Conservation and restoration of papyrus

Last updated

The conservation and restoration of papyrus material is an activity dedicated to the preservation and protection of objects of historical and personal value made from papyrus from Ancient Egypt.

Contents

Overview

Papyrus was used in the making of writing material in ancient Egypt, where it was used from ancient times until the 10th century CE. The species of papyrus used in the creation of the writing materials is Cyperus papyrus . [1]

Storage for papyrus materials

There are various methods to safely store papyrus collections. However, the storage conditions do not change.

Conditions

It is important to store papyri within a climate-controlled room in which the temperature and humidity are maintained at a constant level of 17–23 degrees Celsius and 50–60 percent, respectively. It is also important to place a special kind of film or glass which protects the cases holding the papyri from UV lights, which could make papyri fade away if they are exposed to these lights. [2]

Methods

There are various methods for storing papyri. The first and most common of these is to use two frames of glass and seal the edges with cloth tape. However, this method presents many risks to the object. One of these risks is this method opens the door for the object to be in contact with heat and moisture, which would also make the object's surface to stick to the glass. [3] Another method is using the Stabiltex Sling System, which is a much safer method to store papyrus fragments. This storage method consists the use of a double-windowed mat with two sheets of Stabiltex covering the object. A third method for storing papyri, especially for oversized papyri, is placing the papyrus between two layers of plexiglass and then securing them with an aluminum frame cut to the size to support the piece. [4]

Threats

Papyrus collections face threats to their well-being. These threats range from biological in nature to man-made.

Insects and other biological threats

Insects have been known to damage papyri. The damage takes place when the papyrus is rolled. In ancient times, a material called cedrium was used. Cedrium is a resinous extract from juniper, which stopped bookworms from attacking papyrus scrolls. [5] Cedar oil was also used to stop bookworms in ancient times. [6] There are also certain species of fungi which specifically attack papyri. [5] As organic materials, papyri are also susceptible to mold. [7]

Deterioration

A common threat to papyrus materials is deterioration. This threat has been occurring both in ancient and modern times. In ancient times, deterioration occurred when the papyrus was used extensively, which is especially the case for medical papyri and other papyri of a similar nature. In modern times, deterioration in papyri occurs from a long process of ageing, the breaking down of the components of the papyrus as well as the conditions where the papyrus is stored/found. Another cause for deterioration among papyri is oxidation, which occurs from the use of iron gall ink, which contains iron sulphate, which has been known to damage papyri. [7]

Salts

Salts, if accumulated on a papyrus scroll, could potentially damage it. A papyrus scroll can be contaminated with salts from the site where it was found, which is especially the case for areas with a high degree of moisture. [8] However, salt on papyri can also occur in stable environments. [9]

Methods of storage

Methods of storage, if done incorrectly, can also damage papyri. The traditional method in papyrus storage was to place the papyri between two sheets of glass and then seal the edges with cloth tape. This threatens the papyrus inside since it allows the object to come into direct contact with the glass, which could cause heat and moisture to come into contact with the papyrus. This could make the papyrus stick to the glass. This could also damage the ink and the surface of the papyrus when the glass is removed. A grayish material, which has been identified as a composite of sodium chloride and traces of vegetable carbohydrates, was seen around the edges of some papyri. Other storage methods which use cellulose nitrate, paper backing, drumming techniques, hinges, adhesive mounts, dry mount systems and plexiglass which presses directly on the papyrus are not considered safe methods of storage. The threats from these include introducing materials which could stain the artifact, degrading the object or placing pressure on the object. These effects are also not easily reversed. [10]

Restoration methods

Restoring papyri has been around since ancient times. Across the centuries, more modern methods have been used. In this section, both ancient and modern techniques for restoring papyri will be examined.

Ancient methods

Restoring damaged papyri has been going on since ancient times. Indeed, one method that seems to have been used then was to add fresh strips of papyrus to the papyrus scroll. An example of this is seen with the Rhind Mathematical Papyrus. [5]

This images shows part of the Rhind Mathematical Papyrus. The bright sections of the papyrus seem to show parts which would have been restored in ancient times using fresh strips of papyrus Rhind Mathematical Papyrus.jpg
This images shows part of the Rhind Mathematical Papyrus. The bright sections of the papyrus seem to show parts which would have been restored in ancient times using fresh strips of papyrus

Modern methods for conserving and restoring papyri

Papyri can be restored using various methods in modern times. These methods differ based on the condition of the papyrus.

Preparation of a papyrus for conservation

There are several steps that need to be taken before restoring a papyrus. The first step is to first remove any remaining soil and dirt particles on the papyrus piece. After this, the next step is to document the papyrus scroll as accurately as possible. This step is especially important if the papyrus is in fragments. [11] Then, the ink on the papyrus should be examined by pouring an eye drop of water onto the papyrus itself. This step is repeated using either ethanol or an ethanol/water mixture. [4] Old repairs and tape can also damage a papyrus piece, so it is crucial that these are removed. One method of removing these is to first dampen the papyrus itself so the old tapes can be removed safely. [4]

This papyrus has been fixed using tape. The tape can be seen on the top and bottom of the papyrus Papyrus PSI 1292 - Papyrus 13, P. Oxy. IV 657 - Epistle to the Hebrews 10,8-22 - Egyptian Museum, Cairo.jpg
This papyrus has been fixed using tape. The tape can be seen on the top and bottom of the papyrus

Restoring a papyrus

There are various methods which are used to restore damaged papyri, which may depend on the type of the damage on the papyrus. For example, if the ink on the papyrus has been damaged, then a very thin methyl cellulose or wheat starch paste is to be applied beneath the papyrus via a fine sable brush. [11] If there is a mold attack, then a method which seems to work is to remove the mold via a spatula and then brush the contaminated area with a solution that is 50% water and 50% ethanol. [4] Sometimes, a cellulose solution, which can be either Klucel or Hydroxypropyl Celluloid, is used to strengthen cell tissue and the vascular bundles. Other materials such as papyrus juice and gum arabic can be used for the same reason as the cellulose solutions. [6] A method that is used to treat papyri is to clean repeatedly. This is achieved by first placing the papyrus on dry blotting paper, and then cleaning the papyrus by removing the dirt via a scalpel, spatula or dry tweezers. Mechanical cleaning of the papyrus can also be done, after placing the papyrus on the dry blotting paper, via the use of a bristle brush to lightly brush the papyrus. A damp papyrus must be placed under a light weight to dry. These cleaning methods can be used repeatedly until the papyrus is fully treated. [6] After restoring the papyrus, tweezers can be used to align papyrus fragments in place. Then, the papyrus is remounted using either the Stabiltex Sling system or the Polyester Sling system. [12]

Restoring recycled papyri

In ancient times, used papyri were often used in the creation of cartonnage coffins. The papyri used in the creation of these coffins were cut or torn and then dampened with water so they can fit into the cartonnage piece in which they were placed. Then, they were stuck together with either plaster or glue. A layer of lime gesso plaster was used on both sides of the papyrus. [13] An image of the deceased was often painted on the front of the cartonnage. [13] To conserve the paintings and the papyri within, any loose dirt is to be removed and the painted surface cleaned with acetone. If there are any holes in the painted gesso, then calcium carbonate is used to block these holes. The paint layer is fixed with Paraloid B-48, which contains 30 percent acetone. The layer of paint is faced with a temporary piece of cartonnage using: (a) one layer of Japanese tissue paper (about 50 grams) & Paraloid B-48/acetone emulsion (20 percent), (b) two layers of Japanese paper (about 70 grams) and a Planatol BB/water dilution (40 percent), (c) one layer of linen cloth and a Planatol BB/water dilution (40 percent) and one layer of Japanese paper (about 70 grams) and a Planatol BB/water emulsion (40 percent). The negative form of the object is then placed in either fluid polyurethane (if the object is three-dimensional) or water (60 degrees Celsius). To remove the inner layer of gesso, it is dampened in water and then removed with a brush. Then the papyrus cartonnage is removed from behind with a scalpel. To loosen the pieces of papyrus within, the cartonnage is placed in a hot water bath (90 degrees Celsius) for a few minutes. Acid is then placed in the water to help in loosening the pieces of papyrus in the gesso. After this, the papyrus pieces are de-acidified. The papyri are then separated mechanically with tweezers and scalpel. Using blotting paper, the papyri fragments are dried via sheets of blotting paper. Using Paraloid B-48 (20 percent in acetone), the painting and its gesso layer are consolidated from the back. The object is then backed by a new cartonnage support consisting of Japanese paper (70-90 grams), linen cloth and a Planatol BB/water dilution (40 percent). The negative form of the third-dimensional object is removed mechanically. The temporary-facing support is removed with tweezers and brush by using acetone. Using a brush and acetone, the painted surface is cleaned. The dry papyri are cleaned with a brush. Using a brush, tweezers and palette knives, the papyrus fragments are cleaned by sandwiching them between pieces of wet cloth or blotting paper. This will mark the final removal of any remaining gesso pieces. The papyrus fragments are dried between sheets of blotting paper while under pressure. Then the papyrus fragments are stored between glass plates. [14]

Restoring carbonized papyri

Carbonized papyri are papyri that have been charred. There seems to be one method for restoring charred papyri. The first step of this method is to carefully separate the layers of the papyrus since they cannot be unrolled due to their condition. [15] This separation is done with either a thin palette knife or a scraper and lifting them with tweezers. Sometimes, dampening the layers is done to speed up the process of separation. [16] In the event that the pieces are very fragile, Japanese paper is used to loosen and lift the layers, but only if the back of the papyrus does not contain any writing. Another method is to use a dilution of water and glue to fix the layers from the back. [16] After separating the layers one by one, the pieces in the individual layer are placed together according to the writing on the front of the papyrus. Then the layer is turned over in order to stabilize it from the back, which can be only achieved if the back of the papyrus is does not have any writings. If this is the case, then the pieces cannot be consolidated, unless they are between the inscribed lines. However, this latter process is done only sometimes and with extreme care. [16] A great method of reconstructing a layer of carbonized papyri is to use Japanese tissue paper and a sheet of glass, on which to place the layer. Then a layer of wax paper or plastic paper is placed over the whole reconstruction and then cover that with a glass plate. [16] This step is done to ease the process of turning the papyrus layers over. Through the use of a thin paintbrush and letting the glass plate slide step-by-step, the carbonized layer is strengthened by carefully applying the diluted adhesive through the Japaneses paper from the back. To avoid air bubbles, the whole back must be glued. It is also important not to let the adhesive seep into the papyrus since this will form a reflective surface on the front of the papyrus, which will render the ink on the front of the papyrus invisible. [17] The reinforced papyrus can be turned over by grasping the Japanese paper. [18]

Related Research Articles

Oil painting Process of painting with pigments that are bound with a medium of drying oil

Oil painting is the process of painting with pigments with a medium of drying oil as the binder. It has been the most common technique for artistic painting on wood panel or canvas for several centuries, spreading from Europe to the rest of the world. The advantages of oil for painting images include "greater flexibility, richer and denser colour, and a wider range from light to dark". But the process is slower, especially when one layer of paint needs to be allowed to dry before another is applied.

Papyrus Writing and implement

Papyrus is a material similar to thick paper that was used in ancient times as a writing surface. It was made from the pith of the papyrus plant, Cyperus papyrus, a wetland sedge. Papyrus can also refer to a document written on sheets of such material, joined side by side and rolled up into a scroll, an early form of a book.

Papyrology

Papyrology is the study of manuscripts of ancient literature, correspondence, legal archives, etc., preserved on portable media from antiquity, the most common form of which is papyrus, the principal writing material in the ancient civilizations of Egypt, Greece, and Rome. Papyrology includes both the translation and interpretation of ancient documents in a variety of languages as well as the care and conservation of rare papyrus originals.

Eraser Type of stationery, used for erasing marks on paper

An eraser is an article of stationery that is used for removing marks from paper or skin. Erasers have a rubbery consistency and come in a variety of shapes, sizes and colors. Some pencils have an eraser on one end. Less expensive erasers are made from synthetic rubber and synthetic soy-based gum, but more expensive or specialized erasers are made from vinyl, plastic, or gum-like materials.

Cartonnage

Cartonnage is a type of material used in ancient Egyptian funerary masks from the First Intermediate Period to the Roman era. It was made of layers of linen or papyrus covered with plaster. Some of the Fayum mummy portraits are also painted on panels made of cartonnage.

Conservation and restoration of parchment

The conservation and restoration of parchment constitutes the care and treatment of parchment materials which have cultural and historical significance. Typically undertaken by professional book and document conservators, this process can include preventive measures which protect against future deterioration as well as specific treatments to alleviate changes already caused by agents of deterioration.

Egyptian medical papyri

Egyptian medical papyri are ancient Egyptian texts written on papyrus which permit a glimpse at medical procedures and practices in ancient Egypt. The papyri give details on disease, diagnosis, and remedies of disease, which include herbal remedies, surgery, and magical spells. It is thought there were more medical papyri, but many have been lost due to grave robbing. The largest study of the medical papyri to date has been undertaken by Humboldt University of Berlin and was titled Medizin der alten Ägypter.

Dirk D. Obbink is an American papyrologist and classicist. He was Lecturer in Papyrology and Greek Literature in the Faculty of Classics at Oxford University until 6 February 2021, and was the head of the Oxyrhynchus Papyri Project until August 2016. Obbink was also a fellow and tutor in Greek at Christ Church Oxford, from which role he was suspended in October 2019.

Herculaneum papyri

The Herculaneum papyri are more than 1,800 papyri found in the Herculaneum Villa of the Papyri, in the 18th century, carbonized by the eruption of Mount Vesuvius in AD 79.

Conservation and restoration of ceramic objects

Conservation and restoration of ceramic objects is a process dedicated to the preservation and protection of objects of historical and personal value made from ceramic. Typically this activity of conservation-restoration is undertaken by a conservator-restorer, especially when dealing with an object of cultural heritage. Ceramics are created from a production of coatings of inorganic, nonmetallic materials using heating and cooling to create a glaze. Typically the coatings are permanent and sustainable for utilitarian and decorative purposes. The cleaning, handling, storage, and in general treatment of ceramics is consistent with that of glass because they are made of similar oxygen-rich components, such as silicates. In conservation ceramics are broken down into three groups: unfired clay, earthenware or terracotta, and stoneware and porcelain.

Conservation and restoration of shipwreck artifacts

The conservation and restoration of shipwreck artifacts is the process of caring for cultural heritage that has been part of a shipwreck. Oftentimes these cultural artifacts have been underwater for a great length of time. Without conservation, most artifacts would perish and important historical data would be lost. In archaeological terms, it is usually the responsibility of an archaeologist and conservator to ensure that material recovered from a shipwreck is properly cared for. The conservation phase is often time-consuming and expensive, which is one of the most important considerations when planning and implementing any action involving the recovery of artifacts from a shipwreck.

Textile conservator

A textile conservator is a conservator-restorer charged with the care, treatment, research, and preservation of textiles. Issues addressed by a textile conservator are generally related to the field of textile preservation, and include damage caused to textiles by: light, mold and mildew, insects, cleaning, surface cleaning, washing, mounting for display, and storage. Variations in textile types and “the diversity of the textile conservator’s work makes it a very rewarding profession”. Textiles are among the most fragile artifacts, as they are susceptible to damage from atmospheric pollutants, moisture, biological organisms, and environmental changes and care varies with size, shape, material, and condition issues, all of which a textile conservator must be well versed.

Conservation and restoration of painting frames

The conservation and restoration of painting frames is the process through which picture frames are preserved. Frame conservation and restoration includes general cleaning of the frame, as well as in depth processes such as replacing damaged ornamentation, gilding, and toning.

The conservation and restoration of leather objects is the process of determining the causes of deterioration, followed by deciding the best course of action for preserving the leather objects for the future.

The conservation and restoration of lacquerware prevents and mitigates deterioration or damage to objects made with lacquer. The two main types of lacquer are Asian, made with sap from the Urushi tree, and European, made with a variety of shellac and natural resins. Lacquer can be damaged by age, light, water, temperature, or damaged substrate.

Textile stabilization A conservation method

Textile stabilization is a conservation method for fiber and yarn-based cloth intended to mitigate damage, prevent degradation and preserve structural integrity. Stabilization is part of a broad set of techniques in the field of conservation and restoration of textiles typically undertaken by a specialist or textile conservator. Appropriate treatment is determined through risk assessment and close examination of a textile's characteristics and the nature of the damage. Organic and synthetic fibers become weak due to age, handling, and environmental exposure and display physical deterioration such as fraying, planar distortion, loss, and change in surface character. Treatment involves reinforcing tensile strength and reintegration of parts for aesthetic, functional, and historic preservation. Methods can include stitching, darning, reweaving, and the attachment of supports through overlays and underlays. Hand-sewing follows the mantra of “gently does it” using fine needles, supple yarns, and a light touch. Heavily damaged and fragile fabrics often require stabilization through adhesive consolidation, though this is less common. It is essential that conservators consider physical and chemical compatibility along with future treatability in choosing a stabilization technique.

Conservation and restoration of bone, horn, and antler objects

Conservation-restoration of bone, horn, and antler objects involves the processes by which the deterioration of objects either containing or made from bone, horn, and antler is contained and prevented. Their use has been documented throughout history in many societal groups as these materials are durable, plentiful, versatile, and naturally occurring/replenishing.

Conservation and restoration of paintings

The conservation and restoration of paintings is carried out by professional painting conservators. Paintings cover a wide range of various mediums, materials, and their supports. Painting types include fine art to decorative and functional objects spanning from acrylics, frescoes, and oil paint on various surfaces, egg tempera on panels and canvas, lacquer painting, water color and more. Knowing the materials of any given painting and its support allows for the proper restoration and conservation practices. All components of a painting will react to its environment differently, and impact the artwork as a whole. These material components along with collections care will determine the longevity of a painting. The first steps to conservation and restoration is preventive conservation followed by active restoration with the artist's intent in mind.

Cultural property imaging is a necessary part of long term preservation of cultural heritage. While the physical conditions of objects will change over time, imaging serves as a way to document and represent heritage in a moment in time of the life of the item. Different methods of imaging produce results that are applicable in various circumstances. Not every method is appropriate for every object, and not every object needs to be imaged by multiple methods. In addition to preservation and conservation related concerns, imaging can also serve to enhance research and study of cultural heritage.

Conservation and restoration of photographic plates

The conservation and restoration of photographic plates is the process of caring for and maintaining photographic plates in order to preserve their materials and content. It covers the necessary measures that can be taken by conservators, curators, Collection managers, and other museum professionals to conserve the material unique to photographic plate processes. This practice includes understanding the composition and agents of deterioration of photographic plates, as well as the preventive conservation and interventive conservation measures that can be taken to increase their longevity.

References

  1. Leach, Bridget; Tait, John (2001). "Papyrus". In Redford, Donald B. (ed.). The Oxford Encyclopedia of Ancient Egypt Vol. 3. Oxford University Press.
  2. Frösén, Jaakko (2009). "Conservation of Ancient Papyrus Materials". In Bagnell, Roger S. (ed.). The Oxford Handbook of Papyrology. Oxford University Press. p. 86.
  3. Stanley, Ted (1994). "Papyrus Storage at Princeton University" . Retrieved 5 April 2017.
  4. 1 2 3 4 Lau-Lamb, Leyla (2010). "ADVANCED PAPYROLOGICAL INFORMATION SYSTEM Guidelines for Conservation of Papyrus" . Retrieved 6 April 2017.
  5. 1 2 3 Leach, Bridget; Tait, John (2000). "Papyrus". In Nichlson, Paul T.; Shaw, Ian (eds.). Ancient Egyptian Materials and Technology. Cambridge University Press. p. 240.
  6. 1 2 3 Frösén, Jaakko (2009). "Conservation of Ancient Papyrus Materials". In Bagnell, Roger S. (ed.). The Oxford Handbook of Papyrology. Oxford University Press. p. 83.
  7. 1 2 Leach, Bridget; Tait, John (2000). "Papyrus". In Nichlson, Paul T.; Shaw, Ian (eds.). Ancient Egyptian Materials and Technology. Cambridge University Press. p. 238.
  8. Leach, Bridget; Tait, John (2000). "Papyrus". In Nichlson, Paul T.; Shaw, Ian (eds.). Ancient Egyptian Materials and Technology. Cambridge University Press. p. 242.
  9. Lau-Lamb, Leyla (2010). "ADVANCED PAPYROLOGICAL INFORMATION SYSTEM Guidelines for Conservation of Papyrus" . Retrieved 16 April 2017.
  10. Stanley, Ted (1994). "Papyrus Storage at Princeton University" . Retrieved 14 April 2017.
  11. 1 2 Frösén, Jaakko (2009). "Conservation of Ancient Papyrus Materials". In Bagnell, Roger S. (ed.). The Oxford Handbook of Papyrology. Oxford University Press. pp. 81–82.
  12. Stanley, Ted (1994). "Papyrus Storage at Princeton University" . Retrieved 6 April 2017.
  13. 1 2 Frösén, Jaakko (2009). "Conservation of Ancient Papyrus Materials". In Bagnell, Roger S. (ed.). The Oxford Handbook of Papyrology. Oxford University Press. p. 87.
  14. Frösén, Jaakko (2009). "Conservation of Ancient Papyrus Materials". In Bagnell, Roger S. (ed.). The Oxford Handbook of Papyrology. Oxford University Press. pp. 88–90.
  15. Frösén, Jaakko (2009). "Conservation of Ancient Papyrus Materials". In Bagnell, Roger S. (ed.). The Oxford Handbook of Papyrology. Oxford University Press. p. 91.
  16. 1 2 3 4 Frösén, Jaakko (2009). "Conservation of Ancient Papyrus Materials". In Bagnell, Roger S. (ed.). The Oxford Handbook of Papyrology. Oxford University Press. p. 96.
  17. Frösén, Jaakko (2009). "Conservation of Ancient Papyrus Materials". In Bagnell, Roger S. (ed.). The Oxford Handbook of Papyrology. Oxford University Press. pp. 96–97.
  18. Frösén, Jaakko (2009). "Conservation of Ancient Papyrus Materials". In Bagnell, Roger S. (ed.). The Oxford Handbook of Papyrology. Oxford University Press. p. 97.