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Chalcolithic Tattooing: Historical and Experimental Evaluation of the Tyrolean Iceman's Body Markings

Published online by Cambridge University Press:  13 March 2024

Aaron Deter-Wolf Open the ORCID record for Aaron Deter-Wolf [Opens in a new window] ,
Benoît Robitaille Open the ORCID record for Benoît Robitaille [Opens in a new window] ,
Danny Riday ,
Aurélien Burlot  and
Maya Sialuk Jacobsen Open the ORCID record for Maya Sialuk Jacobsen [Opens in a new window]
Aaron Deter-Wolf*
Affiliation:
Tennessee Division of Archaeology, Nashville, Tennessee, USA
Benoît Robitaille
Affiliation:
Independent Researcher, Québec Canada
Danny Riday
Affiliation:
The Temple Tattoo; Tamahere, New Zealand
Aurélien Burlot
Affiliation:
Department of Historical Studies, University of Gothenburg, Gothenburg, Sweden
Maya Sialuk Jacobsen
Affiliation:
Inuit Tattoo Tradition, Svendborg, Denmark
*
*Author for correspondence: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

The Tyrolean ice mummy known as Ötzi presents some of the earliest direct evidence of tattooing in the human past. Despite decades of study, it remains unclear how the Iceman's tattoos were created and what tools and methods were used. Popular discussions of the Iceman describe his tattoos as having been made by incision, first cutting the skin and then rubbing in pigment from the surface. The authors review the scholarly literature on the Iceman's tattoos and summarize ethnographic, historic, and anthropological research on global patterns of tattooing to contextualize the Iceman's marks within pre-electric tattooing traditions. The results of recent experimental tattooing studies are then compared to the physical signature of the Iceman's marks to evaluate existing claims and provide informed hypotheses as to how those tattoos were created.

Le corps de l'homme conservé par le glacier de l'Ötztal, surnommé Ötzi, présente parmi les plus anciennes preuves de tatouage dans l'histoire de l'humanité. Cependant, malgré des décennies de recherches, la méthode de tatouage et les instruments utilisés pour tatouer Ötzi restent incertains. On présume que ces tatouages avaient été incisés, donc produit par une entaille dans laquelle on frottait ensuite un pigment. Les auteurs de cet article passent en revue les publications sur le tatouage de l'homme des glaces et font le point sur les études ethnographiques, historiques et anthropologiques concernant le tatouage à l’échelle mondiale dans le but de contextualiser les marques découvertes sur Ötzi avant l'avènement du tatouage électrique. Ils comparent les résultats obtenus par expérimentation aux traces relevées sur les tatouages anciens afin d’évaluer les théories en vigueur et de formuler des hypothèses valables sur la réalisation du tatouage de l'homme des glaces. Translation by Madeleine Hummler

Die im Tirol entdeckte Gletschermumie, auch „Mann im Eis“ oder „Ötzi“ genannt, gehört zu den ältesten Beweisen der Tätowierungskunst der Menschheit. Trotz jahrzehntelange Untersuchungen bleiben die Verfahren und die Geräte, die bei der Tätowierungen von Ötzi benutzt wurden, weitgehend unbekannt. Man hat angenommen, dass seine Tätowierungen eingeschnitten wurden, also dass die Haut zuerst geschnitten wurde und dann ein Pigment eingerieben wurde. Die Verfasser besprechen die wissenschaftlichenVeröffentlichungen, die Ötzis Tätowierungen betreffen, und fassen die Ergebnisse von ethnografischen, historischen und anthropologischen Studien über globale Tendenzen in der Tätowierungskunst zusammen, um die Markierungen auf dem Körper der Mumie im Rahmen der vor-elektrischen Tätowierungstraditionen zu kontextualisieren. Sie vergleichen die Ergebnisse von neuen experimentalen Studien mit den erhaltenen Tätowierungen, bewerten bestehende Aussagen und formulieren informierte Hypothesen über die Erzeugung der Tätowierungen der Gletschermumie. Translation by Madeleine Hummler

Keywords

tattooIcemanChalcolithicexperimental archaeologyTyrolÖtzitatouagehomme des glacesChalcolithiquearchéologie expérimentaleTyrolÖtziTätowierungMann im EisKupferzeitexperimentelle ArchäologieTyrolÖtzi
Type
Article
Information
European Journal of Archaeology , Volume 27 , Issue 3 , August 2024 , pp. 267 - 288
Copyright
Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of the European Association of Archaeologists

The partially preserved remains and possessions of the Tyrolean Iceman, popularly known as Ötzi, were discovered melting from the ice of the Hauslabjoch Pass in the Ötzal Alps in September 1991. This individual died in c. 3200 bc during the European Copper Age and is perhaps the most extensively studied ancient human. Over the past three decades, detailed scientific examinations have produced an extraordinary body of scholarship regarding his health, diet, environment, clothing, toolkit, genetic profile, and the circumstances surrounding his death (e.g. Höpfel et al., Reference Höpfel, Platzer and Spindler1992; Spindler, Reference Spindler1994; Acs, Reference Acs, Wilhalm and Oeggl2005; Oeggl et al., Reference Oeggl, Kofler, Schmidl, Dickson, Egarter-Vigl and Gaber2007; Gostner et al., Reference Gostner, Pernter, Bonatti, Graefen and Zink2011; Maixner et al., Reference Maixner, Overath, Linke, Janko, Guerriero and van den Berg2013; Wierer et al., Reference Wierer, Arrighi, Bertola, Kaufmann, Baumgarten and Pedrotti2018; Junkmanns et al., Reference Junkmanns, Klügl, Schoch, Di Pietro and Hafner2019; Wang et al., Reference Wang, Prufer, Krause-Kyora, Childebayeva, Schuenemann and Coia2023).

Among his various attributes, the Iceman exhibits some of the world's oldest preserved tattoos, consisting of sixty-one carbon pigment marks on his abdomen, lower back, lower legs, and left wrist (Samadelli et al., Reference Samadelli, Melis, Miccoli, Egarter Vigl and Zink2015; Deter-Wolf et al., Reference Deter-Wolf, Robitaille, Krutak and Galliot2016) (Figure 1). Since their discovery, the Iceman's tattoos have generated both public and scholarly interest and discussion. They have featured in exhibitions, documentaries, and been the subject of performance art and blockchain digital files, while academic studies have employed advanced imaging and analytical techniques to catalogue the marks and investigate their microscopic structure (e.g. Gaber et al., Reference Gaber, Kunzel and Sjøvold1995; Sjøvold et al., Reference Sjøvold, Bernhard, Gaber, Künzel, Platzer, Unterdorfer, Spindler, Rastbichler-Zissernig, Wilfing, zur Nedden and Nothdurfter1995; van der Velden et al., Reference van der Velden, den Dulk, Leenders, Dingemans, Weerman, van der Putte, Spindler, Rastbichler-Zissernig, Wilfing, zur Nedden and Nothdurfter1995; Pabst et al., Reference Pabst, Letofsky-Papst, Bock, Moser, Dorfer and Egarter-Vigl2009; Samadelli et al., Reference Samadelli, Melis, Miccoli, Egarter Vigl and Zink2015). Despite this scrutiny, details regarding the tools and techniques used to tattoo the Iceman remain unclear. Although scholarly sources remain ambiguous as to the specifics of their creation, nearly all popular discussions over the last decade describe the marks as being incised, made by cutting lines into the skin followed by rubbing pigment into the wounds.

Figure 1. Locations of tattoos on the Iceman's body (after Samadelli et al., Reference Samadelli, Melis, Miccoli, Egarter Vigl and Zink2015: fig. 1). Adapted with permission of the South Tyrol Museum of Archaeology.

This article reviews the literature on the Iceman's tattoos, including how and why they were created. The hypotheses advanced in such research are examined in the context of ethnographic, historical, and anthropological data on the distribution of early modern tattooing tools and techniques. The Iceman's marks are then compared with the results of a recent experimental study examining the physical characteristics of tattoos created with different pre-electric tools and methods (Deter-Wolf et al., Reference Deter-Wolf, Riday and Jacobsen2022). The data allow us to conclude that the Iceman's tattoos were not incised but are likely to have been created with a single-point puncture tool.

The Iceman's Tattoos

The Iceman's sixty-one tattoos consist of nineteen groups of parallel or intersecting linear marks. Each group includes between two and seven lines, 7–40 mm long, and predominantly aligned to the long axis of the body (see Samadelli et al., Reference Samadelli, Melis, Miccoli, Egarter Vigl and Zink2015: tab. 1). Exceptions to that orientation include two parallel lines placed across the left wrist and sets of crossed lines on the right knee and left ankle (Figure 1). Individual marks measure between 1 and 3 mm wide, with parallel lines situated 20 to 80 mm apart (Samadelli et al., Reference Samadelli, Melis, Miccoli, Egarter Vigl and Zink2015: tab. 1). This discussion employs the designations T-01 to T-15 established by Marco Samadelli and colleagues (Reference Samadelli, Melis, Miccoli, Egarter Vigl and Zink2015) to reference the position of tattooed lines on the Iceman's body. Location T-04 includes five lines arranged in two separate groups, while T-07 consists of fourteen lines in four separate groups.

These permanent marks are significant for understanding the history of human body decoration, being among the oldest preserved tattoos so far identified in the archaeological record (Deter-Wolf et al., Reference Deter-Wolf, Robitaille, Krutak and Galliot2016). Radiocarbon dating of the Iceman's physical remains, possessions, and associated environmental materials confirm that he died around 3370–3100 cal bc (see Bonani et al., Reference Bonani, Ivy, Hajdas, Niklaus and Suter1994; Prinoth-Fornwagner & Niklaus, Reference Prinoth-Fornwagner and Niklaus1994; Rom et al., Reference Rom, Golser, Kutschera, Priller, Steier and Wild1999). Such a date is roughly contemporaneous with examples of directly dated tattooed individuals from Predynastic Egypt, albeit with a maximum age that slightly predates the early calibrated Egyptian ranges (3351 and 3341 cal bc; Friedman et al., Reference Friedman, Antoine, Talamo, Reimer, Taylor and Wills2018).

In September 1991, as the corpse was freed from the ice, observers noted clusters of dark marks along his lower spine that were initially thought to be lashes or brands (Spindler, Reference Spindler1994; Gaber, Reference Gaber, Kunzel and Sjøvold1995). Torstein Sjøvold (Reference Sjøvold1992) subsequently published the first description of marks on the lumbar region, left calf, right knee, and right ankle, tentatively identifying them as tattoos, albeit with a cautionary note encouraging further study. Parallel lines on the Iceman's left wrist (T-10) were thought to be rope marks associated with garment fastening. The following year, Luigi Capasso (Reference Capasso1993: 179) described the marks on the lumbar region and legs as being ‘almost certainly’ tattoos.

Initial infrared imaging (Gaber et al., Reference Gaber, Kunzel and Sjøvold1995; Sjøvold et al., Reference Sjøvold, Bernhard, Gaber, Künzel, Platzer, Unterdorfer, Spindler, Rastbichler-Zissernig, Wilfing, zur Nedden and Nothdurfter1995; Sjøvold, Reference Sjøvold and Fleckinger2003) identified additional tattoos in the lower lumbar region and both legs, thereby increasing the recorded total to fifty-seven individual marks in fourteen groups. Investigators concluded that, based on their position, at least some of the tattoos must have been applied by another individual (Gaber et al., Reference Gaber, Kunzel and Sjøvold1995). Although the parallel lines on the left wrist (T-10) were also determined to be tattoos, those continued to be identified as pressure marks in some sources (e.g. Sjøvold, Reference Sjøvold and Fleckinger2003; Kean et al., Reference Kean, Tocchio, Kean and Rainsford2013).

Three of the Iceman's tattoos were biopsied in 1992 for direct examination with a scanning electron microscope (van der Velden et al., Reference van der Velden, den Dulk, Leenders, Dingemans, Weerman, van der Putte, Spindler, Rastbichler-Zissernig, Wilfing, zur Nedden and Nothdurfter1995). That study noted a complete absence of the epidermis in all three samples. Homogeneous soot particles observed between collagen and dermal fibres were identified as remnants of tattoo pigment (van der Velden et al., Reference van der Velden, den Dulk, Leenders, Dingemans, Weerman, van der Putte, Spindler, Rastbichler-Zissernig, Wilfing, zur Nedden and Nothdurfter1995: 276).

Further direct studies by Pabst and colleagues (Reference Pabst, Letofsky-Papst, Bock, Moser, Dorfer and Egarter-Vigl2009) examined thin section samples of three tattoos using multiple techniques including optical microscopes, bright field transmission electron microscopy, energy dispersive X-ray spectroscopy, electron energy loss spectrometry, energy filtering transmission electron microscopy, and electron diffraction. These investigations confirmed that the Iceman's epidermis was mostly absent and reported that pigments deposited within connective tissue included particles of soot and fine ash. In some samples, these particles were interspersed with small quartz and possible almandine crystals that are likely to have come from the hearthstones where the carbon was collected (Pabst et al., Reference Pabst, Letofsky-Papst, Bock, Moser, Dorfer and Egarter-Vigl2009: 2338).

In 2015, Samadelli and colleagues employed digital imaging technology augmented with multispectral filters and image processing software to produce a complete catalogue of the Iceman's marks (Samadelli et al., Reference Samadelli, Melis, Miccoli, Egarter Vigl and Zink2015) (Figure 2). This resulted in the identification of a final group of four parallel lines tattooed on the Iceman's lower rib cage (T-15). The report provided final measurements for all tattoos, further confirmed the identification of carbon pigment, and established a standard reference system.

Figure 2. Details of the Iceman's sixty-one carbon pigment tattoos (after Samadelli et al., Reference Samadelli, Melis, Miccoli, Egarter Vigl and Zink2015: fig. 2). © South Tyrol Museum of Archaeology/Eurac/Samadelli/Staschitz. Reproduced by permission of the South Tyrol Museum of Archaeology.

Suggestions for Tattoo Function

Due to their schematic nature and placement on the body, the Iceman's tattoos have led to speculation regarding their intended purpose and to the idea that they primarily had a medicinal or therapeutic function. Several decades before the Iceman's discovery, Sergei Rudenko (Reference Rudenko1970: 112) proposed that dots tattooed on the spine and ankle of the man from the Iron Age Kurgan 2 at Pazyryk in the Siberian Altai mountains were not decorative, but had ‘a therapeutic aim, to counteract pains in this area’. The comparable position of several of the Iceman's tattoos prompted initial suggestions of a similar therapeutic nature (Capasso, Reference Capasso1993: 180–81; Gaber et al., Reference Gaber, Kunzel and Sjøvold1995: 349–53). This hypothesis fully entered the Iceman's narrative following the identification of arthritis and other ailments close to some tattoos, as well as studies asserting that the tattoo locations corresponded with traditional acupuncture meridians (e.g. zur Nedden & Wicke, Reference zur Nedden, Wicke, Höpfel, Platzer and Spindler1992; Sjøvold et al., Reference Sjøvold, Bernhard, Gaber, Künzel, Platzer, Unterdorfer, Spindler, Rastbichler-Zissernig, Wilfing, zur Nedden and Nothdurfter1995; Dorfer et al., Reference Dorfer, Moser, Spindler, Bahr, Egarter-Vigl and Dohr1998, Reference Dorfer, Moser, Bahr, Spindler, Egarter-Vigl and Giullën1999; Bahr et al., Reference Bahr, Dorfer and Suwanda2015; Zink et al., Reference Zink, Samadelli, Gostner and Piombino-Mascali2019; see also Renaut, Reference Renaut2004a). Further suggestions of a therapeutic function are based on comparative cross-cultural evidence (Krutak, Reference Krutak, Della Casa and Witt2013, Reference Krutak2019; Piombino-Mascali & Krutak, Reference Piombino-Mascali, Krutak, Sheridan and Gregoricka2020), and anecdotal results of experimental efforts (Krutak, Reference Krutak2014a).

Other lines of evidence used to identify the Iceman's tattoos as primarily medicinal or therapeutic are rooted in an assumption that they are ‘non-decorative’ (Kean et al., Reference Kean, Tocchio, Kean and Rainsford2013: 14) and do not hold symbolic value (Capasso, Reference Capasso1993; Dorfer et al., Reference Dorfer, Moser, Bahr, Spindler, Egarter-Vigl and Giullën1999). According to Capasso (Reference Capasso1993: 179), the position of the Iceman's marks on areas of the body that could be covered by clothing, and therefore their lack of permanent visibility, ‘would exclude a “communicative” function’. It is an interpretive fallacy to assume that tattoos in either the past or present must be publicly displayed to be culturally or symbolically significant; for example, the intricate iconography tattooed on the shoulders, legs, and arms of Iron Age mummies from the Siberian Altai (e.g. Pankova, Reference Pankova, Krutak and Deter-Wolf2017) unquestionably held symbolic value, and yet, like the Iceman's marks, they were covered by clothing depending on the time of year and social setting.

Another argument for the Iceman's tattoos lacking symbolic value hinges on their perceived simplicity (e.g. Capasso, Reference Capasso1993; Dorfer et al., Reference Dorfer, Moser, Bahr, Spindler, Egarter-Vigl and Giullën1999). Capasso (Reference Capasso1993: 179–80) writes: ‘The pigmented marks on the skin are geometric, without curved segments, are simple, and contain neither anthropomorphic nor zoomorphic motifs. This allows us to rule out an ornamental function for the tattoos.’ The importance of visual symbols in ancient and non-western societies is not contingent on their legibility to outside observers. Further, the cultural value of traditional tattooing extends beyond iconography and is also rooted in aspects of immaterial culture such as status, gender, lineage, community identity, and belief system(s). All these aspects combine to transmit culturally coded information that may relate to the marked individual's age, achievements, social and/or spiritual status, group affiliation, and connection to spiritual forces (e.g. Krutak, Reference Krutak2007). For example, simple straight lines traditionally tattooed horizontally across an Inuit woman's fingers were not considered representational to early European ethnographers (Figure 3). Interviews with living Inuit culture members in Canada and Greenland nevertheless reveal that, prior to forced acculturation, these tattoos centred women's bodies within a complex immaterial framework invoking the origin story of the ocean spirit Sassuma Arnaa, and acted as persistent reminders as to the importance of maintaining cultural taboos (Jacobsen, Reference Jacobsen, Manni and d'Errico2024).

Figure 3. Inussakkut Kakiornerit, horizontal lines tattooed on Inuit women's fingers. The lines vary in number and placement according to territory and invoke the origin of the sea spirit Sassuma Arnaa, the Woman of the Deep. Photograph by Maya Sialuk Jacobsen

Despite a correlation between the location of some of the Iceman's tattoos and diagnosed health conditions, it seems unreasonable to assume that the tattooing practice was entirely of therapeutic or medicinal intent. Of the nineteen recorded groupings of tattoos on the Iceman's body, just nine are located on or close to traditional acupuncture points (Dorfer et al., Reference Dorfer, Moser, Bahr, Spindler, Egarter-Vigl and Giullën1999; see Renaut, Reference Renaut2004a), while only seven groups (T-05, T-07, T-08, T-15) are positioned at the locations of diagnosed injuries or ailments (Figure 4). Most of the Iceman's tattoos are not situated at the sites of clearly identified pathologies, and some locations of diagnosed health problems are not tattooed (Nystrom & Piombino-Mascali, Reference Nystrom, Piombino-Mascali, Tilley and Schrenk2017; Nystrom, Reference Nystrom2019; Zink et al., Reference Zink, Samadelli, Gostner and Piombino-Mascali2019). We should therefore consider that the function of the Iceman's tattoos was not limited simply to curative practices.

Figure 4. A comparison of the Iceman's tattoo locations to sites of diagnosed health issues.

Proposed Tattooing Techniques

Initial interpretations as to how the Iceman was tattooed drew primarily on Renate Rolle's (Reference Rolle, Höpfel, Platzer and Spindler1992) theories of body marking traditions among the Iron Age Pazyryk culture. Specifically, Rolle suggested that the dots on the spine of the man from Pazyryk Kurgan 2 were the result of cauterization or branding practices analogous to Tibetan folk medicine. Capasso (Reference Capasso1993: 179) subsequently proposed a connection with that hypothesis, writing that the Iceman's marks were produced ‘by scarifying or cauterizing the skin, and impregnating it, either simultaneously or immediately after, with powdered vegetable carbon’. He later claimed unequivocally that the tattoos ‘were produced by making multiple parallel or intersecting linear incisions with a scalpel, filling the incisions with a mixture of herbs, and lighting the herbs’ (Capasso Reference Capasso1998: 1864). Konrad Spindler (Reference Spindler1994) proposed a similar technique, involving a heated branding iron that was loaded with herbs at the tip and applied to the skin. No physical data presented to date indicate that the Iceman's tattoos were created by branding or through the ignition of plant matter on or within the skin. Further, Luc Renaut (Reference Renaut2004a) has demonstrated that Rolle's referenced Tibetan practice does not actually involve the combustion of materials on the skin and does not result in visible scars or tattoos.

Other claims as to the possible tools and methods used to create the Iceman's tattoos have been more circumspect. Spindler (Reference Spindler1994: 169) noted that bone awls, such as the one the Iceman carried, might have been suitable for tattooing (Figure 5) but discounted the possibility that this specific tool was used, as ‘self-tattooing is practised only in very exceptional situations’. Van der Velden and colleagues (Reference van der Velden, den Dulk, Leenders, Dingemans, Weerman, van der Putte, Spindler, Rastbichler-Zissernig, Wilfing, zur Nedden and Nothdurfter1995) also reiterated that the specific method was unknown but suggested that pigment was rubbed on the skin before or after puncture tattooing. Sjøvold (Reference Sjøvold and Fleckinger2003: 119) similarly stated that there was ‘no conclusive evidence’ as to how the tattoos were created, while hypothesizing that thickening at the ends of some lines might result from incision:

‘Several of the tattooed lines show enlarged pigmentation at both ends, which could point to cutting the skin and rubbing the pigmentation into the cut. On the other hand, inspection of some of the lceman's tattoos with a microscope … revealed that the pigmentation is distributed in patches, pointing to the possible use of a tattooing needle.’ (Sjøvold, Reference Sjøvold and Fleckinger2003: 120)

Figure 5. Sharpened bone awl from the Iceman's toolkit. © Harald Wisthaler ( www.wisthaler.com ) adapted and reproduced by permission of the South Tyrol Museum of Archaeology.

Recent discussions remain cautious as to the method by which the Iceman was tattooed (e.g. Piombino-Mascali & Krutak, Reference Piombino-Mascali, Krutak, Sheridan and Gregoricka2020). Nevertheless, most popular media sources state unequivocally that his marks were created by incising the skin (e.g. Lobell & Powell, Reference Lobell and Powell2013; Angler, Reference Angler2016; Holloway, Reference Holloway2017; Collins, Reference Collins2018; McQuaid, Reference McQuaid2021; Diamond, Reference Diamond2023). These claims appear to draw directly from the web page of the South Tyrol Museum of Archaeology (https://www.iceman.it/en/the-mummy/), which states: ‘Unlike modern tattoos, they were not made with a needle; they were fine incisions into which pulverised charcoal was rubbed.’ Information returned for a search of the Iceman Database hosted at that same site (https://www.iceman.it/en/database/) is more ambiguous: ‘In contrast to today, where tattoos are performed with a machine, Ötzi's skin was stuck or scratched with a bone needle or a flint blade and soot was rubbed in.’

Ethnographic and Historical Evidence

Human cultures across the globe have used various techniques and tools to permanently insert pigments beneath the skin. Since the mid-nineteenth century, historical, ethnographic, anthropological, and archaeological data have been mustered in efforts to classify and map these variations at a global scale (e.g. Magitot, Reference Magitot1881; Roth, Reference Roth1900; Brilot, Reference Brilot2003; Robitaille, Reference Robitaille2015; Robitaille et al., Reference Robitaille, Deter-Wolf, Jacobsen, Manni and d'Errico2024) (Figure 6). Following those studies, the methods of deliberate tattooing shared across human cultures may be broadly grouped into two main categories: puncture tattooing and tattooing by incision.

Figure 6. Map showing generalized global distribution patterns of tattooing techniques, based on ethnographic and historical data (after Robitaille et al., Reference Robitaille, Deter-Wolf, Jacobsen, Manni and d'Errico2024: fig. 1). Image by Benoît Robitaille.

In puncture tattooing, the skin is pierced using a hafted or unhafted single-point tool or group of points. Pigment is carried into the skin on the apical end of the point(s), and/or rubbed in from the surface following puncture. The tools used in puncture tattooing may be divided into four general, morphological categories: 1) pointed implements held directly in the hand; 2) straight-hafted points secured to the end of a handle; 3) tools with one or more points hafted at an angle to the handle and applied using percussive force; and 4) subdermal tattooing tools. Categories 1 and 2 are colloquially known by modern English speakers as ‘hand-poke’ or ‘stick-and-poke’ tattooing. Category 3 is today known as ‘hand tapping’, while Category 4 includes the method popularly called ‘skin stitching’.

Traditional unhafted and straight-hafted puncture (hand-poke) tattooing tools include, but are not limited to, metal needles, plant thorns, fish teeth, sharpened bone tools, and lithic implements (Video S1). This method is the most frequently encountered form of traditional tattooing and has been used by cultures on all continents except Australia and Antarctica (Robitaille, Reference Robitaille2015; Robitaille et al., Reference Robitaille, Deter-Wolf, Jacobsen, Manni and d'Errico2024) (see Figure 6). Conversely, perpendicularly hafted (hand tapping) tattooing tools are closely tied to people speaking Austronesian languages and appear within a limited geographic area circumscribing Oceania, insular Southeast Asia, pockets of mainland Southeast Asia, and the adjacent Himalayan slope (Robitaille, Reference Robitaille, Gates St-Pierre and Walker2007) (Figure 7, Video S2).

Figure 7. Map showing the global distribution of perpendicularly hafted (hand tapping) puncture tattooing (after Robitaille, Reference Robitaille, Gates St-Pierre and Walker2007: fig. 2). Image by Benoît Robitaille.

Subdermal tattooing involves the passage of an awl or eyed needle horizontally through the skin to create paired, adjacent wounds (Deter-Wolf et al., Reference Deter-Wolf, Riday and Jacobsen2022) (Video S3). Pigment is introduced along the same channel via ink-soaked thread or sinew pulled behind the needle, or is pushed through on the tip of a secondary implement such as a wooden awl. Inuit knowledge systems attest to a deep history of subdermal tattooing in the circumpolar region, while the practice also appears among several subarctic groups in North America's Pacific Northwest, in Brazil, and the southern reaches of South America (Robitaille et al., Reference Robitaille, Deter-Wolf, Jacobsen, Manni and d'Errico2024) (see Figure 6).

Incised tattoos are produced by slicing the skin with a sharp cutting instrument that frequently consists of a metal blade or lithic tool (Video S4). Because tools used for incision tattooing are typically non-porous and therefore poor pigment carriers, this technique relies on pigments being rubbed into a wound from the surface. Some historical examples of incised tattooing involve continuous, linear incisions (e.g. in Central America: Ximénez, Reference Ximénez1999), while others employ short, sequential cuts (e.g. in Japan: Kodama, Reference Kodama1970). Incision tattooing occurs on all continents except Antarctica and Australia, but is markedly rarer than puncture tattooing (Robitaille, Reference Robitaille2015; Robitaille et al., Reference Robitaille, Deter-Wolf, Jacobsen, Manni and d'Errico2024).

Today, tattooing is part of the popular vision of European antiquity and is associated with groups such as the protohistoric Picts, Celts, and medieval Norse. There is, however, no unequivocal historical or archaeological evidence apart from the Iceman demonstrating that the practice existed north of the Alps before the late Middle Ages (Dibon-Smith, Reference Dibon-Smith and Hunt1989; Renaut, Reference Renaut2004a, Reference Renaut2004b; Lodder, Reference Lodder2022). Early historical sources, although of questionable reliability, uniformly describe puncture tattooing (e.g. Herodian, Historiarum Book 3: 14.7; Isidore of Seville, Etymologiæ 19.23.7; William of Malmesbury, Gesta Regum Anglorum, Rolls Series edition: 305).

Some of the earliest reliable records of tattooed European bodies describe devotional marks received in the Holy Land during the fifteenth to seventeenth centuries, where they were applied by puncture with unhafted metal needles (e.g. Terry, Reference Terry1665; Maundrell, Reference Maundrell1707). From the sixteenth century onwards almost all tattooing in Europe, as well as in western Asia and the Near East, was undertaken with handheld or straight-hafted puncture tools (e.g. Smeaton, Reference Smeaton1937; Chenciner et al., Reference Chenciner, Ismailov and Magomedkhanov2006; Taşğın & Mollica, Reference Taşğın and Mollica2016; Guerzoni, Reference Guerzoni2018; Dauge-Roth, Reference Dauge-Roth2020).

The exception to historical European puncture tattooing is the occurrence of incised tattoos in nineteenth-century France, where the practice was apparently tied to the criminal class (e.g. Charrière, Reference Charrière1969; Pierrat & Guillon, Reference Pierrat and Guillon2004) and does not seem to have had deep historical roots. Rather, the period and cultural setting may indicate connections between the florescence of tattooing in Biribi penal colonies of French colonial Africa (Cooper, Reference Cooper2018) and the adoption of incised tattooing from indigenous traditions in Morocco, Algeria, and Tunisia (e.g. Roth, Reference Roth1905; Giacobetti, Reference Giacobetti1916).

The only historical description of tattooing we have identified from the region surrounding the Iceman dates to ad 1751. In that account, the German historian Johann Keyßler (Reference Keyßler1751: 40) wrote that parents in the Tyrol used either a needle or the point of a knife to give identifying marks to children who were sent to work in the mines or salt works. After the skin was marked, black pigment was rubbed into the surface. Although Keyßler's brief account includes mention of a knife, the description (‘stechen ihnen mit einer Nadel oder mit einem spißigen Messer viele Puncte’; ‘they pierce them with many points with a needle or with a pointed knife’) indicates puncture tattooing rather than incision.

Experimental Data

In 2021–2022, Deter-Wolf, Riday, and Jacobsen conducted an experimental study designed to investigate physical differences between tattoos created with different methods and tools (Deter-Wolf et al., Reference Deter-Wolf, Riday and Jacobsen2022). Danny Riday, a professional tattooist specializing in both hand-poke and incision tattooing, tattooed himself with identical patterns using a variety of tools and techniques. Among these tests, an eyed bone needle was used for subdermal tattooing, the tip of an obsidian flake was used for puncture tattooing, and a separate obsidian flake was used for incising tattoos. Single-point copper and bone awls were used for hand-poke puncture tattooing. The tattoos were then documented with a digital microscope over six months to examine the healing process and compare specific physical characteristics of the healed tattoos.

The experiment demonstrated that tattoos created with different tools and techniques exhibit distinctive physical traits (Deter-Wolf et al., Reference Deter-Wolf, Riday and Jacobsen2022). For example, lines tattooed by puncture using a bone awl have irregular edges and some internal separation due to the varying proximity of individual wounds. Those created with a copper awl had sharper edges as compared to those made by hand poking with either bone or obsidian tools, while also exhibiting some internal separation. The ends of lines tattooed by hand poking with both copper and bone tools were generally rounded and of uniform thickness, while puncture tattooing with an obsidian flake resulted in irregular line edges due to the shape of the tool tip. Incised tattoos exhibit firm, clear margins, and distinctive tailing at one or both ends of individual lines.

Digital images and data from the experimental tattooing were compared to published imagery of the Iceman's tattoos (e.g. Samadelli et al., Reference Samadelli, Melis, Miccoli, Egarter Vigl and Zink2015), to natural light and ultraviolet images from the Iceman Photoscan webpage of the EURAC Institute for Mummy Studies (http://www.icemanphotoscan.eu/), and to high-resolution digital images provided by the South Tyrol Museum of Archaeology (Figure 8). We further compared the Iceman's marks with incised tattoos created professionally by Riday in 2022 that duplicate the size and position of tattoo group T-09 on the Iceman (Figure 8D). When comparing the preserved marks with experimental results, particular attention was given to line ends and edges, internal stippling, and indications of line interruptions.

Figure 8. Comparison of experimental and preserved tattoos. A) subdermal tattoos created using an eyed bone needle and thread (after Deter-Wolf et al., Reference Deter-Wolf, Riday and Jacobsen2022); B) puncture with an obsidian flake tip; C) short lines incised with an obsidian flake; D) continuous lines incised with an obsidian flake; E) puncture with a bone awl; F) puncture with a copper awl; G) details of selected tattoos on the Iceman (after Samadelli et al., Reference Samadelli, Melis, Miccoli, Egarter Vigl and Zink2015: fig. 2). G: Reproduced by permission of the South Tyrol Museum of Archaeology.

Discussion

The Iceman's skin, and potentially his tattoos, had undergone various taphonomic processes and so may not be directly comparable with the results of experimental tattooing on fresh human skin. Nevertheless, when combined with historical and ethnographic data, the results of the experimental study provide important information for assessing how the Iceman's tattoos may have been applied.

Based on ethnographic and historical evidence that informs the current understanding of global distribution patterns of tattooing methods (Robitaille, Reference Robitaille2015; Robitaille et al., Reference Robitaille, Deter-Wolf, Jacobsen, Manni and d'Errico2024), we may discount any suggestion that the Iceman's tattoos were applied using perpendicularly hafted tools. The hand tapping method is sometimes viewed by the public as synonymous with ancient tattooing. However, no historical or archaeological data demonstrate that this technique existed outside Oceania and Southeast Asia prior to the spread of traditional tattooing techniques during late twentieth-century globalization (see Figure 7).

Although eyed bone needles were present in western and southern European assemblages by the Solutrean period (c. 23–26 ka bp; d'Errico et al., Reference d'Errico, Doyon, Zhang, Baumann, Laznickova-Galetov and Gao2018), no historical or archaeological evidence demonstrates the presence of subdermal tattooing in central Europe. The nearest historically documented examples of this practice to the Iceman are over 5000 km distant and 5000 years more recent, among the Evenk in northern Asia (Gmelin, Reference Gmelin and de Keralio1767) and the Inuit in eastern Greenland (Holm, Reference Holm1972). In our 2022 experimental study, subdermal tattooing using an eyed bone needle and thread resulted in lines of variable width, with internal separations between some entry and exit points (Figure 8A). These characteristics are not replicated in the Iceman's tattoos (see Figures 2 and 8G).

Since the early twentieth century, various flint tools from European archaeological collections have been intuitively identified as possible puncture tattooing implements (e.g. Girod & Massenat, Reference Girod and Massenat1900; Cheynier, Reference Cheynier1931) (Figure 9). Our study suggests that the Iceman was not tattooed in this manner. Unlike bone or copper awls, the tips of lithic tools are not rounded and may exhibit dramatic angle changes due to flake removal. The shapes of individual punctures made with these tools match the forensic definition of stab wounds, in that they mirror the cross-section of the working tip (Figure 10A, B). Variations in the placement of lithic punctures relative to one another and changes in the angle and orientation at which the tool is held therefore result in tattooed lines with highly irregular edges (see Figure 8B). These traits do not match the Iceman's tattoos, which, although they exhibit some variation, have generally even widths (see Figures 2 and 8).

Figure 9. Examples of identified but unconfirmed tattooing tools from the European archaeological record. Top row: lithic ‘pointes à piquer’ (after Cheynier Reference Cheynier1931: 487). Bottom row: ‘alènes pour tatouage (âge du bronze)’ (after Déchelette Reference Déchelette1907: fig. 4). Not to scale. Re-drawn and adapted by A. Deter-Wolf.

Figure 10. Forensic diagram of sharp force injuries. A and B: stab or puncture wounds are created when a sharp object is pushed through tissue at an angle generally perpendicular to the skin. The shape of the wound mirrors the object's tip (A: bevelled; B: rounded). C: incised or cut wounds are created when an object with a sharp edge or tip is drawn through the skin at an acute angle to the surface. These wounds are thinner at the end(s) due to differential tissue contraction (adapted with additions from Prahlow, Reference Prahlow2022). Not to scale.

Traditional societies throughout the world, including the Americas, Melanesia, and Africa, employed lithic tools and metal blades for incision tattooing (Robitaille, Reference Robitaille2015). Wherever available, there appears to be a preference for obsidian over other lithic materials (e.g. Kodama, Reference Kodama1970; Krutak, Reference Krutak2014b). No obsidian has been identified from archaeological contexts in the Alps (Williams-Thorpe, Reference Williams-Thorpe1995; Freund, Reference Freund2018), although the copper used to manufacture the Iceman's axe demonstrates a measure of access to southern trade routes that overlap with obsidian distribution networks (Artioli et al., Reference Artioli, Angelini, Kaufmann, Canovaro, Dal Sasso and Villa2017). The Iceman's possessions included various flint tools, among them a small flake that, while suitable for incision tattooing, does not exhibit use-wear or residues consistent with the practice (Wierer et al., Reference Wierer, Arrighi, Bertola, Kaufmann, Baumgarten and Pedrotti2018).

The results of our experimental study, further supported by forensic sharp force injury data, indicate that the Iceman's tattoos were not created by incision. Incised tattoos created during experimental studies exhibit maximum widths of less than 1 mm, tailing at one or both ends, and clean margins (Figure 8C and D). These characteristics are not a result of the skill or technique of the individual tattooist, but conform to established forensic traits for incision wounds. As opposed to stabbing/puncture wounds, incision sharp force injuries are created when an edged object is drawn through tissue parallel, or at an acute angle, to the skin surface (Vij, Reference Vij2014; Prahlow, Reference Prahlow2022). This results in wounds with clean margins, an absence of tissue bridging, and (contrary to Sjøvold, Reference Sjøvold and Fleckinger2003) thinning at one or both ends due to differential tissue contraction (see Figure 10C). None of the traits described above are present in the Iceman's marks, which are 1–3 mm wide, have irregular line edges, and exhibit rounded rather than tapered ends (see Figures 2 and 8G).

The physical structure of the Iceman's tattoos, including stippling, line widths, rounded ends, and diffusion of pigment along the edges are all strongly evocative of puncture tattooing using a single-point hand-poke tool. Of the implements tested during our experimental study, the Iceman's marks compare most favourably with tattoos created using a bone point (Figure 8E) or copper awl (Figure 8F). Sharpened bone tools including awls and needles were a standard part of Copper Age material culture, as attested by artefacts carried in the Iceman's belt pack (see Figure 5). Although the bone awl he carried appears to be sharp enough for use in tattooing, as potentially does the antler tine from his quiver, no study to date has examined microwear or residues on those tools.

Copper or copper alloy awls represent some of the earliest forms of metalwork, and evidence of smelting copper ore and manufacturing cast copper objects in the northern Alps dates to the latter half of the fifth millennium bc (Roberts, Reference Roberts2009). While the timing and origin(s) of metallurgy south of the Alps remain contentious, the practice was well established in northern and central Italy several centuries before the Iceman's demise (Dolfini, Reference Dolfini2013; van Willigen, Reference Van Willigen, Gauthier, Pétrequin and Pétrequin2017). Axeheads and awls are among the most common copper artefacts identified south and west of the Alps before the Italian Early Chalcolithic (c. 4700–3600 bc). Samuel van Willigen (Reference Van Willigen, Gauthier, Pétrequin and Pétrequin2017: fig. 1) identifies some fifty-three copper objects dating to this period recovered from an area including parts of modern-day Slovenia, Austria, Italy, and France. That corpus includes sixteen awls (thirteen from Italy and three from France), all dated to c. 4300–3800 bc. Most were recovered from domestic sites, although by the Early/Middle Chalcolithic transition (c. 3600 bc) some Italian examples begin to appear in funerary contexts (van Willigen, Reference Van Willigen, Gauthier, Pétrequin and Pétrequin2017: 922, 925).

Copper awls are typically interpreted as having been used for tasks including leatherworking, basketmaking, working shell, decorating pottery, and pressure flaking (Pearce, Reference Pearce, Ridgeway, Serra Ridgeway, Pearce, Herring, Whitehouse and Wilkins2000). Unhafted and hafted metal awls from the European archaeological record have also been identified as potential tattooing implements (e.g. Müller, Reference Müller1897; Déchelette, Reference Déchelette1907; Willroth, Reference Willroth, Hänsel and Becker1997) (see Figure 9). Copper and copper alloy points are certainly capable of piercing the skin for tattooing, although no direct evidence supporting that function has been mustered for any specific artefact. The identification of these tools as tattooing implements instead relies almost entirely on chains of citations combined with references to historical source materials that significantly postdate the period(s) in question (Deter-Wolf & Gillreath Brown, Reference Deter-Wolf, Gillreath-Brown, Manni and d'Errico2023; see Renaut, Reference Renaut2004b).

Conclusions

The Iceman's tattoos provide the only direct evidence to date of permanent body marking practices in the European Copper Age. Those marks nevertheless reveal the presence of an established tattooing tradition within alpine communities of the era (Deter-Wolf et al., Reference Deter-Wolf, Robitaille, Krutak and Galliot2016; Zink et al., Reference Zink, Samadelli, Gostner and Piombino-Mascali2019). In this study, we used comparative historical data and the results of experimental tattooing to evaluate the possible methods and tools of Chalcolithic tattooing in central Europe. This comparative approach carries important caveats, as direct evidence of early tattooing methods in the region is extremely limited, with the earliest reliable accounts postdating the Copper Age by millennia. Additionally, physical comparisons between the Iceman's marks and the results of experimental tattooing are based on healed tattoos observed on living, intact skin. The Iceman's epidermis is mostly, or entirely, absent, and the potential for taphonomic changes to his tattoos following millennia of exposure to ice is unknown. Nevertheless, this effort provides compelling evidence as to the tattooing method likely employed in the European Copper Age.

Although scholars remain generally ambivalent as to the method and tool(s) used to make the Iceman's sixty-one carbon pigment marks, public understanding appears to have settled on the tattoos being incised into his skin. Our study shows that the Iceman's tattoos were not created by incision, by subdermal methods, or with perpendicularly hafted puncture implements. Instead, the physical characteristics of the preserved marks suggest that they were tattooed with a single-point puncture tool. These findings are consistent with historical data, as well as current understandings of the geographic distribution of pre-electric tattooing methods. Bone and copper awls, as well as other artefacts suitable for puncture tattooing, appear throughout the regional archaeological record. While no tattooing implements have yet been conclusively identified in Copper Age assemblages, we hope that our findings will inspire informed investigations of potential tattooing artefacts, including use-wear and residue analyses, that may further inform our understanding of Chalcolithic tattooing traditions in central Europe.

Supplementary Material

To view supplementary material for this article, please visit https://doi.org/10.1017/eaa.2024.5.

Acknowledgements

Data used in this research were gathered with the support of an Experimental Archaeology grant from John Kiernan and EXARC (https://exarc.net/ark:/88735/10654).

References

Acs, P., Wilhalm, T. & Oeggl, K. 2005. Remains of Grasses Found with the Neolithic Iceman ‘Otzi’. Vegetation History and Archaeobotany, 14: 198206. https://doi.org/10.1007/s00334-005-0014-xCrossRefGoogle Scholar
Angler, M. 2016. Der älteste Tintling der Welt: Warum hatte Ötzi so viele Tätowierungen? Vice Media Group: 29 January 2016 [online] [accessed 29 August 2023]. Available at: https://www.vice.com/de/article/vv7wkj/der-aelteste-tintling-der-welt-warum-hatte-oetzi-so-viele-ttowierungen-394Google Scholar
Artioli, G., Angelini, I., Kaufmann, G., Canovaro, C., Dal Sasso, D. & Villa, I.M. 2017. Long-Distance Connections in the Copper Age: New Evidence from the Alpine Iceman's Copper Axe. PLOS ONE, 12: e0189561. https://doi.org/10.1371/journal.pone.0189561Google ScholarPubMed
Bahr, F., Dorfer, L. & Suwanda, S. 2015. Die Neuen Untersuchungen am Mann im Eis ‘Ötzi’ mit dem ‘Missing Link’ als Nachweis für die Entwicklung der Akupunktur in Europa. Akupunktur & Aurikulomedizin, 41: 1014. https://doi.org/10.1007/s15009-015-5330-3CrossRefGoogle Scholar
Bonani, G., Ivy, S.D., Hajdas, I., Niklaus, T.R. & Suter, M. 1994. AMS 14C Age Determinations of Tissue, Bone and Grass Samples from the Ötztal Ice Man. Radiocarbon, 36: 247–50. https://doi.org/10.1017/S0033822200040534CrossRefGoogle Scholar
Brilot, M. 2003. Typologie technique du tatouage. Anthropologica et Praehistorica, 114: 6780.Google Scholar
Capasso, L. 1993. A Preliminary Report on the Tattoos of the Val Senales Mummy (Tyrol, Neolithic). International Journal of Paleopathology, 5: 173–82.Google Scholar
Capasso, L. 1998. 5300 Years Ago, the Iceman Used Natural Laxatives and Antibiotics. The Lancet, 352: 1864. https://doi.org/10.1016/s0140-6736(05)79939-6CrossRefGoogle Scholar
Charrière, H. 1969. Papillon. Paris: Robert Laffont.Google Scholar
Chenciner, R., Ismailov, G. & Magomedkhanov, M. 2006. Tattooed Mountain Women and Spoon Boxes of Daghestan: Magic Medicine Symbols in Silk, Stone, Wood and Flesh. London: Bennet & Bloom.Google Scholar
Cheynier, A. 1931. Pointes à piquer. Bulletin de la Société Préhistorique Française, 28: 486–88.10.3406/bspf.1931.5888CrossRefGoogle Scholar
Collins, T. 2018. Ötzi the Iceman Used Acupuncture: Europe's Oldest Mummy is Covered in Prickmarks That Were a Primitive Form of Joint Pain Relief 5300 Years Ago. Daily Mail: 24 September 2018 [online] [Accessed 29 August 2023]. Available at: https://www.dailymail.co.uk/sciencetech/article-6201659/tzi-iceman-covered-acupuncture-like-marks-used-primitive-painkiller.htmlGoogle Scholar
Cooper, N. 2018. Biribi: Disciplining and Punishing in the French Empire. French Cultural Studies, 29: 321–29. https://doi.org/10.1177/0957155818794406CrossRefGoogle Scholar
Dauge-Roth, K. 2020. Signing the Body: Marks on Skin in Early Modern France. London: Routledge.Google Scholar
Déchelette, J. 1907. La peinture corporelle et le tatouage. Revue Archéologique, 9: 3850.Google Scholar
d'Errico, F., Doyon, L., Zhang, S., Baumann, M., Laznickova-Galetov, M., Gao, X., et al. 2018. The Origin and Evolution of Sewing Technologies in Eurasia and North America. Journal of Human Evolution, 125: 7186. https://doi.org/10.1016/j.jhevol.2018.10.004CrossRefGoogle ScholarPubMed
Deter-Wolf, A. & Gillreath-Brown, A. 2023. Archaeological Science and the Identification of Tattooing Tools. In: Manni, F. & d'Errico, F., eds. The Oxford Handbook of the Archaeology and Anthropology of Body Modification. Oxford: Oxford University Press. https://doi.org/10.1093/oxfordhb/9780197572528.013.5Google Scholar
Deter-Wolf, A., Riday, D. & Jacobsen, M.S. 2022. Examining the Physical Signatures of Pre-Electric Tattooing Tools and Techniques. EXARC Journal 2022/3 [online] [accessed 4 December 2023]. Available at: https://exarc.net/ark:/88735/10654Google Scholar
Deter-Wolf, A., Robitaille, B., Krutak, L. & Galliot, S. 2016. The World's Oldest Tattoos. Journal of Archaeological Science: Reports, 5: 1924. https://doi.org/10.1016/j.jasrep.2015.11.007Google Scholar
Diamond, S. 2023. The Word ‘Tattoo’ in New York Times Ink. The New York Times: 26 March 2023 [online] [accessed 29 August 2023]. Available at: https://www.nytimes.com/2023/03/26/insider/the-word-tattoo-in-new-york-times-ink.htmlGoogle Scholar
Dibon-Smith, R. 1989. The Pictish Tattoo: Origins of a Myth. In: Hunt, L., ed. New Ideas about the Past: Seven Essays in Cultural History. Berkeley: University of California Press, pp. 91-102.Google Scholar
Dolfini, A. 2013. The Emergence of Metallurgy in the Central Mediterranean Region: A New Model. European Journal of Archaeology, 16: 2162. https://doi.org/10.1179/1461957112Y.0000000023CrossRefGoogle Scholar
Dorfer, L., Moser, M., Bahr, F., Spindler, K., Egarter-Vigl, E., Giullën, S., et al. 1999. A Medical Report from the Stone Age? The Lancet, 354: 1023–25. https://doi.org/10.1016/s0140-6736(98)12242-0CrossRefGoogle ScholarPubMed
Dorfer, L., Moser, M., Spindler, K., Bahr, F., Egarter-Vigl, E. & Dohr, G. 1998. 5200-Year-Old Acupuncture in Central Europe? Science, 282: 239. https://doi.org/10.1126/science.282.5387.239fCrossRefGoogle ScholarPubMed
Freund, K.P. 2018. A Long-Term Perspective on the Exploitation of Lipari Obsidian in Central Mediterranean Prehistory. Quaternary International, 468: 109–20. https://doi.org/10.1016/j.quaint.2017.10.014CrossRefGoogle Scholar
Friedman, R.F., Antoine, D., Talamo, S., Reimer, P.J., Taylor, J.H., Wills, B., et al. 2018. Natural Mummies from Predynastic Egypt Reveal the World's Earliest Figural Tattoos. Journal of Archaeological Science, 92: 116–25. https://doi.org/10.1016/j.jas.2018.02.002CrossRefGoogle Scholar
Gaber, O., Kunzel, K. & Sjøvold, T. 1995. Die Tätowierungen des Eismannes aus klinisch-anatomischer Sicht. Berichte des naturwissenschaftlichen-medizinischen Verein Innsbruck, 82: 347–54.Google Scholar
Giacobetti, A. 1916. Recueil d’énigmes arabes populaires. Alger: Adolphe Jourdan.Google Scholar
Girod, P. & Massenat, E. 1900. Les stations de l’âge du Renne dans les vallées de la Vézère et de la Corrèze, Laugerie-Basse: industrie, sculptures, gravures. Paris: J.B. Baillière et fils.Google Scholar
Gmelin, J.-G. 1767. Voyage en Sibérie contenant la description des mœurs et usages des peuples de ce pays … trans by de Keralio, M.. Paris: Librairie Desaint.Google Scholar
Gostner, P., Pernter, P., Bonatti, G., Graefen, A. & Zink, A.R. 2011. New Radiological Insights into the Life and Death of the Tyrolean Iceman. Journal of Archaeological Science, 38: 3425–31. https://doi.org/10.1016/j.jas.2011.08.003CrossRefGoogle Scholar
Guerzoni, G. 2018. Devotional Tattoos in Early Modern Italy. Espacio, Tiempo y Forma: Historia del Arte, Serie VII, 6: 119–35.Google Scholar
Holloway, A. 2017. Acupuncture for the Iceman: Did Ötzi Get Inked for Health? Ancient Origins [online] [accessed 29 August 2023]. Available at: https://www.ancient-origins.net/history/acupuncture-iceman-did-tzi-get-inked-health-009048Google Scholar
Holm, G. 1972. Konebådsekspeditionen: etnologisk skitse af Angmagsalikerne. Copenhagen: Rhodos.Google Scholar
Höpfel, F., Platzer, W. & Spindler, K. eds. 1992. Der Mann im Eis, Band 1. Bericht über das Internationale Symposium 1992 in Innsbruck (Veröffentlichungen der Universität Innsbruck, 187). Innsbruck: Universität Innsbruck.Google Scholar
Jacobsen, M.S. 2024. Amuletic Tattooing Among Central and Eastern Inuit Tribes from an Inuit Perspective. In: Manni, F. & d'Errico, F., eds. The Oxford Handbook of the Archaeology and Anthropology of Body Modification. Oxford: Oxford University Press.Google Scholar
Junkmanns, J., Klügl, J., Schoch, W., Di Pietro, G. & Hafner, A. 2019. Neolithic and Bronze Age Archery Equipment from Alpine Ice-Patches: A Review on Components, Construction Techniques and Functionality. Journal of Neolithic Archaeology, 21: 283314. https://doi.org/10.12766/jna.2019.10Google Scholar
Kean, W.F., Tocchio, S., Kean, M. & Rainsford, K.D. 2013. The Musculoskeletal Abnormalities of the Similaun Iceman (‘Ötzi.’): Clues to Chronic Pain and Possible Treatments. Inflammopharmacology, 21: 1120. https://doi.org/10.1007/s10787-012-0153-5CrossRefGoogle ScholarPubMed
Keyßler, J.G. 1751. Neueste Reisen durch Deutschland, Boehmen, Ungarn, die Schweiz, Italien und Lothringen. Hannover: N. Förster.Google Scholar
Kodama, S. 1970. Ainu: Historical and Anthropological Studies. Sapporo: Hokkaidō University School of Medicine.Google Scholar
Krutak, L. 2007. The Tattooing Arts of Tribal Women. London: Bennett & Bloom.Google Scholar
Krutak, L. 2013. The Power to Cure: A Brief History of Therapeutic Tattooing. In: Della Casa, P. & Witt, C., eds. Tattoos and Body Modifications in Antiquity: Proceedings of the Sessions at the EAA Annual Meetings in The Hague and Oslo, 2010/11 (Zurich Studies in Archaeology, 9) Zurich: Chronos, pp. 2734.Google Scholar
Krutak, L. 2014a. Ötzi Experiment: Colin Dale Recreates Ancient Medicinal Tattoos. Lars Krutak [online] [accessed 29 August 2023]. Available at: https://www.larskrutak.com/the-otzi-experiment-colin-dale-recreates-ancient-medicinal-tattoos/Google Scholar
Krutak, L. 2014b. Tattoo Traditions of Native North America: Ancient and Contemporary Expressions of Identity. Arnhem: LM Publishers.Google Scholar
Krutak, L. 2019. Therapeutic Tattooing in the Arctic: Ethnographic, Archaeological, and Ontological Frameworks of Analysis. International Journal of Paleopathology, 25: 99109. https://doi.org/10.1016/j.ijpp.2018.05.003CrossRefGoogle ScholarPubMed
Lobell, J.A. & Powell, E.A. 2013. Ancient Tattoos. Archaeology Magazine, November–December 2013 [online] [accessed 29 August 2023]. Available at: https://www.archaeology.org/issues/107-features/tattoos/1351-oetzi-copper-age-alps-iceman-tattoosGoogle Scholar
Lodder, M. 2022. Painted People: Humanity in 21 Tattoos. London: William Collins.Google Scholar
Magitot, E. 1881. Étude sur le tatouage considéré du point de vue de sa répartition géographique (Communication faite au congrès de l'Association Française pour l'Avancement des Sciences à Alger). Paris: Association Française pour l'Avancement des Sciences.Google Scholar
Maixner, F., Overath, T., Linke, D., Janko, M., Guerriero, G., van den Berg, B., et al. 2013. Paleoproteomic Study of the Iceman's Brain Tissue. Cellular and Molecular Life Sciences, 70: 3709–22. https://doi.org/10.1007/s00018-013-1360-yCrossRefGoogle ScholarPubMed
Maundrell, H. 1707. A Journey from Aleppo to Jerusalem at Easter 1697. Oxford: Jonah Bowyer.Google Scholar
McQuaid, C. 2021. Art Review: Matching Tattoos Across Human History. The Boston Globe: 9 June 2021 [online] [accessed 29 August 2023]. Available at: https://www.bostonglobe.com/2021/06/09/arts/matching-tattoos-across-human-history/Google Scholar
Müller, S. 1897. Nordische Altertumskunde: Nach Funden und Denkmälern aus Dänemark und Schleswig. Strassburg: Karl J. Trübner.Google Scholar
Nystrom, K. 2019. The Bioarchaeology of Mummies. New York: Routledge.Google Scholar
Nystrom, K. & Piombino-Mascali, D. 2017. Mummy Studies and the Soft Tissue Evidence of Care. In: Tilley, L. & Schrenk, A.A., eds. New Developments in the Bioarchaeology of Care: Further Case Studies and Expanded Theory. Cham: Springer, pp. 199218.10.1007/978-3-319-39901-0_10CrossRefGoogle Scholar
Oeggl, K., Kofler, W., Schmidl, A., Dickson, J.H., Egarter-Vigl, E. & Gaber, O. 2007. The Reconstruction of the Last Itinerary of ‘Ötzi’, the Neolithic Iceman, by Pollen Analyses from Sequentially Sampled Gut Extracts. Quaternary Science Reviews, 26: 853–61. https://doi.org/10.1016/j.quascirev.2006.12.007CrossRefGoogle Scholar
Pabst, M.A., Letofsky-Papst, I., Bock, E., Moser, M., Dorfer, L., Egarter-Vigl, E., et al. 2009. The Tattoos of the Tyrolean Iceman: A Light Microscopical, Ultrastructural and Element Analytical Study. Journal of Archaeological Science, 36: 2335-41. https://doi.org/10.1016/j.jas.2009.06.016CrossRefGoogle Scholar
Pankova, S. 2017. Identifications of Iron Age Tattoos from the Altai-Sayan Mountains in Russia. In: Krutak, L. & Deter-Wolf, A., eds. Ancient Ink: The Archaeology of Tattooing. Seattle: University of Washington Press, pp. 6698.Google Scholar
Pearce, M. 2000. What This Awl Means: Understanding the Earliest Italian Metalwork. In: Ridgeway, D., Serra Ridgeway, F., Pearce, M., Herring, E., Whitehouse, R.D. & Wilkins, J.B., eds. Ancient Italy in its Mediterranean Setting. London: Accordia Research Institute, pp. 6773.Google Scholar
Pierrat, J. & Guillon, E. 2004. Les vrais, les durs, les tatoués: le tatouage à Bribri. Paris: Larivière.Google Scholar
Piombino-Mascali, D. & Krutak, L. 2020. Therapeutic Tattoos and Ancient Mummies: The Case of the Iceman. In: Sheridan, S.G. & Gregoricka, L., eds. Purposeful Pain: Bioarchaeology and Social Theory. Cham: Springer, pp. 119–36. https://doi.org/10.1007/978-3-030-32181-9_6CrossRefGoogle Scholar
Prahlow, J.A. 2022. Forensic Autopsy of Sharp Force Injuries. Medscape eMedicine [online] [accessed 29 August 2023]. Available at: https://emedicine.medscape.com/article/1680082-overviewGoogle Scholar
Prinoth-Fornwagner, R. & Niklaus, T.R. 1994. The Man in the Ice: Results from Radiocarbon Dating. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 92: 282–90. https://doi.org/10.1016/0168-583X(94)96020-8CrossRefGoogle Scholar
Renaut, L. 2004a. Les tatouages d’Ötzi et la petite chirurgie traditionnelle. L'anthropologie, 108: 69105. https://doi.org/10.1016/j.anthro.2003.12.002Google Scholar
Renaut, L. 2004b. Marquage corporel et signation religieuse dans l'Antiquité (unpublished PhD dissertation, École Pratique des Hautes Études Section des Sciences Religieuses, Paris).10.3406/ephe.2004.12406CrossRefGoogle Scholar
Roberts, B.W. 2009. Production Networks and Consumer Choice in the Earliest Metal of Eastern Europe. Journal of World Prehistory, 22: 461–81. https://doi.org/10.1007/s10963-009-9027-1CrossRefGoogle Scholar
Robitaille, B. 2007. A Preliminary Typology of Perpendicularly Hafted Bone Tipped Tattooing Instruments: Toward a Technological History of Oceanic Tattooing. In: Gates St-Pierre, C. & Walker, R.B., eds. Bones as Tools: Current Methods and Interpretations in Worked Bone Studies (BAR International Series 1622). Oxford: Archaeopress, pp. 159–74.Google Scholar
Robitaille, B. 2015. L'analyse comparative à l’échelle mondiale des instruments de tatouage traditionnels: découvertes, pistes et problèmes. Paper presented at the Colloque Images Tatouées, Musée du Quai Branly, Paris, France [online] [accessed 29 August 2023]. Available at: https://www.researchgate.net/publication/286450867_L'analyse_comparative_a_l'echelle_mondiale_des_instruments_de_tatouage_traditionnels_decouvertes_pistes_et_problemesGoogle Scholar
Robitaille, B., Deter-Wolf, A. & Jacobsen, M.S. 2024. Global Diversity and Distributions of Traditional Tattooing Tools: An Ethnographic, Ethnohistorical, and Anthropological Perspective. In: Manni, F. & d'Errico, F., eds. The Oxford Handbook of the Archaeology and Anthropology of Body Modification. Oxford: Oxford University Press.Google Scholar
Rolle, R. 1992. Die skythenzeitlichen Mumienfunde von Pazyryk: Frostkonservierte Gräber aus dem Altaigebirge. In: Höpfel, F., Platzer, W. & Spindler, K., eds. Der Mann im Eis, Band 1. Bericht über das Internationale Symposium 1992 in Innsbruck (Veröffentlichungen der Universität Innsbruck, 187). Innsbruck: Universität Innsbruck, pp. 334–58.Google Scholar
Rom, W., Golser, R., Kutschera, W., Priller, A., Steier, P. & Wild, E.M. 1999. AMS 14C Dating of Equipment from the Iceman and of Spruce Logs from the Prehistoric Salt Mines of Hallstatt. Radiocarbon, 41: 183–97. https://doi.org/10.1017/S0033822200019536CrossRefGoogle Scholar
Roth, H.L. 1900. On Permanent Artificial Skin Marks: A Definition of Terms. The Journal of the Anthropological Institute of Great Britain and Ireland, 30: 116–18.10.2307/2842752CrossRefGoogle Scholar
Roth, H.L. 1905. Tatu in Tunis. Man, 5: 129–31.10.2307/2788000CrossRefGoogle Scholar
Rudenko, S.I. 1970. Frozen Tombs of Siberia: The Pazyryk Burials of Iron Age Horsemen. Berkeley (CA): University of California Press.Google Scholar
Samadelli, M., Melis, M., Miccoli, M., Egarter Vigl, E. & Zink, A.R. 2015. Complete Mapping of the Tattoos of the 5300-Year-Old Tyrolean Iceman. Journal of Cultural Heritage, 16: 753–58. https://doi.org/10.1016/j.culher.2014.12.005CrossRefGoogle Scholar
Sjøvold, T. 1992. The Stone Age Iceman From the Alps: The Find and the Current Status of Investigation. Evolutionary Anthropology, 1: 117–24. https://doi.org/10.1002/evan.1360010404CrossRefGoogle Scholar
Sjøvold, T. 2003. The Location of the Iceman Tattoos. In: Fleckinger, A., ed. Die Gletschermumie aus der Kupferzeit 2 / La mummia dell'Etá del Rame 2. Bolzano: Folio, pp. 111–22.Google Scholar
Sjøvold, T., Bernhard, W., Gaber, O., Künzel, K-H., Platzer, W. & Unterdorfer, H. 1995. Verteilung und Größe der Tätowierungen am Eismann vom Hauslabjoch. In: Spindler, K., Rastbichler-Zissernig, E., Wilfing, H., zur Nedden, D. & Nothdurfter, H., eds. Der Mann im Eis, Band 2. Vienna: Springer, pp. 279–86.10.1007/978-3-7091-6599-7_22CrossRefGoogle Scholar
Smeaton, W. 1937. Tattooing Among the Arabs of Iraq. American Anthropologist, 39: 5361.10.1525/aa.1937.39.1.02a00050CrossRefGoogle Scholar
Spindler, K. 1994. The Man in the Ice: The Discovery of a 5,000-Year-Old Body Reveals the Secrets of the Stone Age. New York: Harmony Books.Google Scholar
Taşğın, A. & Mollica, M. 2016. The Tradition of Tattooing in Siverek, Turkey. Middle Eastern Studies, 53: 271–80.10.1080/00263206.2016.1237355CrossRefGoogle Scholar
Terry, E. 1655. A Voyage to East India. London: J. Martin.Google Scholar
van der Velden, E., den Dulk, L., Leenders, H., Dingemans, K., Weerman, M., van der Putte, S., et al. 1995. The Decorated Body of the Man from Hauslabjoch. In: Spindler, K., Rastbichler-Zissernig, E., Wilfing, H., zur Nedden, D. & Nothdurfter, H., eds. Der Mann im Eis, Band 2. Vienna: Springer, pp. 275–78.10.1007/978-3-7091-6599-7_21CrossRefGoogle Scholar
Van Willigen, S. 2017. Les premiers objets en cuivre au sud et à l'ouest des Alpes. In: Gauthier, R.E., Pétrequin, P. & Pétrequin, A.-M., eds. JADE. Objets-signes et interprétations sociales des jades alpins dans l'Europe néolithique, vol. 4. Besançon: Presses Universitaires de Franche-Comté et Centre de Recherche Archéologique de la Vallée de l'Ain, pp. 911–31.Google Scholar
Vij, K. 2014. Textbook of Forensic Medicine & Toxicology: Principles & Practice. New Delhi: Elsevier.Google Scholar
Wang, K., Prufer, K., Krause-Kyora, B., Childebayeva, A., Schuenemann, V.J., Coia, V., et al. 2023. High-Coverage Genome of the Tyrolean Iceman Reveals Unusually High Anatolian Farmer Ancestry. Cell Genomics, 3: 100377. https://doi.org/10.1016/j.xgen.2023.100377CrossRefGoogle ScholarPubMed
Wierer, U., Arrighi, S., Bertola, S., Kaufmann, G., Baumgarten, B., Pedrotti, A., et al. 2018. The Iceman's Lithic Toolkit: Raw Material, Technology, Typology and Use. PLOS ONE, 13: e0198292. https://doi.org/10.1371/journal.pone.0198292CrossRefGoogle ScholarPubMed
Williams-Thorpe, O. 1995. Obsidian in the Mediterranean and the Near East: A Proveniencing Success Story. Archaeometry, 37: 217–48. https://doi.org/10.1111/j.1475-4754.1995.tb00740.xCrossRefGoogle Scholar
Willroth, K-H. 1997. Prankbeil oder Stoßwaffe, Pfriem oder Tätowierstift, Tüllengerät oder Treibstachel? In: Hänsel, B. & Becker, C., eds. Chronos: Beiträge zur prähistorischen Archäologie zwischen Nord- und Südosteuropa: Festschrift für Bernhard Hänsel (Internationale Archäologie, Studia honoraria Vol. 1). Espelkamp: M. Leidorf, pp. 469–97.Google Scholar
Ximénez, F. 1999. Historia de la Provincia de San Vicente de Chiapa y Guatemala de la orden de Predicadores. Tapachula: Gobierno del estado de Chiapas.Google Scholar
Zink, A., Samadelli, M., Gostner, P. & Piombino-Mascali, D. 2019. Possible Evidence for Care and Treatment in the Tyrolean Iceman. International Journal of Paleopathology, 25: 110–17. https://doi.org/10.1016/j.ijpp.2018.07.006CrossRefGoogle ScholarPubMed
zur Nedden, D. & Wicke, K., 1992. Der Eismann aus der Sicht der radiologischen und computertomographischen Daten. In: Höpfel, F., Platzer, W. & Spindler, K., eds. Der Mann im Eis, Band 1. Bericht über das Internationale Symposium 1992 in Innsbruck (Veröffentlichungen der Universität Innsbruck, 187). Innsbruck: Universität Innsbruck, pp. 131–48.Google Scholar
Figure 0

Figure 1. Locations of tattoos on the Iceman's body (after Samadelli et al., 2015: fig. 1). Adapted with permission of the South Tyrol Museum of Archaeology.

Figure 1

Figure 2. Details of the Iceman's sixty-one carbon pigment tattoos (after Samadelli et al., 2015: fig. 2). © South Tyrol Museum of Archaeology/Eurac/Samadelli/Staschitz. Reproduced by permission of the South Tyrol Museum of Archaeology.

Figure 2

Figure 3. Inussakkut Kakiornerit, horizontal lines tattooed on Inuit women's fingers. The lines vary in number and placement according to territory and invoke the origin of the sea spirit Sassuma Arnaa, the Woman of the Deep. Photograph by Maya Sialuk Jacobsen

Figure 3

Figure 4. A comparison of the Iceman's tattoo locations to sites of diagnosed health issues.

Figure 4

Figure 5. Sharpened bone awl from the Iceman's toolkit. © Harald Wisthaler (www.wisthaler.com) adapted and reproduced by permission of the South Tyrol Museum of Archaeology.

Figure 5

Figure 6. Map showing generalized global distribution patterns of tattooing techniques, based on ethnographic and historical data (after Robitaille et al., 2024: fig. 1). Image by Benoît Robitaille.

Figure 6

Figure 7. Map showing the global distribution of perpendicularly hafted (hand tapping) puncture tattooing (after Robitaille, 2007: fig. 2). Image by Benoît Robitaille.

Figure 7

Figure 8. Comparison of experimental and preserved tattoos. A) subdermal tattoos created using an eyed bone needle and thread (after Deter-Wolf et al., 2022); B) puncture with an obsidian flake tip; C) short lines incised with an obsidian flake; D) continuous lines incised with an obsidian flake; E) puncture with a bone awl; F) puncture with a copper awl; G) details of selected tattoos on the Iceman (after Samadelli et al., 2015: fig. 2). G: Reproduced by permission of the South Tyrol Museum of Archaeology.

Figure 8

Figure 9. Examples of identified but unconfirmed tattooing tools from the European archaeological record. Top row: lithic ‘pointes à piquer’ (after Cheynier 1931: 487). Bottom row: ‘alènes pour tatouage (âge du bronze)’ (after Déchelette 1907: fig. 4). Not to scale. Re-drawn and adapted by A. Deter-Wolf.

Figure 9

Figure 10. Forensic diagram of sharp force injuries. A and B: stab or puncture wounds are created when a sharp object is pushed through tissue at an angle generally perpendicular to the skin. The shape of the wound mirrors the object's tip (A: bevelled; B: rounded). C: incised or cut wounds are created when an object with a sharp edge or tip is drawn through the skin at an acute angle to the surface. These wounds are thinner at the end(s) due to differential tissue contraction (adapted with additions from Prahlow, 2022). Not to scale.

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