Collection Care blog

Behind the scenes with our conservators and scientists

13 posts categorized "Research collaboration"

04 October 2016

Conservation code cracking: finding meaning in hidden symbols

Everyone loves a good puzzle - and this was definitely found to be the case when Flavio Marzo, conservation team lead for the Qatar/British Library Project, sent an email around to colleagues with a series of mysterious symbols attached. What did they mean? The ancient doodles were uncovered by Flavio during conservation work of a manuscript from the Delhi Collection. Could the code be deciphered by British Library experts? Flavio reports.

Digitisation processes can be quite repetitive. Here at the British Library Qatar Digitisation Project we try to achieve the best we can and this means a lot of quality checks to ensure high levels of efficiency through standardised processes.

There is no difference in our approach to the conservation strand of these digitisation projects. Standardised treatments are applied daily to a great number of items that are processed and prepared to enable a good final result and to ensure safe handling of library material. Unsurprisingly, these items are unique and their content extremely fascinating.

Recently, as part of the material scoped for the second phase of the project, I had to repair a manuscript before imaging and uploading onto the Qatar Digital Library.

This manuscript contains two mathematical treaties bound together dating back to the beginning of the XVIII century. It was in need of conservation treatment because the sewing of a previous restoration attempt was impairing the opening making some of the text inaccessible and impossible to be imaged.

The manuscript is one of 36 scoped for the project belonging to the Delhi Collection. The Delhi Collection encompasses more than 2900 manuscripts stored across the British Library. The manuscripts are all that is left of the Imperial Mughal Library that was acquired by the English run Government in Delhi after the final destruction of the Delhi Red Fortress.

Those texts are now finally becoming available to readers for the first time thanks to the surrogates that we are uploading onto the Qatar Digital Library website. They all are in very poor condition and for this reason many of them have never been made available to readers in our reading rooms.

The prime concern for conservation when treating items is to find the right balance between the level of intervention necessary to make a book strong enough to be safely handled while still preserving the unique and invaluable physical features related to its history and use. These concerns are even more apparent for the Delhi Collection manuscripts since their history and the vicissitudes relating to their move to London are still quite confused.

This manuscript and the treatments carried out to conserve it are a very good example of how challenging it can be to decide what to do and where to stop, but also a very unique case of a fascinating discovery. When the little manuscript (measuring just 182 mm high, 120 mm long and only 7 mm thick) was brought to the studio its book block was detached from its cover.

 

The manuscript rests on a table.
At a certain point of its life the manuscript was restored and a new over-casted sewing was made to keep the loose, badly damaged pages together.



 

 

A digitally-drawn diagram showing how the volume was constructed.
Diagram of the construction of the book block and the full leather cover.




This new sewing, even if achieving its purpose, was badly impairing the opening of the book making some of the marginal notes illegible.

 

 

Two side-by-side images show how some of the text had been sewn into the gutter.
Annotation disappearing into the gutter before (left) and after (right) the removal of the over-casted sewing passages.



 

We know from historical sources that these manuscripts were moved from Delhi to Calcutta for evaluation in the view to be then transferred to London; it was during this time that they were left neglected and befell extensive damage. It was most likely around the same time that the manuscripts were crudely restored and the present cover was applied to the text.

Changes are unavoidable during restoration processes, but conservation is committed to keeping this to a minimal level and always trying to preserve evidence of past treatments while keeping detailed treatment documentation.

After consultation with the curators it was decided to remove the over-casted sewing to improve the opening. The passage holes of the sewing thread were left undisturbed and even the passages of thread on the first and last sheets, not causing any harm to the book, were left and secured in place with wheat starch paste.

Unfortunately most of the pages of the two small manuscripts, repaired even before this last restoration campaign, became loose with no clear evidence of the original construction of the sections.

Many of the sheets were attached to each other at the inner joint and it was decided, after discussion with the curators, to keep this arrangement since no other evidence of thread passages was found. New joints were made with Japanese paper to create the bifolia for the quires.

 

A digitally-drawn and colour-coded diagram of the manuscript's construction after conservation.
Diagram of the construction of the manuscripts after conservation.

 

Diagram of the construction of the manuscripts after conservation.

The three sections were sewn together with an unsupported sewing using the holes found in only three conjoint bifolia. This is represented in the previous diagram by continuous black lines.

The different layers of original spine lining were re-adhered as they were originally. The end leaves were re-connected to the book-block by gluing them along the spine edges to the first and last leaves of the book, as they were previously.

Only the front right paste down, originally attached to the inner face of the board was left detached and this was due to a very interesting discovery. During the conservation treatment of the end-leaves some hidden manuscript annotations came to light.

 

The manuscript is open to the right board, showing the signatures and scribbles.
The right board of the cover was made from reused manuscript material. A couple of signatures (now under investigation) appeared, accompanied by what looked like a series of squiggles almost entirely hidden by the leather cover.



 

After a more careful examination it became clear that these symbols were actually much more than simple doodles. I decided to figure out how to decode them.

Two images which show arrows pointing to the scribbles and the leather lifting away to reveal more.
The line of symbols emerged partially obscured by the turn in of the leather cover on the fore edge of the inner right board.

An email was written with images attached and it was sent to all colleagues working here at the 6th floor within the British Library/Qatar Partnership: an open invitation to participate in the decoding. Less than an hour later the mystery was solved. The squiggles were in fact a rebus - a puzzle where words are represented by pictures and letters, and its translation came out as: I see you but you cannot see me

The breakdown is shown below:

The scribbles are a code which reads: I see you but you can not see me.
What an incredible and exciting discovery!



This really is the most appropriate motto to what I am always saying about conservation and the challenges in preserving evidence of historical clues: they are there, they look at you, but we are not necessarily able to see them.

The curator of the Arabic manuscript strand of the project, Bink Hallum, was the person who cracked most of the code. This demonstrates how tasks can be resolved through collaboration and sharing of expertise.

So many invisible pieces of information, during our careers, look at us from the items we handle everyday. We don't always have the necessary knowledge to see them, but surely we have the responsibility to preserve and convey them for posterity.

Flavio Marzo

26 September 2016

Fingerprints & their potential impact in relation to handling library collections

Back in early 2016, Terry Kent, a consultant specialising in forensic fingerprint analysis, contacted British Library Conservation to learn more about how we assess the impact of handling on our collections with reference to our use (or not) of gloves in the reading room. This was pertinent timing for us since we were on the cusp of refilming and updating our videos that provide instructions to library users about handling collection items. We invited Terry to the British Library to discuss the issue with us in more depth as part of our Continuous Improvement Programme.

In June, Terry Kent gave a presentation about the potential effect of fingerprints on paper artefacts at the ICON (Institute of Conservation) Conference ‘Turn and Face the Change’ in Birmingham. Lively debate ensued. It became clear that there is some perception that the British Library has a blanket policy of no gloves - regardless. Not so, and in this blog post we would like to give brief insight, with Terry’s contribution, into how we assess and mitigate risks to collection items to enable access to and use of a vast and varied collection in a working research library (and how this then helps us form a handling policy).

A view of the Humanities reading room, with a large amount of Readers at tables consulting books.
Humanities reading room in the British Library.

 

By way of background:

  • The British Library has 12 reading rooms; 11 at St Pancras, London and 1 in Boston Spa, West Yorkshire.
  • These have 1200 reader desks and accommodate 400,000 reading room visits per year.
  • Reading rooms are divided into general and special collections, and focus on different subject areas (e.g., Humanities, Maps, Rare Books & Music and Science).
  • To request items readers need to register for a reader pass and sign the conditions of use.

Given this level of use the challenge is to balance the need to make items available to users while at the same time protecting them from further degradation and potential damage in order to ensure their longevity. Collection items are assigned different reading categories, based on factors including their age, condition, and value (historical, religious, cultural, etc.) which affects how and when they can be used, for example:

  • Which reading rooms they can be read in.
  • Whether there is a digital copy (or other surrogate) which should be referred to instead.
  • Whether readers need to provide additional information about why they need particular items before they can be issued.
  • Whether or not the items can be copied.
  • Whether readers need to sit at invigilated desks when they use the items or meet other conditions of use in order to use them. 

Where readers are using original items we encourage them to handle items as little as possible and with care as we know that even with careful handling collection items face risks.

The mat with handling instructions rests on a desk in the Reading Room. The desk has a dark green surface and a lamp.
‘Handling instructions’ place mat on a desk in a reading room.

A range of different factors can damage collections and lead to loss - these are summarised in the figure below.

Of these ten categories, any risks presented by fingerprints due to sweat transfer would be covered by ‘Contamination’ (which also includes aggressive volatiles, pollutants and other damaging chemicals). Any potential risk to an item must be considered in light of a number of factors - the likelihood of it occurring, the extent and nature of damage it will cause if it does occur, the degree to which it will limit how the item can be used, and the measures that can be taken to limit or prevent it.

Risks do not exist in isolation, so responses to risks - such as the use, or not, of gloves - must be based on a comprehensive understanding of the nature of an item, its vulnerabilities and the requirements for its use by staff and readers. Furthermore, solutions to any such problems must not exacerbate other risks or introduce new ones.

An poster with icons that represent the 10 agents of deterioration.
Risk factors.

Terry Kent writes,

A widely referenced paper, in the conservation field, and several forensic references, refer to fingerprint deposits consisting of 'over 98% water'. Recent analytical and theoretical studies of latent fingerprints, demonstrate that this figure is substantially in error. The deposit from a single human finger touch, whilst varying widely between individuals, is likely to contain less than 20% water and on average be about four micrograms of a mixture of amino acids, salts, primarily sodium and potassium chloride, fatty acids, squalene and many other trace compounds.

What is less well researched is the effects such deposits may have over time on substrates such as papers and textiles. We know that body soiling of fabrics will lead to yellow-brown staining, and fingerprint deposits on some papers will darken when heated (accelerated ageing using elevated temperatures); although it is unclear whether this will occur at lower temperatures over longer time periods.

There are other potentially negative effects of fingerprint deposits from a conservation standpoint; again not well researched, these include the effects of microbial or bacteriological activity on such deposits. There is also the potential of the deposit to attract and retain dust and other material from the environment.

The protective effect of hand washing, standard practice for many institutions and effective for the removal of transferred dirt, is less effective for the secretions which lead to fingerprints - it has been shown recently to be negated by natural replenishment of secretions in as little as five to ten minutes. So we need to consider the likely impact of these deposits on various substrates.

A Reader sits at one of the green desks and consults and open manuscript while another Reader pulls a book from a bookshelf in the background.
Rare item being used, open access item being handled on shelf.

Conclusion

We are always looking at new evidence to challenge or support our current practices. Clearly fingerprints do have an impact on library and archive materials, although the extent of this is not yet clearly understood. The impact must be considered in light of other risks to the collection items given the context in which we work. Our policy is tailored to the requirements of individual items and the risks they face and the way they can be accessed and consulted. There is no one size fits all. Fragile, rare and significant items are subject to much tighter access and handling controls to minimise risks (including fingerprints) compared with items on open access. A core purpose of the British Library is to allow access to the national collection and our role in conservation is to manage that process as effectively and pragmatically as possible. We hope this blog post generates some thought and debate on the subject of handling and the impact of fingerprints. The collective authors plan to present their thoughts in a longer article in a future ‘ICON News’.

Cordelia Rogerson, Paul Garside, Sarah Hamlyn with thanks to Terry Kent for co-writing this post.

22 August 2016

Hidden horoscopes and puzzling predictions in Papyrus 98

Why would certain passages from an ancient horoscope and related predictions be smudged and partially erased? This is what researchers are currently trying to determine using multi-spectral images recently captured of Papyrus 98.

Glass enclosure of Papyrus 98.

Papyrus 98 (British Library Pap. XCVIII) is fully digitised and can be viewed online here.

The British Library holds over 3000 papyri, along with several thousand unframed fragments. Western Heritage Collections cares for our Greek and Latin papyri, while papyri in other languages are found in our Asian and African Collections. The papyri collections are sequentially numbered running from Papyrus 1 – Papyrus 3136 with a separate sequence of 37 items forming the Egerton Papyri collection.

Papyrus 98 underwent multi-spectral imaging to improve legibility on some partially erased and smudged passages. Papyrus 98 is housed in a glass enclosure with inscriptions visible on both the recto and verso. The original collector was most interested in the Funeral Oration of Hyperides over Leosthenes and his comrades in the Lamian war [BC 323] which was placed in the recto position at the front of the glass frame. This partially imperfect Greek text is thought to date to 1/2 century CE with the greater portion of the oration in fourteen columns. However, it has since been discovered that it is on the verso of the current housing where the oldest and first text was inscribed on the papyrus.

The items sits on a table while being imaged.
Due to the long profile, multi-spectral imaging of Papyrus 98 was achieved by imaging the manuscript in sections and digitally stitching the images together.

On this 'verso' side is an astrological treatise consisting of three and three-quarter columns of a Greek language horoscope partially in small uncial characters similar to those of Hyperides. This is followed by an Egyptian language set of predictions relating to the horoscope written in cursive handwriting in what is referred to as 'the Old Coptic Script'. The Papyrus 98 manuscript showcases the earliest example of this Old Coptic Script.

The overall majority of the Greek text in this manuscript is in excellent condition, with the exception of the partially erased sections at the bottom of column III and IV which precede the lines in which the Egyptian language section begins. Other areas of faded or partially rubbed out sections were also identified and hoped to be recovered with multi-spectral imaging.

Close-ups of text on the object in Infra-red and ultraviolet.
Top: Infra-red image of Papyrus 98 showing uncial Greek in the left column and cursive Egyptian (Old Coptic Script) in the right column. Bottom: A composite colour ultra-violet image of Papyrus 98.

 

Researchers are still going through the results trying to figure out why these particular passages were erased and what was, or is, the significance of the obscured text. While the raw images have provided some clarity in certain areas, there are several algorithms which will be run on the data set to isolate and enhance the blurred regions. This is just one of many projects that our conservation team are working on to aid scholarly research and enable further access through digital means.

A side-by-side of two imaging processes; on the right you can see streaks of different colours.
Left: Original image showing fragmented sections of Papyrus 98. Right: Colour space analysis showing the same region in pseudo-colour.

A small number of British Library papyri have been digitised in full and can be viewed on Digitised Manuscripts. Further information about published papyri can be found on the Trismegistos database. More about this collection item can be found on the Explore Archives and Manuscripts resource, while further information about our Greek and Latin papyri collections can be found here.

Dr Christina Duffy

 

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