Collection Care blog

As part of London Fashion Week Nabil Nayal hosted his presentation at the British Library on Tuesday 18 September. He is an advocate of ‘research in fashion education and practice’ and has used the collections at the British Library extensively. The image below shows how he used Elizabeth I’s famous Tilbury Speech as inspiration for one of his printed textiles.

www.nabilnayal.com

The Library Collections are diverse and complex, representing many cultures and comprises of published, written and digital content together with letters photographs, paintings, newspapers, sound recordings, videos, objects and textiles.

Textiles are found in all curatorial divisions: Contemporary British; Western Heritage, European and American and most widely in the Asia and African collections. As textile conservator, I have chosen a few of the most beautiful and inspirational objects.

Royal MS 12C VIII 1 – Chemise book jacket with the badge and motto of Prince Henry Frederick (1594-1612): red velvet, silver and gold metal thread and seed pearls.

See the item online here. 

Or 1234 – Manuscript with blue silk pages and red silk embroidery.

Qianlong's Ten Victories: chronicle of ten successful campaigns conducted by the Emperor in 1790. The author is the Emperor himself, and the manuscript contains the Emperor’s own handwriting embroidered on silk.

Explore and learn more about this item here.

MSS EUR G59 – Large ceremonial, silk brocade bag which housed an ‘Ornamental Letter of Credence, dated 27 Oct 1835, from `Louis Philippe Empereur des Francais' (1773-1850) to Maharaja Ranjit Singh (1780-1839), ruler of the Punjab 1792-1839’.

Explore and learn more about this item here.

Unfortunately, the above items are all restricted due to their fragile and rare status. Letters of introduction can be written to the curators to request permission to view restricted items.

LIZ ROSE, Textile conservator

My name is Wanda Robins, and I am studying book conservation at Camberwell College of Arts, in London. A key component of the Camberwell program is to provide students with ample practical work experience in historical institutions to consolidate the theoretic knowledge gained at university. In addition to one-day per week placements throughout the school year, every student completes a four to six-week summer work placement between the first and second year, which is an opportunity to work on more complex projects and experience full time work in a conservation studio.

I was fortunate to have my placement at the British Library Conservation Centre (BLCC) and had an opportunity to work on an exciting project to rehouse two 12th century parchment charters that were gifted to the British Library from Abbey College, Ramsey.

Ramsey Abbey was a Benedictine abbey founded in AD 969 in what is now Cambridgeshire. The two charters bear the seals of Henry I (king from 1100 – 1135) and Henry II (king from 1154-1189) and grant the surrounding land to the Abbey.

The curators and the conservation team determined that the charters should be rehoused due to the acidic mount board and the frame was not well sealed. It was also apparent that the charters were pasted down to board, which constricts the natural movement of parchment, and would ultimately be detrimental to the charters.

Before Pictures:

Original frame and condition: frame has gaps and is sealed with tape on back.

Charter with Seal of Henry I, in original housing.

Charter is fixed directly to board backing.

Charter with Seal of Henry II, in original housing.

Backing Removal

Taking the charters out of the original housing proved to be a bit of a challenge – it turns out that someone took a great deal of time to engineer a safe way to mount the seals so they could be set safely within the mount. The seals were set within tubes with cotton pads and cotton wool.

To lift the parchment off the backing board, we tested with an 80/20 solution of isopropanol to water, which proved effective.

Once we had this worked out, I worked from the back and removed layer after layer of the backing board, moistening with a damp sponge. Once I reached the back of the parchment, I used the isopropanol/water solution to reactivate the animal glue so I could remove it with a micro-spatula.

Tools used for backing removal.

It took me several days to get the backing off and in the end, I couldn’t remove everything. There was a notable difference in the two charters, as the older one was much more degraded, so we decided that we would leave a skim of the paper backing and not risk damaging the parchment further.

Once all the backing was removed we found additional writing on the verso of the charter.

During the cleaning process, we noticed that the seal of the older charter, though likely wax, has a grainy texture, and was shedding bits and granules. One of the senior conservators recommended that we consolidate it with a synthetic adhesive, Paraloid B72.

Finally, to work out a new mount and storage for the charters, we discussed various ways of tabbing the charters to fix them to a mount board. We planned the tabs first.

Using a light Japanese tissue, we attached small splints to the verso to keep the various strips of parchment in place and protected.

We cut uniform sized tabs of Japanese tissue with a water pen and attached these to the verso with a light application of wheat starch paste. This can easily be removed in the future, if needed.

Once the tabs were adhered to the verso of the charters, we cut slits into a sheet of Plastazote foam and pushed the tabs through the Plastazote so that they would not be visible from the recto.

The effect was a bit like the charter is floating on top of the foam. The charters are secure and they cannot move around. The Plastazote could also accommodate a small indentation cut into it to support the wax seals

Within its new mount board:

I was able to get both charters and the two descriptive labels all housed and ready for a new box. It was a really exciting and interesting project to learn about and get to experience. I am so grateful to the various staff that supported me and helped me through it.

During my month at the BLCC I was given the opportunity to share this project with three different public tours. This was really fun and also meant a lot to me as I as I had first become interested in conservation by attending a public tour of the BLCC in 2015.

MPhil student Clara Low is studying Textile Conservation at the University of Glasgow. As part of her course she is completing a placement for six weeks between her first and second year, here at the British Library.

The following images were taken by Clara whilst she worked on the unfolding of a silk bundle. The Tangut silk fragment was excavated in Kharakhoto (western Gobi desert) in 1914 by Aurel Stein. Clara used controlled humidification to enable this process. She worked with Vania Assis, paper conservator for the International Dunhuang Project and Liz Rose, textile conservator. See the amazing results below.

Or 12380/3665 before conservation. 

Or 12380/3665 during conservation – revealing a printed design.

Or 12380/3665 - Clara working on the fragment.

Or 12380/3665 after conservation – reverse showing characters, (bottom left), seams and stitching.

Or 12380/3665 after conservation – obverse showing characters and printed stars (bottom right).

Or 12380/3665 after conservation – detail of characters.

Can anyone tell us what it says?

Update: many thanks to Andrew West for a speedy solution:

Textiles at the British Library come in many guises. This remarkable book was discovered by a reader in the Rare Books Reading Room last week and was shown to a member of staff. 

The shelfmark is C.70.g.6. and the textile additions are described in the notes field below:

• Title: [A series of engravings of subjects from the Life of Jesus Christ. Designed by M. de V. Engraved by J. C. Weigel.]
• Author: Marten de VOS
• Contributor: Johann Christoph WEIGEL
• Publication Details: [Nuremberg?, 1725?]
• Identifier: System number 003817622
• Notes: The draperies, etc. are cut out, and supplied by pieces of cloth and silk pasted at the back of the engravings.
• Physical Description: 4º.
• Shelfmark(s): General Reference Collection C.70.g.6.
• UIN: BLL01003817622

Engraving coloured from the reverse with pieces of textile showing through cut-out holes.

Engraving detail showing texture of textiles.

Reverse detail showing overlapping textile patches stuck to the page.

Our textile conservator Liz Rose is often overwhelmed by the quantity, quality and diversity of the textile objects within the collections. It should be remembered that the British Library is a reference library and many of these wonderful objects can be viewed in the library reading rooms. 

Book conservator Flavio Marzo explores how the experience for users of online library material surrogates could be easily improved by enhancing invisible physical features of books.

Working as a book conservator within digitisation projects has been my job for many years. I started in 2006, only one year after joining the British Library Conservation team here in London after leaving my country, Italy.

The subject of that digitisation project was the digitisation and virtual reunification of the Codex Sinaiticus, possibly one of the most known and valuable manuscripts in the Western world. The Codex was compiled in the IV century AD and is the oldest surviving and most complete version of the Old and New Testament. Many years have passed since that project and digitisation has become a common work stream within public institutions. This is especially evident within libraries which now compete in uploading material from their own collections to make them available for scholars, students and readers across the globe.

Technology has improved immensely since then and a lot of ‘ink’ has been spread across physical and virtual pages about the remit, the limitations and the advantages of what is offered to the public through the surrogates uploaded onto countless web portals. This piece is just another little drop into this ocean of ink to share some considerations built upon experience and from the perspective of a book conservator who sees, because of his professional background, the limitations of this, but also the exciting challenges to overcome them.

Books are physical objects and the pleasure of opening them, turning the pages, looking at (when decorated) the illuminations and their pigments, or at the accretions of the ink strokes, even smelling them, cannot be recreated on the screen of a home desktop. This does not mean that we cannot improve the experience and possibly further close the gap between the real object and the two-dimensional images.

I now work for the British Library/Qatar Foundation Digitisation Project and for the past 5 years, with a team of two conservators, I have been repairing documents (printed and hand written) and Scientific Arabic manuscripts for the team of scholars and photographers who are doing the real magic by gifting the world with the content now available on the Qatar Digital Library website (https://www.qdl.qa/en).

I have worked with books all my life since I was a 16 year old apprentice in a Benedictine Monastery. I have to admit that I am not an avid reader but I love books as objects and I get very excited about all the different little features and materials they are made from. How is it possible to please someone like me when offering online surrogates of complex items like books?

Books are recognised as 3D items and a lot of work has been done to migrate the content of those printed and manuscript texts into online, easy to access versions, but very little has been done to capture their physicality as objects.

Photographers, like any other professional, follow strict professional standards defined by general rules and specific project boundaries. Those standards are built to assure that the best possible result is achieved consistently and the meter to measure this result is the quality of the final product i.e. the image to be uploaded. Those images are supposed to reproduce as faithfully as possible the text and the carrier of the content of a book. Very rarely attention is given to the substrate or to the physical features of the object.

Lights for digitisation are carefully positioned to avoid shadows and they help to reduce surface irregularities and anomalies. This is all to the benefit of the written text and/or of the decorations, but with much loss for the lovers of the book as an object!

Here I want to describe some very practical ways to achieve different results and show some ‘behind the scenes’ of items I have been working on and how these very interesting results can be achieved with simple straight-forward techniques that do not require any high-tech equipment.

Raking light

I have mentioned the Codex Sinaiticus and I would like to start with it.

Revelation, 2:7 - 3:5, British Library folio: 326. This image: Normal light.

Revelation, 2:7 - 3:5, British Library folio: 326. This image: Raking light.

All the available remaining pages of the Codex from the different geographical sites where they are presently held (The British library, The Library of the University of Leipzig, The National Library of Russia in Saint Petersburg, and the Holy Monastery of Saint Catherine’s) were digitised and uploaded onto the purposely created website (http://www.codexsinaiticus.org/en/). Contrary to common practice, all the pages were imaged both with normal and ‘raking light’. 

When imaging pages of books with normal light the attention is placed primarily to achieve the full readability of the text. Lights are placed and conditioned to radiate evenly over the surface of the page making sure no shadows are created and paying great attention to colours and tones to ensure they are as close as possible to the real appearance of the object reproduced.

What ‘raking light’ does is very different and the resulting image reveals a completely new landscape. Placing the source of light horizontally relative to the page results in an enhanced texture of the substrate which highlights and brings to life all the physical features present on the surface of the pages. These interesting and unique features can relate to the preparation of the writing surface or more generally to the specific material the substrate is made of e.g. papyrus, parchment or paper.

Here are some details of pages of the Codex Sinaiticus taken with raking light.

In the previous images the source of light is now helping us to appreciate this famous manuscript on a completely different level.

Horizontal and vertical lines, holes pierced through the page, and scratch marks now appear clearly. They are traced on the surface of the pages for a purpose; those are features related to the page preparation that happened before the text was traced onto it.

The ‘bounding lines’ (vertical) and the ‘writing lines’ (horizontal) are impressed with a blind (not too sharp) tool onto the parchment sheets. The holes, highlighted with red circles in the second image, are used as a reference. This is known as pricking holes for the ruling of the page to provide the scribes with a guide for writing.

The scratches visible on the surface of the page are most likely the marks left by the pumice stone. The pumice stone was commonly used to prepare the surface of the abraded parchment sheet to make it more absorbent and therefore improve the grasp between the grease substrate and the writing ink.

Thanks to this lighting system it is also possible to see the direction of the indentation of those lines and holes. This information can help codicologists, even from the comfort of their homes, to understand from which side of the folio they were traced and pierced and so recreate the step by step process of the creation of an ancient manuscript.       

In this image we see the images of a letter sent by the Emir of Bagdad in 1899 to Lord Curzon when he was appointed Viceroy of India, first taken with normal and then with ‘raking light’. In the first image the letter is just a sheet of paper beautifully arranged and decorated with writing. In the second image the light tells us a completely different story; it shows us the use of this letter, the way it was folded and the number of folds it had.

How incredible that it is possible to see all these different insights by just slightly moving a lamp!

Transmitted light

Another technique to read paper from a different perspective is using ‘transmitted light’. 

Simply by placing the same sheet of paper onto a light table (i.e. illuminating from below) it is possible to bring a completely new scenario to life. In this image for example we can clearly see the watermark impressed onto the sheet of paper of the previous letter, detail impossible to be seen only looking at the image taken under normal light.

Paper can be hand or machine made, and sheets can bear chain and wire lines or possess watermarks or not. These details can be of great interest to scholars and add valuable information to the understanding of documents in relation to their use and circulation.     

Here are some more examples of sheets of laid and wove paper taken from different files from the India Office Record material, some showing again the characteristic chain and wire lines (except the last one which is actually a sheet of machine made wove paper) and some very distinctive water marks highlighted and made visible thanks to the used of transmitted light. 

Visualization of the physical collation of manuscripts

Books are made of folios and pages and those folios are ‘bound’ together. How the bindings are made is one of the real wonders of books. The variances are numberless and the materials and details of execution not only delight nerds like myself, but more importantly they inform researchers about the history of those books, giving insights into the objects that open doors to sometime unexpected cultural landscapes through links between different craftsmanship and cultures.

To describe a book structure is a very delicate and laborious process, but one that conservators are trained to do and that they automatically do many times when conserving those books as they record the treatments being carried out.

A lot of work has been done during recent years to create tools able to easily make this complex information sharable with the wider audiences. One I wish to mention here is VisColl, developed by Dot Porter at the Schoenberg Institute for Manuscript Studies at the University of Pennsylvania (https://github.com/leoba/VisColl) in collaboration with Alberto Campagnolo at the Library of Congress, a friend and colleague.

In this image we have, additional to the images of the digitised pages, diagrams (on the left) of the structure of the section where those pages are located and, highlighted in white, the specific pages shown on the screen.

Those diagrams, surely more easily understandable than many wordy descriptions, can help researchers to step into a completely new level of understanding for the manuscript, providing vital information about the history of those items, the way they were put together and possibly evidences of late alterations or even forgeries which may have occurred throughout the centuries.

Digitisation has opened new ways to look and make use of books and, I believe, the improvement of understanding of physical features is the next step that should be consistently and widely taken to enhance the online user experience.

One of the issues digitisation has brought to the attention of conservators and professionals involved in the care and preservation of library material is the fact that by enhancing the ‘fame’ of objects we can cause an increase in how much those same objects are requested for access.

To justify restriction in handling objects, which for the most part are very fragile and extremely valuable, we need to improve the online metadata and the amount of information available with the surrogates. Those presented here are just some examples in how, quite easily, this can be done.

Obviously the smell will stay within the walls of the libraries, but those are pleasures to be experienced in situ, and alone (almost..!) at the table of the reading rooms. No surrogate can replace that for the lovers of books. 

Instructor: Minah Song, independent paper conservator
Date: July 3rd - 5th (Tue - Thu) - 3 days
Place: The British Library, 96 Euston Road, London NW1 2DB
Enrolment limit: 12
Registration fee: 470 GBP (materials included)

This three-day intensive workshop is designed to provide both emerging and established conservation professionals with the theoretical and practical foundation for understanding Asian papers and their applications in paper conservation. The workshop consists primarily of hands-on activities with a lecture, group discussions and examinations of various Asian papers.

Participants will familiarize themselves with history and characteristics of Chinese, Korean and Japanese paper-making, including an overview of contemporary Asian paper production. Each participant will be presented with a set of different paper samples and will study the papers first hand and examine the fibers, sheet formation, alkali content and the results of different manufacturing processes and drying methods. Different Asian paper fibres will be compared with the help of microscopic images.

In a practical session, participants will make small-sized paper samples using simple tools with paper mulberry fibres and formation aid. They will also use cotton fibers as a comparison. Participants will make modern equivalent of drying board (karibari) using a honeycomb board and mulberry paper.

Participants will study friction drying - flattening Western paper objects with mulberry paper support; a process particularly complicated when applied to uneven thickness, short-fibred or moisture-sensitive paper (e.g. tracing paper).

Participants will study and share details of various methods of repair and lining techniques using different Asian papers, depending on their opaqueness, texture, and strength, appropriate for specific objects. For example, participants will try double-sided lining with thin mulberry tissue, drying a lined object on a drying board, and making re-moistenable tissue with different adhesives. Useful tips in toning techniques with acrylic paints for mulberry paper will be discussed.

For further details and online registration see:
www.minahsong.com/workshop
Contact the instructor: [email protected]

Arrangements were made by Liz Rose, textile conservator, to remove the contents of three intriguing packages from the Ruth Prawer Jhabvala archive. The packages were sent from New Delhi to New York in 1976 and were wrapped in cotton and stitched closed.

From left to right: Zoë Wilcox, Curator Contemporary Performance & Creative Archives, Contemporary Archives and MSS; Ava Wood, Ruth Prawer Jhabvala's daughter; Pauline McGonagle, Collaborative Doctoral student working on the Prawer Jhabvala archive with the University of Exeter and Liz Rose, Textile Conservator.

Careful unpicking of the stitches.

Peeling back the cotton wrap.

Liz and Zoe removing the cotton wrap.

Zoe opening the inner, black plastic wrap.

Two hours later and only one package opened! Inside a collection of notebooks including some original hand-written first drafts for her novels Esmond in India (first published 1958) and A Householder (first published 1960).

As the library is preparing for the opening of the new exhibition: Harry Potter: A History of Magic, on October 20th, and objects for the exhibition begin to arrive into the studio, our minds turn to ‘magical’ transformations of objects in conservation. Visitors to the studio are often stunned by amazing transformations of objects in our care, particularly when shown before and after photographic evidence of treatments. But our work is not based on tricks, but knowledge and skills, and is far from instantaneous! However, there is one conservation process known as ‘leaf-casting’, which comes nearest to ‘magic’, as understood in the traditional way of things happening suddenly in front of our eyes. Similarly to a performing magician, with prior preparation, a conservator using a leaf-casting machine can transform a damaged object in an instant with the help of paper pulp, gravity, and suction!

Picture 1: Tools of the trade: A blender to make the pulp, a leaf-casting machine, and a press.

The mechanical pulp repair process only takes less than a minute! Holes, tears and missing areas disappear, as if by magic once the paper item is put into a leaf-caster!

Picture 2: A paper item placed on the grid in the leaf-caster and masked off.

Picture 3: Next, the leaf-caster is filled with water and paper pulp poured into the machine.

Picture 4: The missing areas are filled with paper pulp once the water has been sucked out of the machine.

The leaf-casting process draws on the principles of papermaking and is particularly successful for large-scale repair of damaged artefacts. Our test repair, illustrated above and below, shows the torn edge and holes seamlessly covered by new paper fibres with the repair being more visible in the areas round the edges where the degradation of paper fibres was most pronounced.

Pictures 5 & 6: The damaged paper before and after leaf-casting.

Although the process is mainly used for paper, it has also been tried out on palm leaves as part of the final research project carried out in the Copernicus University in Torun, Polandⁱ. The process was not widely known, but offered a real opportunity for dealing with a large amount of damaged material in a more efficient way than it had been done previously. A Tamil manuscript - Sri Vaishnava Sect doctrines by Pillai Lokacharya - written on 256 leaves was a case in point.

A variety of treatments were tried out on the leaves before they arrived in our studio. They had very old string repairs, and roughly 25 of them were treated using fish glue and palm leaves to repair the missing areas.

Pictures 7 and 8: Examples of older string mends and a palm leaf repairs respectively.

The remaining leaves showed varying degree of damage ranging from worm holes, breaks, damaged or missing ends and edges. Some were totally fragmented with the text completely lost.

Picture 9: Typical damage to the leaves (1-10) made more visible by the light table.

With no undamaged leaves left in the batch to be conserved, I suggested that we try the leaf-casting on leaves that have suffered severe loss to the base material. Before the process started, the inks incised into the palm leaves had to be tested and proved to be stable. The leaves were leaf-cast in batches of 5 using toned paper pulp. Once they were taken out of the machine, they were dried, pressed, cut into individual strips, faced with toned Japanese tissue and cut to size using a template.

Pictures 10 & 11: Leaves in a leaf-caster and dried respectively.

Pictures 12 & 13: Leaves cut into individual strips, faced with tissue and cut to size.

The template gave a rough idea of the length and width of a leaf, particularly if it had ends missing or was incomplete. It was not meant to make them uniform, keeping those with undamaged ends or with a natural curve unchanged. Below are two batches of 10 leaves from the manuscript before and after conservation.

Pictures 14 & 15: Leaves 1-10.

Pictures 16 & 17: Leaves 241-250 before and after conservation.

Leaves with less damage were not put through the leaf-caster, but mended by hand. A surgical needle was used to insert toned paper pulp into worm holes, and small missing areas. A piece of blotter paper was placed underneath for absorption of excess water.

Pictures 18 &19: Showing an example of leaves mended by hand and a beaker with toned paper pulp and the needle used for mending.

The leaf-casting technique used on the palm leaves had several advantages. It returned some flexibility to the leaves, making them less brittle, and it was also a time saving treatment when compared to the traditional repairs using palm leaves. The before and after photographs of the treatment have this magic ‘wow’ quality of seeing items transformed not by a magician, but by a skilful practitioner!

Iwona Jurkiewicz

Notes: I would like to thank my colleague Lorraine Holmes for training us to use the leaf-casting process, and for helping me with the conservation of palm leaves.

ⁱThe conservation procedure to repair the palm leaves manuscript from Cambodia was developed as a final conservation project by Anna Hałucha-Lim in the Copernicus University in Torun, Poland – for details see:

Anna Halucha-Lim ‘Kambodżański rękopis na lisciach palmowych (XIX/XX w.) ze zbiorów Muzeum Azji i Pacyfiku w Warszawie – propozycja konserwacji zachowawczej ;Torunskie Studia o Sztuce Orientu, Torun, Tom 1.

From sawdust to gold dust: The conservation of a 16th century birch bark book

Shelfmark: OMS/Or 13300
Curator: Pasquale Manzo
Treatment Time: 113 hrs
Estimated time: 92 hrs

Introduction:
Late 2016 a black acidic shoe box with a note was transferred to the British Library Centre for Conservation for treatment. The note was dated from 1972, reading ‘object is extremely fragile - do not touch’. Inside the shoe box was a mass of tissue, which when carefully lifted out, had thousands of tiny entangled bark fragments entwined in its fibres. Beneath the tissue was the birch bark book.

The following blog is about how the manuscript was conserved so that it could once again be safely requested and handled by the general public.

The Manuscript:
The manuscript is part of the British Library Asian and African collection. It was originally made in Kashmir, is written in Śāradā script and dates to the 16-17th century. It includes three different texts: (A) Nirṇayāmṛta by Allāḍanātha, a work in 4 chapters concerning suitable times for various Hindu religious ceremonies. (B) Narasiṃhaparicayā by Kṛṣṇdāsa son of Rāmācārya, a text on Vaiṣṇava ritual and (C) a fragment of the Padmapurāṇa.

Binding Structure:
The manuscript was formed of 10 sections, each with 8 folios to the centre. The manuscript was sewn with a thick hemp chord in an unsupported Coptic-style. The sewing had a knotted incongruous double loop centrally on the 3rd section.

Figure 1: Spine edge of the text block showing the 2 central sewing stations and the headband tie-downs at head and tail.

Both the head and tail had headbands, similar perhaps in style to Monastic headbands. However the cores were made of a Mahogany-type wood dowel, looped several times over with chord, then wrapped in a layer of alum-tawed skin and finally a turned-in leather flap extending up from the cover. The headbands were attached to the text block via tie-downs on each section.

Figures 2-4: Wood-core headband with alum-tawed and leather wraps secured to text block with chord tie-downs.

The manuscript was covered in thick brown goat leather with an inner parchment wrapper. The limp leather case was attached to the text block by the headband tie-downs.

Figures 5 & 6: Limp goat leather cover with parchment wrapper below.

Dimensions: (L x W x H) 190 x 189 x 70 mm

The Text block:
The text block had 231 folios, foliated 27-258. The folios were transcribed with a carbon-based ink. The media was stable. The folios themselves were made from very fine layers of bark from the outer periderm of the deciduous birch tree. The cork cells of the birch bark are compacted in radial rows according to seasonal growth, and the periderm layers were adhered together by pectin as well as physical knots and streaks.

Figure 7 (Left): Tree anatomy diagram showing the periderm layer of the birch tree (Wojtech 2013). Figure 8 (Right): Peeling birch bark off a birch tree to use as a substrate. Image shows inherent knots and streaks (Wojtech 2011).

Condition:
Unfit: Significant risk of damage even under controlled display conditions due to existing damage or extreme sensitivity, inherent vice.

Principal Substrate

In response to fluctuating environmental parameters, the inherently weak pectin adhesive in the birch bark had failed, causing the periderm layers to delaminate. It appeared that each folio was made up of around 7 periderm layers. Each folio was in a different state of delamination. Similarly, as a result environmental fluctuation the natural resins in the birch bark had been drawn to the surface, causing a gentle white blooming on the majority of the birch bark folios.

Changes in the birch bark’s moisture equilibrium over time had caused dimensional changes, forcing tangential curling and making the bark stiff and extremely brittle. This had resulted in each folio having significant tears extending from the foredge. Some of the folios had even degenerated into piles of fragmentary leaves. There were vertical cracks on most folios towards the spine, due to the stress induced by turning the pages.

Figure 9 (Left): White blooming from natural resins on the surface of the birch bark. Figure 10 (Right): Delaminating periderm layers of embrittled birch bark.

Binding Condition

The leather and the parchment wrapper beneath were stiff and distorted and subsequently did not effectively cover or protect the text block. The cover was only partially attached to the text block by the headband tie-downs at the head of the spine. As such, when fully opened some of the text block spine was exposed. The sewing had broken at multiple points, however disparately the sewing structure was relatively stable. The opening angle of the manuscript had been compromised by the brittle substrate, so could open to around 60 degrees in a section or 160 degrees between the sections. Two sections at the back of the manuscript had detached and four pages were sitting loose in the back cover.

Figure 11: Distorted leather no longer covers and protects the text block.

Figure 12: Showing detached tie-downs, exposed spine and broken sewing at the spine tail.

Evidence of Previous Repairs:

Previous repairs were carried out in 1972. There appeared to be a white bloom on the surface of the leather cover, suggesting the possible previous use of wax or oil based leather coatings.

Two folios, f.211 and f.212, were coated on both sides with a texacryl 13-002 adhesive (at various strengths) and nylon tissue, with Japanese paper borders. This conservation process was discontinued as the result is visually distracting (sharp contrast in tone and light refraction) and had irreversibly changed the nature of the original birch bark.

The areas of loss, of around twenty of the most fragile folios at the front of the volume, had been infilled with hand-transcribed western paper. Similarly heavy-weight cream paper repairs had also been crudely adhered to multiple folios along edge tears.

Figure 13: Showing the crude paper repairs at the foredge of multiple folios

Figure 14: Showing the crude texacryl-adhered nylon lining on 2 birch bark folios.

Figure 15: The fragmented first two sections with annotated western paper infills.

Analytical Adhesive Testing

The decision was made to identify the adhesive used to adhere the paper patch repairs and the annotated infills. This would not only provide more information about the history of the object, but would inform the treatment decision-making process.

A microsample of adhesive residue was removed from beneath the distorted and lifting paper infills. The microsample was then analysed via use of FTIR-ATR to identify and characterise the present adhesive. The results suggested the adhesive used in previous repairs was a protein-based animal glue.

Figure 16: Image of the subtraction spectrum suggesting the adhesive residue was a protein based animal glue.

Figure 17: Adhesive residue visible on birch bark folio. Highlighted area shows micro-sampling location.

Conservation Treatment:

The choice of treatment for any object of historical or cultural significance must reflect its artifactual value, uniqueness and the accessibility of the information it holds. It was decided a minimally interventive treatment would be carried out with the aim of preserving the original and rare binding structure, whilst stabilising the folios for digitisation.

Repair Method Selection

Due to the laminar structure of the birch bark, it was decided that traditional paper-patch repairs would not suffice, as they would only encourage the delamination of the top layer. After experimentation, it was decided that thin strips of toned Japanese tissue, woven in between the stratified layers of each folio would act as an effective repair method.

Figure 18 & 19: An inter-woven toned Japanese tissue repair.

Paper and Adhesive Selection

Kozo 2 Japanese tissue was selected as the repair material. It was chosen as it was semi-opaque and thus not visually obstructive; weaker than the primary substrate; and had a degree of stiffness that enabled it to be inserted and woven between bark layers. The tissue strips were adhered with a low concentration of methylcellulose (2%) in water. Methylcellulose was chosen as adhesive firstly because of its cellulosic similarity to birch bark, secondly its refractive index was similar to birch bark, and lastly it had a greater water retention capacity and flexibility than wheat starch paste.

Figure 20 & 21: Tears and areas of delamination were repaired and reinforced with toned Kozo 2 tissue adhered with 2% methylcellulose.

Tissue Preparation

The Kozo 2 tissue was toned using an airbrush, with dilute burnt umber and raw sienna Golden heavy body acrylic paints. The tissue was toned in a colour-range of tones so that the repairs match the multi-tonal folios. The tissue was then cut into thin strips using a scalpel. The widths of the strips varied from about 3-6 mm.

Figure 22: Tonal variation of different birch bark folios.

Repair

A strip was selected, woven through the delaminated layers using tweezers, adhesive applied with a paintbrush (size 001), and the joint gently pressed into place using a cotton swab. The swab also removed any excess adhesive. The repair was then pressed gently under weights. Pressure-light weights were used due to the brittle nature of the substrate. Large areas of delaminated layers were re-adhered to their folio similarly, using a thin application of methylcellulose and gentle pressure.

Figure 23-25 (Left): Applying toned Kozo 2 to delaminated corner. Centre: applying methylcellulose with a fine brush. Right: Applying gentle pressure to the join using a cotton swab.

The folios were conserved systematically, one by one, starting from the back of the volume (as these were in better condition than those at the front). Each folio took around 15-20 minutes to repair depending on the extent of its damage.

The crude previous paper repairs and the annotated infills were lifted from the birch bark using tweezers, and the dry powdery adhesive carefully scraped off the surface of the folio using a scalpel. The repair’s locations were documented prior to removal.

The four loose pages at the back of the manuscript were stripped up with Japanese tissue and adhered into the two detached sections according to their foliation. The texacryl-coated pages were trimmed to remove the Japanese paper border, and likewise stripped up and attached into these sections.

The final repairs were made to the outer spine folds of the sections. These were carefully repaired in-situ using slightly wider strips of toned tissue.

Figure 26: The trimmed texacryl 13-002 and nylon coated folios, stripped up and sewn into their section.

Re-sewing Loose Sections

The two detached sections at the back of the volume were attached at the head-edge sewing station via Coptic chain stitch. An extra Coptic stitch was attached to the 3rd section to reinforce the attachment. The decision to not attach the section at two sewing stations was due firstly to the fragmented state of the sewing on the tail-edge station, secondly because the minimal sewing sufficed, and lastly because the purpose of the attachment was solely to prevent loss and disassociation.

Figure 27 & 28: Showing the repaired spine edge of the text block and the three chain stitches at the head of the volume.

Cover Decisions

SC6000 leather treatment was rubbed lightly into the leather cover to reduce the white blooming.

The sewing, despite being broken, was remarkably stable post treatment, . This is perhaps because the chords were consolidated in place by the Japanese tissue repairs. The relative stability of the binding enabled the decision to not interfere with the original sewing, and to leave the binding, as well as the cover, as it was. The object post treatment was stable enough to digitise and even stable enough to be handled and viewed by researchers.

It was noted also that by leaving the leather cover attached only at the head, it facilitated the viewing of the sewing structure and spine. As the rare binding style is as much of cultural value as the textual content of the object, the fact that it was left exposed was regarded positively.

Figure 29 & 30: Showing volume post treatment with limp leather cover left in its original state.

Re-housing Fragments

Figure 31 & 32: Showing adhesive labels and previous condition reports re-housed in Melinex sheaths.

Figure 33 & 34: Showing annotated infills and birch bark fragments spot-welded into Melinex sheaths.

After treatment there was varied ephemera to re-house and to keep with the object:

1. The old adhesive labels on the old box
2. The previous condition reports
3. The annotated infills
4. Three unplaceable birch bark fragments.

The old adhesive labels and the condition reports were placed in independent inert polyester Melinex © sheaths. The top edges of the sheaths were left open so the items could be removed, unfolded and read in the future.

The annotated infills and the birch bark fragments were secured in place in their independent Melinex sheaths using an ultrasonic spot-welder. Both sets of sheaths were hole-punched and secured together in the top left hand corner using an archival snap-ring.

Re-housing the Manuscript

To impede the likelihood of potentially harmful physical or environmental damage, it was decided that a custom made drop-back box would be made. It was decided that a shelved compartment would be included in the design in which to store the sheathed ephemera. A four flap wrapper was also made for the volume from Kraft paper, to further impede the potential of damage and to facilitate future handling.

Finally the shelfmark of the item was gold tooled onto the spine of the box.

Figure 35 & 36: Showing Kraft paper 4 flap folder and buckram-covered drop-back box with shelf compartment.

Figure 37 & 38: Gold tooling the manuscript shelfmark onto the box.

Before and After Treatment Photographs:

By Daisy Todd

Image References

Wojtech, M 2013, The Language of Bark, American Forests, article: http://www.americanforests.org/magazine/article/the-language-of-bark

Wojtech, M 2011, Getting to know bark, Northern Woodlands, article: http://northernwoodlands.org/articles/article/getting-to-know-bark

Further Reading

Agrawal, OP & Bhatia, SK 1981, Investigations for preservation of birch bark manuscripts, ICOM committee for conservation, 6th triennial meeting, Ottawa, September, pp. 21 – 25.

Batton, S 2000, Seperation Anxiety: The Conservation of a 5th Century Buddhist Gandharan Manuscript, WAAC Newsletter, Vol. 2, No.2

Florian, ML, Kronkright, DP, Norton, RE 1991, The Conservation of Artifacts Made from Plant Materials, Getty Trust Publications, Getty Conservation Institute.

Gilberg, MR 1986, Plasticization and forming of misshapen birch-bark artifacts using solvent vapours, Studies in conservation, Vol. 31, No. 4, pp. 177-184.

Gilroy, N 2008, The Stein birch-bark collection in Oxford: Thirty years of developing treatment options for our most fragile manuscripts, ICOM Committee for Conservation:15th triennial meeting, New Delhi, 22-26 September, Delhi: Allied Publishers, Vol. 1, pp. 264-269.

Suryawanshi, DG, 2000, An ancient writing material: Birch-bark and its need of conservation, Restaurator: International journal for the preservation of library and archival material, Vol. 21, No. 1, pp. 1-8.

Iwona Jurkiewicz reports on the installation of an extraordinary and iconic banner on exhibition for the first time outside Poland at the British Library's latest exhibition: Russian Revolution: Hope, Tragedy, Myths. It can be seen until the exhibition closes on 29 August 2017.

It is a well-known truth that external attractiveness bears little relation to the essential internal qualities of a person. This time, the old saying: ‘beauty is only skin deep’ proved to be true for a banner.

The 101^st Soviet Rifle Regiment banner captured in the 1919-20 Soviet–Polish War by the victorious Poles is very plain and unassuming in appearance. It is, however, of enormous value, being the only surviving banner from that conflict still held in the Polish collections.

A great number of other banners were captured during the Soviet-Polish War and kept in the Polish Army Museum in Warsaw. In the 1950’s all but this one were ordered to be returned to the Soviet Union (hence its unique status).

The banner of the 101st Soviet Rifle Regiment with the popular propaganda slogan of the time: ‘Peace to huts, war to palaces’.

The banner has been borrowed from Warsaw for the Russian Revolution: Hope, Tragedy and Myths Exhibition together with a much more visually appealing hat of a Red Army soldier, known as Budenovka.

Red Army uniform hat named after Red Army Commander, Semen Budennyi.

Yet, it was this plain looking banner, with its twists and turns of history that go beyond the Russian Revolution, rather than the cute red hat, that captured my attention.

The current monochrome appearance of the cotton ground is misleading since it was originally red, and the star stitched in the middle of the banner with the early emblem of the Soviet state of a hammer and sickle was - against all expectations - white.

We know this thanks to the detailed documentations of all captured banners made between 1930's-1950's published in a book on trophies seized during the Soviet–Polish War by Jarosław Pych¹.

The banner as shown in the documentation in the Polish Army Museum after it was donated in the 1930’s

Unfortunately, this iconic item lost its original colours in the course of the long term display and due to the poor stability of the dye used. It now, indeed, seems very plain and unassuming. However, the post Second World War Soviet intervention gave it the status of the only surviving banner in the Polish Army Museum collection, and this added to its already great national significance. The banner has never been displayed abroad before, and it was conserved prior to the Russian Revolution exhibition by the Textile Conservation team based in the Polish Army Museum and led by Jadwiga Kozlowska, who also couriered the item for the British Library exhibition.

Jadwiga Kozlowska with the banner.

Her presence during the installation proved vital. The banner, usually displayed in portrait orientation in Warsaw had firm attachment – a Perspex rod - on the short side, but not the long one as was necessary for the landscape orientation of the case in the Russian Revolution exhibition.

The Perspex rod attachment of the banner.

Landscape orientation of the display case.

This situation was promptly remedied by Jadwiga Kozłowska who was able to stitch the crêpeline facing the banner alongside the top edge using an invisible polyester thread.

Jadwiga Kozłowska attaching the banner to the supporting board.

This enabled a secure display of the item in landscape rather than portrait direction. The banner is displayed on a slope within the case, and the supporting board is secured using acrylic clips.

The final installation of the banner.

The installation of the banner with such a chequered history couldn’t have been straightforward, but nothing proves impossible with teams of dedicated exhibition, conservation and loans registry staff!

The Russian Revolution: Hope, Tragedy, Myths Exhibition opened on 28 April and will run until 29 August 2017. You can also read articles from our experts exploring some of the themes of our exhibition on our Russian Revolution website.

Iwona Jurkiewicz

I would like to thank Jadwiga Kozłowska for not only helping with the installation, but also providing the information about the banner.

Further reading:

1. Jarosław Pych "Trofea wojny polsko-bolszewickiej 1920 roku", Warszawa, 2000