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SHIPS OBSERVING MARINE CLIMATE:
A CATALOGUE OF THE VOLUNTARY OBSERVING SHIPSPARTICIPATING IN THE VSOP-NA
Elizabeth C. Kent and Peter K. Taylor
James Rennell Centre for Ocean Circulation1
Reprinted version for internet distribution of: World Meteorological Organisation Marine Meteorologyand Related Oceanographic Activities Report No. 25 (WMO/TD-No. 456), 1991. 123 pp.
1 Now James Rennell Division for Ocean Circulation and Climate, Southampton
Oceanography Centre, European Way, Southampton, SO14 3ZH, UK
This report was originally published jointly by the World Meteorological Organisation and the
Intergovernmental Oceanographic Commission (of UNESCO) with the following notes:
The designations employed and the presentation of material in this publication do not imply the
expression of any opinion whatsoever on the part of the Secretariats of the World
Meteorological Organisation and the Intergovernmental Oceanographic Commission concerning
the legal status of any country, territory, city or area, or of its authorities, or concerning the
delimitation of its frontiers and borders.
Editorial Note: This publication is a reproduction of a typescript submitted by the authors and
has been produced without additional revision by the WMO and IOC Secretariats.
________________________________________
The present version has been put together from original files or scanned versions of the original
document which have been converted to 'pdf' format for downloading from the web. The
scanned figures are included at low resolution to reduce the size of the document. We have
preserved the layout and content of the document but some of the figures have changed in
format due to the use of revised software in their generation.
PREFACE
Meteorological observations made onboard merchant vessels of the WMO voluntary observing ships (VOS)scheme, when transmitted to shore in real-time, are a substantial component of the Global Observing Systemof the World Weather Watch and are essential to the provision of marine meteorological services, as well as tometeorological analyses and forecasts generally. These observations are also recorded in ships' meteorologicallogbooks, for later exchange, archival and processing through the WMO Marine Climatological SummariesScheme, and as such they constitute an equally essential source of data for determining a variety of air-seafluxes. At the same time, however, it has long been recognised that these observations are subject to errors,both systematic and random. Many of these errors are the result of inadequate or inappropriate instrumentsiting onboard ship, or through the use of instrumentation or observing techniques which are less than optimal.
The VOS Special Observing Project North Atlantic (VSOP-NA) was therefore initiated, jointly by the WMOCommission for Marine Meteorology (CMM) and the Committee on Climate Changes and the Ocean (CCCO)of IOC/SCOR), on behalf of the WCRP, to try to establish the effects on the quality of VOS data of differentship instrumentation and observing practices.
Six national observing fleets participated - those of Canada, France, Germany, Netherlands, United Kingdomand USA - and ultimately 45 ships supplied data for the project. New logbooks were designed to enable theacquisition of supplementary information to define the detailed instrumentation and practices in use by eachship, so that the effects of these differing methods of data gathering could be quantified. These logbooks werecollected by participating Port Meteorological Officers at the end of each voyage, and submitted to the projectdigitization centre operated by the Seewetteramt of the German Weather Service in Hamburg. From there, thedata were transferred to the United Kingdome Meteorological Office in Bracknell for archival and analysis,jointly by the Meteorological Office and the James Rennell Centre in Southampton. Eventually a total ofmore than 33,000 observations were collected during the project observation period from May 1988 toSeptember 1990 and these, together with the information of the instrument siting and exposure and themeteorological analysis fields from the numerical model of the United Kingdom Meteorological Office,provided the basis for the data analysis.
This particular document, prepared by Ms Elizabeth Kent and Dr Peter Taylor of the James Rennell Centre,Southampton, United Kingdom contains a catalogue of the VSOP-NA ships, describing in detail the ships'characteristics, routes and meteorological instruments fitted. A companion report to this (No. 26 in the sameseries) gives a summary of the data acquisition, data processing and analysis phases of the project and describesthe results of the analysis.
There is no doubt that the results of this project are of considerable importance to climate analysis andmodelling, in particular in their implications for the computation of air-sea fluxes of heat, momentum andwater vapour. They are also likely to have a significant and beneficial impact eventually on the operation ofthe whole of the VOS, with consequent benefits not just for research but also for operational meteorology.
The considerable appreciation of the sponsoring organisations for the project is extended to the authors of thesetwo reports, Ms E. Kent and Dr P. Taylor of the James Rennell Centre and Mr. B Truscott and Mr J. Hopkinsof the United Kingdom Meteorological Office for their substantial and high quality analysis work. Thanks arealso due to the Seewetteramt, Hamburg for undertaking the major task of digitising the data; to the members ofthe project Management Committee for their excellent supervision of the project; to the Port MeteorologicalOfficers of the countries concerned for recruiting and servicing the project ships; and last but by no means least,to the officers and crew of the ships themselves, for their co-operation and support for the project, withoutwhich nothing would have been possible. It is hoped that they will eventually see the direct fruit of the effortsin the form of improved meteorological forecast and warning services for mariners.
J Rasmussen (for the Secretary-General of WMO)
G Kullenberg (Secretary IOC)
C ONTENTS Page
PART 1 SUMMARY OF THE SHIP CHARACTERISTICS 1
1. INTRODUCTION 1
2. THE VSOP-NA PROJECT 1
2.1 Introduction 1
2.2 Ship Selection 2
2.3 Ship Documentation 2
2.4 Extra Observations 3
2.5 Data Processing and Analysis 3
3. SUMMARY OF THE VSOP-NA SHIP CHARACTERISTICS 4
3.1 Names and Call Signs of the VSOP-NA ships 4
3.2 Period of Participation in the VSOP-NA 4
3.3 Reporting Efficiency 7
3.4 Ship Routes 8
3.5 Ship Type 9
3.6 Ship Size 1 2
3.7 Ship Speed 1 2
3.8 Variation in Sensor Heights 1 2
4. INSTRUMENTATION SUMMARY 1 4
4.1 Winds 1 4
4.2 Air Temperature and Humidity 1 9
4.3 SST 2 1
4.4 Pressure 2 4
4.5 Communications 2 8
5. SUMMARY OF PART 1 2 8
6. ACKNOWLEDGEMENTS 2 9
7. REFERENCES 2 9
C ONTENTS Page
PART 2 THE SHIP CATALOGUE 3 1
1 Introduction 3 1
Ships recruited by CanadaVSBG8 Irving Forest 32
Ships recruited by FranceDIDA Ariana 34FNCZ C R Libreville 36FNEF Atlantic Cartier 38FNFD Edouard L D 40FNGM Le Carabie 42FNGS La Fayette 44FNOY Jean Charcot 46
Ships recruited by GermanyDDLN Independent Endeavor 48DDUC Euro Texas 50DHNE Nurnberg Atlantic 52DHRG Alemania Express 54DIMC America Express 56DNBR Independent Concept 58DNJR Independent Pursuit 60
Ships recruited by the NetherlandsPCEL AEL America 62PELT Gulf Speed 64PELU Gulf Spirit 66PGDG Nedlloyd Kingston 68PGDS Nedlloyd Kyoto 70PGDW Nedlloyd Zeelandia 72PGEG Nedlloyd Neerlandia 74
Ships recruited by the UKLIMA Cumulus 76C6DS Atlantic Link 78GBSA Author 80GBVV Geestbay 82GBVW Geestport 84GJMR Geestcape 86GJMS Geesthaven 88GXES CGM Provence 90GZMM Atlantic Conveyor 92VRAZ Nickerie 94VSBV3 CanMar Ambassador 96
Ships recruited by the USAIBPA Americana 98KLRZ Sealand Atlantic 100KRGJ Julius Hammer 102KRJL Margaret Lykes 104KRJP Sheldon Lykes 106KTPB Sealand Commitment 108WMLG Delaware Bay 110WPFZ Adabelle Lykes 112WPHZ Charlotte Lykes 114WPVF Galveston Bay 116WPWH Nedlloyd Hudson 118WSDG Lyra Lykes 120
Appendix 1: Hull Sensor Specifications
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SHIPS OBSERVING MARINE CLIMATE:
A CATALOGUE OF THE VOLUNTARY OBSERVING SHIPSPARTICIPATING IN THE VSOP-NA1
E.C. Kent and P.K. TaylorJames Rennell Centre for Ocean Circulation, Chilworth Research Park, Southampton, UK
PART 1 SUMMARY OF THE SHIP CHARACTERISTICS
1. INTRODUCTION
Our present knowledge of the marine climate, as represented by data sets such as COADS (Woodruff et
al., 1987), is based on meteorological observations from the Voluntary Observing Ships (VOS). Because the
VOS are merchant ships, rather than specially designed meteorological platforms, errors and biases exist in the
data. However there is little information readily available to the climatologist either on the nature of the VOS
fleet or on the observing practises which are used. This report, describing the forty-six ships that participated
in the Voluntary Observing Ships' Special Observing Project - North Atlantic (VSOP-NA), therefore serves
two purposes:
(i) it provides a reference document to aid analysis of the VSOP-NA data set,
(ii) it gives a detailed description of a subset of the VOS, which will be of value in the
interpretation of marine climate data sets.
This report is in two parts, Part 1 is an overall summary of the ship characteristics, Part 2 is a ship
by ship description. The next section will briefly describe the VSOP-NA project, followed by a summary of
the characteristics of the VSOP-NA ships (Section 3). Since these ships were specially selected (Section 2.2),
the degree to which they are representative of the whole VOS fleet will be carefully considered. The
meteorological instrumentation used by the VOS varies depending on which meteorological agency recruited the
ships. That used on the chosen VSOP-NA ships is typical of VOS recruited by the countries bordering the
North Atlantic, and will be described in Section 4. Section 5 is a summary of Part 1 of the report.
Part 2 presents the VSOP-NA ship catalogue. This includes, for each ship, diagrams of the layout
(indicating in particular the exposure of the sensors), a summary of the geographical positions at which
observations were obtained, and details of the instrumentation used.
2. THE VSOP-NA PROJECT
2.1 Introduction
The VSOP-NA was a pilot study with the primary objective of assembling a detailed subset of marine
meteorological data. The aim was to determine whether systematic biases in the measurements could be
quantified through the acquisition of additional ship information that is not routinely collected. The stages of
the VSOP-NA project consisted of the initial ship selection and documentation by the Port Meteorological
Officers (PMO’s), an observational phase during which extra observation codes were reported by the ship’s
officers, and the data processing and analysis conducted collaboratively by the Deutscher Wietterdienst,
1 Prepared for the VSOP-NA Management Committee Meeting, June 24 - 27 1991, Reading U.K.
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Seewetteramt, the UK Meteorological Office, and the James Rennell Centre. The data collection phase of
VSOP-NA was in operation from May 1988 to September 1990. Full details of the analysis procedures and the
results of the comparisons are reported by Kent et al. (1991).
2.2 Ship Selection
In planning the VSOP-NA it was determined that ships should be recruited using three main criteria
(WMO, 1987). First, the ship had to be operating almost exclusively in the North Atlantic. This meant
that if the routing of a ship changed away from this region it had to be dropped from the project. Second, the
normal reporting record of the ship was to be taken into account and only ships with good reporting records were
to be considered for recruitment. The final consideration was to be the quality of instrumentation on the ship,
ideally the ships were required to have:
(a) accurate and well-exposed wet and dry bulb mercury in glass or electrical resistance thermometers;
(b) sea surface temperature measuring instruments for one of the preferred methods (buckets, precision
thermometer placed close to the engine room intake point, or trailing thermometers);
(c) permanently-mounted, well exposed anemometers;
(d) precision marine barometers.
Thus, as originally specified, these criteria would have prevented the VSOP-NA ships from forming a
representative subset of the VOS. However, in practise it was found that, in order to attempt to recruit the
target of 50 ships into the VSOP-NA, the ships were mainly selected on the basis of good reporting record, a
likelihood of operating mainly in the North Atlantic, and the readiness of the ships’ owners and crew to
cooperate in the project. Even then only a total of 45 ships were recruited and subsequently provided reports.
Thus the VSOP-NA ships are likely to be typical of the regularly reporting VOS in the North Atlantic, and
probably also of a significant fraction of the VOS fleet. This question will be considered in more detail in the
following sections.
2.3 Ship Documentation
Following the selection of a ship, the Port Meteorological Officers were requested to obtain details of
the types of instrumentation carried, the siting of fixed instruments (or the position in which hand held
instruments were used), and, if possible, to obtain scale drawings and photographs showing the general
layout of the ship and the exposure of the instruments. It is the information from this documentation that is
presented in this report, in summary in Sections 3 and 4 and in detail in Part 2. The original documentation
will be submitted to the UKMO for permanent archiving.
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2.4 Extra Observations
The ships’ officers were requested to report extra information with each observation (Table 1). The
extra codes were entered onto a VSOP-NA logsheet which was collected by the PMO’s and returned to the
Deutscher Wietterdienst, Seewetteramt in Hamburg.
Table 1. The extra information which ship’s officers were requested to report with eachobservation.
Code Information1 SS Instantaneous ship’s speed at time of observation2 DDD Ship’s heading in degrees true3 LL Height in metres of deck cargo above main deck4 hhh Departure of reference level from actual sea level5 M Method of sea surface temperature measurement6 n Location of air temperature measurement7 f f f Relative wind speed (knots or m/s)8 ddd Relative wind direction in degrees off the bow
2.5 Data Processing and Analysis
At the Deutscher Wietterdienst, Seewetteramt the data were transcribed onto magnetic tape and
forwarded to the UK Meteorological Office where the final data set was constructed by merging the observations
with the corresponding variables output from the analysis stage of the Meteorological Office atmospheric
forecast model. The final data set was prepared in March 1991, observations which arrived at the
Meteorological Office after that time had to be excluded from the analysis. Nevertheless, data recorded up to
April 1991 were transcribed and became part of the special archive of VSOP-NA data. Also excluded from the
data set were observations in areas near the coasts of North America and Spain where the model value were
considered to be strongly affected by the nearby land. The area for which data were accepted and the
geographical distribution of observations is shown in Figure 1.
Figure 1. Distribution of observations for the final data set. The scale is in number of
reports per one degree square in the final data set.
- 4 -
The data analysis was conducted jointly at the Meteorological Office and at the James Rennell Centre
for Ocean Circulation. The main aim was to determine the effect of different observing practises on
measurement accuracy, and whether any improvement might be gained by reporting extra information or by
changing observing practises. The method used was to calculate and compare the mean differences between the
observations and the model values, the latter being used purely as a comparison standard rather than as any
indication of the “true” value. The results were classified according to observation method and also according to
the recruiting country. Since the VOS are variously recruited by the marine meteorological agencies of member
countries of the WMO, it was considered important to determine whether the different national procedures and
preferences gave rise to systematic biases in the data.
Although not specifically taking part in the VSOP-NA the data from the weather ship OWS Cumulus
stationed at ocean weather station Lima (57.5°N, 20°W) was included in the study for comparison purposes.
During the VSOP-NA observation period the Cumulus conducted the normal activities of a weather ship but
was also equipped with automatic meteorological instrumentation furnished by the Institute of Oceanographic
Sciences/James Rennell Centre. It was hoped to use the Cumulus to determine the absolute accuracy of the
ship reports, however these results must be interpreted carefully since the observations from the Cumulus are
accorded greater importance in the model assimilation scheme (see Kent et al., 1991).
3. SUMMARY OF THE VSOP-NA SHIP CHARACTERISTICS
3.1 Names and Call Signs of the VSOP-NA ships
The ships recruited for the VSOP-NA project and their call signs are shown in Table 2. In this and
succeeding tables and figures the ships are shown in alphabetical order of the recruiting countries (divided by
horizontal lines) and, for a given country, of the ships’ call signs1.
3.2 Period of Participation in the VSOP-NA
The start and end dates of each ships participation in the VSOP-NA is given in Table 2 together with
the number of observations from each ship which were included in the VSOP-NA data set. Figure 2 (page 10)
shows the frequency of reports received from each ship and illustrates that the different countries participating in
the VSOP-NA were able to begin recruitment at varying times, and also that not all the recruited ships were
able to participate throughout the VSOP-NA project.
Thus, referring to Figure 2, the Canadian recruited ship, Irving Forest (call sign VSBG8),
reported reliably until being lost at sea, fortunately with no loss of life. The French recruited ships joined
the project in 1989. By far the most frequent reports were from the Edouard L.D. (FNFD), a liquid gas tanker
operating between Brittany and the Mediterranean. Unfortunately many of the reports were close to the Spanish
coast and had to be excluded from the VSOP-NA data set in order to avoid the use of misleading values from the
1 Confusion as to the correct callsign for Sealand Atlantic KRLZ (in one dataset it was entered as KLRZ) has
resulted in this ship being out of order alphabetically in the diagrams.
- 5 -
Table 2. List of ships participating in the VSOP-NA according to recruiting country.The last column represents the reporting efficiency in percent (see text for details).
Country Ship Call Star t End No. Main Inter.Sign day year day year obs Eff. % Eff. %
Canada Irving Forest VSBG8 4 0 1 9 8 9 3 2 4 1 9 8 9 4 3 9 9 4 0France Ariana DIDA 8 9 1 9 8 9 2 3 7 1 9 9 0 2 2 8 9 5 9
C R Libreville FNCZ 1 1 4 1 9 8 9 2 0 5 1 9 9 0 1 3 3 8 4 1Atlantic Cartier FNEF 1 1 3 1 9 8 9 2 6 8 1 9 9 0 6 5 3 7 2 1Edouard L D FNFD 1 0 3 1 9 8 9 2 6 3 1 9 9 0 7 6 6 6 4 6 5Le Carabie FNGM 1 0 0 1 9 8 9 2 1 9 1 9 9 0 8 1 6 3 6La Fayette FNGS 1 5 6 1 9 8 9 3 2 1 9 9 0 1 6 6 7 0Jean Charcot FNOY 1 6 3 1 9 8 9 2 9 5 1 9 8 9 2 7 1 8 6 8 5
Germany Independent Endeavor DDLN 2 6 5 1 9 8 8 7 1 1 9 9 0 7 5 1 7 1 0Euro Texas DDUC 3 1 7 1 9 8 8 6 4 1 9 8 9 1 4 8 9 5 0Nurnberg Atlantic DHNE 2 5 0 1 9 8 8 1 2 8 1 9 9 0 9 8 1 8 6 8Alemania Express DHRG 3 0 4 1 9 8 8 1 0 6 1 9 9 0 7 7 2 8 7 1America Express DIMC 2 8 9 1 9 8 8 1 3 6 1 9 9 0 7 2 1 8 8 0Independent Concept DNBR 2 8 5 1 9 8 8 1 2 3 1 9 8 9 4 5 9 8 5 0Independent Pursuit DNJR 2 4 4 1 9 8 8 1 2 1 1 9 9 0 5 9 9 5 0 0
Netherlands AEL America PCEL 3 2 5 1 9 8 8 6 4 1 9 8 9 2 5 9 9 9 0Gulf Speed PELT 1 4 4 1 9 8 8 2 5 4 1 9 8 8 1 5 3 8 7 0Gulf Spirit PELU 1 2 2 1 9 8 8 2 5 3 1 9 8 8 1 7 5 8 8 0Nedlloyd Kingston PGDG 2 7 8 1 9 8 8 1 2 4 1 9 9 0 4 7 3 9 6 0Nedlloyd Kyoto PGDS 2 6 2 1 9 8 8 5 8 1 9 9 0 4 2 2 9 7 1Nedlloyd Zeelandia PGDW 3 6 1 1 9 8 8 1 3 0 1 9 9 0 1 9 7 9 2 0Nedlloyd Neerlandia PGEG 1 2 0 1 9 8 8 9 2 1 9 9 0 4 4 3 9 2 0
OWS (UK) Cumulus LIMA 2 8 2 1 9 8 8 2 0 8 1 9 9 0 3 8 4 6 1 0 0 9 9UK Atlantic Link C6DS 3 3 7 1 9 8 8 2 3 1 9 9 0 5 1 1 8 9 0
Author GBSA 2 4 5 1 9 8 8 1 5 5 1 9 9 0 4 5 6 9 4 1 2Geestbay GBVV 2 5 2 1 9 8 8 2 1 4 1 9 9 0 1 0 0 1 7 2 4 5Geestport GBVW 2 6 7 1 9 8 8 2 0 1 1 9 9 0 9 4 4 7 6 4 3Geestcape GJMR 2 5 9 1 9 8 8 1 9 3 1 9 9 0 1 1 8 4 8 5 5 8Geesthaven GJMS 2 7 3 1 9 8 8 1 8 0 1 9 9 0 8 6 8 7 4 4 4CGM Provence GXES 2 8 0 1 9 8 8 1 8 9 1 9 9 0 1 1 4 1 9 7 2 7Atlantic Conveyor GZMM 2 7 1 9 8 8 1 6 8 1 9 9 0 8 0 9 8 8 0Nickerie VRAZ 2 4 2 1 9 8 8 1 7 9 1 9 9 0 5 5 3 9 7 0CanMar Ambassador VSBV3 2 5 8 1 9 8 8 1 8 6 1 9 9 0 1 3 3 7 9 5 9 0
USA Americana IBPA 2 2 7 1 9 8 9 2 4 8 1 9 8 9 3 4 9 7 0Sealand Atlantic KLRZ 5 8 1 9 8 9 3 6 3 1 9 8 9 4 1 5 8 6 0Julius Hammer KRGJ 6 2 1 9 8 9 5 6 1 9 9 0 3 4 9 9 2 1Margarette Lykes KRJL 9 2 1 9 8 9 1 4 7 1 9 9 0 5 3 9 8 5 0Sheldon Lykes KRJP 5 0 1 9 8 9 2 4 6 1 9 8 9 2 9 9 8 1 0Sealand Commitment KTPB 6 5 1 9 8 9 3 5 1 9 9 0 5 2 2 9 2 0Delaware Bay WMLG 1 9 1 9 8 9 3 1 0 1 9 8 9 2 7 6 7 2 0Adabelle Lykes WPFZ 5 9 1 9 8 9 3 4 3 1 9 8 9 3 5 9 9 0 0Charlotte Lykes WPHZ 3 8 1 9 8 9 5 0 1 9 9 0 7 0 9 8 7 0Galveston Bay WPVF 7 2 1 9 8 9 9 2 1 9 9 0 6 0 9 9 4 1Nedlloyd Hudson WPWH 9 0 1 9 8 9 5 1 1 9 9 0 4 2 7 9 3 0Lyra WSDG 2 8 0 1 9 8 9 4 5 1 9 9 0 1 2 4 8 7 0
- 6 -
Figure 2. The distribution of observations in the VSOP-NA data set as a
function of time. The vertical scale of the histogram bars is from 0
to 40 (or more) observations during a 2 week period.
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Meteorological Office model. The research ship Jean Charcot (FNOY) also reported frequently until being
taken out of service following a fire. Two German recruited ships, Euro Texas (DDUC) and Independent
Pursuit (DNBR) left the project early; the other German recruited ships reported reliably throughout. The
Netherlands succeeded in recruiting ships very early in the project but the two ships, Gulf Speed (PELT) and
Gulf Spirit (PELU) were sold and left the project after a few months. Most of the UK recruited ships reported
reliably throughout the project until April 1990 when it was considered that a suitable data set had been
obtained. The USA recruited ships did not begin reporting until January 1989, but then generally reported
reliably. Unfortunately delays in receiving the data meant that many USA ship observations from January
1990 onwards were received too late to be included in the data set.
3.3 Reporting Efficiency
The reporting “efficiency” shown for each ship in Table 2 and Figure 3a, was calculated by assuming
that the ship could have returned 4 reports per day (0000, 0600, 1200, 1800 GMT) during the period that it
participated in the VSOP-NA, excluding periods when the ship was in port or outside the area of the
Meteorological Office fine-mesh forecast model. The average efficiency of the VSOP-NA ships as defined
above, is 86%. These efficiencies include periods when navigational requirements exclude other duties and
therefore an efficiency of 100% would not be expected (except for an OWS on station). In addition , some
ships reported intermediate reports (0300, 0900. 1500 and 2100 GMT) and the percentage of the possible
intermediate reports made is also given in Table 2 and Figure 3a.
Figure 3 (a) Histogram showing the reporting efficiencies of the VSOP-NA ships.
(b) The mean reporting efficiency for the main reporting hours of ships
recruited by the various participating countries
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3.4 Ship Routes
The ship routes used by the VSOP-NA ships were constrained by the requirement that the chosen ships
should mainly operate in the North Atlantic. The overall distribution of VSOP-NA ship reports (shown in
Figure 1) indicated that the VSOP-NA ships mainly plied a number of routes which are listed in Table 3 and
illustrated in Figure 4.
The geographical distribution of observations for each ship is shown in the ship catalogue (Section 5),
and summarised in Table 4 (page 14). Although most of the routes included the Western Approaches to the
English Channel, and contributed observations in the northeast part of the VSOP-NA area, observations in
other regions were obtained from ships on only one or two of the main routes. This resulted in significant
variations in the geographical distribution of the observations when classified according to the different ship
recruiting countries. This is shown in Figure 5 (page 15).
Referring to Figure 5, the reports from the one Canadian recruited ship, Irving Forest, were from
the Canada route, and provided reports in the Northwest Atlantic region of the VSOP-NA area, as did reports
from French recruited ships. However the data set of observations from the French ships was dominated by
reports from the Edouard L.D. (in the Bay of Biscay on route from Brittany to the Mediterranean), and the Jean
Charcot (a research ship which spent some time in the region of 42°N 16°W). Other French reports were from
routes in the Southeast region, and few or no reports were obtained from the Mid South. In contrast, the
German recruited ships provided observations on the Europe to USA routes with no observations in the
Southeast region. The Dutch recruited ships provided reports over all regions except the Northwest (Europe to
Canada route) with most reports in the Mid South region. Observations from the British recruited ships were
dominated by the Caribbean route, giving observations in the Mid South region, but there were also
significant numbers of observations from the Southwest and Northwest regions with only the Southeast region
being sparsely sampled. The USA recruited ships provided observations in all regions except the Northwest.
Table 3 Main routes played by the ships participating in the VSOP-NA. The lastcolumn gives the region of the VSOP-NA area for which the observations predominantlycame from ships on these routes.
To/from From/to Region
1 Europe Canada (Newfoundland, St Lawrence, Nova
Scotia region)
Northwest
2 Europe East Coast USA (Boston, New York etc.) Southwest
3 Europe Straits of Florida (N Gulf region)
4 Europe Caribbean (West Indies, Gulf of Mexico,
Panama Canal)
Mid South
5 Europe South America
6 Europe Mediterranean Southeast
7 Europe Cape of Good Hope
8 East Coast USA Mediterranean (Southwest to southeast
regions)
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Figure 4 Regional division of the VSOP-NA area and the approximate location
of the main shipping routes.
3.5 Ship Type
Table 5 shows the types of the 45 ships recruited for the VSOP-NA both overall and for the individual
recruiting countries. The VSOP-NA requirement that the ship should mainly operate in the North Atlantic led
to the selection of mainly container vessels and the exclusion of most tankers.
Table 5. Summary of the type of ships recruited to the VSOP-NA, overall and byrecruiting country
Type All Canada France Germany Netherlands UK USA
Container 29 4 7 7 3 11
Ro-Ro Container 2 1 1
Closed Container 1 1
Container/Banana 5 5
Tanker 1 1
Gas tanker 1 1
General Cargo 1 1
Research Ship 1 1
Weather Ship 1 (1)
All types 45 1 7 7 7 10 + (1) 12
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Tabl e 4 . Summary o f mo s t us ual ro utes fo r each s hi p . Ro ute names refer to the po s i t i o ns fro mwhi ch o bs erv at i o ns were rece i v ed and are no t neces s ari l y the s hi p’s o ri g i n o r des t i nat i o n .
Europe to USA to
Canada East Coast Straits ofFlorida
Caribbean SouthAmerica
Med. Cape Med.
VSBG8 ✔
DIDA ✔
FNCZ ✔
FNEF ✔
FNFD ✔
FNGM ✔
FNGS ✔
FNOY ✔ ✔
DDLN ✔
DDUC ✔ ✔
DHNE ✔
DHRG ✔
DIMC ✔
DNBR ✔
DNJR ✔
PCEL ✔
PELT ✔
PELU ✔
PGDG ✔ ✔
PGDS ✔ ✔
PGDW ✔
PGEG ✔ ✔
LIMA At Ocean Station Lima (20°W 57.5°N)
C6DS ✔ ✔
GBSA ✔ ✔
GBVV ✔
GBVW ✔
GJMR ✔
GJMS ✔
GXES ✔ (✔ )GZMM ✔
VRAZ ✔
VSBV3 ✔
IBPA ✔ ✔
KLRZ
KRGJ ✔
KRJL ✔ (✔ )KRJP ✔ (✔ )KRPB ✔
WMLG ✔
WPFZ ✔ (✔ )WPHZ ✔ (✔ )WPVF ✔
WPWH ✔
WSDG ✔ ✔
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Figure 5 The geographical distribution of reports from the VSOP-NA ships,
classified according to the recruiting country. The scale is in number
of reports per one degree square during the project.
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3.6 Ship Size
The length of each of the VSOP-NA ships is shown in Figure 6, together with a histogram showing
number of ships in each length category. The most likely length was between 200 and 225m. The UK
recruited ships were generally smaller than this, the USA recruited ships were that size or larger.
There is no published table of the lengths of ships in the VOS fleet as a whole, however Figure 7
shows that, for the VSOP-NA ships, the height at which the temperature was measured was, as might be
expected, roughly related to the length of the ship. For 4378 of the 7491 VOS ships, WMO (1990) contains
the heights of the observing platforms (where for most ships the temperature is measured), so this variable can
be used to compare the VSOP-NA ships with a large fraction of the VOS fleet. The peak of the histogram for
the VSOP-NA ships (Figure 8) corresponds to a significantly greater height than that for the VOS fleet,
suggesting that the VSOP-NA ships tended to be larger than is typical. This is probably because of the
selection of ocean going container vessels, and the exclusion of small coastal vessels, for the VSOP-NA
project.
3.7 Ship Speed
For each ship the mean speed at the time of the observation is shown in Figure 9. The most likely
speed was 16 to 18 knots which, given the larger size of the VSOP-NA ships, is likely to be higher than
average for the VOS fleet.
3.8 Variation in Sensor Heights
In order to determine changes in sensor height, the instrument heights on each VSOP-NA ship were
specified with respect to a reference level (for example the main deck level, or mean sea level) and the height of
this reference level above the actual sea surface was reported with each observation. Unfortunately this variable
was not always reported correctly since some ships reported a constant value throughout the project, which is
very unlikely. For those ships which did report changes, the variation in the reference level height was
usually about 2m, extending to about 5m for certain of the larger ships. This represents the amount by which
the ship was higher or lower in the water depending on the amount of cargo and fuel carried. For some ships
this variation was regular, corresponding to the ship being more lightly laden when travelling in one direction
compared to its return. In addition to this regular 2 to 5m variation the data from some ships indicated jumps
of 10m or more. Whether this represents journeys with the ship in ballast or errors in the value reported for the
reference level is not known.
Variations in the deck cargo height will alter the nature of airflow over the ship and may therefore affect
anemometer measurements of wind velocity and possibly also the temperature and humidity measurements.
For each ship, the height of the deck cargo above the main deck and the amount of variation are shown in
Figure 10.
- 13 -
Figure 6. (a) The length of each of the VSOP-NA ships (metres).
(b) Histogram showing number of ships in each length category
for the VSOP-NA ships.
- 14 -
3 0 02 5 02 0 01 5 01 0 05 000
5
10
15
20
25
30
35
40
Length of Ship (m)
He
igh
t o
f T
em
pe
ratu
re
Me
as
ure
me
nt
(m)
Figure 7 Relationship between the height of the
temperature measurement and the
length of the ship.0
- 5
5
- 1
0
10
-
15
15
-
20
20
-
25
25
-
30
30
-
35
35
-
40
40
-
45
45
-
50
50
-
55
>5
5
0
5
10
15
20
25
30
35
40
VOS ships
All VSOP ships
Nu
mb
er
of
sh
ips
(%
)
Figure 8 Histogram of the distribution of
temperature measurement heights on the
VSOP-NA ships and of the observing
platform height on the VOS ships.
4. INSTRUMENTATION SUMMARY
4.1 Winds
4.1.1 Technique Used
Wind speeds are estimated visually from sea state (“Beaufort” estimates) or measured by fixed or
handheld anemometers. The percentage of ships in the VSOP-NA project and in the VOS fleet as a whole
which use each method is shown in Table 6. Of the VSOP-NA countries, Germany, the Netherlands,
and the UK require ships officers to give visual estimates. Compared to anemometer measurements, this
technique is considered to represent an integration of the wind speed and direction over the past hour or so,
rather than a spot value. It also avoids effects such as errors due to ship motion, sheltering of the measurement
site, or air flow disturbance over the ship. The USA recruited ships used visual estimates or fixed
anemometers, the Canadian ship used a fixed anemometer, and the French ships used either fixed or hand-
held anemometers. Fixed anemometers might be considered to provide a more objective wind measurement
provided that the sensors are well maintained and calibrated, and properly exposed. The supplied plans and
photographs (Section 2.3) suggested that in general the fixed anemometers were well exposed, often being
positioned high on the signal mast. The quality of exposure of handheld anemometers is difficult to estimate.
- 15 -
Figure 9. Speed of the ship at the time of observation (knots):
(a) mean value for each ship
(b) numbers of ships with mean speeds in the ranges shown.
- 16 -
0 - 5
5 - 10
10 - 15
15 - 20
20 - 25
0
5
10
15
20
Figure 10. Height of cargo above main deck (m):
(a) height and reported variation for each ship
(b) numbers of ships with cargo heights in the ranges shown.
- 17 -
Table 6. Measurement technique used for wind observations for the VSOP-NA ships andfor the VOS fleet as a whole.
No. of Fraction of each fleet (%) N o .
Country Ships Visual Fixed Handheld Unknown
VSOP VOS VSOP VOS VSOP VOS VSOP VOS VSOP
Canada 1 424 0 10 1 0 0 87 0 3 0
France 7 153 0 0 4 3 49 4 3 50 1?
Germany 7 597* 1 0 0 96 0 4 0 0 0
Netherlands 7 273 1 0 0 100 0 0 (14)** 0 0
UK 1 0 464 1 0 0 100 (50)** 0 0 0 0
U S A 1 3 1470 3 1 74 2 3 26 0 0 6
All ships 4 5 7491 6 3 70 1 7 22 7 8 1 3
* Combined East and West German Fleets** Not used for wind measurement.
The statistics for the VOS fleet as a whole, shown in Table 6, were obtained from the “List of Selected Ships”
(WMO, 1990). 70% of the VOS are listed as not being equipped with anemometers and it is assumed that
these ships report visual estimates, compared to a figure of 63% for the VSOP-NA. The fractions of ships
using fixed and handheld anemometers in the VSOP-NA and the VOS fleet are also similar (17% against 22%
for fixed, 7% against 8% for handheld). Unfortunately the accuracy of the WMO (1990) figures is known to be
questionable. For example 50% of the UK recruited VSOP-NA ships carried fixed anemometers. Although
the VSOP-NA ships reported that the anemometers were not used for meteorological reports, Ive (1987) found
that in the mid 1980’s, 11% of observations from UK recruited VOS were reported to be anemometer measured
winds (other figures were Canada 58%, France 88%, FRG 10%, Netherlands 3%, USA 49%). There is also
the question of to what degree, if any, visual winds are influenced by the availability of an anemometer
reading.
4.1.2 Height of Measurement
The height in metres above mean sea level of the anemometers for the VSOP-NA ships is shown in
Figure 11. All anemometers carried are shown, although in the case of the UK and Dutch ships the
anemometers were only used for docking purposes. Visual estimates are shown at 10m, which is the effective
height for VOS estimates using Beaufort scale WMO 1100 as specified for the VOS (WMO, 1970). The
anemometer heights for the VSOP-NA ships are compared to those for the VOS fleet as a whole in Figure 12.
The most likely height for the VSOP-NA ships was about 30m, considerably higher than the value for the
whole VOS fleet of about 15 to 20 metres. This was due to the larger size of the VSOP-NA ships (Section
3.6). Inspection of Figures 11 and 12 emphasises that the use of anemometers on large, modern ocean going
ships will increase the measurement height for winds compared to the visual estimates.
- 18 -
Figure 11 Height of the anemometer (m) or effective height of visual wind estimate:
(a) height and reported variation for each ship
(b) numbers of ships with wind measurement heights in the ranges shown.
Visual estimates are shown at 10m, handheld anemometers are ringed.
- 19 -
4.1.3 Types of Instruments
The anemometers carried by the VOS have usually been fitted by the ship operators for docking purposes and
will vary considerably. Where instruments are recommended or fitted by meteorological agencies the European
countries tend to favour cup anemometer and wind vanes whereas the US use propeller-vane instruments. The
French recruited ships either used cup anemometers (Figure 13a - c ) or handheld anemometers (Figure 13d).
4.2 Air Temperature and Humidity
4.2.1 Technique Used
Air temperature and humidity measurement on the VSOP-NA ships was by dry and wet bulb thermometers
housed in a Stevenson screen or used in a sling psychrometer. Mostly the thermometers were mercury-in-glass
which require manual reading, however on 3 French recruited ships platinum resistance thermometers (PRT’s),
allowing a remote readout, were installed. Screens require a well exposed position for good ventilation and
usually two screens must be installed to either side of the ship, normally on the bridge wing or wheelhouse
top. Of the 21 VSOP-NA ships using screens, 8 were only equipped with one screen. Observations obtained
using a handheld psychrometer were normally taken from the windward1 bridge wing. These “sling
psychrometer” instruments are swung to drive air over the thermometer bulbs; a disadvantage is that the
thermometers are easily broken.
Table 7. Measurement technique used for temperature and humidity observations for theVSOP-NA ships and for the VOS fleet as a whole. For the latter, only the VOS which
observe humidity are included (about half the VOS fleet).
No. of Fraction of each fleet (%) N o .
Country Ships Screen Psychrometer Unscreened Unknown
VSOP VOS VSOP VOS VSOP VOS VSOP VOS VSOP
Canada 1 129 1 0 0 95 0 5 0 0 0
France 7 151 57* 42 4 3 58 0 0 0
Germany 7 596 0 <<1 1 0 0 >99 0 0 0
Netherlands 7 273 0 0 1 0 0 100 0 0 0
UK 1 0 459 1 0 0 >99 0 <<1 0 0 0
U S A 1 3 393 4 6 18 8 82 0 <<1 4 6
All ships 4 5 3867 4 9 44 3 8 55 0 1 1 3
* of which 3 (43%) are remote reading screens containing PRT’s and 1 (14%) is a conventional screen 1 In bad weather it is possible that the leeward bridge wing is used, however no reports of this happening were
received from the VSOP-NA ships. Errors could be introduced if the psychrometer is read in the wheelhouse
after exposure on the Bridge Wing.
- 20 -
0 -
5
5 -
10
10 -
15
15 -
20
20 -
25
25 -
30
30 -
35
35 -
40
40 -
45
45 -
50
50 -
55
>55
0
10
20
30
40
All VOS ships
VSOP ships
Num
ber
of s
hips
(%
)
Figure 12 Anemometer heights for the VSOP-NA ships and for the whole of the VOS fleet.
Figure 13 Types of anemometer used by the VSOP-NA ships. (a - c ) Anemometer and wind vane of
the “Pommar” met system (France). (d) Handheld anemometer (France).
- 21 -
Table 7 shows that about half the ships in the VSOP-NA used screens with the rest using
psychrometers. Only about half the VOS fleet report humidity values, again about half these use screens
and half use psychrometers. Of the different VSOP-NA recruiting countries, Germany and the Netherlands
and the USA normally provide psychrometers, Canada and the UK provide screens, and France provides
screens or psychrometers. The main difference between the VSOP-NA and VOS instrumentation was that
nearly half the USA recruited VSOP-NA ships used screens whereas psychrometers are more usually used on
American recruited VOS ships.
4.2.2 Height of Measurement
The height at which the measurements were taken on each VSOP-NA ship is shown in Figure 14. It
was shown in Section 3.6 that the temperature measurement height is related to ship length and that the most
likely measurement height on the VSOP-NA ships was higher than for the VOS fleet as a whole.
Measurement heights were lowest on the Netherlands and UK recruited ships and highest in the German and
USA ships.
4.2.3 Type of Instrument
Sling psychrometers used by the VSOP-NA ships are illustrated in Figure 15(a) - (c). Screens used on
the Canadian and British ships and on the French ships are shown in Figure 15(d) and (e). The screens used on
the USA recruited ships varied in design and effectiveness.
4.3 SST
4.3.1 Technique Used
Sea surface temperature measurements on the VSOP-NA ships were obtained using bucket, engine
room intake or hull sensor thermometers. Addition instruments sometimes employed within the VOS fleet are
expendable bathythermographs (XBT), and trailing thermistors.
Sea surface temperature buckets are normally lowered from the bridge wing to sample the surface water.
Buckets were used on ships recruited by Canada, Germany, and the Netherlands and on about half of the
UK ships. Hull contact sensors are being fitted to an increasing fraction of the VOS, but were only present
on UK recruited VSOP-NA ships with 3 of the ships (the Geestbay, Geestcape, and Geesthaven) being fitted
with sensors during the project1. The engine room intake temperature is used predominantly on the VSOP-NA
ships recruited by France and the USA . It is monitored routinely by all ships as the water is used as a
coolant and some ships report either bucket or intake temperatures flagging the observation accordingly.
1 Geestport had been fitted with a hull sensor prior to the project start.
- 22 -
Figure 14 Height of the temperature and humidity measurements (m):
(a) height for each ship
(b) numbers of ships with measurement heights in the ranges shown.
- 23 -
Figure 15 Temperature and humidity instruments on the VSOP-NA ships. Sling psychrometers: (a) KNMI,
(b) Deutscher Wietterdienst, (c) French (U01-4230). Screens: (d) Canada, UK: Marine Screen Mk
1B (M.O., 1981), (e) Pommar Screen (France).
- 24 -
Table 8. Measurement technique used for sea surface temperature observations for theVSOP-NA ships and for the VOS fleet as a whole.
No. of Fraction of each fleet (%) N o .
Country Ships Bucket Condenser or
Engine Intake
Hull Sensor Not
known
Other
VSOP VOS VSOP VOS VSOP VOS VSOP VOS VSOP VOS
Canada 1 225 1 0 0 96 0 4 0 0 0 0
France 7 153 3 6 10 6 4 90 0 0 0 0
Germany 7 592 1 0 0 71 0 29 0 0 0 0
Netherlands 7 273 1 0 0 83 0 17 0 0 0 0
UK 1 0 445 5 2 87 1 8 3 3 0 9 0 0
U S A 1 3 751 4 3 8 8 95 0 2 8 <1
All ships 4 5 6180 5 2 32 3 8 65 4 2 4 1
4.3.2 Depth of Measurement
For engine intake and hull sensor measurements the depth of the sea surface temperature measurement on the
VSOP-NA ships was usually between 3 and 7 metres (Figure 16). However subduction of water around the
ships hull may result in an effective measurement depth which is nearer the surface. Sea temperature buckets
are difficult to use from a high bridge wing and it is unlikely that water much below the surface is sampled. A
measurement depth of 0 metres has been assumed, although mixing by the ship’s bow wave may mean that the
water sampled represents a greater depth.
4.3.3 Type of Instrument
Engine intake thermometers are normally part of the ship’s equipment and will vary from ship to ship.
They are not necessarily calibrated or designed to the precision desirable for meteorological measurements.
They may be poorly sited with large parallax errors affecting the reading. The various types of sea surface
temperature buckets used on the VSOP-NA ships are shown in Figure 17. The hull contact sensor used on the
UK recruited ships is a platinum resistance thermometer bonded to the inner skin of the hull, and insulated from
the ship’s internal temperature (MO, 1981). Details of hull sensors used by the Netherlands and the UK are
attached to this report as Appendix 1.
4.4 Pressure
4.4.1 Technique Used
The VSOP-NA ships measured pressure measured either by using a digital Precision Aneroid Barometer
or with an analogue barometer (Table 9). In addition many ships also carried a barograph.
- 25 -
Figure 16 Depth of the sea surface temperature measurements (m):
(a) depth for each ship (buckets are shown as 0 metres depth.)
(b) numbers of ships with measurement depths in the ranges shown.
- 26 -
Figure 17 Types of sea temperature bucket designs used on the VSOP-NA ships. (a,b) France,
Germany, (c - e) Netherlands, (f) U.K.(MO Mk.3A).
- 27 -
4.4.2 Height of Measurement
The barometers were normally situated on the Bridge or in the chart room, that is at a similar height
(or one deck lower) to the temperature measurement and somewhat higher than for the VOS fleet as a whole
(Section 3.6). Instruments are typically at the ‘height of eye’ used for navigation.
4.4.3 Type of instrument
Figure 18 shows the Precision Aneroid Barometer used on the VSOP-NA ships.
Table 9. Measurement technique used for sea surface pressure observations for theVSOP-NA ships and for the VOS fleet as a whole.
No. of Fraction of each fleet (%)
Country Ships Digital
Aneroid
Aneroid Mercury
VSOP VOS VSOP VOS VSOP VOS VSOP VOS
Canada 1 320 1 0 0 0 1 0 0 100 0 0
France 7 153 0 0 1 0 0 100 0 0
Germany 7 597 0 0 1 0 0 100 0 0
Netherlands 7 273 1 0 0 100 0 0 0 0
UK 1 0 464 1 0 0 >99 0 <<1 0 0
U S A 1 3 745 0 <1 1 0 0 >99 0 <1
All ships 4 5 6527 4 0 9 6 0 89 0 2
Figure 18 The Precision Aneroid Barometer (PAB) (MO, 1980).
- 28 -
4.5 Communications
The ease and reliability of communications between the ship and the shore will effect the reporting
efficiency of the ship as a meteorological observing platform. All ocean going ships can be expected to carry
MF, HF and VHF band radio communications equipment. The availability of satellite communications and of
satellite navigation equipment on the VSOP-NA ships is shown in Table 10. However this table only shows
systems which were reported and it is likely that more of the VSOP-NA ships had these systems fitted.
Table 10. Satellite communications and navigation equipment on the VSOP-NA ships.
System Number of ships
Inmarsat 12
Argos 1
Satellite Navigation (Navstar) 7
Satellite Navigation (GPS) 1
5. SUMMARY OF PART 1
Compared to the rest of the VOS fleet the VSOP-NA ships were different in several ways. The
VSOP-NA ships were selected as having a good reporting record, because they regularly plied routes in the
North Atlantic Ocean, and because they were willing to take part in the project. Once recruited, the VSOP-
NA ships were documented as to ship details and instrumentation and asked to provide extra information with
each observation.
The typical VSOP-NA ship was a container vessel of about 210m length which travelled at 17 knots
(8.5 m/s). It was loaded with cargo to about 10m to 20m above the main deck. Sea temperatures were
measured by bucket or by engine intake or hull contact sensors at depths between 3m and 9m. The air
temperature and humidity observations were taken at about 20m to 30m height above the sea, and the
anemometer, if carried, was at about 30m to 35m. In these respects the VSOP-NA ships were biased toward
greater length (and higher observing platforms) compared to the VOS fleet as a whole. The VSOP-NA ships
reported between 20% and 40% of the maximum possible number of observations, the missing reports being
partly due to in port periods or time spent outside the VSOP-NA area.
In general the mix of instrument types used on the VSOP-NA ships was similar to that for the VOS
fleet as a whole. This was true for the fraction of visual and anemometer wind estimates (about 2/3 are visual),
and for screen and psychrometer temperature and humidity measurements (roughly half and half with the VOS
biased toward psychrometers and the VSOP-NA toward screens). For sea surface temperature 50% of the
VSOP-NA used buckets compared to 30% of the VOS. There were also more VSOP-NA ships with hull
contact sensors. The VSOP-NA ships used digital aneroid barometers to measure air pressure rather than the
analogue aneroid barometers used by most of the VOS fleet, however this may really only indicate different
ways of describing the same instrument for at least some cases.
- 29 -
Despite the various differences between the VSOP-NA ships and the VOS fleet as a whole, it is
considered that the observations from the VSOP-NA ships will be of great value for investigating the accuracy
of VOS reports. To aid that analysis, the full descriptions of the VSOP-NA ships are presented in Part 2.
6. ACKNOWLEDGEMENTS
We would like to acknowledge the following with out whose contribution this report could not have
been assembled: the Owners, Masters, and Officers of the VSOP-NA ships; the Port Meteorological Officers,
members of the VSOP-NA Management Committee, and staff of the Atmospheric Environment Service
(Canada), Direction de la Météorologie Nationale (France), Deutscher Wietterdienst, Seewetteramt (Germany),
Royal Netherlands Meteorological Institute (KNMI, Netherlands), Meteorological Office (UK), National
Weather Service/NOAA (USA); and the World Weather Watch and World Climate Research Programme
(WMO) and the Committee on Climate Changes and the Ocean (IOC/SCOR).
The report was prepared at the James Rennell Centre for Ocean Circulation as part of the UK
contribution to the World Ocean Circulation Experiment.
7. REFERENCES
Ive, D.S. (1987) A comparison of numbers of visually estimated and instrumentally measured wind data,Marine Technical Note No. 2, Revised February 1987, (unpublished report available from MarineAdvisory and Consultancy Service, Meteorological Office, Bracknell, U.K.) 43pp.
Kent, E.C., Truscott, B., Hopkins, J., and Taylor, P. (1991) The accuracy of ship’s meteorologicalobservations - results of the VSOP-NA (in preparation)
MO (1980) Handbook of Meteorological Instruments - 2nd Edition, Volume 1: Measurement of AtmosphericPressure, London: Her Majesty’s Stationary Office. pp. 11 - 20.
MO (1981) Handbook of Meteorological Instruments - 2nd Edition, Volume 2: Measurement of Temperature,London: Her Majesty’s Stationary Office.(Air temperature and Humidity, pp.11-12, Sea Surfacetemperature, pp.51 - 56)
WMO (1970) The Beaufort scale of wind force (technical and operational aspects). Reports on Marine ScienceAffairs, No. 3, World Meteorological Organisation, Geneva, 22pp.
WMO (1987) Final Report - Implementation Co-ordination meeting for the Ocean Observing SystemDevelopment Programme Pilot Study on a high-quality Voluntary Observing Ships’ subset, De Bilt,Netherlands, 21-23 September 1987 (unpublished report).
WMO (1990) International List of Selected, Supplementary, and Auxiliary Ships, (1990 Edition - Magnetictape version) WMO-47, World Meteorological Organisation, Geneva.
Woodruff, S.D., Slutz, R.J., Jenne, R.L. & Steurer, P.M. (1987) A Comprehensive Ocean-Atmosphere DataSet, Bulletin of the American Meteorological Society, 68 (10), 1239-1250.
- 30 -
- 31 -
PART 2 THE SHIP CATALOGUE
1 Introduction
The following pages describe in detail each of the VSOP-NA ships. For each ship there is a set of
ship drawings showing the position and surroundings of the sensors or measurement locations. The second page
shows the ship size and the geographical positions of observations from that ship which are included in the
VSOP-NA database. A table indicates the sensors carried and an assessment of the quality of the instrument
exposure for relative winds from ahead (315° to 45°), the starboard beam (45° to 135°), astern (135° to 225°)
and the port beam (225° to 315°). This exposure index (9 = good, 0 = bad) was assessed from the plans and
photographs furnished by the PMO’s using the following table. Three independent assessments were made by
different people and a consensus used for the few cases of disagreement.
Exposure Index Definition
0 Flow fully blocked adjacent to sensor (within 1m)
1 Flow fully blocked at medium distance (1m to 4m)
2 Flow fully blocked further away (4m to 10m)
3 Flow partially blocked near sensor (within 1m)
4 Flow partially blocked at medium distance (1m to 4m)
5 Flow partially blocked further away (4m to 10m)
6 Clear flow, long upwind fetch over ship (>30m)
7 Clear flow, upwind fetch over ship (10m to 30m)
8 Clear flow, upwind fetch over ship (1m to 10m)
9 Clear flow, short upwind fetch over ship (<1m)
- 32 -
IRVING FOREST - CALLSIGN VSBG8
Length: 129.4 mBreadth: 19.4 mDraft: 8.1 / 6.4Type: CargoRecruiting Country: CanadaReference Level: 17±4 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1
1
1 1 151
24
142
132
115
131
112
122
214
123
11
213
2
12
22
123
2
131311
22112
13
21
1
231111
1222
1
131
11
112121
1
22
1
1
12231
2
22
1
2
12151
1
23
1
11
312
1
1112
1
133
213
111
2231
1
1231
11
2131
11
241
2
1321
1
62
25
321
1
11
141
1
223
11
224
1
11
113
11
132
1
1
34
11
1232
1
6
2
121
1
132
122
1
24
1
4
1
4 2
1
2
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Radar mast Centreline AES U2A 26 8 4 3 4Port Screen Bridge deck AES Marine Screen 19 1.5 5 1 8 9 1Starboard Screen Bridge deck 19 1.5 5 9 8 1 1Psychrometer Not fittedBarometer Wheelhouse Three fitted inc. PAB 19SST Bucket AES Rubber Sea Bucket
Note 1 The screens are lashed to open metal rails with a solid metal bulwark to the front
The Irving Forest was lost at sea during VSOP-NA with no loss of life
The Irving Forest made 439 observations in the North Atlantic between 58°N and 33°N
- 33 -
Barometers
Screen
Screen
IRVING FOREST - CALLSIGN VSBG8
Anemometer
Radar Mast Starboard
Radar Scanner Starboard
Radar Scanner Centreline
9m
Wheelhouse
~8m
Anemometer
Wheelhouse
Radar Mast
solid metal bulwark
open metal railsopen metal rails
129m
- 34 -
ARIANA - CALLSIGN DIDA
Length: 115 mBreadth: 19 mDraft: 7 mType: ContainerRecruiting Country: FranceReference Level: 19±5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
2 24 2
2 32 2
1 35
41
3
41
13
14
1
16
31
1
14
3
16
3
15
11
22
3
14
3
151
11
132
3
13
2
4
1
122
14
123
121
2
413
13
3
3232
34
2
362 6 2
4 6 5 11 3
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Mast on starboard forward cornerof wheelhouse top
Pommar 27 9 7 7 8 1
Port Screen Not fittedStarboard Screen Rails on rear of wheelhouse top Pommar 25 8 5 9 9 2Psychrometer Not fittedAneroid Barometer Wheelhouse Naudet Compense 21SST Engine room intake -4
Note 1 The anemometer is on a mast about 2 m above the front edge of the wheelhouse topNote 2 Screen is situated 3 m from the front of the wheelhouse top. Wet and dry bulb temperatures are measured using
platinum resistance thermometers
The Ariana has made 228 observations in the North Atlantic between 30°N and 51°N
- 35 -
ARIANA - CALLSIGN DIDA
mwl
115m
25m
cover of bridge wing
cover of bridge wing
anemometer
screen
Wheelhouse Top
open rails
screen and anemometer positions
- 36 -
LIBREVILLE - CALLSIGN FNCZ
Length: 169.5 mBreadth: ~20 mDraft: 5 mType: Container ShipRecruiting Country: FranceReference Level: 22.5±1 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1 12
1 2
12
2
1
52
63
1
522
110
1
143
27
1
72
1322
2
261
1
81
1
34
1251
251
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Handheld Richard Pekly 21.5 ~1.5 6 6 8 6 1Screen Not fittedPsychrometer Used on port Bridge Wing U01 4230 21.5 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing U01 4230 21.5 ~1.5 4 8 8 1 2Aneroid Barometer Wheelhouse Naudet 21.5SST Engine room intake -5.7 3SST Bucket Maurer 3
Note 1 Exposures have been estimated as no photographs were available. The handheld anemometer is used on the windwardside of the Bridge Wing
Note 2 The psychrometer is used on the windward side of the Bridge Wing. Exposures are estimated. Thermometers aremercury
Note 3 The bucket is only used when sea water samples are taken, measurement is usually by collection thermometer
The Libreville has made 133 observations in the North Atlantic between 30°N and 38°N
- 37 -
LIBREVILLE - CALLSIGN FNCZ
mwl
measurement site
170 m
Wheelhouse Top
WheelhouseFunnel
Measurement site
Measurement site
wind deflector
partially enclosed area
partially enclosed area
- 38 -
ATLANTIC CARTIER - CALLSIGN FNEF
Length: 293 mBreadth: 32 mDraft: 9.2 mType: Ro-ro ContainerRecruiting Country: FranceReference Level: 32±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
11 1
41
2122
21
122
122
1
2
12
11
211
1441
2
211
3
11
153
1
1
112
33
11
21
11
1
131332
3
1131
1121222
2
11321
1121151
2
122212
1
111321
112111
2
2
1
3
1
153
4
1
2
1
213
1132
1
1
21
22
1
14
1111
2222211
1
21
311
13211
21
32
2
1
32
2
111
2421
3
1
4
1431
41
312
1
512
2
141
21
134
11
322
1
1
53
3
122
11
233
2
33
31
1246
2
3
3
115
1
1
5
4
4
2
4 3
41
238
2
111
13 1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Main mast on Wheelhouse Pommar / Walker 41 9.3 9 9 9 6 1Port Screen Wheelhouse Top Pommar 33 2.2 8 7 8 9 2Starboard Screen Not fittedPsychrometer Not fittedAneroid Barometer Wheelhouse Pommar ~30SST Engine room intake ?
Note 1 The anemometer appears to be well exposed on the main mast but no photographs are available. The wind speedmeasurements must be affected by the large fetch over the containers
Note 2 Exposure ratings are estimated as no photographs available. Thermometers are electric resistance
The Atlantic Cartier has made 653 observations in the North Atlantic between 38°N and 56°N
- 39 -
Anemometer
230m63m
ATLANTIC CARTIER - CALLSIGN FNEF
mwl
Plan of Wheelhouse Top
Front View
55m
H
Funnel
Screen
Wheelhouse
Anemometer
Screen
- 40 -
EDOUARD-LD - CALLSIGN FNFD
Length: 280.6Breadth: 41.6Draft: 11.2Type: Gas TankerRecruiting Country: FranceReference Level: 18±1 m asl
-40 -20 030
35
40
45
50
55
60
27452
4911
111 3082113
23286
1122
3
12785
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Mast on starboard forward cornerof wheelhouse top
Tavid anemomgraph 30 9 9 6 9
Port Screen Not fittedStarboard Screen Upper Bridge ~26 8 9 7 7 1Psychrometer Not fittedAneroid Barometer Wheelhouse Vibrochoc ~20SST Engine room intake -1
Note 1 Screen is situated behind the anemometer mast, the forward exposure is therefore slightly blocked. The platinumresistance thermometers are remotely read from Bridge
The Edouard has made 1275 observations in the North Atlantic between 35°N and 47°N. Only 766 of these observations were included inthe analysis at the James Rennell Centre as the remainder were too close to land to enable a suitable comparison with the model to be made.
- 41 -
EDOUARD-LD - CALLSIGN FNFD
281 m
screenanemometeranemometer
screen
Wheelhouse - Front View
Wheelhouse - Starboard Side
- 42 -
LE CARABIE - CALLSIGN FNGM
Length: 204 mBreadth: 31 mDraft: 10 mType: ContainerRecruiting Country: FranceReference Level:
-80 -60 -40 -20 030
35
40
45
50
55
60
1 11
1
1
1 11
1
1
1
1
11
1
1
1
1 1
1
1
1
11
1
1
1
1
111
1
1
1
2
1
11
1
1
1
1
21
1
1
1
1
1 1
1
1
11
1
1
1
11
1
1
1
1
1
11 1
1
1
11
1
1
1
11 1
11
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Handheld Jules Richard 26.5-28.5 ~1.5 4 4 4 4 1Screen Not fittedPsychrometer Used on port Bridge Wing Precis Mechanique 26.5-28.5 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing Precis Mechanique 26.5-28.5 ~1.5 4 8 8 1 2Aneroid Barometer Wheelhouse 26.5-28.5SST Bucket STIL thermometer 3
Note 1 The handheld anemometer is used on the Bridge WingNote 2 Bridge Wings are enclosed by a solid metal bulwark, to the rear of the Bridge Wings are open metal rails. thermometers
are mercuryNote 3 The bucket is lowered from the Bridge
Le Carabie has made 81 observations in the North Atlantic between 30°N and 54°N
- 43 -
CARABIE - CALLSIGN FNGM
204m
Wheelhouse
x
x
Bridge Wing
Bridge Wing
solid bulwarkopen metal rails
Measurement Site
site for psychrometer and anemometer measurement
site for psychrometer and anemometer measurement
mwl
- 44 -
LA FAYETTE - CALLSIGN FNGS
Length: 204 mBreadth: 31 mDraft: 10 mType: ContainerRecruiting Country: FranceReference Level: 26±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
11 1
11
11 1
11
1 1
1
11
1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Handheld Jules Richard No 64 29 ~1.5 4 4 4 4 1Screen Not fittedPsychrometer Used on port Bridge Wing MNU04 Precis Mechanique 29 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing MNU04 Precis Mechanique 29 ~1.5 4 8 8 1 2Aneroid Barometer Wheelhouse Naudet Holosterique No 776 ~29SST Bucket Metio 3
Note 1 The handheld anemometer is used on the Bridge WingNote 2 Bridge Wings are enclosed by a solid bulwark, to the rear of the Bridge Wings are open metal rails. Thermometers are
mercuryNote 3 The bucket is lowered from the Bridge
La Fayette has made 16 observations in the North Atlantic
- 45 -
LA FAYETTE - CALLSIGN FNGS
204m
Wheelhouse
x
x
site for psychrometer and anemometer measurement
site for psychrometer and anemometer measurement
Bridge Wing
Bridge Wing
solid bulwarkopen metal rails
Measurement Site
mwl
- 46 -
JEAN CHARCOT - CALLSIGN FNOY
Length: 75 mBreadth: 14 mDraft: 5 mType: Research VesselRecruiting Country: FranceReference Level: 14±2 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
9 34 2
2121
211
222
821
45
216
21
40442232
2121
52
2
3
1
263
1
23
2
14
2
578
2
32
3
13
1
42622221
3 2 21
21
210
32
1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Port mainmast cross-tree Pommar 21 9 6 9 9 1Port Screen Not fitted 1, 2Starboard Screen Mast on aft of wheelhouse top Pommar 18 5 8 8 7 1, 2Psychrometer Not fittedAneroid Barometer Wheelhouse Naudet Compense 17SST Engine room intake -3.5
Note 1 Exposures have been estimated as no photographs were availableNote 2 Thermometer is electric resistance
The Jean Charcot has made 271 observations in the North Atlantic between 30°N and 48°N
- 47 -
screen
anemometer
vane
JEAN CHARCOT - CALLSIGN FNOY
screen
anemometer
vane
vane
front
75m
Wheelhouse Top
mwl
- 48 -
INDEPENDENT ENDEAVOR - CALLSIGN DDLN
Length: 136 mBreadth: 22 mDraft: 7 mType: Container ShipRecruiting Country: GermanyReference Level: 0 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
612
313
916
144
277
32
110
743
110
33531
1567
13731
1162
1
642
12922
1844
162
15421
3342
114241
111341
1
335
211223
21322
12332
21
43
1
1
421311
1
24112
1131131
3111312
1
3
1
1
1
23
1
321
1
314
111
1
1122221
1332
14
2
321212
1
1
112311
21
1
213
111
1231
31
1
1311
1
1
2
2131
3
1
1
1223311
1
1222
21
2111212
1
1
2112222
1
222
1
1
21111
1
1
22311
1
4
31221
1
1
213111
121
1221
13511
1
1
111
241
1
12232
1
1
321211
1113111
1212
1
25431
1224
1
12321
2125
1
421
1223
2122
2
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing G K Walker Eigenbrodt 21 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing G K Walker Eigenbrodt 21 ~1.5 4 8 8 1 2Aneroid Barometer Wheelhouse Fuess type 15 PM 21SST Bucket See Figure 17 3SST Engine room intake -6 3
Note 1 Method of wind measurement is visualNote 2 The psychrometer is used on the windward side of the Bridge Wing which is surrounded by a solid metal bulwark with
a wind deflector to the fore and open metal rails to the rear. Thermometers are mercuryNote 3 Method of sea surface temperature measurement is reported with each observation
The Independent Endeavor has made 751 observations in the North Atlantic between 37°N and 56°N
- 49 -
INDEPENDENT ENDEAVOR - CALLSIGN DDLN
mwl
Wheelhouse
x
x
site for psychrometer and anemometer measurement
site for psychrometer and anemometer measurement
Bridge Wing
Bridge Wing
solid bulwark with wind deflector to foreopen metal rails
136 m
measurement site
- 50 -
EUROTEXAS - CALLSIGN DDUC
Length: 186 mBreadth: 27 mDraft: 11 mType: Container ShipRecruiting Country: GermanyReference Level: 0 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
2 1 2 12 1 2 1
2 1 21 2
21
1 111
11
11
1
1
11
1
1
1
1
1
21
11
21
1
1
2
1
1
11
21
1
1
1
1
11
1
11
11
1
1
11
11
11
1
1
1
1
1
1
111
1
1
1
11
1
1
1
11
1
1
1
1
2
1
12 1
11
1
1
1
2
11
1
1
1
1
21
1
1
12
11
131
1
1
2 2
1
1 11 2
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing G K Walker Eigenbrodt 21 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing G K Walker Eigenbrodt 21 ~1.5 4 8 8 1 2Aneroid Barometer Wheelhouse Fuess type 15 PM 21SST Bucket See Figure 17
Note 1 The method of wind measurement is visualNote 2 The psychrometer is used on the windward side of the Bridge Wing, if the observation is made on the outboard end of
the wing the forward exposure becomes 8. The Bridge Wing is surrounded by a solid metal bulwark and to the rear areopen metal rails. Thermometers are mercury
The EuroTexas has made 148 observations in the North Atlantic between 30°N and 50°N
- 51 -
EURO TEXAS - CALLSIGN DDUC
Wheelhouse
measurement site
measurement site
wind deflector
solid metal bulwark
open metal rails
solid metal bulwark
open metal rails
186 m
measurement site
- 52 -
NURNBERG ATLANTIC - CALLSIGN DHNE
Length: 241 mBreadth: 32 mDraft: 9 mType: Container ShipRecruiting Country: GermanyReference Level: 0 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
42
41
111
211
312
3
1
1321
12
3212
1
1
22
10
211
1252
121
13
52
4112267
12
1215
1211
2292
131111252
13113167
31
21432
21111241
1
31322811
3114
1511
22162291
13
21
441
33321531
1
1
222
101
23131
61
11227117
1
1
1121172
1451
61
11122
8111
124128
1
11
61
31
1
24
29
2
114316
22416
1
121281
121735
1
1518
1
114251
2828
1
1
117251
2537
1
11566
1
238
1
1
378
3981
1
1
287
1841
1
1
96
104
86
1
111
4 11
3 1 11 1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing G K Walker Eigenbrodt 31 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing G K Walker Eigenbrodt 31 ~1.5 4 8 8 1 2Aneroid Barometer Wheelhouse Fuess type 15 PM 31SST Bucket See Figure 17 3SST Engine room intake -8 3
Note 1 Method of wind measurement is visualNote 2 The exposures of the observation sites have been estimated as no photographs were available. Thermometers are
mercuryNote 3 Method of sea surface temperature measurement is reported with each observation
The Nurnberg Atlantic has made 981 observations in the North Atlantic between 40°N and 57°N
- 53 -
NURNBERG ATLANTIC - CALLSIGN DHNE
Wheelhouse Top
Wheelhouse
Sheltered Area
mwl
240 m
- 54 -
ALEMANIA EXPRESS - CALLSIGN DHRG
Length: 204 mBreadth: 31 mDraft: 10 mType: Container ShipRecruiting Country: GermanyReference Level: 0 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
24
45 9
23211
8
4
33
2
1
6311
24111
1
1522
261
11
22511
63231
26
1
1
142212
12251
1
1
1122113
1
321
1
21243
1
1
1
321121
222211
1
12
11
22
11
21232
1
11311112
3
41
1
1213
2
2
13
31
1
1
111312
111
111131
1
1
1
312
2
133
13
111
12
24122
1
3
4
1
1
1
12
4111
2112
1
2
2
1
2
322
1
112
1
211
312111
11
11
22
211
12
1
3
1
1
311
3212
2
111
112
11
23
12211
112
12
2
11
21
3
1
1
1
211
21
11
1
3
1
4
21
1112113
1111
12
11
1
1
11115
21
12111
2
3
1
2
17
2
1
1
2112
1
2
1
11522
2
1
312
3
1
1
23
111
1
13
5
2
1
1
1
5
1
1
11
131111
113
21
1
1
16
1
1226222
1
1311
13111
1
3531
22
241
62
12 4 1
1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing G K Walker Eigenbrodt 25 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing G K Walker Eigenbrodt 25 ~1.5 4 8 8 1 2Aneroid Barometer Wheelhouse Fuess type 15 PM 25SST Engine room intake -8SST Bucket See Figure 17
Note 1 Method of wind measurement is visualNote 2 The psychrometer is used on the windward side of the Bridge Wing. The Bridge Wing is surrounded by a solid metal
rail with a wind deflector to the front. To the rear are open metal rails. Thermometers are mercury
The Alemania Express has made 772 observations in the North Atlantic between 30°N and 51°N
- 55 -
mwl
ALEMANIA EXPRESS - CALLSIGN DHRG
Wheelhouse
Bridge Deck
204m
- 56 -
AMERICA EXPRESS - CALLSIGN DIMC
Length: 204 mBreadth: 31 mDraft: 10 mType: Container ShipRecruiting Country: GermanyReference Level: 0 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
222
212
124
1
341
1
112121
1
232
1
63121
1
1
2133
1
11222
11
23221
1
11211
1
223114
1
2211
1
1211322
22111
1
2112121
1
1
23
2311
2
223
1221221211
12
1122
2
1
13
22
133
11
2
1
31
1141
41
1
11
1112
1
211
11
2
1
31123111
1
1
1
1
51142121
1
11
1
11
1
116
2131
2
1
32
2
52
1
1
1
12
3
11
1
2
21
31
1
1
21114
31
1
2
1
12
1
11
12
331
1
313
1
111
1
1
1
4
1
11
11
3
1211
1
2111
11
1
1
12
41211
1
3
111
111
1
1
131
1
1
31
11211
1
111
43
32
2
1121
1
1111132
3112111
21
351
1
1
31
231
1111
1
2
1
1121123
1
21111211
11
21
1
243
32
22
124122
12
31
121
5
1323
1316
3
3
321
123
62
32
12 2 1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing G K Walker Eigenbrodt 25 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing G K Walker Eigenbrodt 25 ~1.5 4 8 8 1 2Aneroid Barometer Wheelhouse Fuess type 15 PM 25SST Engine room intake -8SST Bucket See Figure 17
Note 1 Method of wind measurement is visualNote 2 The psychrometer is used on the windward side of the Bridge Wing. The Bridge Wing is surrounded by a solid metal
rail with a wind deflector to the front. To the rear are open metal rails. Thermometers are mercury
The America Express has made 721 observations in the North Atlantic between 30°N and 51°N
- 57 -
mwl
AMERICA EXPRESS - CALLSIGN DIMC
Wheelhouse
Bridge Deck
204m
- 58 -
INDEPENDENT CONCEPT - CALLSIGN DNBR
Length: 118 mBreadth: 20 mDraft: 7.5 mType: Container ShipRecruiting Country: GermanyReference Level: 0 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
411
231
3
2
331
13
2
211
112
2132
333
231
234
162
144
25
143
42
1621
1412
24
14
1
123
341
1
3
1331
24
1
211
1
25
2
1
13 4
1
1
141
14
1
1
22
1
1142
113
12
1132
121
1
1232
1
3
21
1
41
1
1
3211
11
1
1
1
41
2
21
1
1
1
231
1121
11
5
1
1
1
411
122
1
141
1
1
11
21
12411
1
22
1
1131
1
1
31
1
2
311
121
1
123
1
1421
511
14
1
221
332
41
241
14 2
123 1 2
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing G K Walker Eigenbrodt 19 ~1.5 8 1 8 8 2Psychrometer Used on starboard Bridge Wing G K Walker Eigenbrodt 19 ~1.5 8 8 8 1 2Aneroid Barometer Wheelhouse Fuess type 15 PM 19SST Bucket See Figure 17
Note 1 Method of wind measurement is visualNote 2 The psychrometer is used on the windward side of the Bridge Wing. The Bridge Wing is surrounded by a solid metal
bulwark, to the rear of the Bridge Wing are open metal rails. Thermometers are mercury
The Independent Concept has made 459 observations in the North Atlantic between 36°N and 50°N
- 59 -
Wheelhouse Top
INDEPENDENT CONCEPT - CALLSIGN DNBR
mwl
measurement site
measurement site
measurement site
WheelhouseFunnel
Bridge Wing Cover
Bridge Wing Cover
solid metal bulwark
open metal rails
open metal rails
118m
walkway
- 60 -
INDEPENDENT PURSUIT - CALLSIGN DNJR
Length: 133 mBreadth: 22 mDraft: 7.5 mType: Container ShipRecruiting Country: GermanyReference Level: 0 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
33
121
115
32
124
215
123
324
115 3
4
453
522
3432
521
3642
3543
2312
435
3321
4254
16
2
3236
5421
13121
15
41
513
1
23211
4553
254112
22432
1323212
441
114
2
1
1
12111
1
5332
111432
1
23222
1
2
1
1
1
1
1212
1
115121
1
2
13
1
11
41
2
21
1151
111
3
111
213212
1121
111
1
212
121
221
1
112
2
11
142
213
2
1
2
12113
111111
212
3
11123
1
2
15
4
1113
314
1
3
1242
13
15 1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing G K Walker Eigenbrodt 22 ~1.5 8 1 8 8 2Psychrometer Used on starboard Bridge Wing G K Walker Eigenbrodt 22 ~1.5 8 8 8 1 2Aneroid Barometer Wheelhouse Fuess type 15 PM 22SST Bucket See Figure 17
Note 1 Method of wind measurement is visualNote 2 The psychrometer is used on the windward side of the Bridge Wing. The Bridge Wing is surrounded by a solid metal
bulwark, to the rear of the Bridge Wing are open metal rails. Thermometers are mercury
The Independent Pursuit has made 599 observations in the North Atlantic between 37°N and 50°N
- 61 -
Wheelhouse Top
INDEPENDENT PURSUIT - CALLSIGN DNJR
mwl
measurement site
measurement site
measurement site
WheelhouseFunnel
Bridge Wing Cover
Bridge Wing Cover
solid metal bulwark
open metal rails
open metal rails
133m
- 62 -
AEL AMERICA - CALLSIGN PCEL
Length: 156.9Breadth: 22.9Draft: 11.2Type: ContainerRecruiting Country: NetherlandsReference Level: 3±1 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
21
1 112
121 1
122 1
12111
1
2
1
1
1
2
2
11
1
112
1
11
11111
1
11
211
1
111
1
1
12
1
212
1
2
1
1
11
1
1
121
1111
1
2
1
1
1
1
2
11
11
1
11
11
1
3
1
1
1
1
1
1
21
1
1
1
1
1
111
1
1
1
1
1
11
1
1
1
2
1
11
1
11
11
1
11
1
1
1
2
1
1
1
1
2
2
1
2
1
1
1
1
1111
1
1
12
2
1
112
1
1
11
1
12
1
1
1
111
2
1
1
1
1
21
21 3
1
1
11
21 4
1
1 3 2 2 1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing KNMI 21 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing KNMI 21 ~1.5 4 8 8 1 2Barometer Wheelhouse PAB 21SST Bucket 3
Note 1 The method of wind measurement is visualNote 2 Exposures are estimated as no photographs or plans of the ship were availableNote 3 Bucket is lowered from the Bridge Wing
The AEL America has made 259 observations in the North Atlantic between 35°N and 59°N
- 63 -
AEL AMERICA - CALLSIGN PCEL
mwl
measurement site
157 m
- 64 -
GULF SPEED - CALLSIGN PELT
Length: 203 mBreadth: 30.5 mDraft: 10.5 mType: ContainerRecruiting Country: NetherlandsReference Level: 10±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
3 2 13
1 1
21
1
2
1
11
1
2
1
1
1
11
1
1
1
1
1
2
111
1
12
1
3
212
1211
1
1
1
1
11
11
1
1
1
11
1
1 11
1
1
2
1
1
1
111 1
1
2
1
1
12
1
1
111
1
111
1
111
1
2
1
22
1
41
12 1
11 2 2
1 2 2
1
2 11
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing 28 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing 28 ~1.5 4 8 8 1 2Barometer Wheelhouse PAB 26SST Intake Probe PT100(CSI) thermometer -6
Note 1 The method of wind measurement is visualNote 2 Bridge Wings are enclosed by a solid metal bulwark, to the rear of the Bridge Wings are open metal rails. No
photographs are available so exposure ratings are estimated
The Gulf Speed has made 153 observations in the North Atlantic between 32°N and 51°N
- 65 -
mwl
203 m
Wheelhouse
open metal rail
solid metal bulwark
position of psychrometer measurement
position of psychrometer measurement
Wheelhouse Top
GULF SPEED - CALLSIGN PELT
38 m
position of psychrometer measurement
- 66 -
GULF SPIRIT - CALLSIGN PELU
Length: 203 mBreadth: 30.5 mDraft: 10.5 mType: ContainerRecruiting Country: NetherlandsReference Level: 10±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
22
11
2
1 1
3
12
12
1
1
11
2
1
1
1
211
2
1
1
11
1
11
11
1
111
111
1211
1
111
1
2
121
1
21
2
1
11
1
2
1
1 11 1
1
1
11
11
1
1
21
1
3
11
21
1111
1
1
1
11
1
4
1
22
1 1
51
11
31
1 1
11
1
4
1
3
1
11
11
111
12
1 2
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing 28 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing PAB 28 ~1.5 4 8 8 1 2Barometer Wheelhouse 26SST Intake Probe PT100(CSI) thermometer -6
Note 1 The method of wind measurement is visualNote 2 Bridge Wings are enclosed by a solid metal bulwark, to the rear of the Bridge Wing are open metal rails. No
photographs were available so exposure ratings are estimated
The Gulf Spirit has made 175 observations in the North Atlantic between 32°N and 51°N
- 67 -
mwl
203 m
Wheelhouse
open metal rail
solid metal bulwark
position of psychrometer measurement
position of psychrometer measurement
Wheelhouse Top
GULF SPIRIT - CALLSIGN PELU
38 m
position of psychrometer measurement
- 68 -
NEDLLOYD KINGSTON - CALLSIGN PGDG
Length: 163 mBreadth: 22 mDraft: 10 mType: ContainerRecruiting Country: NetherlandsReference Level: 7±1 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
11
2
11
22
12
4
1
11
2
1
421
1
112
1
1
3432
1
11211111
342211
1
143
3211
73
112
1
16
3111
1
371
114
11
1622
1
424
112
111
1513
11
21113231
11
1
1
212
1
224251
2
16
3
11
1
22
232
21
233331
2
11541
11
12
46
1
1
1234311
1
1
55121
225612
1
23111
1
13542
1
13711
1
11
1012
1
192
1
532
1124
442
82
45 4
1 1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPort Psychrometer Used on port Bridge Wing Sling KNMI 19 ~1.5 8 1 8 8 2Psychrometer Used on Starboard Bridge Wing Sling KNMI 19 ~1.5 8 8 8 1 2Aneroid Barometer Wheelhouse Negretti and Zambra N2236 PAB 19SST Bucket or XBT See Figure 17 e 3
Note 1 The method of wind measurement is visualNote 2 Bridge Wings are enclosed by a solid metal bulwark, to the rear of the Bridge Wings are open metal rails.
Thermometers are mercuryNote 3 The bucket or XBT is lowered from the port side of the Bridge Wing. The method of sea surface temperature
measurement depends on the sea state, the bucket being used in calm conditions
The Nedlloyd Kingston has made 473 observations in the North Atlantic between 30°N and 50°N
- 69 -
NEDLLOYD KINGSTON - CALLSIGN PGDG
mwl
Wheelhouseopen metal rails
Bridge Wing
site for psychrometer measurement
site for psychrometer measurement
solid bulwark
Bridge Wing
163 m
- 70 -
NEDLLOYD KYOTO - CALLSIGN PGDS
Length: 163 mBreadth: 22 mDraft: 10 mType: ContainerRecruiting Country: NetherlandsReference Level: 7±1 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
3 11 3
2 22 2
2
1
211
1
1
11
111
21
121
211
12
2
13
12
1
123
2
12
1131
1
11311
21
12152
1
1
11
2
3
1
2
123131
1
2
23
23
12
112332
111
1
212121
2
12
2
221
11
2
4332
2
1
11
1211
2
1312221
2
13
4322
2
1
5
1
2
13
4322
11
3136
1
2
1
2122
2
212612
2
113321
2
234121
233111
4421
1
23413
46111
1
3721
23
1
6911
121
241
11
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing KNMI 19 ~1.5 8 1 8 8 2Psychrometer Used on starboard Bridge Wing KNMI 19 ~1.5 8 8 8 1 2Aneroid Barometer Wheelhouse No 1110/M/69 PAB 19SST Bucket See Figure 17 e 3
Note 1 The method of wind measurement is visualNote 2 Bridge Wings are enclosed by a solid metal bulwark, to the rear of the Bridge Wings are open metal rails.
Thermometers are mercuryNote 3 Bucket is lowered from the Bridge Wings
The Nedlloyd Kyoto has made 422 observations in the North Atlantic between 30°N and 50°N
- 71 -
NEDLLOYD KYOTO - CALLSIGN PGDS
mwl
Wheelhouseopen metal rails
Bridge Wing
site for psychrometer measurement
site for psychrometer measurement
solid bulwark
Bridge Wing
163 m
- 72 -
NEDLLOYD ZEELANDIA - CALLSIGN PGDW
Length: 207 mBreadth: 30 mDraft: 10 mType: ContainerRecruiting Country: NetherlandsReference Level: 10±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1 53
248
23255
132381
1
15152
1
2486
1
2672
11
394
1
189
1
1
85 8
6 57 1
41
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Screen Not fittedPsychrometer Used on port Bridge Wing KNMI 26 ~1.5 8 1 8 8 2Psychrometer Used on starboard Bridge Wing KNMI 26 ~1.5 8 8 8 1 2Aneroid Barometer Wheelhouse PAB 26SST Hull sensor
Note 1 The method of wind measurement is visualNote 2 Bridge Wings are enclosed by a solid metal bulwark, to the rear of the Bridge Wings are open metal rails.
Thermometers are mercury
The Nedlloyd Zeelandia has made 197 observations in the North Atlantic between 30°N and 50°N
- 73 -
NEDLLOYD ZEELANDIA - CALLSIGN PGDW
mwl
207 m
Wheelhouseopen metal rails
Bridge Wing
site for psychrometer measurement
site for psychrometer measurement
solid bulwark
Bridge Wing
- 74 -
NEDLLOYD NEERLANDIA - CALLSIGN PGEG
Length: 204 mBreadth: 30 mDraft: 10 mType: ContainerRecruiting Country: NetherlandsReference Level: 9±2 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
13 6
11
311
1212
1
222
113121
1421
2
21
13211
2
2
1111
1133
11
1
1
1
1
1
1
133
3
1
3
1
11
1
31
3111
1
1
21
1
11
11
2131
1211
2
31
1
4
311
1131
11
11
111
11
2
114
2
1
1111
1
211
1141
21
1
1
1
1
1
121111121
1
12111
13
1
1
4
232211
1
1
1
1125
1
31111
111
1
12
1
31
12
322
11
1
12
1311
151
211
1
22311
1
4233
1
121
1
2442
2
313
1
1
561
1
232111
531
1
125
2
342
35
2
21
1
2
21
42
3 1
1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Handheld Boosman 24 4 4 4 4 1Screen Not fittedPsychrometer Used on port Bridge Wing Sling KNMI 24 ~1.5 4 1 8 8 2Psychrometer Used on starboard Bridge Wing Sling KNMI 24 ~1.5 4 8 8 1 2Aneroid Barometer Wheelhouse PAB 25SST Bucket See Figures 17c and d 3
Note 1 The method of wind measurement is visualNote 2 Bridge Wings are enclosed by a solid metal bulwark, to the rear of the Bridge Wings are open metal rails.
Thermometers are mercuryNote 3 Bucket is lowered from the Bridge Wings
The Nedlloyd Neerlandia has made 443 observations in the North Atlantic between 30°N and 52°N
- 75 -
NEDLLOYD NEERLANDIA - CALLSIGN PGEG
mwl
207 m
Wheelhouseopen metal rails
Bridge Wing
site for psychrometer measurement
site for psychrometer measurement
solid bulwark
Bridge Wing
- 76 -
OWS CUMULUS - CALLSIGN LIMA
Length: 71 mBreadth: 12.5 mDraft: 4.6 mType: Ocean Weather ShipRecruiting Country: BritainReference Level: ? m asl
-40 -20 030
35
40
45
50
55
60690
1105651
108941
7
340
4
222
2
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer x 2 Port and Starboard, Aft mast Munroe Mk 4 23Port Screen Wheelhouse Top Electrical Resistance (remote read) 11 6Starboard Screen Wheelhouse Top Electrical Resistance (remote read) 11 6Psychrometer Not fittedBarometer Instrument Room PAB 5.8SST Hull Sensor -1
Note The Cumulus dataset does not include codes for instrumentation
The Cumulus has made 3846 observations in the North Atlantic at 18-22°W by 56-57°N
- 77 -
O.W.S. CUMULUS - CALLSIGN LIMA
71mmwl
12.5m
anemometer
screen
anemometerscreen
screen
open metal rails
- 78 -
ATLANTIC LINK - CALLSIGN C6DS
Length: 145.5 mBreadth: 20.5 mDraft: 5 mType: Closed ContainerRecruiting Country: BritainReference Level: 13±1 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
2
2
1
13
1
2
1
13
21
11
12
21
1
11
2
11
2
2
2
1
12
1
2
3211
12
111
11
1
1
1
111
21
1
112
21
1
121
1
11
1
111
1
1
121
1
2
1
1
1
12
1
1
1
1
111
1
21
221
1
1
22
1112
1
1
221
1
1
131
112
1
1
31111
2
1
12
1
1
1111
2
11
1
1
1
1
1
21
1
11
2
21
1
2
1
1
1
2
31
1
1
1
3
1
2
11
1
21
1
1
1
1
21
1
113
1
1
2
1
11
1
1
2
21
1
1
2
1
1
1
1
1
211
1
11
3
1
1
132
11111
1
1
11
1
112
1
1
1
111
11
1
1
2
11
11
11
2
2
212
1
1
2
2111
2
22
1
11
1
11
1
1
1
1
2
2
21
121
12
1
1
311
211
13
1
11
1
1
1
2
31
1
1
1
111
1
11
1
22
1
112
1
11
112
111
11
13
3
312
1
2121
1
2
2
1
1
1211
1
2
1
3
2
1 2 1
1
2
1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Port Screen Bridge Wings Marine Screen 13 ~1 3 0 6 4 2Starboard Screen Bridge Wings Marine Screen 13 ~1 3 4 6 0 2Psychrometer Not fittedAneroid Barometer Wheelhouse Barograph, PAB 13SST Bucket Rubber
Note 1 The method of wind measurement is visualNote 2 The screens are lashed to the side of the wheelhouse and are positioned 3 m inboard and clear of the superstructure. To
the front is a wind deflector on a solid metal bulwark, to the side a solid metal bulwark and to the rear, open metal railsaround the large enclosed cargo area. Thermometers are mercury
The Atlantic Link has made 511 observations in the North Atlantic between 58°N and 31°N
- 79 -
145.5m
ATLANTIC LINK - CALLSIGN C6DS
Wheelhouse ScreenScreen
Wind Deflector
Solid Bulwark Solid Bulwark
Open Rails
Open Rails
- 80 -
AUTHOR - CALLSIGN GBSA
Length: 204 mBreadth: 31 mDraft: 11 mType: ContainerRecruiting Country: BritainReference Level: 25±1 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
2 31
12
114
3
11
21
4
42233
142131
331122
114
1
1
242123
3131
1
144114
4112
1222
41
1
231
2
1
1422
3
51
3
1
2422
3
1
141
4
24212
1
53
3
1
1413
35
4
1
414
1
44
3
1
614
1342
1316
1
621
164
1534
455
127
273
2
101
27
358
13
12451
344
3112
5
4
2
21
3
3
3
21
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Port Yard-arm on mainmast Walker 39 9 9 9 9 1Port Screen Wheelhouse Top Marine Screen 27 1.5 5 1 7 5 2Starboard Screen Wheelhouse Top Marine Screen 27 1.5 4 5 7 1 2Psychrometer Not fittedAneroid Barometer Chartroom PAB 27 ~1.5SST Bucket Rubber ~1.5
Note 1 The method of wind measurement is visualNote 2 The deck is made of steel and the screens are mounted on posts with a solid metal bulwark to the front and open metal
rails behind. Both screens are 17 m forward of the funnel. Thermometers are mercury
The Author has made 456 observations in the North Atlantic between 52°N and 30°N
- 81 -
AUTHOR - CALLSIGN GBSA
Bow
Screen
Funnel
mwl
204m
Anemometer
Screen
Wheelhouse
Screen
open metal rails
metal bulwark
wind deflector
metal bulwark
open metal rails
- 82 -
GEESTBAY - CALLSIGN GBVV
Length: 159 mBreadth: 21.5 mDraft: 8.8 mType: Container / BananaRecruiting Country: BritainReference Level: 16±2 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1 1 31
621
9511
6842
25221
155
11
1
2
5322
123773
2117332
1
16852
21
312
421
21
56
3
1312
1078
2116
1046
21
93411
4326
113111
31
12473
221293611
152
9363
113
114
2
21
1
2
89431
1212
13851
1213835
1
3237632
1
314
1747
2
218821
21322
1234
1
13
42976
11
136
1243
21
52767
1
44
152
11
32
1083
11
1
28
124
11
16862
15681
123
103
23
107
498
1
13
101
1
375
2
44
414
112
123 2
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Port Screen 0.5 m above Bridge Wing
bulwarkMarine Screen 16 1.5 8 1 7 9 2
Starboard Screen 0.5 m above Bridge Wingbulwark
Maine Screen 16 1.5 8 9 7 1 2
Psychrometer Not fittedAneroid Barometer Chartroom PAB Barograph 16SST Bucket Rubber 3SST Engine Intake / Hull Sensor -7 3
Note 1 The method of wind measurement is visualNote 2 Screens are positioned on the Bridge Wings, clear of the funnel and superstructure and have good exposure but are
partially sheltered by wind deflectors to the front. The screens are hung on hooks secured to stanchions above the solidbulwark. The deck below the screens is wood sheathed. Thermometers are electric resistance
Note 3 The Geestbay had a hull sensor fitted in September 1989 but in March 1990 the sensor ring was found to be cracked anddetached from the ships’ side plate. The damage probably occurred ~19 February 1990. The rubber bucket is usedfrom the lee Bridge Wing for SST measurements when weather permits
The Geestbay has made 1011 observations in the North Atlantic between 52°N and 30°N
- 83 -
GEEST BAY - CALLSIGN GBVV
159m
Screen
solid metal bulwark
wood sheathed deck
wind deflector
wood sheathed deck
screensolid bulwarkmetal rails on
solid bulwark
wood sheathed deck
screensolid bulwark
metal rails on solid bulwark
steel deck
steel deck
wheelhouseE.R. supply vents
Vents Navigation Bridge Deck
- 84 -
GEESTPORT - CALLSIGN GBVW
Length: 159 mBreadth: 21.5 mDraft: 8.8 mType: Container / BananaRecruiting Country: BritainReference Level: 16±2 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1 12 86
514
6
46
134
15
1281
22683
1
2994
6943
1125
1141
14
1456
13
1246
13
13331
14854
12243
216
36
113
434
47341
1
134
51
513
242
116
413
5937
14516
910
152
314
314
86
7
216
524
210
436
23
11361
11
16237
11
1466
11
1247
12934
1
1454
1
16
1381
1453
11747
12
125
1773
1103
110
116 4
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Port Screen Side of Wheelhouse Marine Screen 16 1 4 7 3 3 2Starboard Screen Side of Wheelhouse Marine Screen 16 1 5 3 3 7 2Psychrometer Not fittedAneroid Barometer Chartroom PAB Barograph ~16 1.3SST Hull Sensor -3
Note 1 The method of wind measurement is visualNote 2 Screens are suspended by hooks on stanchions 7 m inboard, 3.2 m from each funnel and are partially sheltered by the
bulwark and funnel but are clear of the superstructure. The deck below the screens is made of steel. Thermometers areelectric resistance
The Geestport has made 944 observations in the North Atlantic between 52°N and 30°N
- 85 -
GEESTPORT - CALLSIGN GBVW
159m
Screen
solid metal bulwark
wood sheathed deck
wind deflector
wood sheathed deck
screen
solid bulwarkmetal rails on solid bulwark
wood sheathed deck
screen
solid bulwarkmetal rails on solid bulwark
steel deck
steel deck
wheelhouseE.R. supply vents
Vents Navigation Bridge Deck
- 86 -
GEESTCAPE - CALLSIGN GJMR
Length: 157.5 mBreadth: 22.5 mDraft: 9.1 mType: Container / BananaRecruiting Country: BritainReference Level: 20 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1 3 11
812
18
2
10631
1
7566211
211
331
24
103522
310
14711
2364211
4685512
1
15761411
38
10772
1
14572613
4476453
1
659
243
1
2748141
1
55
102252
4534
72
1
727
321
431
131831
1
7167151
1
243
11144
1
29347152
1
373
10283
1
2643829
1
264
112
102
2
756837
1
3825781
1
473964
1
265457
558842
198565
1
373
107
1
168561
1
38591
1
86
106
1
2996
1
61012
1
213
91
11
9115
1
18
11
1159
191
11
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Port Screen Bridge Wing Marine Screen 20 1.3 4 1 6 9 2Starboard Screen Bridge Wing Marine Screen 20 1.3 4 9 6 1 2Psychrometer Not fittedAneroid Barometer Chartroom PAB BarographSST Engine Room Intake / Hull
Sensor-3 3
Note 1 The method of wind measurement is visualNote 2 The screens are well exposed on the Bridge Wings but stand directly on a solid metal bulwark above a steel deck
covered by rubber matting. Thermometers are electric resistanceNote 3 The Geestcape had a Hull Sensor fitted in November 1989
The Geestcape has made 1184 observations in the North Atlantic between 52°N and 30°N
- 87 -
Screen
Screen
Gyro Repeater
Gyro Repeater
Barograph
Barometer
Engine Room Supply Vents
158m
GEESTCAPE - CALLSIGN GJMR
Screen
Wheelhouse Top
mwl
wind deflector
wind deflector
solid bulwark
solid bulwark
- 88 -
GEESTHAVEN - CALLSIGN GJMS
Length: 157.5 mBreadth: 22.5 mDraft: 9.1 mType: Container / BananaRecruiting Country: BritainReference Level: 25±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
2 421
93
8733
3921
21933
246732
21743
21612
1
12
12713
112611
318
11
3
111841
125
1212
1245
3
14
10411
134313
1
3244
2
155
1311
229712
65933
1126712
149
1152
21358721
1
169653
159921
411
772
311
722
511
77
56
142
111
45
8863
211
92
678
21311
2
1883
411
7
1
139
4112
94
31010 2
21
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Port Screen Bridge Wing Marine Screen 18 1.3 4 1 6 9 2Starboard Screen Bridge Wing Marine Screen 18 1.3 4 9 6 1 2Psychrometer Not fittedAneroid Barometer Chartroom PAB Barograph ~20SST Engine Room Intake / Hull
Sensor-5.5 3
Note 1 The method of wind measurement is visualNote 2 The screens are well exposed on the Bridge Wings but stand directly on a solid metal bulwark above a steel deck
covered by rubber matting. Thermometers are electric resistanceNote 3 The Geesthaven had a Hull Sensor fitted in August 1989
The Geesthaven has made 868 observations in the North Atlantic between 52°N and 30°N
- 89 -
Screen
Screen
Gyro Repeater
Gyro Repeater
Barograph
Barometer
Engine Room Supply Vents
158m
GEESTHAVEN - CALLSIGN GJMS
Screen
Wheelhouse Top
mwl
wind deflector
wind deflector
solid bulwark
solid bulwark
- 90 -
PROVENCE - CALLSIGN GXES
Length: 203.8 mBreadth: 31 mDraft: 10 mType: ContainerRecruiting Country: BritainReference Level: 25±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
43
27
13 9
2113
5
4
2
441
1
44
421
23312
15
214
172121
61
41
134222
32112
116
33
1
42111
1
7
115
33121
1
232
31
14
221
1171141
7
131
1
1132
21
53
121
16323
5
241
4
13
1
233331
1
52
21
1
123221
1
16
13
1
233122
1
6
31
1
1112112
1
34143
1
1
1
2112111
1
15133
1
1
32
4112
1
2
23111
1
51123
11
1
2
2221
1231
6
2
1
4132111
1
14
41121
3
1311
1
41
23
21
351
9121
71
73222
153141111
55135241
91
8121
731
10331
3716221
9226
31
6524321
91
1032
738331
527231
111
1831
9384
1
36551
8953
7762
4782
810
3
9831
11241
111
1
96
27 4 3 2
1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Port Yard-arm Walker 37 9 9 9 9 1Port Screen 0.5 m above Bridge Wing rails Marine Screen 25 1.5 7 5 9 9 2Starboard Screen 0.5 m above Bridge Wing rails Marine Screen 25 1.5 7 9 9 5 2Psychrometer Not fittedDigital Barometer Chartroom PAB Barograph 25 ~1.5SST Bucket Rubber 3SST Intake -9 3
Note 1 The method of wind measurement is visualNote 2 Screens are well exposed and are positioned on a post above an open metal rail 3 m inboard. Both screens are close to
the funnel. Thermometers are mercuryNote 3 The method of SST measurement is reported with each observation
The Provence has made 1141 observations in the North Atlantic between 51°N and 30°N
- 91 -
PROVENCE - CALLSIGN GXES
mwl
Anemometer
Screen
204m
Bow
Screen
Funnel
Wheelhouse
Screen
open metal rails
metal bulwark
wind deflector
metal bulwark
open metal rails
- 92 -
ATLANTIC CONVEYOR - CALLSIGN GZMM
Length: 293 mBreadth: 32 mDraft: 10 mType: Container, Ro-roRecruiting Country: BritainReference Level: 33±1 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1
2
1
1
34
12
44
42
123
122
213
132
212
2
4325
1312
41
131233
2211224
231115
12123241
11212
31
1321224
2214112
1
11
1
7
23231221
2
211133
133113
1
11
4
3
6
1
2212
3
1231
22
1
1
122316
2132123
1
2
31214
1
134
221
1
222122
11
1122314
1
131211
1
1
52346
1
321
2
1
11132
1
117246
1
1
4
12
1
4335
1
3231
1
1
13234
1535
1
1112
1
1
16431
2153
1
184
1
145
1
252
1
1
68
1
9
4
925
1
7
2
23
1
71
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Signal Mast Thomas Walker 43 7 7 4 4 7 1Port Screen Not fittedStarboard Screen Wheelhouse Top Marine Screen 37 1.3 7 3 7 6 2Psychrometer Not fittedAneroid Barometer Wheelhouse PAB, Barograph 34 ~1.5SST Hull Sensor -4
Note 1 The anemometer is positioned 1.5 m from the mast with diameter 30 cm. Wind is funnelled around the accommodationblock giving eddies over the monkey island. The method of wind measurement is visual.
Note 2 The screen is positioned on the aft port leg of the signal mast 1.3 m above the steel deck of the wheelhouse top, 15 minboard and 23 m forward of the funnel. An intermittent exhaust fan is sited 4 m from the screen on the port side andnatural vents from the wheelhouse are sited 12 m from the screen on both the port and starboard sides. Thermometersare electric resistance.
The Atlantic Conveyor has made 809 observations in the North Atlantic between 54°N and 37°N
- 93 -
Natural Exhausts
Scanner
Signal Mast
Radar Platform
Screen
Wind Vane Cup Generator
AnemometerScreen
230m63m
ATLANTIC CONVEYOR - CALLSIGN GZMM
MWL
8m
15m
32m
Plan of Wheelhouse Top
View of signal mast from forward
- 94 -
NICKERIE - CALLSIGN VRAZ
Length: 108 mBreadth: 16 mDraft: 6 mType: Banana ShipRecruiting Country: BritainReference Level: 13±4 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1
11
3
1
102
1
1
113
1
11
11
1
122
10
1
42254
1222
1061
2131
741
1
52293
1
2
51283
1
2
5
492
1
13
25
1
2
43174
1
1
42391
21
5
56
1
1213181
1
23159
11
24153
112532
101
1
16357
1
1515
12645
1
1525
1
1
663
1
11549
1547
364
13751
1
154
1
591
1
73
25 3 1
1 1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Starboard mainmast gardarm Propeller vane - Seiki, Japan 24 10 9 9 9 4 1Port Screen 5 m above bulwark Marine Screen 12 0.7 4 1 6 8 2Starboard Screen 5 m above bulwark Marine Screen 12 0.7 4 8 6 1 2Psychrometer Not fittedAneroid Barometer Chartroom Barograph, PAB 13 1.5SST Bucket Rubber 3
Note 1 The anemometer is well exposed but the method of wind measurement is visualNote 2 Screens are lashed to open metal rails 70 cm above a steel deck with rubber matting and 1.5 m from the ship's side.
Both are sheltered to the front by a solid metal bulwark with a wind deflector. Thermometers are mercuryNote 3 The bucket is lowered from the leeward side of the Bridge Wing
The Nickerie has made 553 observations in the North Atlantic between 50°N and 30°N
- 95 -
mwl
NICKERIE - CALLSIGN VRAZ
Midship - Front View
screen
screen
barometer
Navigation Bridge DeckCompass Bridge Deck
anemometer
anemometer
screen
anemometer
screenscreen
108m
solid metal bulwark
open metal rails
open metal rails
- 96 -
CANMAR AMBASSADOR - CALLSIGN VSBV3
Length: 231.5 mBreadth: 30.6 mDraft: 10.6 mType: ContainerRecruiting Country: BritainReference Level: 21±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
167
52
119
84
1953
732
1745
82
1666
833
469
815
3891
511
11837
624
12
1024
614
12928
623
182
10
9
5
210
18
61
2
1816
723
39275614
1
17268212
217329322
11734
11423
11746
111
4
774
10312
461
13
2
1259
123
4
1295
122
1
283
132
3
373
121
3
244
142
3
110
312
12
192
1413
193
14
2
76
1113
74
17
1
73
15
3
64
16
2
58
12
3
44
163
1013
2
11115
3
21014
3
1711
2
1392
1911
2011
186
132
9
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Mast on wheelhouse Munroe 30 10 6 5 9 9 1Port Screen Bridge Wing Marine Screen 25 1 1 5 7 9 2Starboard Screen Bridge Wing Marine Screen 25 1 1 9 7 5 2Psychrometer Not fittedAneroid Barometer Wheelhouse Barograph, PAB 25SST Bucket RubberASAP
Note 1 The method of wind measurement is visualNote 2 The screens are positioned on a walkway behind the Bridge. They are 4 m inboard and clear of the superstructure.
Thermometers are mercury
The Canmar Ambassador has made 1377 observations in the North Atlantic between 54°N and 44°N
- 97 -
CANMAR AMBASSADOR - CALLSIGN VSBV3
Navigation Bridge Deck
Anemometer
Screen
screen
screen
funnel
Enclosed Bridge
walkway
231.5m
mwl
- 98 -
AMERICANA - CALLSIGN IBPA
Length: 208 mBreadth: 30.6 mDraft: 10.4 mType: Ro - Ro / ContainerRecruiting Country: USAReference Level: 24 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1 11
1 1
1
1 1 11
1
1
1
1
1
1
1
1
11 1
1 11 1 1 1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Unknown 1Port Screen Bridge Wing 24 1.7 2Starboard Screen Bridge Wing 24 1.7 2Psychrometer Not fittedBarometer Chartroom 24 1.0SST Engine room intake -5
Note 1 Method of wind measurement is visualNote 2 Screens are small and are made of white plastic. Screens are sheltered by the wheel house and a wind deflector to the
front.
The Americana has made 34 observations in the North Atlantic
- 99 -
AMERICANA - CALLSIGN IBPA
208 m
Wind Deflector
Screen
Screen
- 100 -
SEALAND ATLANTIC - CALLSIGN KLRZ
Length: 290 mBreadth: 32 mDraft: 12 mType: Container ShipRecruiting Country: USAReference Level: 31±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1
11
3241
1
12
1
432
1
2
1
3212
1
22
12
12
122
2112
11
321
1
111111
1
1312
1111
1
4112
1121
1
32111
33
1
1
1
21211
21
1
1
1
24
1
2
211
1
112
1
1
211
1
2
11
11312
1
1
111121
12111
1
1
111
222121
1
1
11
1
11123
11
1
12
1
3211
11
1
12
1
2
211
11
212
1
11
1
1
1211
1
1
121
1133
1
2
2
1
1
21
1
2
22
1
112
1
221
1
111
13
2
1
1
3221
1
1
12
2
31
1
13 1
212
1
42 3
11
42
1
1
1
222 2
22 4 2
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Pole on port of bridge deck ~38 6.4Port Screen Shelter on bridge deck ~32 ~1.5 1Starboard Screen Shelter on bridge deck ~32 ~1.5 1Psychrometer Not fittedBarometer Chartroom ~32 ~1.8SST BucketSST Engine room intake ~-8
Note 1 Thermometers are mercury
The Sealand Atlantic has made 415 observations in the North Atlantic between 31°N and 50°N
- 101 -
SEALAND ATLANTIC- CALLSIGN KRLZ
mwl
290 m
anemometer pole
screens
porch
funnel
porch
- 102 -
JULIUS HAMMER - CALLSIGN KRGJ
Length: 207 mBreadth: 27 mDraft: 10 mType: TankerRecruiting Country: USAReference Level: 15±4 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
21
3 11
21
12
1
2211
1
1
2111
1221
21
1
1
21
1
1
1
1
1
1
2
11
1
11
1
1
1
1
11
1
11
11
11
2
1
11
2
2
1
11
1
1
12
1
1
1
2
1
1111
1
1
12
11
1
12
1
12
1
11
211
11
11
1
1
211
1
1
1
11
111
1
2
1
1
12
1
2
3
1
1
1
1
12
1
2
21
1
1
1
112
11
3
1
1
1
22
1
11
21
2
11
21
21
11
1
1
111
21
21
1
1
2
21
11
1
11
211
11
21
1
12
12
12
1
1
21
21
1
1
2
1
11131
1
11
1
2
13
1
12
21
32
22
11
42
12
1
2122
1121
332
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Port Screen Not fittedStarboard Screen In shelter on Bridge Wing Taylor Instruments 27.5 1.8 4 8 1 0 2Psychrometer Not fittedAneroid Barometer Wheelhouse NWS Marine Barometer, Belfort
Instrument Company27.5 1.8
SST Engine room intake -5
Note 1 The method of wind measurement is visualNote 2 The white wood screen is located on the starboard side of the exterior bulkhead of the wheelhouse. Thermometers are
mercury
The Julius Hammer has made 349 observations in the North Atlantic between 30°N and 43°N
- 103 -
207 m
JULIUS HAMMER - CALLSIGN KRGJ
measurement site
Wheelhouse
solid metal bulwarkopen metal rails
funnel
funnelscreen
mwl
- 104 -
MARGARET LYKES - CALLSIGN KRJL
Length: 202 mBreadth: 25 mDraft: 8 mType: Container ShipRecruiting Country: USAReference Level: 15±1 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
33 2
1
11
234
122
1431
1
223
1611
1
1121
15
5
1
321
222
2
121111
1
411
23131
2
221
32121
112
1
11
23131
1
1
11
3
1111
12121
21
212
1
1132
111
21
112
1
1
2
31
211
11
11
3112
11
2
1
1
2
13122 1
2
1
1132111
1
3
1
1
2
132
1
1
1
1
1
3211
2
1
2111
1
1
12
1
3
1
112
1
1
1
2121
1111
1
1
1
1
121
1
21
221
1
1
211
11111
1
1
2
121
1
11132
1
11113
1
1221
11
21
11
1
12
2
122
2
1
213
2
13
1
1
13
1
1
2
151
231
1
2
111
1
4
1
31
1
52
2141
1
11
223
23
22
13
12 4 1 1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Port Screen Porch on Bridge Wing Taylor Thermometers 28 3 7 4 7 2Starboard Screen Porch on Bridge Wing Taylor ThermometersPsychrometer Not fittedAneroid Barometer Chartroom Barometer, National Weather Service
Barograph, Bendix Friez28
SST Engine room intake -1
Note 1 Method of wind measurement is visualNote 2 Screens are located in the 'porches' of the Bridge Wings and are made of white wood (starboard screen has brown
wood inside). Screens are fitted to the side of the wheelhouse above the level of the solid metal bulwark whichsurrounds the Bridge Wing. Thermometers are mercury
The Margaret Lykes has made 539 observations in the North Atlantic between 30°N and 50°N
- 105 -
screen
mwl
202 m
funnel
screen
Wheelhouse sheltered area
solid metal bulwark
MARGARET LYKES - CALLSIGN KRJL
screen
- 106 -
SHELDON LYKES - CALLSIGN KRJP
Length: 202 mBreadth: 25 mDraft: 8 mType: Container ShipRecruiting Country: USAReference Level: 22 ± 2 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
24 2
11 1
131
1
41
11
2
1
42
2
1
122
221
1
121
132
1
31133
2 2312
121
211
1121
4 122
112
12
1
113
1
2
1
1121
111
1
211
1
1
12
3
1
1
1
1
1112
1
11
2
1
2
11
21
1
1
1
2
1
2
1
111
1
1
22
2
1
1
1211
1
22
1
1
1
11
1
311
1
1
132
1
1
1
1
11
1
122
1
1
1
1121
1
1
1
11 3
1
2
1
111
1
31 1
13
1
1
22
12
12 1
11 2
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Port Screen Porch on Bridge Wing Taylor Thermometers 22 1.5 2Starboard Screen Porch on Bridge Wing Taylor Thermometers 22 1.6 2Psychrometer Not fittedBarometer Chartroom Unites States Weather Bureau 22 1.7SST Engine Room Intake -7
Note 1 The method of wind measurement is visual.Note 2 The screens are made of brown wood and are shielded to the front.
The Sheldon Lykes has made 299 observations in the North Atlantic between 30°N and 50°N
- 107 -
mwl
202 m
SHELDON LYKES - CALLSIGN KRJP
funnel
screen
Wheelhouse sheltered area
solid metal bulwark
screen
- 108 -
SEALAND COMMITMENT - CALLSIGN KRPB
Length: 290 mBreadth: 32 mDraft: 12 mType: Container ShipRecruiting Country: USAReference Level: 31±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
3 3 1 12
3
12
12
3122
1
2
3
3111
112312
2
13
1
2212
22
31
1113
3
112
3
12
221
1
112
22131
1
2
2
1
21
22
1211
1
1131
11
311
1
2
2
2
1421
2
1
1
12
22
1
112
1
1
15
1
1
211
1
1
1
2
1
12
12
33
1
1
1
1
1
12
41
1
21
1
1
111
511
122
1
2
1
13
1
13
3112
1
1
11
1
112114
2
1
1
22
11
1
3
1
11
122
1
3
144
1
12
1
1
1
2
241
21
2
1
11
132
1
111
4
2
31
1
11
221
112
1
2
232
21
2
11
1
5
3
41
111131
11
32
11132
2131
11
3
233
1121
12
2
355
2 22
26 3 2 1
1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Mast on Bridge Deck 37.5 6.4Port Screen Shelter by Wheelhouse 32.7 1.6 1Starboard Screen Shelter by Wheelhouse 32.7 1.6 1Psychrometer Not fittedAneroid Barometer Chartroom 33 1.8SST Engine room intake -7.8
Note 1 Screening is grey metal and there is very little air movement in the box. Thermometers are electric resistance
The Sealand Commitment has made 522 observations in the North Atlantic between 31°N and 50°N
- 109 -
SEALAND COMMITMENT- CALLSIGN KRPB
mwl
290 m
anemometer pole
screens
porch
funnel
porch
- 110 -
DELAWARE BAY - CALLSIGN WMLG
Length: 206 mBreadth: 32 mDraft: 11.5 mType: ContainerRecruiting Country: USAReference Level: 25 ± 1 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1 1
11
1 1
3
2
1
1
1
12
12
1
1111
1
1
1
1
2
1
1
132
11
1
1
1
233
1
111
1
1
1
32
1
2 23
1
1
12
1
14
1
1
3122
1
4
1
22
12
2
212
323
1
23
43
1
1
21
32
11
1
111
2
1
111
1
21
2
1
2
1
11
2
12
11
21
2
11
12
1
22
1
1112
2
1
1
11
2
1
1
1
1
211
1
1
1
21
1
21
1
11
2
1
12
1
1
21
1
111
1
1111
1
12 2
11
1
1 2 1
1
2
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Antenna Mast Unknown 36.6 9.1 1Port Screen Not fittedStarboard Screen Below Rail (Bridge Deck?) Unknown 27.4 0.8 2Psychrometer Not fittedBarometer Unknown National Weather Service 27.4 1SST Engine room intake -9
Note 1 Anemometer is not well exposed as there are many antennae in the same region.Note 2 Screen is fitted below the level of the rail and thermometers are in a white wooden box.
The Delaware Bay has made 276 observations in the North Atlantic between 32°N and 59°N
- 111 -
DELAWARE BAY - CALLSIGH WMLG
antenna mast
shielded area
screen
- 112 -
ADABELLE LYKES - CALLSIGN WPFZ
Length: 202 mBreadth: 25 mDraft: 8 mType: Container ShipRecruiting Country: USAReference Level: 22 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
11 1
11
41
1
14
16
1
1
111
15
1
12
1
51 1
1
32
1
31
1
122
1
111
1
232
1
21
1
23
11111
142
2
1
331
31
1
113
25 1
2
1
2411
121
1
22131
2
11
1
2
12
211
1
3
13
2
12
1
11
121
11
13
1
13
111
11
1
122
1
11
1
1
122
2
12
1
121
11
1
1
2
11
11
1
22
1
1
222
1
1
1
1
222
11
1
2
12
222
1111
11
2
1
115
11
11 2
4
1
1121
121
1
32 5
1
11
221
22
122
21
13
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fitted 1Port Screen Porch on Bridge Wing Weksler thermometers 37 1.4 0 3 4 3 2Starboard Screen Not fittedPsychrometer Not fittedBarometer Chartroom Analogue, Weksler Instruments 37 1.4SST Engine room intake -6
Note 1 Method of wind measurement is visualNote 2 Screen is made of brown varnished wood and is located in the 'porch' of the Bridge Wing of the port side. It is fitted to
the side of the wheelhouse above the level of the solid metal bulwark which surrounds the Bridge Wing
The Adabelle Lykes has made 359 observations in the North Atlantic between 30°N and 50°N
- 113 -
screen
mwl
202 m
funnel
screen
Wheelhouse
sheltered area
solid metal bulwark
ADABELLE LYKES - CALLSIGN WPFZ
sheltered area
- 114 -
CHARLOTTE LYKES - CALLSIGN WPHZ
Length: 202 mBreadth: 25 mDraft: 8 mType: Container ShipRecruiting Country: USAReference Level: 20 ± 0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
73 5
11
342
1
142
1643
1
4
2
1
1313
341
11
4
1
1331
2
411
113122
62121
51
2
122411
42
121
1342
2
1
51111
2112
31
511111
1231
22
4213
13113111
21131
11
22212
14211
21
311
132122
1
1
23
1212232
1
1
21
12
224
1
112
2
1
12
1141
1
1
1
12
1
11
1323
1
1
13
2
1
12322
1
12
1113
1
1
1
132
12
1
11
1
1
21
1211
12
2213
11
1
1
1
1121
2
1
321
1
1
13
131
111
212
111
11212
1
112
1311
11
111
12
2121
1
221
111
122
11311112
12
221
411114
1
2
14
51
1121
11
1
13
122
13314
21
1
5262
232
1513
57
332
63
43 5 4 1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Not fittedPort Screen Bridge deck 24.4 1.2 1Starboard Screen Bridge deck 24.4 1.2 1Psychrometer Not fittedBarometer Unknown National Weather Service Barometer 24.4 1.3SST Engine room intake -6
Note 1 Port and starboard screens are shielded just behind the forward part of the bridge deck. Screens are of brownvarnished wood.
The Charlotte Lykes has made 709 observations in the North Atlantic between 30°N and 50°N
- 115 -
mwl
202 m
CHARLOTTE LYKES - CALLSIGN WPHZ
funnel
screen
Wheelhouse
sheltered area
solid metal bulwark
sheltered area screen
Bridge Deck
- 116 -
GALVESTON BAY - CALLSIGN WPVF
Length: 290 mBreadth: 32 mDraft: 12 mType: Container ShipRecruiting Country: USAReference Level: 31±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
4 2 1 1321
111
1525
1
12121
23331
2
131
25131
21
15
22322
13
22
1
2211
33
321
21111
1131221
21112
211124
112134
211
1
21431
21
21
1
12241
2
2
1
2
1
111341
1
1112
3
1
3
131
4123
1
11
31
113132
1
11
1
2
21
112313
1
1
1
121
1
1
11111
11
2122111
1
131
1
11
2111
1
132
1
112
221
11
1
3211
1111
121
11
1
12
11
1222
11111
1
211
113212
1
2
13
11
4
31
2
11
2
31
11111
2
2132
2
1
221
121113
41
1
14
2
21
1
1
331
33
122
11
211
121232
2
21
31141
2124
12
21
522
1
5
123
142
11
22 1
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Mast on Bridge Deck Seiki F235 37.5 6.4 9 9 9 9 1Port Screen Bridge Deck Murmberg Thermometers 32.7 1.6 1 0 0 7 2Starboard Screen Bridge Deck Murmberg Thermometers 32.7 1.6 1 7 0 0 2Psychrometer Not fittedAneroid Barometer Chartroom Barograph, USWB G101 33 1.9SST Engine room intake -7.8
Note 1 Anemometer appears to be well exposedNote 2 Rating exaggerates exposure?. Screens are grey metal and thermometers are mercury.
The Galveston Bay has made 609 observations in the North Atlantic between 31°N and 50°N
- 117 -
anemometer
screen
GALVESTON BAY- CALLSIGN WPVF
mwl
290 m
solid metal bulwark
wind deflector
screens
porch
funnel
porch
Wheelhouse Top
anemometer pole
- 118 -
NEDLLOYD HUDSON - CALLSIGN WPWH
Length: 290 mBreadth: 32 mDraft: 12 mType: Container ShipRecruiting Country: USAReference Level: 32±0.5 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
13 1
82
2
1
136
121
1152
131
1
33
151
1
31 5
3
11
1
271
11
1
1133 3
1
215
1
32
1
1131
25
1
1
1
1
233
1
1
2
1
213
1
141
1
2
1
1
1331
1
1
1112
14
1
2
2
11
11
32
1
11
2111
1
12
2
1
1
321
1
1
2
1
1
1
112
1
21
1
1
1
1
42
11
2
1
11
312
2
1
23
1
12
1
1111
1
12
1
11
2
11
11
2
1
11
51
1
11
111
11
111
1
121
3
1111
1
411
3
121
2
1
1
1
1111
3
21
312
41111
13
4
12
3331
1
1
123
11
212
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer Mast on Bridge Deck Seiki F235 37 7 9 9 9 9 1Port Screen Bridge Deck Murmberg Thermometers 32 1.5 1 0 0 7 2Starboard Screen Bridge Deck Murmberg Thermometers 32 1.5 1 7 0 0 2Psychrometer Not fittedAneroid Barometer Chartroom Analogue, USWB G101 32 1.8SST Engine room intake -7.8
Note 1 Anemometer appears to be well exposedNote 2 Rating exaggerates exposure?. Screen is chrome metal, thermometers are mercury
The Nedlloyd Hudson has made 427 observations in the North Atlantic between 32°N and 50°N
- 119 -
anemometer
screen
NEDLLOYD HUDSON - CALLSIGN WPWH
mwl
290 m
solid metal bulwark
wind deflector
screens
porch
funnel
porch
Wheelhouse Top
anemometer mast
- 120 -
LYRA - CALLSIGN WSDG
Length: 193 mBreadth: 27 mDraft: 9 mType: Container ShipRecruiting Country: USAReference Level: 9 m asl
-80 -60 -40 -20 030
35
40
45
50
55
60
1 1 11 1
11 1
1
1
1
1
11
11 1
1
11
1
1
1
1
1
1
1
11
1
1
1
1
1
1
1
1
1
1
1
11
11
1
1
11
1
1
1
1
1
1
11
1
1
1
1
1
1
11
1
11
1
1 1
1
1
1
1
11
1
1
11
11
11
1
2
1
1
11
1
11 1
1
11 1
1
1
1
1
11
11 1 2 1
11
11
1 11
Instrument Location Instrument Type Height Height Above Exposure SeeASL (m) Deck (m) 315-
045045-135
135-225
225-315
Note
Anemometer On mast Thomas Walker 29 2 9 9 9 9Port Screen In shelter on Bridge Wing Taylor 27 1 0 0 3 3 1Starboard Screen In shelter on Bridge Wing Taylor 27 1 0 3 3 0 1Psychrometer Not fittedAneroid Barometer Wheelhouse Barograph, USWB 27.4 ~1.8SST Engine room intake -6.4 2
Note 1 The wooden screens are located inside the Bridge Wing 'porch'. Thermometers are mercury.Note 2 Inlet temperatures are cross checked with another thermometer at the pump.
The Lyra has made 124 observations in the North Atlantic between 30°N and 50°N
- 121 -
mwl
193 m
LYRA - CALLSIGN WSDGanemometer
screen
Wheelhouse Top
screen
Wheelhouse
sheltered area
sheltered area
screen
- 122 -
- 123 -
APPENDIX 1 HULL SENSOR SPECIFICATIONS
In view of the recommendation that hull sensors should be fitted to VoluntaryObserving Ships whenever possible, details of hull sensors used by the United Kingdom andthe Netherlands Meteorological Services are given in this appendix.
A1. United Kingdom hull-mounting sea-temperature sensor Mk. 2
A platinum resistance element, wound in the form of a thin plate (A in Figure A1a), isfitted behind and in close contact with a copper plate let into a disc of synthetic resin-bondedfibre, B. The disc is fitted inside a ring C, either of resin-bonded fibre fixed with adhesive tothe inside of the ship’s hull below the water-line, or of stainless steel welded to the ship’s hull.The mounting position needs to be as free as possible from curvature to allow maximumcontact between the hull and the copper plate. The output from the element is fed to a manuallybalanced bridge indicator or an automatic digital temperature indicator.
A2. Netherlands hull-contact sensor PT100
The sensor is fitted within a seamless steel pipe fitted to the ship’s hull. Isolating glassfibre is packed around the sensor and a plastic lid then covers the instrument. The sensor isshown in Figure A1b
Figure A1 UK Hull Contact Sensor (a) Netherlands Hull Contact Sensor (b)