

155702         t345          1.921      2
155702         t347          1.928      2
155702         t881          1.928      2

155704         t354          2.038      2
155704         t884          2.036      2
155704         t885          2.036      2

155725         t345          1.779      2
155725         t347          1.786      2
155725         t881          1.785      2

155727         t354          2.058      2
155727         t884          2.058      2
155727         t885          2.056      2

155748         t345          2.511      2
155748         t347          2.516      2
155748         t881          2.508      2

155750         t354          2.870      2
155750         t884          2.870      2
155750         t885          2.868      2

155767         t345          3.302      2
155767         t347          3.306      2
155767         t881          3.306      2

155786         t345                     9
155786         t347          1.987      2
155786         t881          1.986      2

155810         t347          1.768      2
155810         t881          1.769      2

155833         t347          1.856      2
155833         t881          1.856      2

155856         t347          2.158      2
155856         t881          2.159      2

155879         t347          2.676      3
155879         t881          2.675      3

155902         t347          2.876      2
155902         t881          2.876      2

155925         t347          3.006      2
155925         t881          3.006      2

155948         t347          3.047      2
155948         t881          3.047      2

155965         t347          2.980      2
155965         t881          2.981      2

156164         t347          2.297      3
156164         t881          2.296      3

156187         t347          2.261      2
156187         t881          2.260      2

156210         t347          2.271      2
156210         t881          2.270      2

156233         t347          2.350      2
156233         t881          2.349      2

156256         t347          2.329      2
156256         t881          2.328      2

156279         t347          2.383      2
156279         t881          2.382      2

156302         t347          2.428      2
156302         t881          2.426      2

156325         t347          2.467      2
156325         t881          2.467      2

156348         t347          2.716      2
156348         t881          2.714      2

156371         t347          2.910      3
156371         t881          2.910      3


9.  Helium/Tritium
    (Maureen K. F. Noonan)

A total of 242 samples of He and Tr samples were collected by Maureen Noonan 
for Peter Schlosser of Lamont-Doherty Earth Observatory, Columbia 
University.  See Figure 8 below for the sampling locations across the 
Labrador Sea.

a.  Description of Equipment and Technique

He samples were collected through tygon tubing into copper tubes (40 g 
capacity) bolted into aluminum channels for support and protection.  Tr 
samples were collected into one-litre Argon filled brown glass bottles, 
directly from the Niskin spigot.

b.  Sampling Procedure and Data Processing Technique

He samples were drawn after the CFCs.  Delivery was through tygon tubing, 
cured in seawater to reduce bubbles, which was monitored for air bubbles.  
All detected bubbles were worked out of the line. The metal channel holding 
the copper sample tube was then struck several times on both sides with a 
ratchet in a pattern from the intake end towards the outflow end of the 
copper tube in order to pass any air bubbles out of the sample tube.  
Flushing of the copper tube took place during both parts of the bubble-
removing procedure.  When air removal and flushing were complete, both ends 
of the copper tube were sealed by tightening the two bolts at each end with 
a ratchet wrench starting at the outflow end.  GMT time of sampling was 
routinely noted for each sample.  These samples will be shipped to Lamont 
for analysis. 

Tritium samples were collected into argon-filled bottles without rinsing or 
flushing after all other samples were collected from the rosette.  The 
bottle caps were secured with electrical tape at the completion of each 
station.  These samples will be shipped to Lamont for analysis.  
Occasionally, the Niskins were drained before the tritium was collected.  
Careful rinsing of all samples helped alleviate this problem.

Replacement watches were handed out to all persons in the scientific party 
and the winch drivers who normally wore luminous-dial watches, and a sign 
was posted at each rosette room door to avoid wearing luminous-dial watches 
inside the room.  


Figure 8*.  Location of Helium/Tritium samples drawn across the LSW.


10.  Oxygen Isotopes
     (Anthony W. Isenor)

a.  Sampling Procedure 

Water samples were initially collected using a 10 litre rosette bottle.  
Samples for oxygen isotope analysis were collected last in the sampling.  A 
total of about 600 isotope samples were drawn.  Duplicates were drawn on 
some stations.  Samples were collected in 15 ml sample bottles.  Samples are 
being sent to Bob Houghton at Lamont Geological Earth Observatory, Columbia 
University, Palisades, NY.



D.  MOORED MEASUREMENTS - DESCRIPTIONS, TECHNIQUES AND CALIBRATIONS

1.  Current Meter Moorings
    (John R. N. Lazier)

a.  Description of the Equipment and Technique

There was one recovery (1168) and two deployments (1194 & 1200) of BIO deep 
sea moorings on cruise 95011.

The recovered mooring (1168) and its replacement (1194) had the same 
configuration of six Aanderaa current meters, one IOS CTD, one WOTAN, one 
ADCP, six Seacat CT probes, seven back up buoyancy packages and two acoustic 
releases. The main subsurface float was either a Braincon float constructed 
of 10" glass balls supported in a fiberglass structure or a syntactic foam 
float formed in the same streamlined shape as the Braincon floats.

The second deployed mooring (1200) had a configuration of one main float 
called a Hibernia Package, one Aanderaa Current Meter, two backup buoyancy 
packages and one acoustic release.

All three of these moorings were constructed using jacketed 1/4" wire and 
5/16" or 1/4" Kevlar. Stainless steel shackles and swivels were used to 
connect the instruments and backup buoyancy packages. All shackles were 
secured with a short piece of wire. The acoustic releases were 723A EG&G 
DACs.  The moorings were designed for a 12 month deployment.

The back-up buoyancy packages consisted of two 17" glass balls contained in 
plastic hard hats and fastened to a stainless steel tension bar one meter in 
length. These backup buoyancy packages were shackled together to form 
doubles and triples before they are shackled into the mooring line.

b.  Sampling Procedure and Data Processing Techniques

The recovered Aanderaa current meters recorded at a sampling interval of 
three hours.  The data will be processed using standard software packages 
within the BIO Oceans suite of programs.

c.  Calibration Data

The temperature, pressure and direction sensors of the Aanderaa current 
meters were calibrated in the laboratory prior to deployment.  These 
calibrations were not included in this cruise report.

d.  Deployment and Recovery Logs

Deployment PRIVATE  

Mooring No:      1194
Geographic Area: Labrador Sea     Intended Duration:  1 year
Ship:            Hudson           Cruise no.:         95011      Date: May 13/95
Sea State:       2                Weather Conditions: cloudy, cool, S wind
Mooring Tech.:   Murray Scotney   Navigation Inst.:   GPS
Latitude:        56 45.15 N       Longitude:          52 27.36 W   
                                  Time of Fix:        2018 Z
Depth:           Raw:  1876 ftm   Corrected:          3502 m
Main Float:      Type: Braincon   Markings:           Govt. of Canada stickers,
                                                      no numbers
Radio beacon:    Type: OAR        Freq.:              163.000
Light:           Type: Novatech   Colour/Rate:        White, 1 sec
Mooring Line:    Type: Jacketed   Colour:             Yellow
Release Type:    DAC              S/N: 308806 (upper) 
Release Code:                          504801 (lower)

Deployment Log

Time (Z)  Instrument            Remarks
----------------------------------------
1838      Main Float            in water
          SEACAT 1493           in water
1841      CM 4355               in water
1844      WOTAN                 in water
1847      3 BUB Packages        in water
1850      SEACAT 1893           in water
1857      ADCP                  in water
1859      SEACAT 1897           in water
1905      CM 4200               in water
1908      2 BUB Packages        in water
1914      SEACAT 1898           in water
1921      CM 7123               in water
1925      2 BUB Packages        in water
1928      SEACAT 1894           in water
1933      CM 818                in water
1935      SEACAT 1895           in water
1950      CM 9328; SEACAT 1896  in water
2005      Release 308806        in water
2011      CM 4195               in water
2017      Release 504801        in water
2018      Anchor                release

Recovery

Mooring No:    1168
Ship:          Hudson   Cruise No:  95011    Date:  May 13/95
Mooring Tech:  Scotney
Type of Nav:   GPS
Sea State:     2        Weather Conditions:  20 kt winds

Recovery Log

Time (Z)  Instrument            Remarks
---------------------------------------------------------------------------
0935                            release activated and released
0955                            recovery started
1010      IOS CTD SN 1630       Upper float and IOS CTD out of water
1017      CM 9607               on deck
1022      WOTAN                 on deck
1027      Seacat 1623           on deck slight winch problems with cog
1040      ADCP                  on deck
          SEACAT 1624           on deck.  screws from nylon end piece gone.
                                Some bio growth "Sea Snot"
          CM 6407               on deck - rotor spinning
1100      SEACAT 1628           on deck - cleaner than 1624
1105      CM 6412               on deck - rotor spinning
1114      SEACAT 1625           on deck - clean
1117      CM 5001               on deck - rotor spinning
          SEACAT 1626           on deck - clean
1130      CM 2664               on deck - rotor spinning
1130      SEACAT 1627           on deck - clean - anode corroded more than
                                other Seacats
1140      Release #1            307405 - Some anodes corroded - 1 gone
1143      CM 5359               on deck - rotor spinning
          Release #2            107002 - some corrosion of anodes
1400      Argos Beacon ID 5837  shut off (we hope). fax from Ross Hendry to
                                say beacon had been picked up by Argos


Deployment PRIVATE  

Mooring No:      1200
Geographic Area: Labrador Slope  Intended Duration:    1 year
Ship:            Hudson          Cruise no.: 95011     Date:  May 12/95
Sea State:       0               Weather Conditions:   clear and calm
Mooring Tech.:   Murray Scotney  Navigation Inst.:     GPS
Latitude:        55 7.34 N       Longitude: 54 5.74 W  Time of Fix: 0304 Z
Depth:           Raw: 1061 m     Corrected: 1061 m 
Main Float:      Type:           Markings:                
Radio beacon:    Type: OAR       Freq.: 163.000 MHz 
Light:           Type: OAR       Colour/Rate: White
Mooring Line:    Type: Yellow Jacketed wire            Colour: Yellow
Release          Type: EG&G      S/N: 100606           Release Code:


Deployment Log

Time (Z)  Instrument  Remarks
-----------------------------------------------------
0230      Release     Test OK
0245                  Mooring assembled
                      Light flashing - Beacon working
0300      CM 5577     current meter submerged


2.  Inverted Echo Sounders
    (Randy Watts)

A.  Labrador Sea Deployment.

An Inverted Echo Sounder (IES) was launched to serve as a water-column 
calorimeter along the hydrography line in the central Labrador Sea.  The 
vertically integrated acoustic travel time, which the IES measures round-
trip from the ocean bottom to the surface, determines the vertically 
integrated heat content (relative to one or more calibration CTDs during its 
moored measurement period).   

The site was chosen to take advantage of this natural vertically integrating 
nature of the measurement, and to attempt to avoid situations where higher 
order vertical structure might produce significant internal-canceling.  
Thus, we were more interested in the central Labrador Sea and its main lens 
of Labrador Sea Water, than around its periphery, which is known to have 
surface currents of varied temperature/salinity characteristics.  The site, 
at 57°22.72'N, 51°47.19'W (Station 27, Location 16), was chosen "near" the 
former Ocean Weather Ship Bravo site, to build upon its historical record;  
yet "far" (relative to estimated eddy scales) from the Lazier/Rhines 
mooring, in order to provide heat-content information that is independently 
affected by eddies.  The planned deployment period is about two years, to 
span the winters of 95-96, and 96-97. 

Deployment details:
14-Jun-1995 06:22Z. Deployed IES076 at Location 16 (Station 27) along WOCE line. 
57° 22.65'N,  51° 47.07'W ( by GPS),  depth(corr) 3463m.
CTD= site#16, event#28.  Down time: 08:02Z @ 57°23.08'N 51°46.42'W.
RADIO/FLASHER # 25 @ 156.875MHz
Backup timed release is 800d from final reset @ 18:00Z 13-Jun-1995 
                        = (better double check this) 
21-Aug-1997.
IES is pinging exactly on the hour ; we tracked it in beacon mode to the 
bottom.  It hit bottom in 38-39 minutes, after the first few pings of sample.  
It couldn't have drifted more than 0.3 NM or 0.5 km.

I reconfirmed this position against what the bridge recorded (57° 22.72'N 
51° 47.19'W), which coincided more exactly with the launch time. (Ours was 4 
minutes after launch).  They were still getting ready to take the 
calibration CTD while the IES sank, and didn't begin until a few minutes 
after the IES was on the bottom; so the time is coincident.

B.  Newfoundland Basin/ North Atlantic Current recovery.

Six Inverted Echo Sounders with bottom pressure sensors (PIES) had been 
deployed in August 1993 along the NAC current meter line (on the same R/V 
Oceanus cruise as the current meter moorings). 

The acoustic travel times in this region are functionally related (i.e., 
with small noise relative to the dominant signals) to the dynamic heights 
between 3500dbar and a variety of shallower levels in the water column.  For 
initial and final calibration, the IES records require CTD stations. 

The baroclinic geostrophic current profile may be determined from the 
profile of dynamic height differences between neighbouring pairs of IESs.  
The abyssal or barotropic reference current to make these current profiles 
absolute may be determined from the gradient of pressure along a deep level. 
For this purpose, the bottom pressure records will be "levelled" relative 
to the time-average deep currents that have been coherently measured in this 
same experiment by the deepest current meters along the NAC line.  

An alternative way to reference the velocities, in a time-dependent sense 
that allows independently for temporally-varying shear in the deep water,  
is relative to the vertically-averaged currents.  The latter may, in future 
deployments along this same NAC line, be measured by moored horizontal 
electric field (HEF) recorders.  For this experiment, the HEF performance 
will be simulated from the currents measured at seven levels on the 
moorings. 

This experiment was designed to improve and refine the calibrations and 
functional relationships that will allow quantitatively accurate 
determination of the currents and transports in the North Atlantic Current, 
using a combination of IES/P/HEF and CM measurements.


Recovery Details: 

June 28, 1995.  At the first IES recovery site IES 73 (# 8.5, Station 81) 
                the instrument was silent or gone.  

                At site 8.0 IES 71 (Station 82, Cast 1) was recovered with no 
                problems; recovery site agreed within 0.1 km with launch site. 
                CTD Station 82, Cast 2 at 0932-1058Z (start-bottom), 41°54.7'N 
                44°34.55'W to 41°55.58'N 44°35.32'W. D=4726m.


June 29, 1995.  At site 6.5 IES 75 (Station 83, Cast 2) was recovered 
                without problems, but it began screeching once aboard.  We had  
                to open it fast since we could not shut it off, both on and 
                reset LED's were constantly on.  There was water inside and more 
                impressive there was a large crack in the sphere, we were very 
                lucky it didn't implode.  The water appears to have entered 
                after releasing, and the data tape appears to be good. 

                CTD Station 83, Cast 1 at 1911-2043Z (start-bottom) 42°13.03N 
                45°39.75'W to 42°13.76'N 45°40.45'W. D= 4580m.

                At site 5.5 IES 67 (Station 84, Cast 1) was dead or gone. 
                No acoustic responses.   A cable-laying ship was working nearby 
                on a line that passed within less than a mile from site 5.5---
                makes us wonder if they damaged or knocked it free? 

June 30, 1995.  At site 4.0 we recovered IES 65 (Station 85, Cast 2).  It 
                also had a small amount of water that entered after recovery.  
                Data tape appears to be good.  CTD Station 85, Cast 1 at 1104-
                1210 (start-bottom) 42°44.10'N 47°23.20'W to 42°44.33'N to 
                47°22.64'W. D=3821m.

July 1, 1995.   Recovered IES 69 at site 3.0 (Station 86, Cast 2) 
                during the night.  All went well. CTD Station 86, Cast 1 at 
                0321-0420Z (start-bottom) at 42°56.99N 48°11.07W to 42°56.51'N 
                48°11.17'W.  D=(approx) 3322 dbar.  


E.  ACKNOWLEDGEMENTS


F.  APPENDICES
--------------------------------------------------------------------------------

Appendix 1:  Along Track CTD Calibration Information

BSB SEABIRD Model 25-03 Serial Number 258917-0116 

Temperature Sensor 031548

    T = 1/{a + b[ln(fo/f)] + c[ln^2[fo/f] + d[ln^3(fo/f)]} - 273.15

    Where ln indicates a natural logarithm, f is the frequency
          a  =  3.68120903 E-03
          b  =  6.05726873 E-04
          c  =  1.57453931 E-05
          d  =  2.37605653 E-06
          fo =  6145.410
          slope = 1, offset = 0(Seabird calibration dated November 2, 1993)


Conductivity Sensor 041124

    Conductivity = (af^m + bf^2 + c + dt)/[10(1-9.57(10^-8)p)]

    Where f is the frequency, p is pressure in dbars, t is the temperature
          m =  4.4
          a =  7.91164000 E-06
          b =  4.91698742 E-01
          c = -4.03526125 E+00
          d =  6.64743265 E-05
          Slope = 1.00000000
          Offset =  0.000

Irradiance Sensor 1567

    where
	    m = -0.7558000
          b = -3.4702000
          Calibration Constant = 3.34000
          Multiplier = 1.000

Fluorometer Sensor 304

    where
          Scale Factor = 10.000
          Offset = 0.000

--------------------------------------------------------------------------------


Appendix 2:  95011 CTD Oxygen Calibrations

INTRODUCTION

The difference between the water sample oxygen values and their 
corresponding down cast CTD oxygen values was used to calculate suitable CTD 
oxygen calibration coefficients.  There were 88 stations occupied during 
cruise 95011.  All 88 stations used the same CTD oxygen sensor.  No Seabird 
CTD data were obtained at stations: 9, 15, 17, 18, 20, 21, 22, 25, 26, 27, 
31, 36, 38, 45, 49, 51, 54, 56, 62, 64, 68, 75, 80, 81, 84, 87 and 88.

Before any CTD oxygen calibrations could be produced, a useful data file had 
to be assembled that could be used in the calibration process.  Two 
consecutive file merges were performed for each station on the cruise having 
CTD oxygen data and water sample oxygen data.  The resulting merged files 
were then concatenated to form the data file containing all the necessary 
data from the cruise.

The two file merges are described below in more detail:

1.  The up cast CTD data (including only the data obtained from the CTD at 
    the time when the water sample bottles were closed) and the down cast CTD 
    data (2 dbar average) were sorted by pressure in ascending order, then 
    merged.  The merge combines up cast CTD records containing a water sample 
    id number with the down cast CTD data having the closest pressure within 
    (2 dbar of the up cast CTD pressure.  If no down cast CTD data record was 
    found within 2 dbar, then no record was output to the merged CTD file for 
    that sample id number.
 
2.  Using sample id numbers as the merging variable, the CTD file was then 
    merged with a file containing the mean water sample oxygen values.

A plot of oxygen difference (water sample oxygen - down cast CTD oxygen) 
versus pressure for all stations is shown in Figure 1*.  The plot indicates 
considerable nonlinear drift, which make it unreasonable to calculate just 
one calibration equation for all the data.  After looking more closely at 
the data, it was decided that the cruise should be broken up into smaller 
groups.  The smaller groups were based on the similarity of the oxygen 
difference versus pressure profiles. Each group was then calibrated 
separately.  The groupings are listed in Table 1.

Table 1.

A          B      C     D        E
----------------------------------
1 - 7     55      1     0       54
8          9      0     0        9
10        12      2     0       10
11        16      1     0       15
12        19      0     0       19
13        20      0     1       19
14        23      0     0       23
16        23      0     0       23
19        23      1     0       22
23 - 43   385*  126     1      258
44 - 79   607    20     2      585
82 - 86   20     20     0        0
TOTAL   1212*   171     4     1037

A: Station  Range
B: Number of Unique Sample ID Numbers
C: Number of IDs having no water sample oxygen value(s)
D: Number of IDs not having a down CTD oxygen value and/or not being present in 
   the Merged CTD file
E: Number of IDs having both a mean water sample oxygen value and a down cast 
   CTD oxygen value that was contained in the Merged CTD file

*  There were 111 sample id numbers, 155590 - 155700, that were not used, 
   but are included in these totals.


Near Surface Data Points Not Used

All oxygen differences associated with a pressure between 0 dbar and 180 
dbar were automatically removed prior to CTD oxygen calibration processing. 
By excluding these points, the turbulent near surface region was avoided 
thereby making the calibration procedure more accurate for the remainder of 
the CTD casts.  This pressure cutoff was initially applied to the 18HU90012 
CTD oxygen calibration process.

WOCE Accuracy Guideline

WOCE has an accuracy guideline for CTD oxygen measurements, which states 
that the CTD oxygen values should be within 1.0 % to 1.5 % of the mean water 
sample oxygen value for the cruise.

The mean water sample oxygen value for 95011 was 6.527 ml/l.  Therefore, 
according to WOCE's accuracy guideline, this would imply that the standard 
deviations of the differences between the water sample oxygens and the 
calibrated CTD oxygens should be within or below the interval 0.07 to 0.10 
ml/l.


Summary of Variables Used in the Calibration Process

The following describes the notation used in the calibration.

j:     station

i:     observation taken on station j

n(j):  is the number of observations taken for station j

p(ij): pressure for the ith observation of station j

b(ij): water sample oxygen for the ith observation of station j

c(ij): down CTD oxygen for the ith observation of station j

d(ij)  = b(ij) - c(ij) : ith oxygen difference for station j

*see Word doc. for equation : mean of the oxygen differences for station j

e(ij)  = d(ij) - d(.j): the ith oxygen difference expressed as a deviation 
       from the mean oxygen difference for station j

epsilon(ij): predicted value of d(ij) (when d(.j) offset not used) or e(ij) 
       (when d(.j) offset is used) from the regression analysis depending if a 
       station offset was subtracted from the station differences before 
       performing the regression analysis

r(ij) = d(ij) - epsilon(ij) or e(ij) - epsilon(ij) : ith residual for 
       station j resulting from the regression analysis

k(ij): calibrated CTD oxygen

if a station offset was used:
       since   r(ij) = e(ij) - epsilon(ij) = b(ij) - k(ij)
       d(ij) - d(.j) - epsilon(ij) = b(ij) - k(ij)
       b(ij) - c(ij) - epsilon(ij) = b(ij) - k(ij)
therefore the calibration is:
       Eqn. 1  k(ij) = c(ij) + d(.j) + epsilon(ij)

if no station offset was used:
       since   r(ij) = d(ij) - epsilon(ij) = b(ij) - k(ij)
       b(ij) - c(ij) - d(.j) - epsilon(ij) = b(ij) - k(ij)
therefore the calibration is:
       (when d(.j) not used)     k(ij) = c(ij) + epsilon(ij)

Stations 1 to 7

Only 6 points were below the near surface region.  Three points for station 
3, one for station 6 and two for station 7.  Due to the lack of data points 
it was decided not to produce calibrations for these stations.


Stations 8 to 19

A plot of the oxygen differences versus pressure for these stations is 
displayed in Figure 2*.  Each of these stations had CTD oxygen data 
calibrated separately because of the large drift.


Station 8

Five data points were used in calculating a station offset (mean of the 
oxygen differences) to be used in calibrating this station's CTD oxygen 
data.  No regression was computed because of the clustered nature of the 
data points.

Table 2.

Station  Mean of Oxygen      Standard Deviation 
         Differences (ml/l)  of Differences (ml/l)
--------------------------------------------------
8        3.463               0.15


Station 10

Nine data points were analyzed using regression analysis to obtain 
calibration coefficients.  The regression analysis used oxygen difference 
(d(ij)) as the dependent variable and pressure (p(ij)) as the independent 
variable.  Figure 3* is a plot of d(ij) against p(ij), along with the 
regression equation epsilon(ij)).

The regression equation was:

Eqn. 2.  epsilon(ij) = 4.036 + 1.518E-04 * p(ij)

The residuals had a standard deviation of 0.027 ml/l.

Station 11

A regression analysis was performed using 13 data points.  The analysis used 
oxygen difference (d(ij)) as the dependent variable and pressure (p(ij)) as 
the independent variable.  A plot of d(ij) against p(ij) is shown in Figure 
4*, along with the regression equation (epsilon(ij)).

The regression equation was:

Eqn. 3.  epsilon(ij) = 4.514 - 2.714E-04 * p(ij)

The residuals had a standard deviation of 0.088 ml/l.


Station 12

A regression analysis using oxygen difference (d(ij)) as the dependent 
variable and p(ij), (p(ij))^2 and (p(ij))^3 as the independent variables was 
performed to find calibration coefficients using 16 data points.  Figure 5* 
shows a plot of d(ij) against p(ij) and the resulting regression equation 
(epsilon(ij)).

The regression equation was:

Eqn. 4.  epsilon(ij) = 3.917 + 4.844E-04 * p(ij) - 4.654E-07 * (p(ij))^2 + 
         9.091E-11 * (p(ij))^3

The residuals had a standard deviation of 0.036 ml/l.

Station 13

Sixteen data points were used in performing a regression analysis.  The 
regression analysis used oxygen difference (d(ij)) as the dependent variable 
and  p(ij), (p(ij))^2 and (p(ij))^3 as the independent variables.  A plot 
showing d(ij) against p(ij) and the estimated regression equation 
(epsilon(ij)) is given in Figure 6*.

The regression equation was:

Eqn. 5.  epsilon(ij) = 3.431 + 6.670E-04 * p(ij) - 5.584E-07 * (p(ij))^2 + 
         1.128E-10 * (p(ij))^3

The residuals had a standard deviation of 0.040 ml/l.

Station 14

A regression analysis using 20 data points,  oxygen difference (d(ij)) as 
the dependent variable and p(ij), (p(ij))^2 and (p(ij))^3 as the independent 
variables was conducted to find calibration coefficients.  A plot of d(ij) 
against p(ij) is pictured in Figure 7*. The estimated regression equation 
(epsilon(ij)) is also displayed.

The regression equation was:

Eqn. 6.  epsilon(ij) = 2.897 + 9.746E-04 * p(ij) - 7.048E-07 * (p(ij))^2 + 
         1.327E-10 * (p(ij))^3

The residuals had a standard deviation of 0.052 ml/l.

Station 16

Twenty data points were used in a regression analysis.  The regression 
analysis used oxygen difference (d(ij)) as the dependent variable and p(ij), 
(p(ij))^2 and (p(ij))^3 as the independent variables to obtain calibration 
coefficients.  A plot of d(ij) against p(ij) and the estimated regression 
equation (epsilon(ij)) are given in Figure 8*.

The regression equation was:

Eqn. 7.  epsilon(ij) = 2.761 + 7.149E-04 * p(ij) - 5.186E-07 * (p(ij))^2 + 
         9.504E-11 * (p(ij))^3

The residuals had a standard deviation of 0.032 ml/l.

Station 19

A regression analysis using oxygen difference (d(ij)) as the dependent 
variable and p(ij), (p*(ij))^2 and (p(ij))^3 as the independent variables 
was conducted to find calibration coefficients using 20 data points.  Figure 
9* shows d(ij) plotted against p(ij), the estimated regression equation 
(epsilon(ij)) is also shown.

The regression equation was:

Eqn. 8.  epsilon(ij) = 2.450 + 6.894E-04 * p(ij) - 4.388E-07 * (p(ij))^2 + 
         7.643E-11 * (p(ij))^3

The residuals had a standard deviation of 0.054 ml/l.

Stations 23 to 43

There were 216 data points available for a regression analysis that used 
oxygen difference (d(ij)) as the dependent variable and p(ij), (p(ij))^2 and 
(p(ij))^3 as the independent variables.  Figure 10* displays a plot of d(ij) 
against p(ij) and the estimated regression equation (epsilon(ij)).

The regression equation was:

Eqn. 9.  epsilon(ij) = 2.229 + 4.174E-04 * p(ij) - 3.187E-07 * (p(ij))^2 + 
         6.226E-11 * (p(ij))^3

A residual plot is given in Figure 11*.  The residuals had a standard 
deviation of 0.108 ml/l.

Note:  All data points for stations 42 and 43 were located in the near 
surface region; but the data points lay within the data points for stations 
23 to 41.  Therefore, the regression equation computed for stations 23 to 41 
(i.e. Eqn. 9) will also be used for stations 42 and 43.

Stations 44 to 79

An outlier data point corresponding to sample id number 155833 was removed. 
A plot of the oxygen differences versus pressure for these stations is 
displayed in Figure 12*.  The mean of the oxygen differences (station offset 
d(.j)) for each station was calculated (see Table 3), then the e(ij) values 
were calculated.  A regression analysis was performed using the 491 
remaining data points.  The regression used e(ij) as the dependent variable 
and p(ij), (p(ij))^2,and (p(ij))^3 as the independent variables.  The 
regression equation is given below as Eqn. 10.  A plot of e(ij) versus 
p(ij), along with the estimated regression curve (epsilon(ij)) is shown in 
Figure 13*.


Table 3.

Station    Mean of Oxygen       Standard Deviation 
         Differences (ml/l)  of the Difference (ml/l)
-----------------------------------------------------
44             1.986                   0.11
46             2.113                   0.09
47             2.078                   0.13
48             2.013                   0.17
50             1.966                   0.13
52             2.009                   0.10
53             1.937                   0.12
55             2.031                   0.11
57             1.911                   0.15
58             1.932                   0.21
59             1.973                   0.11
60             1.924                   0.25
61             1.955                   0.20
63             2.002                   0.24
65             1.824                   0.27
66             1.767                   0.18
67             1.970                   0.26
69             1.878                   0.34
70             2.017                   0.22
71             1.913                   0.32
72             1.924                   0.34
73             1.860                   0.26
74             1.882                   0.22
76             1.886                   0.27
77             1.897                   0.24
78             1.875                   0.25
79             1.749                   0.27

The regression equation was:

Eqn. 10.  epsilon(ij) = -0.525 + 7.124E-04 * p(ij) - 2.671E-07 * (p(ij))^2 + 
          3.273E-11 * (p(ij))^3

A residual plot is given in Figure 14*.  The residuals had a standard 
deviation of 0.149 ml/l.  However, the standard deviation for the points 
having a pressure >=1500 dbars is 0.077 ml/l.

Stations 82 to 86

No water sample oxygen values were available for these stations; thus no 
oxygen differences could be calculated and used in calibrating the CTD 
oxygen data.  In order to calibrate the data for these stations, the average 
of the oxygen differences for stations 76 to 79 (1.852 ( 0.08) and Eqn. 10 
was used in the calibration of these stations.

CTD Oxygen Calibration Procedure

The CTD oxygen data was calibrated for each CTD station according to the 
following expression:

Eqn. 1  k(ij) = c(ij) + d(.j) + epsilon(ij)

        where k(ij) is the calibrated CTD oxygen value
              c(ij) is the raw CTD oxygen value 
              d(.j) the station offset:
                    is given in Table 2 for station 8,
                    is 0 for stations 10 to 14, 16, 19, 23 to 43 and
                    is given in Table 3 for stations 44 to 79, and
                    is given by 1.852 for stations 82 to 86.
        epsilon(ij) the regression offset:
                    is 0 for station 8,
                    is given as Eqn. 2 for station 10,
                    is given as Eqn. 3 for station 11,
                    is given as Eqn. 4 for station 12,
                    is given as Eqn. 5 for station 13,
                    is given as Eqn. 6 for station 14,
                    is given as Eqn. 7 for station 16,
                    is given as Eqn. 8 for station 19,
                    is given as Eqn. 9 for station 23 to 43, and
                    is given as Eqn. 10 for station 44 to 86.

All CTD oxygen data for the listed stations will be calibrated by the above 
procedure regardless of pressure.


Figure 1*.   Water sample oxygen minus CTD down cast oxygen (d(ij)) plotted 
             against pressure (p(ij)).

Figure 2*.   Water sample oxygen minus CTD down cast oxygen (d(ij)) plotted 
             against pressure (p(ij)).

Figure 3*.   Water sample oxygen minus CTD down cast oxygen (d(ij)) plotted 
             against pressure (p(ij)).  Regression line is also shown.  The 
             symbol colors are the same as used in Figure 2* for this station.

Figure 4*.   Water sample oxygen minus CTD down cast oxygen (d(ij)) plotted 
             against pressure (p(ij)).  Regression line is also shown.  The 
             symbol colors are the same as used in Figure 2* for this station.

Figure 5*.   Water sample oxygen minus CTD down cast oxygen (d(ij)) plotted 
             against pressure (p(ij)).  Regression line is also shown.  The 
             symbol colors are the same as used in Figure 2* for this station.

Figure 6*.   Water sample oxygen minus CTD down cast oxygen (d(ij)) plotted 
             against pressure (p(ij)).  Regression line is also shown.  The 
             symbol colors are the same as used in Figure 2* for this station.

Figure 7*.   Water sample oxygen minus CTD down cast oxygen (d(ij)) plotted 
             against pressure (p(ij)).  Regression line is also shown.  The 
             symbol colors are the same as used in Figure 2* for this station.

Figure 8*.   Water sample oxygen minus CTD down cast oxygen  (d(ij))  plotted 
             against pressure (p(ij)).  Regression line is also shown.  The 
             symbol colors are the same as used in Figure 2* for this station.

Figure 9*.   Water sample oxygen minus CTD down cast oxygen (d(ij)) plotted 
             against pressure (p(ij)).  Regression line is also shown.  The 
             symbol colors are the same as used in Figure 2* for this station.

Figure 10*.  Water sample oxygen minus CTD down cast oxygen (d(ij)) plotted 
             against pressure (p(ij)).  Regression line is also shown.

Figure 11*.  Residuals (r(ij)) remaining after the regression offset have 
             been removed.

Figure 12*.  Water sample oxygen minus CTD down cast oxygen (d(ij)) plotted 
             against pressure (p(ij)).

Figure 13.   Oxygen difference expressed as a deviation from the mean oxygen 
             difference (e(ij)) plotted against pressure (p(ij)) with regression 
             line shown.

Figure 14*.  Residuals (r(ij)) remaining after the station and regression 
             offsets have been removed.


G.  REFERENCES

Carritt, D.E. and J.H. Carpenter.  1966. Comparison and Evaluation of Currently 
    Employed Modifications of the Winkler Method for Determining Dissolved 
    Oxygen in Seawater. A NASCO Report, Jour. Mar. Res., 24, 268-318.

Clarke, R. Allyn, Jean-Guy Dessureault and Geoff Lebans.  1995.  Upper Ocean 
    Profiling from Vessels Underway, Sea Technology, February 1995.

Jones, E.P., F. Zemlyak and P. Stewart.  1992.  Operating Manual for the Bedford 
    Institute of Oceanography Automated Dissolved Oxygen Titration System.  Can. 
    Tech. Rep. of Hydrography and Ocean Sci. 138: iv+51p.

Levy, E.M., C.C. Cunningham, C.D.W. Conrad and J.D. Moffatt.  1977.  The 
    Determination of Dissolved Oxygen in Sea Water, Bedford Institute of 
    Oceanography Report Series, BI-R-77-9, August 1977.
 
* All figures shown in the PDF file.



WHPO DATA PROCESSING HISTORY

Date      Contact   Data Type      Data Status Summary           
  Notes:
--------------------------------------------------------------------------------
8/22/95   Lazier    CTD/SUM/DOC    Submitted          
                         
11/5/96   Sy        CTD/BTL        Update Needed, See Note:     
  BSH, Hamburg
  A. Sy
  5 November 1996
  
  To whom it may concern:
  Cruise "Meteor" 30, leg 3, bottle data processing.
  
  Because of the very limited resources it was necessary to deviate in some 
  points from requirements outlined in WHPO 90-1.  Otherwise different bottle 
  data files ought to have been assembled according specific needs and specific 
  computer software. Thus please, note the differences from WHP water sample 
  requirements as described in WHPO 90-1 (section 3.3). 
  
  Data are reported in terms of corrected samples, i.e. mis- or double trips in 
  the CTD rosette are corrected. No serious rosette problems occurred during 
  this cruise.
  
  Clearly bad (wrong) bottle trips have been removed completely.  Bad single 
  measurements have been removed and marked by 4.  Samples drawn from leaking 
  (malfunctioning) bottles are not reported except values seem to be more or 
  less reasonable.
  
  BIO denotes the Bedfort numbering system we used.
  
  CTDRAW is not a real raw pressure. The values reported are calibrated in our 
  acquisition data stream (transformation in physical units (dbar)) and stored 
  in the bottle data file.  CTDRAW is corrected according laboratory calibration 
  results (unloading courve) and pressure offset correction from beginning of 
  profile.
  
  CTDTMP is reported in ITS-90.
  
  CTDSAL has been corrected with in-situ salinity correction.  Standard 
  Conductivity used was C(15,35,0)=42.914.
  
  OXYGEN has not been yet converted to UMOL/KG. They are reported as measured.
  
  Finally: if you find errors of any kind, discrepancies in the data, etc, etc, 
  please contact me. As anyone else I would like to work with the best available 
  version of Meteor 30/3 data.
  
  Address information or inquiries should be sent to:
  
  Alexander Sy
  Bundesamt fuer Seeschiffahrt und Hydrographie
  Bernhard-Nocht-Str. 78
  D-22359 Hamburg 
  Germany
  
  Tel: + 40 3190 3430
  Fax: + 40 3190 5000
  email: sy@hamburg.bsh.d400.de
   

Date      Contact    Data Type        Data Status Summary           
  Notes:
--------------------------------------------------------------------------------
4/7/98    Schott     Cruise ID        Data Update     
  North Atlantic cruise list     Enclosed please find a list of cruises (since 
  1990) we use as references for our work or are aware of in the North Atlantic.
  18HU95011-1 Hudson     09.06.-02.07.1995  J. Lazier      BIO
                         
3/9/99    Kappa      DOC              PDF Version Created          
                         
4/30/99   Kappa      DOC              PDF Directory Updated     
  a01w_cruzpln.pdf added     
                          
2/11/00   Diggs      CTD/BTL/SUM/DOC  Website Updated     files added to website
                         
3/24/00   Schlosser  He/Tr            Data are Public     See note:     
  as mentioned in my recent message, we will release our data with a flag that 
  indicates that they are not yet final. We started the process of transferring 
  the data and we will continue with the transfer during the next weeks. I had 
  listed the expected order of delivery in my last message.
                         
2/20/01   Kappa      DOC              Doc Update     
  Found complete doc to replace online docs.  Caroline is producing txt version.
                         
3/16/01   Uribe      CTD/BTL          Website Updated     Expocodes updated   
  Danie and I have edited the expocode in all ctd files and the bottle to match 
  the underscored expocode in the sum and bottle files. New files were zipped 
  and replaced existing ctd files online. Old files were moved to original 
  directory. 
 
4/23/01   KAPPA      DOC              PDF, TXT files updated
  Data Processing History added, Figures linked to text references in PDF file,
  WHO cruise track added to PDF file, numerous sections added to PDF and TXT 
  files.

