Book and Paper Group Annual
Volume 14 1995
The American Institute for Conservation

An Investigation of Paul Cézanne's Watercolors With Emphasis on Emerald Green

Faith Zieske

Abstract

Nine watercolors by Paul Cézanne in the collection of the Philadelphia Museum of Art were investigated by conducting elemental analysis of major pigments using qualitative energy dispersive x-ray fluorescence (XRF) carried out at the Winterthur Museum.1 Copper and arsenic, indicative of emerald green, were detected in discolored tan washes on the Philadelphia watercolors, suggesting that emerald green had darkened on several of the paintings. Results of elemental analyses on the other colors revealed that Cézanne favored a fairly restrained palette, about thirteen pigments, but averaged only five pigments on individual pictures.

Introduction

The primary impetus for investigating Paul Cézanne's watercolor palette was the apparent darkening of certain green paints found on several pictures in the Philadelphia Museum of Art. Although the investigation focused on the greens, the other major color families were also included in this study. XRF was carried out on several sites on each of the nine Philadelphia watercolors.

Fig. 1. The Balcony (43-75-1) with marked sites for x-ray fluorescence analysis. The results corresponding to the locations are noted on TABLE I.

Figure 1 illustrates a representative watercolor, The Balcony, marked with the location of each analysis site. Table I shows the elements that were detected on The Balcony and the pigments implied by these results. Abundant amounts of arsenic and copper, indicating emerald green, were detected on this watercolor, both in brilliant green areas and in tan washes. The other pigments suggested by analysis of The Balcony are: viridian, cobalt blue, cobalt-based purple and organic red. The organic pigments thought to be used by Cézanne were deduced by the absence of detectable elements in the analyzed areas.2 Color swatches from an 1887 Winsor & Newton catalogue,3 were analyzed as standards. Reports on the other watercolors analyzed, spectra of elemental results, and written summaries, are available through the Philadelphia Museum of Art.

The watercolors to be discussed are:

Many of the Philadelphia watercolors are landscapes of views in Aix-en-Provence, such as House on the Hill Near Aix, 1895-1900. Throughout his life, Cézanne moved between his home in the south of France and Paris. In 1902 he completed building the studio at Les Lauves, just outside the town of Aix, where he worked until his death in 1906. Aix Cathedral, View from the Studio at Les Lauves, 1902-1904, depicts a scene that is still visible from a point just down the hill from his studio. Bibémus quarry is also in the vicinity of Aix and it was a favorite painting spot of Cézanne, who rented a hut there in 1895. The three Philadelphia watercolors that show his interest in the subject of rocks and trees and could have been painted at Bibémus are: Rocks and Trees, 1880-85, Trees and Rocks No.2, c.1890, and Trees and Rocks No.1, c.1895. The other watercolors in this study include two late works that were probably executed in Aix, The Balcony, c.1900, and Oranges on a Plate, c.1900; a sketchbook page, Carafe, Table Knife and Unidentified Object, c.1882; and an early work, Olympia, c.1877.

Cézanne's watercolor technique allowed the image to unfold in a subtle interplay of overlapping strokes of color wash. Superimposed patches of color combine to create additional colors; rarely were paints mixed on the palette before application to the paper. Graphite pencil lines often play a major role in the composition, defining and supporting the structure. The color of the paper support is also integral to the composition and its discoloration has had an impact on the color balance in some pictures, such as Oranges on a Plate, where severe paper discoloration has camouflaged the delicate nuances of transparent color washes. On the verso of many sheets is a second watercolor, often a loose sketch. In choosing sites for analysis, care was taken to select areas where colors did not overlap each other or correspond to painted areas on the verso.

Cézanne often exchanged his paintings for paints and canvases with père Tanguy, a picture dealer and paint merchant who displayed Cézanne's paintings in his small shop in the Rue Clauzel, Paris.4 It's not known if Cézanne obtained his paint exclusively from Tanguy, or if he traded mainly for the more expensive oil paint and obtained watercolor paint elsewhere. Nor is it known who supplied him with materials after Tanguy's death about 1893. Dominique Sennelier, of Sennelier Beaux-Arts Distribution, has seen invoices for oil paints sold to Cézanne by his grandfather, who became a color merchant in 1887. According to Sennelier, watercolors available in France were primarily manufacturered by a relatively small number of companies: Sennelier, Lefranc & Cie, Bourgeois Ainé, P.C. Lambertye - J.M. Paillard (student grade), and English companies such as Winsor & Newton and Rowney & Co..5 English watercolor paints were readily available in France during this period: Sennelier catalogues advertized the sale of watercolors by English manufacturers and Winsor & Newton printed catalogues in French.

Watercolor paints listed in French and English trade catalogues, from the late nineteenth and early twentieth centuries, helped to confirm the pigments indicated by elemental analysis. Supplementary information was gathered from still existing manufacturers, such as Lefranc & Bourgeois, Sennelier, and Winsor & Newton. Cézanne's use of the pigments suggested by analysis was further substantiated by lists of colors on the front and back covers and neighboring pages of his sketchbooks,6 as well as the colors mentioned in his published letters.7 Additional comparison was made to the pigment study of ten Cézanne oil paintings at the Philadelphia Museum of Art by Marigene Butler.8

Table II contains the pigments thought to be present on each watercolor, as deduced from elemental results by XRF. Following is a summary of the pigments that comprise Cezanne's watercolor palette as suggested by this investigation, including brief remarks on their chemistry and historical background.

Green Pigments

Green was emphasized in this study, not only because it has darkened but also because it was employed liberally, particularly in his many landscapes. The three green pigments established by the elemental results of XRF were emerald green, viridian, and mixed green.

Emerald green (vert Véronèse, Schweinfurt green, Paris green)

Fig. 2 . Spectrum of qualitative energy x-ray fluorescence detection of copper and arsenic, indicating emerald green pigment on The Balcony (43-75-1).

Figure 2 shows an XRF spectra for emerald green, copper aceto-arsenite (Cu(CH3COO)2.3Cu(AsO2)2), displaying peaks for arsenic and copper. Analysis detected generous amounts copper and arsenic, indicating the presence of emerald green on all the Cézanne watercolors in this study. It was also one of the most commonly found pigments on Cézanne's oil paintings in Butler's investigation.

Emerald green has darkened to varying degrees on many but not all of the Philadelphia watercolors. In several, the darkened emerald green is accompanied by other signs of deterioration, such as faded organic pigments or discolored paper, as in: Trees and Rocks No.1, Trees and Rocks No.2, Rocks and Trees, and Oranges on a Plate. In contrast, emerald green paint on Carafe, Table Knife and Unidentified Object remains brilliant, even though the paper support was discolored severely9. In The Balcony, and Aix Cathedral, View from the Studio at Les Lauves, only the thinner washes of emerald green have discolored to a dull tan, while the areas of thicker application have remained bright.

Visual characteristics of emerald green watercolor:

Emerald green is a brilliant, mint-colored green, as can be seen in color swatches in early trade catalogues. Microscopic examination often reveals a characteristic granular quality due to the paint's near insolubility in water. Deteriorated emerald green may appear as a tan wash often containing bright green particles, that can accumulate and form a ridge along the edge of a puddle of wash.

In some cases, deteriorated emerald green has penetrated through the paper, staining the verso light brown. The two Philadelphia watercolors which exhibit this phenomenon are Rocks and Trees, and Trees and Rocks No.1. Conversely, in some instances, various watercolor pigments that include emerald green seem to have protected paper from discoloration so that paper behind the painted areas remains lighter than the surrounding paper on the verso. The latter phenomenon can be found on Oranges on a Plate, Trees and Rocks No.2 and Carafe, Table Knife and Unidentified Object.

An additional clue for distinguishing emerald green is given by ultraviolet light examination. Green or tan washes of emerald green that appear pale by visual light will absorb ultraviolet light in the same manner as thicker applications of the paint and look very dark. In contrast, the other green pigments found in this study (viridian and mixed green) do not absorb ultraviolet light to the same degree.

History of emerald green:

Emerald green was first formulated from arsenic and verdigris in Schweinfurt, Germany, 1814, by Russ and Sattler who were trying to improve upon Scheele's green (copper arsenite). The manufacturing process was published in 1822 separately by Justus von Liebig and André Braconnot. Under the name Paris green, it was introduced as the first chemical insecticide around 1867.10 The highly toxic nature of emerald green lead Winsor & Newton and many other manufacturers to withdraw it from production in the 1960's.11

The French term vert Véronèse refers to emerald green, whereas the French term vert émeraude refers to the English pigment viridian. Presumably due to the confusing translation, many French and English nineteenth century trade catalogues transposed the names for emerald green and viridian. However, by the early twentieth century, the translations of these terms, as found in trade catalogues and artists' manuals, appear generally consistent.12

Permanence testing of emerald green:

Emerald green was one of the watercolors tested for permanence during the late nineteenth century. This includes the Russell and Abney report of 188813 and the Winsor Newton 1892 permanence ratings.14 Emerald green was rated as moderately permanent, showing slight darkening. George Field stated that all copper greens have a tendency to blacken in impure air, although he thought emerald green was the most durable of this class of pigments.15 In a 1889 report for George Rowney, emerald green was listed as turning brown when exposed to hydrogen sulfide.16 The trade catalogues of the period also warned that mixing copper greens with pigments containing sulfides would risk blackening the mixture. Emerald green was included in recent research on the degradative action of copper green pigments on paper, although results on emerald green were inconclusive.17

Viridian (vert émeraude, Guignet's green)

Viridian (Cr2O3.2H2O), hydrous oxide of chromium, is typically a transparent bluish-green color and is considered permanent. It was first manufactured in 1838, Paris, by Pannetier and patented by M. Guignet in 1859. The determination of chromium by XRF indicated the presence of viridian on five of the watercolors analyzed: Trees and Rocks No.1, Trees and Rocks No.2, House on the Hill Near Aix, The Balcony, and Aix Cathedral, View from the Studio at Les Lauves. The pigment was not detected on watercolors in this study that have been dated before 1890. Significant peaks for copper and arsenic were found in addition to chromium in analyzed areas on two watercolors, suggesting that emerald green may have been added to viridian on the palette. Cézanne employed viridian sparingly, as complimentary accents to more lavishly used emerald green. The sparse use of viridian may be due in part to the fact that it was almost twice as expensive as emerald green.

Mixed green

XRF detected cobalt, chromium, and lead in the three isolated strokes of paint in the upper left of Rocks and Trees, suggesting a mixed green paint composed of cobalt blue and chrome yellow. This is one of the few paints that Cézanne may have intentionally mixed on the palette; or he could have purchased it premixed under the name cobalt green. George Field stated that cobalt greens were of two types, a mixed compound of cobalt blue and chrome yellow, and a pigment prepared from cobalt and zinc, called Rinmann's green.18 The former was likely a cheaper substitute for the latter.

Blue and Purple Pigments:

The blue pigment indicated by XRF on most of the watercolors in this study was cobalt; ultramarine blue is thought to be present on one painting. Two different compositions of purple were indicated, a cobalt-based purple, and purple areas that did not yield detectable analytical results.

Cobalt blue (bleu de cobalt)

Cobalt was detected by XRF in blue color areas indicating the presence of cobalt blue, cobalt aluminate (CoO.Al2O3), on all of the watercolors except House on the Hill Near Aix. The discovery of cobalt blue was first published by Thenard, 1803, France; it was generally thought to be stable, although Field was doubtful of it's durability19. Examination of the spectra indicate that cobalt blue may have been mixed with other colors on the palette, possibly as a means of extending the costly pigment. In four pictures, Olympia, Carafe, Table Knife and Unidentified Object, Trees and Rocks No.1, and The Balcony, strong peaks for copper and arsenic, indicative of emerald green, are found in addition to cobalt. In two pictures, Trees and Rocks No.1 and Oranges on a Plate, peaks for lead are found on the spectrum for cobalt, suggesting an admixture of white lead. White lead was found elsewhere on Oranges on a Plate, and white particles were visible in the blue paint layer.

Ultramarine blue (bleu outremer)

For a number of analyzed blue areas on House on the Hill Near Aix, no elements were detected, implying the presence of ultramarine blue or indigo. Ultramarine is the more likely candidate because it was frequently found on Cézanne's oil paintings and color lists, whereas indigo did not occur. Butler identified artificial ultramarine on a number of Cézanne oil paintings, and many listings of bleu outremer exist in the artist's sketchbooks. When compared to the hand-painted color swatches from an early Winsor & Newton catalogue,20 the blue wash of House on the Hill Near Aix appeared closer to the swatch of ultramarine than indigo. Factories for the production of synthetic ultramarine, sodium aluminum silicate with sulphur (Na8-10Al6Si6O24S2-4) appeared in France shortly after 1828, the date that an award for the manufacture of synthetic ultramarine was given to Guimet by the French government.

Mixed Purples

Two kinds of purples were found, those that contain cobalt, and those that had no detectable elements revealed by XRF. Purple containing cobalt was found in three watercolors that also showed areas of cobalt blue: Rocks and Trees, Oranges on a Plate and The Balcony. These purple areas were likely a mixture of cobalt blue and organic red, or cobalt violet. Although cobalt violet, cobalt phosphate (Co3(PO4)2) or cobalt arsenate (Co3(As4)2), was an unusual and expensive pigment, it was found by Butler on Cézanne's last great oil painting, Large Bathers. The fading pattern on Oranges on a Plate, a watercolor that exhibits peaks for cobalt in both blue and purple washes, invited speculation of a mixed purple. A patch of purple that was partially protected by a mat has faded to blue in the exposed portion, as if the fugitive red component had been lost.

Purples on Carafe, Table Knife and Unidentified Object and House on the Hill Near Aix were analyzed but did not contain detectable elemental information, and are thought by conjecture to reflect organic purple or a mixture of ultramarine and organic red. The latter watercolor also contains blue areas thought to be ultramarine. Neither cobalt violet or an organic purple, such as purple lake, were found in the artist's writings.

Yellow Pigments

The three yellow pigments implied by elemental results of XRF analysis in this study are chrome yellow, iron oxide yellow and organic yellow.

Chrome yellow (jaune de chrome)

Chrome yellow, lead chromate (PbCrO4), shows peaks for chromium and lead by XRF. Elements for chrome yellow were detected in the mixed green in Rocks and Trees, as previously mentioned, and in a yellow highlight in Oranges on a Plate. Chrome yellow came into commercial production around 1820; it is not stable and was known to darken and become greenish.

Iron oxide yellow/orange

The presence of iron was confirmed by XRF in yellow and orange areas on five of the watercolors analyzed: Olympia, Carafe, Table Knife and Unidentified Object, Rocks and Trees, Aix Cathedral, View from the Studio at Les Lauves and Oranges on a Plate. Since peaks for iron were found in all of the watercolor papers, the spectrum peaks thought to indicate iron oxide pigment were necessarily stronger than the iron peaks detected by the paper alone. The iron oxide yellow is likely yellow ochre (Fe2O3.H2O) and the orange, burnt sienna; both were mentioned numerous times in the lists in Cézanne's sketchbooks.

Organic Yellow

The absence of elements detectable by XRF in yellow areas suggested an organic yellow. The pigment may be gamboge, a gum resin produced from varieties of Garcinia, an evergreen tree found in southeast Asia. Gamboge, gomme-gutte in French, was the only organic yellow included in Cézanne's lists of colors. The organic yellow could also be a yellow lake which was thought to occur in combination with iron oxide yellow in Butler's study of Cézanne's oil paintings. Organic yellow was found on two watercolors: Trees and Rocks No.2 and House on the Hill Near Aix. On the latter watercolor, analyzed orange areas that did not show detectable elements, by supposition, could be a mixture of organic yellow and organic red.

Red Pigments

The three red pigments that were suggested in this study were red lead, vermilion, and organic red.

Red lead (rouge de saturne)

XRF analysis detected lead in an area of red paint on Rocks and Trees, indicating the pigment red lead, lead tetroxide (Pb3O4). Red lead was usually present as rouge de saturne in French catalogues, but was not common in Winsor & Newton trade catalogues. It was not a durable watercolor pigment; Church calls the use of red lead in watercolor as "inadmissible"21. Red lead is rarely cited in the other studies; once in Butler's work on Cézanne's oil paintings, and as a single written notation in the artist's color lists.

Vermilion (vermillion)

Vermilion, mercury (II) sulphide (HgS), displays peaks for mercury in XRF spectra. Mercury was detected in areas of red wash, suggesting the presence of vermilion on three watercolors: Olympia, Rocks and Trees, and Oranges on a Plate. Peaks for lead accompanied mercury in two watercolors; red lead and white lead were found on other areas of Rocks and Trees and Oranges on a Plate, respectively, and could have been mixed with vermilion by the artist. Alternatively, red lead could have been added by the manufacture. Harley mentions that not only was vermilion sometimes adulterated by the manufacturer with organics or red lead, but vermilion was sometimes added to carmine to improve the latter's permanence; a combination of vermilion and carmine was marketed as scarlet lake.22

Organic red

XRF analysis of red wash on six watercolors implied the presence organic red by the absence of detectable elements. These watercolors were: Olympia, Trees and Rocks No.1, Trees and Rocks No.2, House on the Hill Near Aix, The Balcony, and Aix Cathedral, View from the Studio at Les Lauves. Cézanne mentioned various madders and lakes in his letters and sketchbooks: laque garance foncée, garance rose, laque fine, laque brûlée. When viewed by ultraviolet light, the organic reds on the Philadelphia watercolors did not fluoresce, ruling out madder and thus supporting the presence of alizarin or carmine lakes. Carmine or crimson lake, made from the dried bodies of scale insects (cochineal or kermes), was one of the least permanent watercolors listed by the Russell and Abney report of 188823. Alizarin (1,2 dihydroxyanthraquinone), first reported as synthesized by Graebe and Lieberman, 1868, Germany, is said to have replaced madder as it was considerably more light-fast and half the price of both madder and carmine. Alizarin was present on every period watercolor list in English trade catalogues, however the name was not found in French catalogue color lists, which remained dominated by madder and carmine lakes.

The red wash in Aix Cathedral, View from the Studio at Les Lauves, contained a minor iron peak that could represent iron oxide red (light red). However, this area did not appear similar to color swatches of light red in an early Winsor & Newton catalogue.24

Conclusion

Analysis indicated that many strokes of tan wash that occurred on the Cézanne watercolors in this study were actually patches of previously bright emerald green watercolor that had deteriorated and darkened, as supported by the presence of copper and arsenic by XRF. Every watercolor painting showed the presence of emerald green, often in abundant amounts. With the exception of House on the Hill Near Aix and Olympia, most of the watercolors exhibited some degree of emerald green deterioration. Discoloration of emerald green is most apparent in thin washes, while thicker areas of paint often remain brighter green.

Table I lists thirteen individual pigments that were probably in Cézanne's watercolor palette, plus one mixed green. The results of the investigation suggest a few general trends in Cézanne's use of certain pigments. Cobalt was the second most frequently detected pigment, found in all but one of the watercolors. The other most commonly used pigments appear to be iron oxide yellow and organic red (determined by the absence of detectable elemental results). Viridian was used only after 1890, and then sparingly. An average of five different pigments is indicated on each watercolor. For instance, on the illustrated painting, The Balcony, emerald green, cobalt blue, viridian, organic red and a cobalt-based purple are indicated.

Many of the analyzed strokes of paint were found to be composed of relatively pure pigments, straight from the cake or tube, with few deliberate mixtures. The only identified mixture was a green found on one painting, thought to be composed of chrome yellow and cobalt blue. Speculated mixtures of other secondary colors are: purples that are possibly created from an organic red plus cobalt or ultramarine blues; and orange which may be composed of organic red and yellow. Vermilion may have been mixed with minor amounts of red lead by the artist, or it may have been adulterated by the manufacturer. Significant signals for copper and arsenic found on spectra for cobalt and viridian suggest an admixture of emerald green, either intentionally by Cézanne, or accidently from a messy palette. Trace amounts of arsenic and copper that registered in other colors are most likely from residual emerald green paint on the artist's brush.

The watercolor pigments suggested in this study generally were consistent with other citations, including Butler's analyses of ten oil paintings, and the names of paints found in the artist's sketchbooks and letters. Orpiment, Indian yellow, terre verte, and prussian blue, also cited in the forementioned, were not found in this study. Additionally, although madders were frequently mentioned in his sketchbook lists, they were absent from the watercolors.

Tables

Table I. Results of x-ray fluorescence analysis of The Balcony
LOCATION (see Fig. 1) COLOR ELEMENTS PIGMENTS
1a Green As, Cu Cr Emerald green Viridian
1b Green As, Cu Emerald green
1c Green As, Cu Emerald green
1d Green As, Cu Emerald green
2a Brown trace As, Cu, Fe Emerald green?
2b Brown As, Cu Emerald green
2c Brown As, Cu Emerald green
2d Brown As, Cu
trace Fe
Emerald green
2e Brown As, Cu
trace Fe
Emerald green
3a Blue Co
trace As, Cu, Fe
Cobalt blue
3a Blue Co trace As, Cu Cobalt blue
4a Red none Organic
5a Purple Co
As, Cu
Cobalt blue
Emerald green
Paper   Ca, Fe  


Table II. Pigments Indicated on Nine Watercolors by Paul Cezanne
  Olympia
c.1877
63-181-123
Carafe
c.1882
52-61-11
Rocks & Trees
1880-5
50-134-33
Trees #2
c.1890
67-30-19
Trees #1
c.1895
67-30-18
House on Hill
1895-1900
63-181-7
Oranges
c.1900
63-116-20
Balcony
c.1900
43-75-1
Aix Cathedral
1902-4
50-134-35
Emerald green Cu(CH3COO)2 3Cu(AsO2)2 X X X X X X X X X
Viridian Cr2O3 2H20       X X X   X X
Mixed green; chrome yellow & cobalt blue     X            
Cobalt blue CoO Al2O3 X X X X X   X X X
Ultramarine           X      
Cobalt-based purple     X       X X  
Organic purple   X       X      
Iron oxide, yellow/orange Fe2O3 H2O X X X       X   X
Chrome yellow PbCrO4             X    
Organic yellow/orange       X   X      
Vermilion, HgS X   X       X    
Organic red X     X X X   X X
Red lead, Pb3O4     X            
Lead white 2PbCO3 Pb(OH)2         X   X    

Acknowledgements

This project would not have been possible without the analytical expertise of Beth Price, Janice Carlson and Andrew Lins, as well as the art historical support of Joseph Rishel. The author would also like to extend appreciation for the continued support of the Conservation Department of the Philadelphia Museum of Art, especially Nancy Ash and Marigene Butler.

References

Butler, Marigene. "An Investigation of the Materials and Technique used by Paul Cézanne", The American Institute for Conservation of Historic and Artistic Works Preprints of Papers Presented at the Twelfth Annual Meeting, Los Angeles, California 15-19 May 1984, The American Institute for Conservation of Historic and Artistic Works: 1984.

Chappius, Adrien. The Drawings of Paul Cézanne: A Catalogue Raisonné. 2 vols., Greenwich, Conn.: New York Graphic Society; London: Thames and Hudson, 1973.

Church, Sir Arthur. The Chemistry of Paints and Painting. 4th ed., London: Seeley Service & Co. Limited, 1915. [1st ed. London 1890]

Feller, Robert, editor. Artist's Pigments, A Handbook of their History and Characteristics. vol.1, Washington D.C.: National Gallery of Art, 1986.

Gettens, Rutherford J., and Stout, George L.. Paintings Materials, A Short Encyclopaedia. New York: Dover Publications, Inc., 1966. [1st ed. 1942]

Harley, R.D.. Artist's Pigments c.1600-1835. London: Butterworth Scientific, 1982. [1st ed. 1970]

Penley, Aaron. The English School of Painting in Water-Colours. London, 1880.

Rishel, Joseph. Cézanne in Philadelphia Collections. Philadelphia: Distributed for the Philadelphia Museum of Art by the University of Pennsylvania Press, 1983.

Roy, Ashok. Artist's Pigments, A Handbook of their History and Characteristics. vol.2, Washington D.C.: Distributed for the National Museum of Art, Washington, by the Oxford University Press, 1993.

Taylor J. Scott, A Descriptive Handbook of Modern Water-Colour Pigments Illustrated with Seventy-two Colour Washes Skilfully (sic) Gradated by Hand on Whatman's Drawing Paper. With an Introductory Essay on the Recent Water-colour Controversy. London: Winsor & Newton Limited, [c. 1887].

Trade Catalogues

Bourgeois Ainé. Catalogue Illustré Couleurs Fines et Matériel pour l'Aquarelle, la Gouache, le Pastel, le Dessin, le Modelage, la Peinture à l'Huile.... Paris, 1896.

Lefranc & Cie, Fabrique de Couleurs & Vernis Couleurs Fines et Matériel pour la Peinture à l'Huile, l'Aquarelle, la Gouache, le Pastel .... Paris, 1898.

Sennelier, G.. Catalogue Général Illustré de G. Sennelier Fabricant de Couleurs Fines et Matériel d'Artistes. Paris, 1904.

Winsor & Newton. Couleurs à l'Aquarelle Modernes (sic). London, [188-].

Winsor & Newton, Limited. Winsor & Newton's Water Colours. London, [188-].

Winsor & Newton, Limited. Manufacturing Artists' Colourmen, Drawing Paper Stationers, Artists' Pencil and Brush Makers, Publishers of Works on the Fine Arts. (For the Trade Only) London, 1883.

Winsor & Newton, Limited. Manufacturing Artists' Colourmen. London, 1901.

Notes

1. XRF was executed by Janice Carlson and Beth Price using a Kevex Instrument 0750 at the Winterthur Museum. The secondary target was usually carbon, however germanium was used on a few sites. The number of sites tested on each picture varied from six to nineteen areas, depending upon the complexity of the composition. The paper and matboard of each watercolor was also analyzed and the discussion of the pigments is limited to the elements that are in addition to those found in the watercolors.

2. The XRF equipment used for this study did not detect elements with atomic weights higher than potassium on the periodic table. Supplemental analytical methods, such as scanning electron microscopy, x-ray diffraction, Fourier transform infrared spectroscopy, and high pressure liquid chromatography were not used for further identification. These methods required destructive sampling techniques that were not safely possible on thin watercolor washes, whereas destructive sampling was not necessary for analysis by XRF.

3. J. Scott Taylor, A Descriptive Handbook of Modern Water-Colour Pigments Illustrated with Seventy-two Colour Washes Skilfully (sic) Gradated by Hand on Whatman's Drawing Paper. With an Introductory Essay on the Recent Water-Colour Controversy. (Winsor & Newton Limited, [c. 1887]).

4. John Rewald, Paul Cézanne, A Biography, (New York: Simon & Schuster, 1948 [1st ed. 1939]), p.103, 176.

5. Private conversation.

6. Adrien Chappius, The Drawings of Paul Cézanne: A Catalogue Raisonné, has noted the colors listed on the sketchbook drawings. Theodore Reff and Innis Shoemaker, Paul Cézanne, Two Sketchbooks, (Philadelphia: Philadelphia Museum of Art, 1989) list the colors found on the two Philadelphia sketchbooks.

7. John Rewald, editor, Paul Cézanne Letters (4th ed., Oxford: Bruno Cassirer, 1976 [1st ed. 1941]).

8. Marigene Butler, "An Investigation of the Materials and Technique used by Paul Cézanne", The American Institute for Conservation of Historic and Artistic Works Preprints of Papers Presented at the Twelfth Annual Meeting, Los Angeles, California 15-19 May 1984, p.20-33.

9. A correlation between paper quality and the darkening of emerald green has not been established. Preliminary fiber analysis of the paper supports of the nine watercolors in this study has identified a content of mostly rag fiber with trace amounts of grass. The identifiable watermarks are from the Canson & Montgolfier papermill.

10. Williams Haynes, American Chemical Industry, (New York: D. Van Nostrand Co., Inc., 1954) p.363.

11. The Tate Gallery, Paint and Painting, (London: Tate Gallery Publications, 1982) p.17.

12. It appears that viridian was referred to as Veronese green in a number of late nineteenth century catalogues that translated French and English terminology. For example, Winsor & Newton catalogues described viridian as synonymous with Veronese green. A Bourgeois Ainé catalogue (Paris, 1896) translated the French term vert émeraude to the English term Veronese green, whereas, the French vert Véronèse was translated in turn to the English emerald green. In Science of Painting by J.G. Vilbert (London, 1892), a text translated from French to English, emerald green was incorrectly described as oxide of chrome (the chemical composition of viridian). The translation was more often correctly described in later material, such as: a 1904 trade catalogue by Sennelier, French artists manuals, L'Aquarelle by Karl Robert (Paris, 1911) and L'art de Peindre Les Paysages à l'Aquarelle by G. Fraipont (Paris), and in The Chemistry of Paints and Paintings by Sir Arthur Church (London: 1915).

13. N.S. Brommelle, "The Russell and Abney Report on the Action of Light on Water Colours", Studies in Conservation, 9, No.4 (Nov. 1964), p.144.

14. The "Composition of Pigments" and "A Classification of Winsor and Newton's Watercolours in Three Degrees of Permanence" were published initially in 1892 by Winsor & Newton, Limited, and appeared in company trade catalogues after that date.

15. George Field, and Ellis A. Davidson, A Grammar of Colouring (London: Crosby Lockwood and Son, 1903), p.73-4.

16. Henry Seward, Manual of Colours (London, 1889) p.68-70.

17. Gerhard Banik and Johann Ponahlo, "Some Aspects of Degradative Phenomena of Paper Caused by Green Copper-Containing Pigments", The Paper Conservator, vol.7, 1982-3, p.3-7.

18. Field and Davidson, p.73.

19. R.D. Harley, Artists' Pigments c. 1600-1835, p.57.

20. Taylor, op. cit..

21. Sir Arthur Church, The Chemistry of Paints and Painting, p.210.

22. Harley, p.127, 138.

23. Brommelle, p.144.

24. Taylor, op. cit..

Faith Zieske
Associate Conservator for Works of Art on Paper
Philadelphia Museum of Art

Publication History

Received: Fall 1995

Paper delivered at the Book and Paper specialty group session, AIC 23th Annual Meeting, June 4-1, 1995, St. Paul, Minnesota.

Papers for the specialty group session are selected by committee, based on abstracts and there has been no further peer review. Papers are received by the compiler in the Fall following the meeting and the author is welcome to make revisions, minor or major.



Volume Contents
Publication Info
Notes from the Compiler
Guidelines for Authors
BPG Annual Series Contents Book & Paper Group

[Search all CoOL documents]


URL: http://www.cool.conservation-us.org/coolaic/sg/bpg/annual/v14/bp14-09.html
Timestamp: Wednesday, 03-Aug-2011 10:44:35 PDT
Retrieved: Saturday, 19-Aug-2017 20:29:12 GMT