THE ASHMOLEAN CLUBS: COLLECTION HISTORY AND CULTURAL BACKGROUND

While the clearest documentation for the presence of the four clubs in the Ashmolean collection comes from the 1685 catalogue, they are understood to have an earlier collection history.Footnote ¹¹ In 1678, Ashmole took possession of the famous Tradescant collection, brought together by John Tradescant the elder (c 1570s–1638) and his son John (1608–62), and long displayed in their house, ‘The Ark’, in Lambeth, London.Footnote ¹² Both Tradescants were gardeners for members of the English nobility and royalty, including Charles i, and were able to travel in order to acquire botanical specimens for their patrons’ gardens. The younger Tradescant, for example, travelled to the colony of Virginia in 1637–8, and perhaps on another occasionFootnote ¹³ – visits that undoubtedly provided opportunities for collecting other natural history material, as well as ‘curiosities’. Tradescant the elder was also commissioned by George Villiers, Duke of Buckingham (1592–1628), to acquire specimens for the duke’s collections. In 1625, Tradescant’s letter to the secretary of the Navy, Edward Nicholas, requested that, in acquiring specimens for the duke’s collection, Nicholas:

To the letter, he attached a more detailed list of requirements that specifically identifies ‘weapons & Instruments’ and ‘Any thing that Is strang’.Footnote ¹⁵ In addition, the recorded histories of plants introduced by the Tradescants make it clear that they received many gifts on a personal basis from overseas patrons – a fact confirmed by the list of benefactors appended to the catalogue of their museum, Musaeum Tradescantianum (1656).

Among the material from the Americas listed in the 1656 catalogue are items specified as coming from Brazil, Virginia, Amazonia, Canada and Barbados, as well as material more generically assigned to the ‘West Indies’. Indeed, the ‘warlike instruments’ section of the 1656 Musaeum Tradescantianum catalogue lists ‘Tamahacks, 6 sorts’. The Algonquin term ‘tamahacks’, today most often associated with North American weapons (particularly those of the north-eastern Woodlands), was more broadly applied in the seventeenth century to any clubs from the Americas. Six varieties of ‘tamahacks’ are listed in the Ashmolean Museum’s original 1685 catalogues, including the entry for the four India occidentali clubs under discussion. There has been a strong presumption historically that the clubs reviewed here formed part of the original Tradescant collection and so pre-date 1656. Given that the elder Tradescant appears to have been the main collector of the ‘artificial curiosities’ in the collection, it seems entirely possible that they were acquired before his death in 1638. On the other hand, Tradescant the younger’s reference to ‘those Rarities which my Father had scedulously collected, and my selfe with continued diligence have augmented’Footnote ¹⁶ warns against too ready acceptance of such an assumption.

Clubs of this sort are described and illustrated in historical accounts of the seventeenth-century indigenous circum-Caribbean, particularly the Lesser Antilles, inhabited at this time by the Kalinago, or Island Carib. The Kalinago of Martinique, Guadeloupe, Dominica and St Vincent fiercely resisted European encroachment, and so were rarely depicted or described without their arsenal of weapons, particularly the boutou. The missionary and cleric Sieur de la Borde, stationed in Dominica and St Vincent in the mid-1660s, described these clearly:

The ‘Brazil wood’ both in this reference and other early documents probably referred to the presumed origin of the wood rather than to the specific species commonly known as Brazil wood (Caesalpinia echinata). Early descriptions suggest that club sizes ranged from 60 to 140cm in length, depending in part on the age and status of the owner,Footnote ¹⁸ and were carved from a heavy, hard wood, described by some, such as Bouton and du Tertre, as a redwood or letter wood (Brosimum cf guianense).Footnote ¹⁹ With them, ‘… they [crush] the head of their enemies’ (‘… dont ils écrasent la tête de leurs ennemis’) wrote the Martinique missionary Jacque Bouton in 1640.Footnote ²⁰

Yet, these lethal weapons were elaborately decorated. According to Jean-Baptiste Labat, a Dominican missionary visiting Martinique and Guadeloupe between 1694 and 1696:

Du Tertre, a missionary in Dominica between 1641–51, wrote that ‘they carve a figure with a knife and fill [the crevices?] with fine, wetted cassava flour, which is nice enough’.Footnote ²² This was all part of a potent display; the warriors, too, were adorned for battle:

The weapon was a direct reflection of a warrior’s status – indeed the name, boutou, served as the basis for honorary titles given to war leaders, such as Ouboutou (‘Commander in chief’).Footnote ²⁴

The illustrations that accompany these early records are quite explicit in depicting this specific style of club. The earliest images thus far known feature in the Histoire Naturelle des Indes, or the ‘Drake Manuscript’ (c 1586): one clearly shows a club in use, as a warrior wields it to deliver the coup de grâce to his victim, who lies on the ground, already bleeding from a gaping wound to his head (fig 3). It is captioned, ‘Indians of Ihona’ and describes the violence and purported cannibalistic preferences of the inhabitants, although it is not clear exactly where the illustration was done (the manuscript images are generally thought to be of ‘Caribbean’ subject matter, but this could be anywhere from the Lesser Antilles to the Guianas of north-east South America). Without doubt, there is more than an element of representing the male Carib in the classical terms of sixteenth-century European art, with the Grecian torso in a contrapposto pose. Despite this idealised depiction, the representation of the club appears genuine, apparently based on close inspection, featuring its graceful proportions and with the design panels of the terminal end clearly indicated. The same style of club features in three other instances in the manuscript, one of which is particularly noteworthy in this context, depicting a battle between warriors in pirogues (a form of canoe) from Trinidad and Margarita, an island in the Caribbean Sea just off the coast of Venezuela (fig 4). The general shape and size of the clubs in this image are in keeping with the one so clearly depicted in the ‘Indians of Ihona’ illustration (see fig 3) and, given the clear reference to Trinidad and Margarita in the illustration, this suggests an island, rather than mainland, provenance.

Fig 3 A club in use, as depicted in the Histoire Naturelle des Indes, or the ‘Drake Manuscript’ (c 1586). The original title and caption are translated as follows: ‘Indians of Ihona. When the Indians have defeated their enemies, they make them lie down on the ground, then pound on them and, after that, give them a blow on the head with their sword. When the blood starts flowing, they hold it back promptly, thinking that by this means the body will make a better roast for a solemn feast, calling this a deed of prowess.’ Source: © The Morgan Library and Museum, Bequest of Clara S. Peck, 1983, MA 3900 (fol. 85r)

Fig 4 Clubs in the hands of warriors in pirogues (canoes) from Margarita Island and Trinidad. The original caption for the illustration notes: ‘These canoes are fighting each other and when the enemy has been caught, he is a prisoner all his life. When waging war, they take their women with them; they pull the oar while their husbands fight.’ Source: © The Morgan Library and Museum, Bequest of Clara S. Peck, 1983, MA 3900 (fol. 56r)

By the mid-seventeenth century, the classical pose, coupled with the stylistically accurate depiction of the club, was featured in the contemporary accounts of travellers such as Dudley (1646–Reference Dudley7), Rochefort (Reference Rochefort1658) and du Tertre (Reference du Tertre1667), all of whom travelled in the Caribbean – both Rochefort and du Tertre living for some time in the Lesser Antilles (fig 5). The illustrations featured in du Tertre (see fig 5c–d) were especially influential on subsequent publications,Footnote ²⁵ so that the club is recorded well into the eighteenth century, though it is not clear whether it was still in use among the indigenous populations. The last glimpse of this style of club (outside of retrospective documentsFootnote ²⁶ ) appears in Ferrario,Footnote ²⁷ which draws largely on previous studies. Ferrario’s work is – surprisingly, given the length of time that separated him from the events documented in the seventeenth century – one of the few sources to document the artistic legacy of the Island Carib. Some researchers consider the Carib to have made no distinctive artistic contribution, particularly in comparison with their Greater Antillean neighbours, the Taíno (‘Taíno’ being an umbrella term for the various indigenous cultures inhabiting the Greater Antilles at the time of European contact).Footnote ²⁸

Fig 5 Clubs featured in seventeenth-century illustrations. a) Detail of a warrior with a long club depicted on a map of the Guianas (British Guiana south to Amapá, Brazil) in Robert Dudley’s Dell’arcano del Mare (1646–7); source: Bodl, Map Res 107, pl. xiiii. b) Warrior with bow and club in Rochefort’s Histoire naturelle et morale des iles Antilles de l’Amerique (1658); source: Bodl, BOD 4 H 8 Art, frontispiece. c–d) Details from 1667 edition of du Tertre’s Histoire générale des Antilles Habitées par les François; source: Bodl, BB 121 Art., Vol. 1, frontispiece and BB 122 Art. Vol. 2, between pages 356 and 357

In contrast to the relatively well-documented clubs of the Lesser Antilles, there is little information on Greater Antillean clubs, perhaps intentionally so – the trope of the ‘peaceful’ Taíno versus the bellicose Island Carib being part of Spanish propaganda to justify the Island Carib’s enslavement, purportedly for the protection of the Taíno. Indeed, so successful were the Spanish in obscuring the presence of weapons among the Taíno that Lovén, a meticulous historian writing in the mid-1930s, noted that:

Yet they were not absent: Oviedo notes that the Hispaniolan macanas were

Las Casas supplies a more dramatic description:

Conrad, Foster and Beeker suggest that two club-like objects recovered from the waterlogged site of Manantial de la Aleta, in what is now the Dominican Republic, may be macanas; these are roughly hewn with bulbous ends, the largest measuring 79 cm in length.Footnote ³² If these surviving artefacts are, indeed, Taíno clubs, then they differ markedly from the elaborate examples seen in the representations attributed to the Lesser Antilles, and indeed the cronista descriptions, which document very large (‘as long as the stature of a man’Footnote ³³ ), flat-handled and uniformly thick weapons with parallels to those in the Lesser Antilles.

Returning to the Island Carib boutou, although some of the earliest records describing these formidable weapons come from the Lesser Antillean area, it is not clear whether this style of long club can be provenanced solely to this region. Despite the Caribbean being the earliest part of the Americas explored by Europeans, and despite their subsequent sustained history of settlement and colonialism, no artefacts bearing a sixteenth- or seventeenth-century Lesser Antillean provenance have been documented in museum collections.Footnote ³⁴ This in itself is surprising, particularly given the detailed and methodical descriptions of the histories of these islands and the keen interest that many European countries had in their resources, both natural and ‘artificial’. Of the clubs accessioned in the seventeenth century into European museum collections, none bear an explicitly Caribbean provenance, despite being attributed to ‘India occidentali’ (‘West Indies’). It was not until the mid-nineteenth century that they first began to be attributed to a wider range of sources, based on perceived stylistic affinities to more recent, though significantly smaller, indigenous clubs from Brazil, Venezuela and the Guianas.Footnote ³⁵ Indeed, the Tradescant clubs were first attributed to Guyana in a manuscript catalogue of the Ashmolean collections (c 1870s), compiled by under-keeper George Rowell. This was later amended by his successor, Edward Evans, in a catalogue of c 1886, where they were described as coming ‘from British Guiana’ and ‘used by the Caribs and called Potu’.Footnote ³⁶ This appears to be largely based on George Wood’s attribution of a similar club (in the Christy collection, and eventually to enter the British Museum) to the Carib of Guiana, though Wood’s attribution of this club was itself on tenuous grounds as it had no specific provenance when it entered the British Museum.Footnote ³⁷ The ‘British Guiana’ link for the Ashmolean clubs is, therefore, speculative.

Many of the smaller, later clubs in museum collections frequently attributed to the Guianas occasionally feature the ‘diamond and curl’ designs first encountered in the late sixteenth- and early seventeenth-century club depictions.Footnote ³⁸ The logical assumption would be that these smaller versions were an in situ development from the longer clubs featuring these design elements. The problem, of course, is that most such attributions were based on, at best, vague information – often to extensive regions (for example, ‘Brazil’, ‘British Guiana’, ‘Amazon’, etc) – and, at worst, misattribution, making the identification of a potential source for this distinctive style of club extremely difficult.

PREVIOUS ANALYSIS

For the purposes of this paper, the clubs are here identified as clubs 1 to 4, following the number sequence in the museum’s manuscript catalogue of c 1685 (table 1). Previous scientific analysis of the Ashmolean clubs has been limited to wood identification, undertaken by Dorothy Catling for the catalogue raisonné of the Tradescant collection.Footnote ³⁹ A sample extracted from club 2 was identified as Brosimum sp. – ‘almost certainly B. caloxylon Standl’, according to Catling.Footnote ⁴⁰ The other clubs were deemed suitably similar superficially to also warrant identification as Brosimum sp. However, the variation in the wood grain and colour seen in the clubs suggests the potential use of different woods. Indeed, a more recent visual (non-invasive, surface inspection only) assessment tentatively identified two clubs (clubs 1 and 2) as being carved of Tabebuia sp., another of Haematoxylon sp. (club 3) and another of Guaiacum sp. or Pimento sp. (club 4).Footnote ⁴¹ Given the discrepancies between these identifications, it was decided to take samples in order to more firmly document via microscopic analysis the woods from which the clubs were carved.

METHODS: ¹⁴C DATING, WOOD AND PIGMENT IDENTIFICATION AND STRONTIUM ISOTOPE ANALYSIS

The four Ashmolean clubs each underwent sampling for radiocarbon dating, wood identification and strontium isotope analysis to establish baseline data for this style of artefact, specifically in terms of chronology, materials and provenance. Prior to sampling, sections of endgrain on each club were exposed for microscopic examination. In each case, the exposed wood surface was significantly lighter in colour, raising the question of whether this was natural patination or an intentional modification. While the surfaces of some woods do darken with exposure to light, the possibility of surface colorants must also be considered.

Black and white images of the endgrain were taken using a 950nm (infrared) filter on a converted Lumix GX1 camera (fig 6). These proved useful in identifying the growth rings otherwise obscured by surface coatings. Radiocarbon samples were taken from areas furthest from the pith, after wood identification samples had been taken from the same area: this was done to minimise contamination from unknown surface coatings that might affect the dating. Splinters and shavings intended for strontium isotope analysis were extracted from cleaned surfaces. Further samples were taken from other locations on the clubs to examine possible coatings, pigments and residues. For example, archival images show the clubs to have had white infill within the design panels (see fig 1),Footnote ⁴² though it is thought that this was added in the 1980s for photography, and so would overlay any original infill. Very little remains of this material now. A small sample (<1 mm diameter) of the white pigment from club 1 was taken for scanning electronic microscopy (SEM) and energy dispersive X-ray (EDX) analysis, as were samples of the black surface coating from all the clubs.

Fig 6 Black and white images of the endgrains of the four clubs taken with a 950 nm (infrared) filter, in sequential accession number from top to bottom (that is, AN1685 B.128 at top; AN1685 B.131, bottom). Image: J Thistlewood, courtesy of the Ashmolean Museum, Oxford

For radiocarbon dating, samples consisted of small shavings of wood weighing between 23 and 36mg. These underwent an extensive solvent extraction process, necessary because museum conservation records indicated that in the 1980s three of the clubs (clubs 1, 2 and 4) were cleaned with ‘violin oil’. This conservation treatment is likely to have included boiled linseed oil, turpentine, white vinegar and IMS (industrial methylated spirits, also known as de-natured alcohol, comprising approximately 95 per cent ethanol with 5 per cent methanol, isopropyl alcohol, acetone or methyl ethyl ketone). This targeted treatment was necessary given that incomplete removal of these substances prior to dating could have resulted in an erroneous date.

Samples were treated with sequential washes as follows: ultrapure Milli-Q™ water at 45°C, 3 hours; acetone at 45°C for 1 hour × 3, and left to air-dry overnight after the last acetone had been decanted off; ultrapure Milli-Q™ water at 45°C, 8 hours before freeze-drying; methanol at 45°C for 1 hour × 3; chloroform for 1 hour at room temperature, and then left to air-dry.

The samples then underwent the routine pre-treatment for wood applied at the Oxford Radiocarbon Accelerator Unit (ORAU), as described by Brock et al.Footnote ⁴³ Briefly, this consisted of sequential washes with 1M hydrochloric acid (80°C, 20 min), 0.2M sodium hydroxide (80°C, 20 min), 1M hydrochloric acid (80°C, 1 hour), 5 per cent w/v sodium chlorite at pH 3 (80°C, 30 min), with thorough rinsing with ultrapure water in between each step. The samples were then freeze-dried and combusted, and the resultant CO₂ cryogenically trapped before being converted to graphite for AMS radiocarbon dating.Footnote ⁴⁴ The δ¹³C stable isotope ratio for each sample was measured by mass spectrometry during the combustion process.

Wood anatomy samples were trimmed with a razor blade to expose the transverse surface and then observed with a 14×loupe. Thin sections were cut from the radial and tangential (and sometimes transverse) surfaces of the specimen, when possible, and placed into a small pool of 1:1 glycerine: 95 per cent ethanol mounting medium on a slide labelled with the specimen designator. A coverslip was placed atop the sections and mounting medium, and the whole slide was transferred to a hot plate (105–150ºC) where it was heated until air bubbles ceased to exit the sections. The slide was then cooled and either stored horizontally in a covered slide case or observed immediately. Identifications were based on observation of cells and cell features, and comparison of those patterns and features to information in published keys, online databasesFootnote ⁴⁵ and, ultimately, to specimens in the MADw-SJRw xylarium housed in the Center for Wood Anatomy Research at the Forest Products Laboratory in Madison, Wisconsin.

Due to possible contamination by water and preservatives, samples for strontium isotope analysis were also pre-treated following the protocols noted above for radiocarbon dating, but omitting the acid-base-acid (ABA) and bleach steps, which have unwanted effects on the strontium isotope composition of the samples.Footnote ⁴⁶ Samples were then digested to enable strontium extraction for isotope analysis.Footnote ⁴⁷

The purified strontium samples were evaporated, and the dried residues dissolved in 100µl of concentrated HNO₃, evaporated and finally dissolved in 1.5mL of 0.05M HNO₃. Strontium isotope compositions were measured on a Nu Plasma MC-ICP Mass Spectrometer (Nu015 from Nu Instruments, Wrexham, UK) at ULB. Particular attention was paid to the purity of the Ar gas used inside the spectrometer in order to avoid any interference (from Kr for instance) on Sr isotope masses. All Sr isotopes (84, 86, 87, 88) were measured, while the masses 85 (Rb) and 83 (Kr) were simultaneously monitored, allowing for interference corrections on masses 84, 86 (Kr) and 87 (Rb). All the data were corrected for mass fractionation by internal normalisation to ⁸⁶Sr/⁸⁸Sr=0.1194. In addition, after the measurements, all the raw data were normalised using a standard-sample bracketing method with the recommended value of ⁸⁷Sr/⁸⁶Sr=0.710248.Footnote ⁴⁸ For each sample, the ⁸⁷Sr/⁸⁶Sr value is reported with a 2σ error (absolute error value of the individual sample analysis – internal error).