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==Early results from our work==
 
==Early results from our work==
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<div style="float: left; vertical-align: bottom; margin-right: 20px; margin-bottom: 20px; background:#dcdcdc; border: 1px solid #b0c4de; width: 1000px;">
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    <div style="background: #b0c4de; padding: 5px 10px 5px 10px; font-size: larger; font-weight: bold;">What size were the ships?</div>
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    <div style="padding: 10px;">
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<div style="font-famil:Garamond; font-size: normal;">'''The starting point of our work this summer has been to create a semi-structured database containing quantitative and qualitative data about commercial and naval ships mentioned in English High Court of Admiralty documents between 1630 and 1669. This database draws on the work of our volunteers over the last five years, with transcriptions of depositions, charter parties, and bills of sale forming the main source of data for the database.'''</div>
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[[File:Ship Size Ver2 10072017.JPG|600px|thumbnail|left|]] We have ship tonnage data for 429 ships, of which the vast majority are commercial (n=407) and a small group are naval (n=22), mainly ships in the immediate service of the English Commonwealth, together with English private men of war, and a smattering of non-English naval vessels.
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There are two clear peaks in the data for commercial ships - the first peak is in the 55 to 99 ton burthen category and the second peak is in the 200 to 249 ton burthen category.
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Admiralty Court witnesses refer to ships of 50 and 60 tons as "small" and ships of 300 to 350 tons and above as "large". The smallest ton burthen category in our analysis (1-49 ton burthen) contains lighters, some barges and hoys, and other small river and coastal vessels.
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</div>
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</div>
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<div style="float: left; vertical-align: bottom; margin-right: 20px; margin-bottom: 20px; background:#dcdcdc; border: 1px solid #b0c4de; width: 1000px;">
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    <div style="background: #b0c4de; padding: 5px 10px 5px 10px; font-size: larger; font-weight: bold;">What size were the smaller commercial ships?</div>
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    <div style="padding: 10px;">
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<div style="font-famil:Garamond; font-size: normal;">'''High Court of Admiralty witnesses sometimes describe commercial vessels using specialised vocabulary. For example, hoys, lighters, and ketches. We have analysed these data to explore ship size by specialised type.'''</div>
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[[File:Commercial Ship Size 14072017.JPG|700px|thumbnail|left|]] We have ship tonnage data for forty commercial vessels classified by vessel type. Clearly the sample sizes are very small for many of these vessel types.
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We would be interested in our readers comments on these data.
 +
 +
Are the averages and ranges in the same ballpark as data in the hands of our readers, both from the C17th and earlier and later periods?
 +
 +
What can you tell us about the use to which these different types of commercial vessel were put?
 +
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Riverine versus coastal versus longer distance use? Cargo types? Crew and gun levels? Rental rates?
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</div>
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</div>
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<div style="float: left; vertical-align: bottom; margin-right: 20px; margin-bottom: 20px; background:#dcdcdc; border: 1px solid #b0c4de; width: 1000px;">
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    <div style="background: #b0c4de; padding: 5px 10px 5px 10px; font-size: larger; font-weight: bold;">How much did it cost to transport a ton of goods between ports?</div>
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    <div style="padding: 10px;">
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<div style="font-famil:Garamond; font-size: normal;">'''C17th commercial ships could be rented by the month or by the voyage, or freight tonnage could be purchased for a voyage for a specific commodity type. We have collected freight rates for different types of commodity and for different port to port combinations and present our early analysis here. Most of our observations are from the period 1650 to 1666.'''</div>
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[[File:Freight Rates Per Ton 18072017.JPG|600px|thumbnail|left|]]
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Our current dataset for tonnage based freight rates consists of forty-four observations for a range of fine, coarse and bulk goods.
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They cover short transportation distances, such as London to Rouen and Kingsale in Ireland to London through medium distances, such as Cyprus and Scanderoone to London and Brazil to Lisbon, and long distances, such as Bantam in the East Indies to London.
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The outbreak of war had significant impact on tonnage based freight rates. For example, war between England and the United Provinces in the early 1650s, sharply pushed up freight rates on galls and cotton wool from the Eastern Mediterranean to London.
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Driving the higher freight rates during times of war was the need to have higher manning levels on ships, higher mariner wages per man, and higher gun intensity per tun of ship burthen.
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</div>
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</div>
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<div style="float: left; vertical-align: bottom; margin-right: 20px; margin-bottom: 20px; background:#dcdcdc; border: 1px solid #b0c4de; width: 1000px;">
 +
    <div style="background: #b0c4de; padding: 5px 10px 5px 10px; font-size: larger; font-weight: bold;">How much did it cost to transport a ton of goods between ports?</div>
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    <div style="padding: 10px;">
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<div style="font-famil:Garamond; font-size: normal;">'''Our latest data table for mid-C17th freight rates per ton of goods transported'''</div>
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[[File:Freight Rates 19072017.JPG|600px|thumbnail|left|]]
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Our current dataset for tonnage based freight rates consists of fifty-two observations for a range of fine, coarse and bulk goods.
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</div>
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</div>
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<div style="float: left; vertical-align: bottom; margin-right: 20px; margin-bottom: 20px; background:#dcdcdc; border: 1px solid #b0c4de; width: 1000px;">
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    <div style="background: #b0c4de; padding: 5px 10px 5px 10px; font-size: larger; font-weight: bold;">How much did it cost to rent a ship by the month?</div>
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    <div style="padding: 10px;">
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<div style="font-famil:Garamond; font-size: normal;">'''C17th commercial ships could be rented by the month or by the voyage, or freight tonnage could be purchased for a voyage for a specific commodity type. Monthly rental rates can be found in notarised charter parties, which were submitted as schedules in support of High Court of Admiralty cases. Alternatively, monthly rental rates are sometimes recited by witnesses in their Court depositions.'''</div>
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[[File:Monthly Ship Rental Rates 13072017.JPG|600px|thumbnail|left|]]
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Our current dataset for monthly rentals consists of forty-nine ships.
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Twenty-seven of these are rental rates for hull plus apparel, tackle, furniture and ordinance, but excluding provisions and wages, which were to be paid directly by the renting agent.
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Fourteen are rental rates for hull plus apparel, tackle, furniture and ordinance and including provisions and wages, which were to be paid by the ship owner and recovered through the monthly rental. We know the monthly rental rates for three of these fourteen also on the basis of excluding provisions and wages.
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Finally, we have eight rental rates for which it is unclear on what basis the rentals were contracted.
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</div>
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</div>
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<div style="float: left; vertical-align: bottom; margin-right: 20px; margin-bottom: 20px; background:#dcdcdc; border: 1px solid #b0c4de; width: 1000px;">
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    <div style="background: #b0c4de; padding: 5px 10px 5px 10px; font-size: larger; font-weight: bold;">How much were ships worth?</div>
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    <div style="padding: 10px;">
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<div style="font-famil:Garamond; font-size: normal;">'''We are at an early stage of analysing value of ships. Our current data look at the value of ships for the hull plus apparel, tackle and furniture and often also the ordinance on board the ship. We distinguish between unnotarised and notarised values, with notarised values referring to specific bills of sale and unnotarised values often based upon witness estimates of ship value given in court for ships seized during voyages.'''</div>
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[[File:Ship Value Per Ton Burthen 13072017.JPG|600px|thumbnail|left|]]
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Our current dataset consists of one hundred and one ships, of which seventy-eight ship values are unnotarised and twenty-three ship values are notarised. Notarised values are lower (average = £3.90 per ton of ship burthen) comparised with unnotarised vales (average = ££6.40 per ton of ship burthen). Notarised values show a significantly tighter range around the average and mean than do unnotarised values.
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We are working on disambiguating our data, but believe the differences in averages, means and range are due to the unnotarised data being more mixed in nature. Specifically, unnotarised data tends to be generated from witness statements of ship value following the seizure of a ship. We have excluded witness valuations of ships where it is clear that the outward, interim or return lading of the ship has been included in the witness valuation. Similarly, we have excluded witness valuations of ships where it is clear that an outward monetary stock has been included in the valuation.
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However, even with these exclusions, the valuation of ships during their voyage usually includes some portion of the provisions carried on board the ship. If a seizure is early in a planned long voyage, these provisions could amount from anything between six and twenty months.
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Moreover, the valuations of ships during their voyage will include some attribution of value to the refitting and setting out of a ship prior to a voyage, which can vary in the case of the hull from repairs to full graving and caulking or even resheathing, and in the case of the apparel, tackle and furniture, can include totally new provision of sails, rigging, blocks and other materials.  Witnesses appear to make some allowance for the wear and tear of a ship on a long voyage and sometimes comment on this when giving their unnotarised valuations in their depositions in the High Court of Admiralty.
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We plan to add ship inventories to our database, sourced from High Court of Admiralty appraisements of seized ships. These inventories will provide detailed breakdowns of the value of the physical components of ships in this period.
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</div>
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</div>
  
 
<div style="float: left; vertical-align: bottom; margin-right: 20px; margin-bottom: 20px; background:#dcdcdc; border: 1px solid #b0c4de; width: 1000px;">
 
<div style="float: left; vertical-align: bottom; margin-right: 20px; margin-bottom: 20px; background:#dcdcdc; border: 1px solid #b0c4de; width: 1000px;">
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[[File:Ship Age 10072017.JPG|600px|thumbnail|left|]]
 
[[File:Ship Age 10072017.JPG|600px|thumbnail|left|]]
  
Dr Ian Friel has shared with us [https://twitter.com/DrIanFriel/status/884360083634892800 a summary of data from his unpublished survey of High Court of Admiralty documents from the 1580s]. His data are for a period forty to eighty years earlier than our own High Court of Admiralty data. Ian's survey found ages for thirty-nine ships, with an average age of nearly fifteen years and twenty-nine of them of ten years or more in age.
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[https://twitter.com/DrIanFriel Dr Ian Friel] has shared with us [https://twitter.com/DrIanFriel/status/884360083634892800 a summary of data from his unpublished survey of High Court of Admiralty inventory documents from the 1580s]. His data are for a period forty to eighty years earlier than our own High Court of Admiralty data. Ian's survey found ages for thirty-nine ships, with an average age of nearly fifteen years and twenty-nine of them of ten years or more in age.
  
 
Comparison of textual and numerical data for 1630-1670, with the bulk of the data from the 1650s, suggest Admiralty Court witnesses regarded ships aged between zero and five years as "new" and ships of fourteen years and above as "old".
 
Comparison of textual and numerical data for 1630-1670, with the bulk of the data from the 1650s, suggest Admiralty Court witnesses regarded ships aged between zero and five years as "new" and ships of fourteen years and above as "old".
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     <div style="padding: 10px;">
 
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<div style="font-famil:Garamond; font-size: normal;">'''The size of our dataset for the analysis of tons of ship burthen per crew member is one hundred and sixteen. We have crew size data for one hundred and seventy-two ships, but lack ship burthen data in tons for fifty-six of these.'''</div>
 
<div style="font-famil:Garamond; font-size: normal;">'''The size of our dataset for the analysis of tons of ship burthen per crew member is one hundred and sixteen. We have crew size data for one hundred and seventy-two ships, but lack ship burthen data in tons for fifty-six of these.'''</div>
 
 
The average crew size for the larger dataset is 47.3, including six exceptionally manned men of war with 275 or more men per ship (n = 172). The average crew size for the smaller dataset, where we have crew number and ship tonnage is 36.5 (n=116).
 
The average crew size for the larger dataset is 47.3, including six exceptionally manned men of war with 275 or more men per ship (n = 172). The average crew size for the smaller dataset, where we have crew number and ship tonnage is 36.5 (n=116).
  
 
[[File:Tons Ship Burthen Per Crew Member 09072017.JPG|600px|thumbnail|left|]]
 
[[File:Tons Ship Burthen Per Crew Member 09072017.JPG|600px|thumbnail|left|]]
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</div>
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</div>
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<div style="float: left; vertical-align: bottom; margin-right: 20px; margin-bottom: 20px; background:#dcdcdc; border: 1px solid #b0c4de; width: 1000px;">
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    <div style="background: #b0c4de; padding: 5px 10px 5px 10px; font-size: larger; font-weight: bold;">How many guns were enough to defend a ship?</div>
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<div style="font-famil:Garamond; font-size: normal;">'''We have addressed this question by looking at the number of guns mounted on commercial and naval ships per hundred tons of ship burthen. The size of the relevant dataset is one hundred and twenty-nine ships, of which one hundred and six are commercial and twenty-three are naval.'''</div>
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[[File:Guns Per 100 Ton Burthen 11072017.JPG|600px|thumbnail|left|]] There is a huge range in gun intensity per hundred tons of ship burthen amongst commercial ships, with some, particularly the small commercial ships, carrying no guns or just lightly armed, and other commercial ships as heavily armed as naval ships.
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We are in the process of analysing these commercial data by geography and by commodity as well as by year to look for patterns within the commercial data.
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Amongst the naval ships (a category which includes both ships in the immediate service of a state as well as private men of war under commissions from a state), there is a clear pattern for smaller ships to be particularly heavily gunned.
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</div>
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</div>
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<div style="float: left; vertical-align: bottom; margin-right: 20px; margin-bottom: 20px; background:#dcdcdc; border: 1px solid #b0c4de; width: 1000px;">
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    <div style="background: #b0c4de; padding: 5px 10px 5px 10px; font-size: larger; font-weight: bold;">Digging into the data on how many guns were enough to defend a ship</div>
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    <div style="padding: 10px;">
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<div style="font-famil:Garamond; font-size: normal;">'''The difference in gun intensity amongst commercial ships is likely to be driven by the relative value of cargo carried per ton of ship burthen and the level of predation on commercial shipping in the geographies in which ships traded.'''</div>
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[[File:Guns Per 100 Ton Burthen Segmented Commodity 11072017.JPG|600px|thumbnail|left|]]
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Commercial ships carrying salt had few if any guns, in contrast to ships carrying Canary wines or cotton wool as their main return cargos.
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This is likely to be driven by the low manning levels on salt ships per ton of burthen. Low manning levels meant that there were fewer people available to man guns.
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We are looking at relative freight rates for salt, Canary wines and cotton wool, and at sale prices for different commodities, to see if these also drove gun levels.
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Coal ships are also likely to have had few if any guns. However, most of the coal ship cases in High Court of Admiralty data concern collisions, resulting in court cases which do not ask about guns. Whereas, most of the salt ship cases in the High Court of Admiralty data concern seizures, and elicit Court cases in which gun intensity is relevant and asked about.
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As we dig further into the general commercial category, we should be able to allocate a good portion of these to specific commodity groups and thus be able to improve our analysis of the drivers of guns mounted on commercial ships
  
 
</div>
 
</div>
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     <div style="padding: 10px;">
 
     <div style="padding: 10px;">
 
<div style="font-famil:Garamond; font-size: normal;">'''The size of our dataset for the analysis of crew size and gun number is sixty-nine, where we have both crew size and gun number. We have crew size data for one hundred and seventy-two ships in total and have gun number for one hundred and seventy-nine ships. Twenty-seven of the ships for which we have crew size are men of war and one hundred and forty-five are commercial ships. Forty-two of the ships for which we have gun number are men of war and one hundred and thirty-seven are commercial.'''</div>
 
<div style="font-famil:Garamond; font-size: normal;">'''The size of our dataset for the analysis of crew size and gun number is sixty-nine, where we have both crew size and gun number. We have crew size data for one hundred and seventy-two ships in total and have gun number for one hundred and seventy-nine ships. Twenty-seven of the ships for which we have crew size are men of war and one hundred and forty-five are commercial ships. Forty-two of the ships for which we have gun number are men of war and one hundred and thirty-seven are commercial.'''</div>
The average gun number for just men of war is 22.4. The average gun number for just commercial ships is 12.8.
 
 
 
[[File:Guns Crew Size 07072017.JPG|600px|thumbnail|left|]]
 
[[File:Guns Crew Size 07072017.JPG|600px|thumbnail|left|]]
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The average gun number for just men of war is 22.4 (n=2). The average gun number for just commercial ships is 12.8 (n=137). Our sample of commercial ships where we have tonnage as well as gun number (n=69) has a slightly higher average gun number than for all commercial ships, where only gun number is known.
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The commercial gun number average overestimates the gun carrying propensity of commercial ships, since there is a systematic tendency not to report absence of guns from smaller vessels (vessels of thirty to sixty tons burthen). Many of these vessels, particularly those involved in coastal trade or fishing, as hoys, busses and ketches, would not have carried guns.
  
 
</div>
 
</div>
 
</div>
 
</div>

Revision as of 19:25, July 19, 2017

Our volunteers


MarineLives is a collaborative volunteer driven project. The project started as a spinoff from a National Archives hackathon in early 2012. We are dedicated to the collaborative transcription, linkage and enrichment of primary manuscripts from the High Court of Admiralty, 1650-1669 (with some excursions into data from the 1630s and 1640s).

Currently, we have just over 10,000 images available (29 GB) and 11,400 pages of full text transcriptions on the MarineLives wiki.

Please contact us if you would like to learn more about this summer's project and how you can help, or if you would more generally like to learn about the work of MarineLives volunteers.

Our volunteers
Our volunteers make the MarineLives project special. Do please contact us if you would like to discuss volunteering, or if you have ideas to improve our wiki.

We would like to recognise and thank all those who have contributed to our project (in alphabetical order), whether as volunteer transcribers, annotators, commentators, advisors, interviewees, or PhD Forum participants.



Dr Aquiles Alencar-Brayner
Dr Roberta Anderson
Deborah Ashby
Rachel Bates
Rowan Beentje
Dr Richard Blakemore
Lior Blum
Katie Broke
Dr James Brown
Dr Andy Burn
Elio Calcagno
Michelle María Early Capistrán
Rachel Carter
Giovanni Colavizza
Dr Justin Colson
Thierry Daunois
Dr John Davies
Thomas Davies
Jonathan Dent
Melvyn Dresner
Dr Stuart Dunn
Professor Kai Eckert
Bob Egan
Dr Charlene Eska
Louise Falcini
Emilie-Jane Farrimond
Dr Janet Few
Sara Fox
Dr Ian Friel
Dr Perry Gauci
Marja Geesink
Adam Georgie
Jaap Geraerts
Jamie LH Goodall
Guy Grannum
Colin Greenstreet
Francesca Greenstreet
Adam Grimshaw
Karen Gunnell
Yerevag Hagopian
Dr Liam Haydon
Phillipa Hellawell
Dr Helmer Helmers
Dr Philip Hnatkovich
Rachel E. Holmes
Dr Jenni Hyde
Steve Ives
Alex Jackson
Stefan Jäggi
Elin Jones
Sue Jones
Ross Keel
Dr Patricia Keller
William Kellett
Sara Kerr
John Kuhn
John Layt
Sjoerd Levelt
John Levin
Grace Mallon
Simon Marsh
Dr Alan Marshall
John Miller
Anne Mills
Kate Morant
Matthias Müller-Prove
Professor Steve Murdoch
Dr Shavana Musa
Harriet Richardson
Gordon O'Sullivan
Katherine Parker
David Pashley
Dr Cathryn Pearce
Nga Phan-Bellis
Professor Simone Paolo Ponzetto
Jo Pugh
Patrizia Rebulla
Bethan Reynolds
Daniel Richards
Andrew Richens
Dr Mia Ridge
Dominique Ritze
Dr Gavin Robinson
Margaret Schotte
Steven Schrum
Laura Seymour
Ida Sjoberg
Edmond Smith
Daniel Stewart-Roberts
Chad Stolper
Roger Towner
Alexis Truax
Dr William Tullett
Oliver Turner
Dr Brodie Waddell
Samuel Watson
Jill Wilcox
Royline Williams-Fontenelle
Ad van der Zee
Dr Kathrin Zickermann
Dr Suze Zijlstra
Cäcilia Zirn
and the ever helpful but anonymous @_mapnut



Summer challenge, 2017: How to make money in C17th commercial shipping?


This summer the MarineLives project team is looking at the drivers of profit and loss in C17th commercial shipping. We will publish as we go and welcome comments, contradiction, and offers of help and data.



Early results from our work

What size were the ships?
The starting point of our work this summer has been to create a semi-structured database containing quantitative and qualitative data about commercial and naval ships mentioned in English High Court of Admiralty documents between 1630 and 1669. This database draws on the work of our volunteers over the last five years, with transcriptions of depositions, charter parties, and bills of sale forming the main source of data for the database.
Ship Size Ver2 10072017.JPG
We have ship tonnage data for 429 ships, of which the vast majority are commercial (n=407) and a small group are naval (n=22), mainly ships in the immediate service of the English Commonwealth, together with English private men of war, and a smattering of non-English naval vessels.

There are two clear peaks in the data for commercial ships - the first peak is in the 55 to 99 ton burthen category and the second peak is in the 200 to 249 ton burthen category.

Admiralty Court witnesses refer to ships of 50 and 60 tons as "small" and ships of 300 to 350 tons and above as "large". The smallest ton burthen category in our analysis (1-49 ton burthen) contains lighters, some barges and hoys, and other small river and coastal vessels.

What size were the smaller commercial ships?
High Court of Admiralty witnesses sometimes describe commercial vessels using specialised vocabulary. For example, hoys, lighters, and ketches. We have analysed these data to explore ship size by specialised type.
Commercial Ship Size 14072017.JPG
We have ship tonnage data for forty commercial vessels classified by vessel type. Clearly the sample sizes are very small for many of these vessel types.

We would be interested in our readers comments on these data.

Are the averages and ranges in the same ballpark as data in the hands of our readers, both from the C17th and earlier and later periods?

What can you tell us about the use to which these different types of commercial vessel were put?

Riverine versus coastal versus longer distance use? Cargo types? Crew and gun levels? Rental rates?

How much did it cost to transport a ton of goods between ports?
C17th commercial ships could be rented by the month or by the voyage, or freight tonnage could be purchased for a voyage for a specific commodity type. We have collected freight rates for different types of commodity and for different port to port combinations and present our early analysis here. Most of our observations are from the period 1650 to 1666.
Freight Rates Per Ton 18072017.JPG

Our current dataset for tonnage based freight rates consists of forty-four observations for a range of fine, coarse and bulk goods.

They cover short transportation distances, such as London to Rouen and Kingsale in Ireland to London through medium distances, such as Cyprus and Scanderoone to London and Brazil to Lisbon, and long distances, such as Bantam in the East Indies to London.

The outbreak of war had significant impact on tonnage based freight rates. For example, war between England and the United Provinces in the early 1650s, sharply pushed up freight rates on galls and cotton wool from the Eastern Mediterranean to London.

Driving the higher freight rates during times of war was the need to have higher manning levels on ships, higher mariner wages per man, and higher gun intensity per tun of ship burthen.

How much did it cost to transport a ton of goods between ports?
Our latest data table for mid-C17th freight rates per ton of goods transported
Freight Rates 19072017.JPG

Our current dataset for tonnage based freight rates consists of fifty-two observations for a range of fine, coarse and bulk goods.

How much did it cost to rent a ship by the month?
C17th commercial ships could be rented by the month or by the voyage, or freight tonnage could be purchased for a voyage for a specific commodity type. Monthly rental rates can be found in notarised charter parties, which were submitted as schedules in support of High Court of Admiralty cases. Alternatively, monthly rental rates are sometimes recited by witnesses in their Court depositions.
Monthly Ship Rental Rates 13072017.JPG

Our current dataset for monthly rentals consists of forty-nine ships.

Twenty-seven of these are rental rates for hull plus apparel, tackle, furniture and ordinance, but excluding provisions and wages, which were to be paid directly by the renting agent.

Fourteen are rental rates for hull plus apparel, tackle, furniture and ordinance and including provisions and wages, which were to be paid by the ship owner and recovered through the monthly rental. We know the monthly rental rates for three of these fourteen also on the basis of excluding provisions and wages.

Finally, we have eight rental rates for which it is unclear on what basis the rentals were contracted.

How much were ships worth?
We are at an early stage of analysing value of ships. Our current data look at the value of ships for the hull plus apparel, tackle and furniture and often also the ordinance on board the ship. We distinguish between unnotarised and notarised values, with notarised values referring to specific bills of sale and unnotarised values often based upon witness estimates of ship value given in court for ships seized during voyages.
Ship Value Per Ton Burthen 13072017.JPG

Our current dataset consists of one hundred and one ships, of which seventy-eight ship values are unnotarised and twenty-three ship values are notarised. Notarised values are lower (average = £3.90 per ton of ship burthen) comparised with unnotarised vales (average = ££6.40 per ton of ship burthen). Notarised values show a significantly tighter range around the average and mean than do unnotarised values.

We are working on disambiguating our data, but believe the differences in averages, means and range are due to the unnotarised data being more mixed in nature. Specifically, unnotarised data tends to be generated from witness statements of ship value following the seizure of a ship. We have excluded witness valuations of ships where it is clear that the outward, interim or return lading of the ship has been included in the witness valuation. Similarly, we have excluded witness valuations of ships where it is clear that an outward monetary stock has been included in the valuation.

However, even with these exclusions, the valuation of ships during their voyage usually includes some portion of the provisions carried on board the ship. If a seizure is early in a planned long voyage, these provisions could amount from anything between six and twenty months.

Moreover, the valuations of ships during their voyage will include some attribution of value to the refitting and setting out of a ship prior to a voyage, which can vary in the case of the hull from repairs to full graving and caulking or even resheathing, and in the case of the apparel, tackle and furniture, can include totally new provision of sails, rigging, blocks and other materials. Witnesses appear to make some allowance for the wear and tear of a ship on a long voyage and sometimes comment on this when giving their unnotarised valuations in their depositions in the High Court of Admiralty.

We plan to add ship inventories to our database, sourced from High Court of Admiralty appraisements of seized ships. These inventories will provide detailed breakdowns of the value of the physical components of ships in this period.

How old were the ships?
The size of our dataset for the analysis of ship age is one hundred and fifteen; of which thirteen datapoints simply state "new" or "old"; a further twenty-four datapoints are minimum ages, with the possibility that the ships were older; and seventy-eight datapoints give ship age accurate to the year. For these latter seventy-nine datapoints we have ship burthen data in tonnage for thirty-seven of them, which we display below in graphical form

The average age of ships for which we have age and tonnage data is 6.1 years (n=37), whereas the average age of ships for which we have age data accurate to the year for which we have no tonnage data is 7.1 years (n=41).

Ship Age 10072017.JPG

Dr Ian Friel has shared with us a summary of data from his unpublished survey of High Court of Admiralty inventory documents from the 1580s. His data are for a period forty to eighty years earlier than our own High Court of Admiralty data. Ian's survey found ages for thirty-nine ships, with an average age of nearly fifteen years and twenty-nine of them of ten years or more in age.

Comparison of textual and numerical data for 1630-1670, with the bulk of the data from the 1650s, suggest Admiralty Court witnesses regarded ships aged between zero and five years as "new" and ships of fourteen years and above as "old".

How many tons of shipping could one crew member support?
The size of our dataset for the analysis of tons of ship burthen per crew member is one hundred and sixteen. We have crew size data for one hundred and seventy-two ships, but lack ship burthen data in tons for fifty-six of these.

The average crew size for the larger dataset is 47.3, including six exceptionally manned men of war with 275 or more men per ship (n = 172). The average crew size for the smaller dataset, where we have crew number and ship tonnage is 36.5 (n=116).

Tons Ship Burthen Per Crew Member 09072017.JPG
How many guns were enough to defend a ship?
We have addressed this question by looking at the number of guns mounted on commercial and naval ships per hundred tons of ship burthen. The size of the relevant dataset is one hundred and twenty-nine ships, of which one hundred and six are commercial and twenty-three are naval.
Guns Per 100 Ton Burthen 11072017.JPG
There is a huge range in gun intensity per hundred tons of ship burthen amongst commercial ships, with some, particularly the small commercial ships, carrying no guns or just lightly armed, and other commercial ships as heavily armed as naval ships.

We are in the process of analysing these commercial data by geography and by commodity as well as by year to look for patterns within the commercial data.

Amongst the naval ships (a category which includes both ships in the immediate service of a state as well as private men of war under commissions from a state), there is a clear pattern for smaller ships to be particularly heavily gunned.

Digging into the data on how many guns were enough to defend a ship
The difference in gun intensity amongst commercial ships is likely to be driven by the relative value of cargo carried per ton of ship burthen and the level of predation on commercial shipping in the geographies in which ships traded.
Guns Per 100 Ton Burthen Segmented Commodity 11072017.JPG

Commercial ships carrying salt had few if any guns, in contrast to ships carrying Canary wines or cotton wool as their main return cargos.

This is likely to be driven by the low manning levels on salt ships per ton of burthen. Low manning levels meant that there were fewer people available to man guns.

We are looking at relative freight rates for salt, Canary wines and cotton wool, and at sale prices for different commodities, to see if these also drove gun levels.

Coal ships are also likely to have had few if any guns. However, most of the coal ship cases in High Court of Admiralty data concern collisions, resulting in court cases which do not ask about guns. Whereas, most of the salt ship cases in the High Court of Admiralty data concern seizures, and elicit Court cases in which gun intensity is relevant and asked about.

As we dig further into the general commercial category, we should be able to allocate a good portion of these to specific commodity groups and thus be able to improve our analysis of the drivers of guns mounted on commercial ships

How does crew size relate to gun carrying?
The size of our dataset for the analysis of crew size and gun number is sixty-nine, where we have both crew size and gun number. We have crew size data for one hundred and seventy-two ships in total and have gun number for one hundred and seventy-nine ships. Twenty-seven of the ships for which we have crew size are men of war and one hundred and forty-five are commercial ships. Forty-two of the ships for which we have gun number are men of war and one hundred and thirty-seven are commercial.
Guns Crew Size 07072017.JPG

The average gun number for just men of war is 22.4 (n=2). The average gun number for just commercial ships is 12.8 (n=137). Our sample of commercial ships where we have tonnage as well as gun number (n=69) has a slightly higher average gun number than for all commercial ships, where only gun number is known.

The commercial gun number average overestimates the gun carrying propensity of commercial ships, since there is a systematic tendency not to report absence of guns from smaller vessels (vessels of thirty to sixty tons burthen). Many of these vessels, particularly those involved in coastal trade or fishing, as hoys, busses and ketches, would not have carried guns.