The conservation and restoration of ancient Greek pottery is a sub-section of the broader topic of conservation and restoration of ceramic objects.

Ancient Greek pottery Ancient Greek pottery, due to its relative durability, comprises a large part of the archaeological record of ancient Greece, and since there is so much of it (over 100,000 painted vases are recorded in the Corpus vasorum antiquorum), it has exe ...

is one of the most commonly found types of artifacts from the

ancient Greek Ancient Greek includes the forms of the Greek language used in ancient Greece and the ancient world from around 1500 BC to 300 BC. It is often roughly divided into the following periods: Mycenaean Greek (), Dark Ages (), the Archaic pe ...

world. The information learned from vase paintings forms the foundation of modern knowledge of ancient Greek art and culture. Most ancient Greek pottery is

terracotta Terracotta, terra cotta, or terra-cotta (; ; ), in its material sense as an earthenware substrate, is a clay-based unglazed or glazed ceramic where the fired body is porous. In applied art, craft, construction, and architecture, terra ...

, a type of earthenware

ceramic A ceramic is any of the various hard, brittle, heat-resistant and corrosion-resistant materials made by shaping and then firing an inorganic, nonmetallic material, such as clay, at a high temperature. Common examples are earthenware, porcelain, ...

, dating from the 11th century BCE through the 1st century CE. The objects are usually excavated from archaeological sites in broken pieces, or shards, and then reassembled. Some have been discovered intact in tombs. Professional

conservator-restorer A conservator-restorer is a professional responsible for the preservation of artistic and cultural artifacts, also known as cultural heritage. Conservators possess the expertise to preserve cultural heritage in a way that retains the integrity ...

s, often in collaboration with curators and conservation scientists, undertake the

conservation-restoration The conservation and restoration of cultural property focuses on protection and care of cultural property (tangible cultural heritage), including artworks, architecture, archaeology, and museum collections. Conservation activities include preve ...

of ancient Greek pottery.

History of conservation and restoration approaches

Ancient

Ancient repairs were made to damaged pottery using metal pins or staples, which could be made of

copper Copper is a chemical element with the symbol Cu (from la, cuprum) and atomic number 29. It is a soft, malleable, and ductile metal with very high thermal and electrical conductivity. A freshly exposed surface of pure copper has a pink ...

lead Lead is a chemical element with the symbol Pb (from the Latin ) and atomic number 82. It is a heavy metal that is denser than most common materials. Lead is soft and malleable, and also has a relatively low melting point. When freshly cut, ...

, or

bronze Bronze is an alloy consisting primarily of copper, commonly with about 12–12.5% tin and often with the addition of other metals (including aluminium, manganese, nickel, or zinc) and sometimes non-metals, such as phosphorus, or metalloids suc ...

. Animal or vegetable-based adhesives may have also been used. Fragments from other vessels were sometimes used to replace damaged or missing sections of an object. The decorative elements on the replacement pieces may or may not have matched the rest of the vase. Greek - Black-figure Kylix with Sirens - Walters 4837 - Side B

Greek - Black-figure Kylix with Sirens - Walters 4837 - Side B

18th to early 20th century

Restoration methods used during the 18th through early 20th century generally attempted to restore vessels to a near-pristine state and hide any evidence of past damage. Archaeological discoveries and a surge in the popularity of ancient Greek art in the 18th and 19th centuries created a high demand for objects and artifacts. The customary restoration method started with reassembling vessel fragments. Missing fragments were replaced with new glazed and fired pieces of pottery and gaps were filled in with plaster. The surface was then painted, sometimes extensively. Materials used included

shellac Shellac () is a resin secreted by the female lac bug on trees in the forests of India and Thailand. It is processed and sold as dry flakes and dissolved in alcohol to make liquid shellac, which is used as a brush-on colorant, food glaze and ...

, protein glues, oil paints, gypsum, plaster of Paris,

barium sulfate Barium sulfate (or sulphate) is the inorganic compound with the chemical formula Ba SO4. It is a white crystalline solid that is odorless and insoluble in water. It occurs as the mineral barite, which is the main commercial source of barium and ...

calcite Calcite is a carbonate mineral and the most stable polymorph of calcium carbonate (CaCO3). It is a very common mineral, particularly as a component of limestone. Calcite defines hardness 3 on the Mohs scale of mineral hardness, based on scratc ...

clay Clay is a type of fine-grained natural soil material containing clay minerals (hydrous aluminium phyllosilicates, e.g. kaolin, Al2 Si2 O5( OH)4). Clays develop plasticity when wet, due to a molecular film of water surrounding the clay pa ...

kaolin Kaolinite ( ) is a clay mineral, with the chemical composition Al2 Si2 O5( OH)4. It is an important industrial mineral. It is a layered silicate mineral, with one tetrahedral sheet of silica () linked through oxygen atoms to one octahedra ...

, and water glass (calcium silicate). In some cases, decorative imagery was censored and painted over, in order to appeal to the tastes of contemporary society and potential collectors.

Modern

The modern approach to conservation generally involves using non-destructive methods to evaluate objects and restoration techniques which emphasize the difference between areas of modern repair and ancient craftsmanship. Reversible adhesives, paint, and other materials are used in restorations. Conservation departments at museums such as the Getty Villa approach conservation of ancient pottery with the goal to "visually integrate filled areas and make them less obtrusive while still distinguishing them from the original ceramic and preserving an object's history."

Materials

Most ancient Greek pottery is

, a type of earthenware fired clay ceramic. The composition of minerals, metal, organic and other inorganic materials in the clay varies depending on its source. These variations affect the color of the clay before and after firing. Iron is the most common material found in clay, and can add red, grey, or buff coloring to the object. Pottery can be coarse wares, which are undecorated or only minimally decorated utilitarian vessels, or fine wares, which are decorated, finely potted, and used for a variety of purposes, including ceremonial use. Vase paintings were primarily created using slip, a thin, transparent layer of clay which turned color after firing. Other materials used in vase paintings include added pigment, added clay to create a relief on the surface, or dilute gloss that added color after firing. Unevenly applied gloss or misfiring also created variations in color or surface texture. Gilding was also sometimes added after firing.

Agents of deterioration

Ceramics, and ancient ceramics in particular, can suffer a variety of types of damage. Most agents of deterioration are due to environment and are inherent to the materials; however, the most common damage is caused by human action.

Physical damage

Breaks, losses, or abrasions can be caused by improper handling, impact (dropping), or excavation. Ceramics are strong in compression, but weak under tension, meaning they are fragile and susceptible to mechanical shock.

Soluble salts

If a piece of pottery has been buried in salty or alkaline soil or submersed in seawater, the clay may have soaked up soluble salts, such as sulphite, nitrates, or chlorides. Changes in

relative humidity Humidity is the concentration of water vapor present in the air. Water vapor, the gaseous state of water, is generally invisible to the human eye. Humidity indicates the likelihood for precipitation, dew, or fog to be present. Humidity dep ...

can cause the salts to react and dissolve (in high humidity) or recrystallize (in low humidity). These reactions can cause pottery to suffer surface losses or delamination.

Previous restorations

Previous restorations can cause unintended damage over time. Metal pins or staples can corrode and deteriorate. Plaster repairs may become unstable. In-painting may fade or discolor. Intentional over-painting from past conservation efforts is another form of damage. Scenes were sometimes altered in order to appeal to current tastes. A common example is a fig leaf being painted over a nude figure. Overly aggressive cleaning with acid can also cause damage. Acid cleaning is meant to remove insoluble salts and minerals from the surface of archaeological ceramics. Pottery that has been improperly cleaned and damaged by acid may have pitted, cracked, powdery, or flaking surfaces. Onésimos red-figure Kylix with a youth carrying a pole with two baskets ca 490 BCE from the Thorvaldensmuseum cc0 H605

Onésimos red-figure Kylix with a youth carrying a pole with two baskets ca 490 BCE from the Thorvaldensmuseum cc0 H605

Preventive conservation

Preventive conservation measures can help slow further deterioration or damage.

Handling

As with any fragile ceramic object, proper handling techniques will help prevent accidental damage. Objects should be handled as little as possible. When handling is necessary, objects should be held at their strongest points only. Pressure on the weakest points, such as handles, necks, or areas with existing damage, should be avoided. Objects should be handled with clean, dry hands, or with nitrile gloves. Cotton gloves are not recommended, because the fabric prevents a stable grip and threads can snag on rough surfaces. Objects on display in museums are secured with mounts or protected by cases to prevent unwanted or accidental contact. Vessels may be displayed upright or at an angle, depending on the decorative elements on display. Any mounts should keep the object stable without putting pressure on any fragile areas.

Environmental conditions

Despite having been dried and fired, pottery clay is still a porous material which will react to changes in environmental conditions. Avoiding extreme changes in temperature can help maintain the condition of ancient Greek pottery. As discussed above in the section on damage from soluble salts, preventing extreme fluctuations in relative humidity can also help prevent further deterioration. Objects should be protected from water and dirt.

Examination

The following techniques are used by conservators to evaluate the condition of ancient Greek pottery and determine appropriate treatment. Examination is the first step in the conservation process.

Visual inspection

Conservators begin the evaluation of an object with careful visual inspection to identify areas of weakness, loss, delamination, discoloration, or old repairs. Further examination with a low power microscope can help conservators identify materials and technical features, such as pigment, gilding, or added clay.

Ultraviolet (UV) visible fluorescence

When exposed to invisible

UV light Ultraviolet (UV) is a form of electromagnetic radiation with wavelength from 10 nm (with a corresponding frequency around 30 PHz) to 400 nm (750 THz), shorter than that of visible light, but longer than X-rays. UV radiation i ...

, many types of materials will display certain colors of visible light. This can enable conservators to identify areas of different media throughout the object.

X-radiography

X-rays can reveal breaks, internal features, or hidden ancient repairs, such as pins. Another type of X-ray, called X-ray fluorescence (XRF) spectroscopy can reveal the elemental and chemical composition of a material. X-ray absorption near edge structure (XANES) spectroscopy can reveal the iron oxidation states in pottery (the factor that determines black and red color) and X-ray absorption fine structure (EXAFS) analyses can provide information on the molecular structure of iron minerals.

Conservation treatment

After evaluation is completed, conservator-restorers can determine the most appropriate form of treatment. Treatments can range from non-invasive techniques, such as cleaning, to more invasive conservation, such as disassembly, reconstruction, and restoration.

Cleaning

Basic mechanical cleaning can remove dirt, dust, and grime. Cleaning solvents and water can also be used to remove dirt, varnish, wax, in-painting, or adhesives. Acids should be used with caution.

Desalination Desalination is a process that takes away mineral components from saline water. More generally, desalination refers to the removal of salts and minerals from a target substance, as in soil desalination, which is an issue for agriculture. Salt ...

is a cleaning method that removes as much soluble salt from the porous fired clay as possible. Fragments are soaked in highly purified water for multiple days. The water is changed regularly until salt levels are reduced.

Disassembly

For vessels that have been previously conserved and reassembled, shards may need to be disassembled in order to remove old restoration materials and complete conservation. Adhesives and fill are systematically removed, revealing the original pottery and allowing the vessel to be deconstructed.

Reconstruction and restoration

Separated shards are carefully reassembled. Conservators use identifying clues, such as shape, texture, and decorative pattern or painted scenes, to piece together fragments. Missing shards can be recreated out of plaster and replaced. In-painting is used to disguise areas of repair. In modern conservation treatment, the media used by conservators is reversible and can be distinguished easily from ancient material. Different conservators, or conservation departments, may have different policies regarding in-painting. Some conservators leave replacement fragments completely undecorated in order to easily distinguish them as modern additions. Some conservators paint silhouettes of missing figures, using existing fragments, scene narrative, and other extant vases as examples. This approach helps show the narrative of the painted scene, while still distinguishing the modern restoration from the original fragments. Some conservators use more extensive in-painting to recreate missing decoration.

Notable examples

The Affecter Amphora, in the collection of the Walters Art Gallery in Baltimore, Maryland, is a case study for the history of conservation of Greek vases. The black figured Attic (meaning from Athens region) vessel was created around 540 BCE by a well documented vase painter known as the Affecter Painter. Treatment of the vase in the 1980s provided the conservation field with significant insight into the history of the restoration of Greek vases. Conservators discovered that the amphora had been broken and repaired in antiquity. Samples of burial dirt found within holes in the vase proved that the repairs were made prior to the vase being used in an ancient funeral. Conservators also discovered that the vase was restored in the late 19th century with materials and methods typical of the time period. Plaster, replacement pieces of terracotta, and extensive overpainting had been used in the restoration. Overpainting disguised repairs and also altered the appearance of nude satyrs on the decorative panels. The 1980s conservation revealed the original work of the Affecter Painter and restored the vase to a stable condition.Snow, Carol (1986). "The Affecter Amphora: A Case Study in the History of Greek Vase Restoration." The Journal of the Walters Art Gallery, 44. Attic Black-Figure Volute-Krater, known as the Francois vase, ca

Attic Black-Figure Volute-Krater, known as the Francois vase, ca

The Francois Vase, in the collection of the National Archaeological Museum in Florence, Italy, is a large Attic volute krater, which is both a superb example of black-figure pottery from , as well as an example of extensive conservation work. The vase was discovered in a tomb in 1844. In the year 1900, a member of the museum staff smashed the display case and the vase shattered into over 600 pieces. It was restored by 1902, and then restored again in 1973, with previously missing pieces.

References

External links

* The restoration of Greek pottery (it. "Il restauro dei Vasi Greci") https://www.academia.edu/3524033/Il_restauro_dei_vasi_greci * The Art of Mending Ceramics Disasters. Conservation Lab https://creators.vice.com/en_us/article/mending-ceramics-conservation-lab * Athenian Pottery Project http://www.getty.edu/conservation/our_projects/science/athenian/ * A Closer Look at Greek Vases. Kemper Art Museum https://mlkemperartmuseum.wordpress.com/2014/12/16/a-closer-look-at-ancient-greek-vases/ * Recreating Ancient Greek Ceramics http://archaeologicalmuseum.jhu.edu/the-collection/object-stories/recreating-ancient-greek-ceramics/ * X-rays reveal artistry in an ancient vase http://news.stanford.edu/features/2016/slac/art.html {{Cultural Conservation-Restoration , state=expanded Conservation and restoration of cultural heritage History of ceramics Ancient Greek pottery