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The Efficacy of Roman Silver in Iron Age Scotland: An Object Trajectory for Spiral Rings

Published online by Cambridge University Press:  11 July 2024

Jenna Martin*
Affiliation:
National Museums Scotland Chambers Street Edinburgh EH1 1JF UK Email: [email protected]
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Abstract

This paper uses material efficacy as an analytical position to consider how silver helped to shape large-scale historical trajectories in Iron Age Scotland. Roman silver entered Scotland as imperial matter beginning in the first century ad and later inspired an assemblage of indigenous wearable silver in the fourth–fifth centuries. I investigate the human–silver collaborations involved in the transition from hoarding Roman silver coins to recycling Roman Hacksilber. By tracing the object trajectory of spiral rings, I show how silver's material properties and entanglements played a role in developing Scotland's earliest silver products. Around the fourth century, a diversity of spiral rings was replaced by a specific style of silver spiral finger ring. Silver brought to Iron Age Scotland by the Romans inspired and afforded individuals in northern Britain a new and empowering regional socio-political identity. Material efficacy, as explored in this case study, has relevance beyond Iron Age/Roman studies to any anthropological investigation of underrepresented human agency.

Type
Research Article
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This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
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Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of the McDonald Institute for Archaeological Research

Introduction

Iron Age (IA) Scotland has long been regarded as a complex and volatile frontier zone of the Roman imperial period, making it a fascinating case study for exploring intercultural interaction. Roman silver in particular has loomed large in these debates. While both denarius and Hacksilber hoards have seen dedicated study, the recycling of Roman silver into indigenous products during the fourth to fifth centuries ad has not been as thoroughly explored (but see Blackwell et al. Reference Blackwell, Goldberg and Hunter2017 and Goldberg Reference Goldberg, Clarke, Blackwell and Goldberg2012). This paper attends to this period of human–silver collaboration as a case study for exploring how things can impact historical trajectories in cross-cultural contexts. By tracing silver's influence on the object trajectory of a particular category of spiral rings, I explore a pivotal transition from hoarding to recycling Roman silver. I use material efficacy, a concept developed further below and referring broadly to an object's ability to produce effects in collaboration with human actors, as an analytical position and I draw inspiration from a wealth of scholarly investigation on Roman silver (Blackwell et al. Reference Blackwell, Goldberg and Hunter2017; Hunter & Painter Reference Hunter and Painter2013; Hunter et al. Reference Hunter, Kaufmann-Heinimann and Painter2022) to consider how this material—in addition to humans and institutions—shaped possibilities for human action and influenced large-scale historical processes.

Some twentieth-century interpretations viewed silver denarius hoards as signifiers of Roman military occupation or barbarian raiding (Robertson Reference Robertson, Carson and Kraay1978) and Hacksilber hoards as stolen booty ill-treated by barbarians (Curle Reference Curle1923, 108–11). Post-colonial critiques of Roman imperialism (Millett Reference Millett1990; Woolf Reference Woolf1998) sought more nuanced interpretations of intercultural interaction in northern Britain (Harding Reference Harding2017; Mattingly Reference Mattingly2006) that recognized diverse, localized indigenous human choices in engaging with Roman things (Campbell Reference Campbell, Campbell, Wright and Hall2018; Hunter Reference Hunter, Collins and Allason-Jones2010; Reference Hunter and Wells2013a). Fraser Hunter (Reference Hunter, Hingley and Willis2007c; Reference Hunter, Farley and Hunter2015b) re-interpreted Roman denarius hoards as donatives given to local leaders by Roman imperial agents as part of an insidious imperial diplomatic policy. Late Roman Hacksilber hoards were argued to be evidence of sophisticated social and political exchange (Hunter Reference Hunter, Hunter and Painter2013b; Painter Reference Painter, Hunter and Painter2013; but see Collins Reference Collins, Hunter and Painter2013). These interpretations see Roman silver, denarii most specifically and Hacksilber to some degree, as an imperial tool that destabilized northern tribal politics and irreparably impacted IA Scotland (Blackwell et al. Reference Blackwell, Goldberg and Hunter2017, 26; Hunter Reference Hunter, Breeze, Jones and Oltean2015a). This analysis rightly addresses the inequitable power gap between local communities and imperial power, but it does so by attributing historical causality only to imperial agents—the source of the silver—and glosses over the choices of local entities as if these choices and subsequent socio-political changes were inevitable reactions within a historical trajectory triggered by Roman colonization.

I propose another methodological route to investigating both imperial subjugation and indigenous agency: by granting historical driving power to things (Van Oyen Reference Van Oyen, Lichtenberger and Raja2017, 292; Versluys Reference Versluys2014). Materialist approaches have reimagined Romanization through human–thing entanglements and used object-oriented studies to write histories of intercultural interaction unfettered by long-standing historical narratives and assumptions (Joy Reference Joy2009; Swift Reference Swift2014; Van Oyen Reference Van Oyen2016; Versluys Reference Versluys2014). I take inspiration from these works in seeking to reconsider silver's role in IA Scotland. Instead of seeing socio-political transformations in northern Britain as inevitable due to a trajectory crafted by Roman imperial agents, I explore how silver itself helped shape these trajectories through its collaborations with indigenous people.

By taking an object-oriented approach, I aim to address both imperial subjugation and indigenous agency (Khatchadourian Reference Khatchadourian2020, 1649, contra Fernández-Götz et al. Reference Fernández-Götz, Maschek and Roymans2020, 1631). By focusing on things and people, I strive to write a history of intercultural interaction in IA Scotland that recognizes objects as more than bounded, defined signifiers representative of an established historical narrative (Van Oyen Reference Van Oyen2016, 6–9). This approach conceptualizes large-scale historical processes as consisting of a series of non-inevitable collaborations between humans and ‘vibrant matter’ (Bennett Reference Bennett2010, 3). Most importantly, this paper develops the concept of material efficacy as a methodological tool, ‘not a description of the real nature of the world’ (per Van Oyen Reference Van Oyen, Lichtenberger and Raja2017, 2). In order to study humans and empires ethically, we must seriously interrogate the efficacy and subsequent impact of the things they collaborated with. I ask if an object-oriented theoretical and methodological approach to silver can help us better understand how indigenous Iron Age peoples collaborated with this colonial material. I argue that investigating object efficacy can bring us closer to detangling subaltern human agency.

By granting material efficacy to silver, I open up analytical space for indigenous-silver collaboration to have had as much historical driving power as imperial-silver collaboration in IA Scotland. This paper explores how Roman silver's role in IA Scotland changed over time through Scotland's earliest indigenous silver products. Spiral rings featured prominently in this fourth- to fifth-century silver assemblage. I seek to understand how silver's material properties and entanglements influenced the trajectory of this object category and, by extension, a broader movement toward personal silver adornment and identity formation in northern Britain.

Iron Age Scotland

During the first to the fourth centuries, communities in northern Britain inhabited a fluctuating political landscape under diverse colonial pressures (Breeze Reference Breeze2012; Harding Reference Harding2017; Hodgson Reference Hodgson2017; Mattingly Reference Mattingly2006) and people selectively engaged with Roman material culture (Hunter Reference Hunter and Wells2013a, 17). Settlement studies have revealed significant social upheaval during this period. In East Lothian (central lowlands), small enclosed settlements of the first century ad are difficult to locate, but there is certainly some coalescence of society on large hillforts like Traprain Law (Armit Reference Armit, Currás and Sastre2021; Hunter Reference Hunter, Collins and Allason-Jones2010; Reference Hunter, Hunter, Kaufmann-Heinimann and Painter2022c). In northeast Scotland c. 200 ad, there was a massive dislocation from long-lived open settlements to enclosed forts (Hunter Reference Hunter2019, 60–62; Ralston Reference Ralston2004). Changes in metalwork accompanied these changes in settlement. An appreciation for materializing one's identity using copper alloy (CuA) (and some gold) had just begun to gain momentum in the first centuries bc/ad (Hunter Reference Hunter, Haselgrove and Moore2007b, 288; Reference Hunter, Breeze, Jones and Oltean2015a, 239), but a dramatic rise in diverse and regionally distinct metalwork occurred around the Roman period (Armit Reference Armit, Hunter and Ralston2015, 194; Hunter Reference Hunter, Haselgrove and Moore2007b, 288; Reference Hunter2019, 60–61). Overall, individuals and communities were re-organizing themselves socially and physically. A key player in this story of social change is Roman silver.

Unlike bronze, iron, or gold, which had been used locally for centuries, silver was quintessentially Roman (Hunter Reference Hunter and Wells2013a, 24–5).Footnote 1 It first entered Scotland as Roman soldiers’ payments beginning in 78 ad with Agricola's conquest, but these coins rarely made it to indigenous settlements (Blackwell et al. Reference Blackwell, Goldberg and Hunter2017, 11–12). The direct transfer of Roman silver to indigenous communities came in the form of silver denarii arriving most likely in large batches c. 160/180 to 230 ad (Hunter Reference Hunter, Breeze, Jones and Oltean2015a). By tracing the chronology and regional distribution of denarii hoards, Hunter (Reference Hunter, Haselgrove and Moore2007b; Reference Hunter, Breeze, Jones and Oltean2015a) argued that they reflect the accumulation of diplomatic pay-offs made by the Roman military to pacify some local leaders and isolate others. Accessing silver during this time meant engaging in Roman diplomacy. Imperial agents used this leverage to entangle some local leaders in relationships of dependence that disrupted existing small-scale socio-politics. IA Scotland had no recognized monetary system in the form of coinage and the influx of Roman denarii did not inspire one (Blackwell et al. Reference Blackwell, Goldberg and Hunter2017, 11). Instead, high-status individuals might have used Roman silver coins as a ‘symbol of the empire's favour’ to legitimize their power and prestige (Hunter Reference Hunter and Wells2013a, 25). Silver coins were carefully buried, sometimes in their original container,Footnote 2 rarely circulated as one-off objects, and apparently not melted down.Footnote 3 When these denarii pay-offs ceased in the early third century (Hunter Reference Hunter, Hunter, Kaufmann-Heinimann and Painter2022a, 362), Scotland's silver flow was briefly cut off and this likely further enhanced silver's prestige.

Roman silver once again entered Scotland in the late third to fifth centuries, this time as Hacksilber. Hacksilber—cut up or crushed Roman tableware to be used as bullion—was a common phenomenon within and outside of the Roman empire from the second century onward (Painter Reference Painter, Hunter and Painter2013).Footnote 4 The absence of gold hoarding or gold objects in Scotland's hoards compared to their marked prevalence in continental hoards (e.g. Roymans Reference Roymans, Roymans, Heeren and De Clercq2017) illustrates a regionally specific taste for silver (Hunter Reference Hunter, Hunter, Kaufmann-Heinimann and Painter2022a, 362–3; Hunter in press). A lack of one-off Hacksilber finds suggests that Hacksilber did not circulate independently; hoards were assembled over several generations and tapped as a source of raw material (Hunter Reference Hunter, Hunter, Kaufmann-Heinimann and Painter2022a, 372–6; Martin Reference Martin, Hunter and Painter2013).Footnote 5 In addition to Hacksilber, the fourth century saw increased anti-Roman resistance in some areas and the consolidation of power centres across central lowland and northeast Scotland (Noble & Evans Reference Noble and Evans2022, 5–9). At Traprain Law, substantial defensive features were constructed during the fourth or early fifth century (Hunter Reference Hunter, Hunter, Kaufmann-Heinimann and Painter2022c, 383; Jobey Reference Jobey and Harding1976).Footnote 6 North of the River Tay, a rapid increase of enclosed settlements under way by the fifth century indicates the increasing centralization of power at key defendable centres (Noble et al. Reference Noble, Gondek, Campbell and Cook2013, 1147). In Ireland and Scandinavia too, c. 400 to 600 ad, the construction of hillforts was ‘one unifying trend deeply implicated in the formation of new kinds of society’ during the post-Roman period (Noble et al. Reference Noble, Gondek, Campbell and Cook2013, 1145).

Hacksilber and shifting power dynamics in northern Britain seem to have inspired the recycling of Roman silver into indigenous objects of personal adornment in the fourth to fifth centuries. Based on direct and indirect evidence, Roman silver was being recycled as early as the late third century in Atlantic Scotland (Heald Reference Heald2001, 689), fourth century in the central lowlands (Blackwell et al. Reference Blackwell, Goldberg and Hunter2017, 69) and fifth century in northeast Scotland (Cruickshanks & Noble Reference Cruickshanks, Noble, Goldberg, Blackwell and Rauin press). The earliest silver products are an assemblage of personal items developed from local pre-Roman styles with new artistic fusions (Goldberg Reference Goldberg, Farley and Hunter2015, 161–3; Youngs Reference Youngs and Youngs1989, 20). While silver chains and bangles were often left undecorated to emphasize silver's purity as a marker of power,Footnote 7 penannular broochesFootnote 8 and handpinsFootnote 9 were often embellished with inlays of red enamel or, more rarely, niello. These materials, patterns, technologies and forms emerged from intercultural relationships formed during the culmination of the Roman period in Britain (Joy Reference Joy, Farley and Hunter2015, 43; Laing Reference Laing2005; Youngs Reference Youngs and Youngs1989, 20–21). Connections between western England, Scotland and Ireland during the fifth century show widespread movement of this material (Hunter Reference Hunter, Hunter, Kaufmann-Heinimann and Painter2022b, 389).Footnote 10 Sites like Traprain Law played a key role in this developing exchange network (Hunter Reference Hunter, Hunter and Painter2013b, 7). Scotland's early silver objects were probably commissioned and enjoyed by only a few high-status individuals or family groups, but they assisted in developing a wider artistic and socio-political movement in the northern and western cultural zones of an increasingly post-Roman world.

Spiral rings (Fig. 1) have a long-lived and enigmatic object history from the Bronze Age through the Late IA and are found on sites across western Europe (Clarke Reference Clarke1971; Déchelette Reference Déchelette1910, 315, 352; Engelhardt Reference Engelhardt1866, 76; Jope & Wilson Reference Jope and Wilson1957). Their seeming simplicity of form has made them difficult to date, provenance, typify, or determine uses. In Britain, spiral rings are mostly associated with IA sites although there are some Bronze Age examples from England (Bulleid & Gray Reference Bulleid, St and Gray1911, 210–11; Wheeler Reference Wheeler1943, 278–80). In Scotland, they generally appear to be ‘most common in the last few centuries BC and first few centuries AD’ (Hunter Reference Hunter2007d, 19). Spiral rings have been the subject of scholarly debate concerning migration in Atlantic Scotland,Footnote 11 but there has been no recent systematic study of their development, manufacture and distribution. Of some 93 spiral rings found in Scotland, 9 are silver and these have not yet seen sustained analysis. Thus, spiral rings present a fruitful case study for exploring the material efficacy of Roman silver and the transition to silver recycling in IA Scotland.

Figure 1. Spiral ring typologies by rod section shape: (left) circular-sectioned; (centre) D-shaped section; (right) rectangular-sectioned. (Centre image © National Museums Scotland; left- and right-hand photographs: author, by kind permission National Museums Scotland.)

Material efficacy

Things do not simply represent human messages; they can be productive themselves by transforming or generating social action (Khatchadourian Reference Khatchadourian2016, 57). Jane Bennett (Reference Bennett2010) argued that all historical events are collaborative ventures relying on both humans and things. She used the term ‘efficacy’ to describe ‘a power that is less masterful than agency’ (Bennett Reference Bennett2010, 9). Efficacy captures the indirect yet active ways in which things are generative as they collaborate with humans, without intent but with impact, and often in excess of human designs. Instead of explaining existing material assemblages as the result of historical events, an object-oriented, ‘non-retrospective’ approach analyses the active role of things in ‘making history’ (Van Oyen Reference Van Oyen2016). Instead of questioning ‘who’ creates effects, we should explore ‘what’ things do, ‘how’ they do them and ‘what’ happens as a result (Van Oyen Reference Van Oyen2016, 9, 131–4). This is particularly important theoretical positioning for interrogating how Roman silver operated in IA Scotland because it lifts focus off the Roman empire as the causal source of all historical processes (Van Oyen Reference Van Oyen2016, 133).

‘Imperial matter’ encompasses those materials and things of empire that have political efficacy to entangle subaltern people and communities within imperial structures and trajectories (Khatchadourian Reference Khatchadourian2016, 21). Within Lori Khatchadourian's schema of imperial matter (2016, 68–77), a certain category of objects called ‘delegates’—through their ‘material composition and the practical mediations they help afford’—entangle imperial subjects in dependencies that preserve imperial authority and transform peoples’ political and social lives by drawing them into the politics of empire (2016, 69). Based on Hunter's analysis of denarius hoards and the evident social upheaval in second–third-century Scotland, it seems clear that silver served imperial agents by mediating political interactions with local leaders and drawing IA Scotland's prestige economy into a relationship of dependence with Rome. To consider silver in this way allows for a material-forward analysis of Roman influence on local communities. Most importantly, delegates’ ‘continuously unfolding effects are always in excess of their assignments’ (Khatchadourian Reference Khatchadourian2016, 69). Their actions result in unforeseen relationships and outcomes that transcend their imperial mission. Thus, considering Roman silver as an imperial delegate leaves analytical space for silver's role in IA Scotland to change over time.

Silver's efficacy—the combination of its material composition and accumulated meanings formed through entanglements—will have influenced its own trajectory of use. Some of these material properties are likely universal affordances of human–silver relationships that transcend time and place: its silvery shine, malleability, and suitability for luxury objects/non-tools.Footnote 12 In the Roman empire, and especially in the province of Britain, silver was mainly used for coinage, elite tableware and, rarely (compared to copper alloys), for elite jewellery (Baratte Reference Baratte, Hunter and Painter2013, 57; Blackwell et al. Reference Blackwell, Goldberg and Hunter2017, 11–12; Duncan-Jones Reference Duncan-Jones1994, 33–46).Footnote 13

Scotland's spiral ring trajectory

This paper traces the ‘object trajectory’ of spiral rings in Scotland by exploring practices of production, use and distribution (as proposed by Van Oyen Reference Van Oyen2016, 9, 131) from a long-term perspective (Bronze Age through Late IA). It explores silver's impact on this object category and, by extension, large-scale historical trajectories. The dataset includes 93 spiral rings found in Scotland, 64 of which were made available for study by National Museums Scotland and the Hunterian Museum at the University of Glasgow (see Supplementary material). To add comparative depth to the Scottish rings analysis, I collected data on additional rings from Ireland, the Isle of Man and England. In what follows, I briefly explore how spiral rings were produced, used and distributed within Scotland and how these practices changed over time.Footnote 14 The main focus is a typological analysis and investigation of silver's material efficacy within the Scottish spiral ring tradition.

Distribution and dating

Using PAS data, online museum databases, archaeological reports and scholarly publications, I created a distribution map for spiral rings that shows findspots across Britain and Ireland (Fig. 2). Within Scotland, there is a heavy concentration in the central lowlands. Five sites have especially high numbers of spiral rings within successive occupation layers, indicating use over time. Three of these sites occur within the central lowlands; based on the mixture of both local and Roman finds, these native settlements were powerful local centres with elite access to Roman imperial agents.Footnote 15 Of these three sites, only Traprain Law was still occupied by the time Roman silver started being recycled; it has two silver spiral rings. Additionally, Edgerston fort in southern Scotland boasts five CuA spiral rings and Roman finds (RCAHMS 1956, 225–8). Together, these four sitesFootnote 16 reveal a concentration of spiral rings on high-status central lowland and southern settlements with connections to Roman imperial agents.

Figure 2. Distribution map of spiral rings in Britain and Ireland. *The unidentified rings are those marked on Jope & Wilson's Reference Jope and Wilson1957 map but which remain unidentified by me. They are included here so as not to skew the distribution away from southwest England and Wales. (Map: author using GIS online. This map is comprehensive for Scotland and presents a strong representative number of ring findspots in Ireland and England.)

To determine a reliable date range for the spiral ring tradition in Scotland, I considered only rings with findspots in a stratigraphic context dated using radiocarbon or associated finds, then cross-referenced this information with metal type (Fig. 3).Footnote 17 Based on these data, spiral rings were most common in the first to second centuries ad when all were made of CuA. The tradition continued to a lesser degree in the third to sixth centuries, but silver became the prominent metal. In contrast, English sites support a CuA spiral ring tradition in the Bronze Age and there seem to be fewer in circulation during the Roman period. This refined chronology shows that spiral rings were an especially popular phenomenon in Scotland during the early first millennium ad. The ring findspots in Ireland fall mainly between 300 bc and ad 500, indicating a shared affinity with the Scottish spiral ring tradition. All of the Scottish rings excluded from this refined chronology could fall within this very wide 200 bc and ad 700 range.

Figure 3. Reliable deposition date ranges for spiral rings by findspot. Colours represent gold (orange), silver (blue), and CuA (red). (Image: author.)

Use

The most commonly assumed function for spiral rings has been as finger rings, although examples from contexts across Scotland indicate a wide range of uses on fingers, toes, footwear, and clothing fasteners (Martin Reference Martin2023; Reference Millettin prep.). Two spiral rings found on two severed hands buried at the Broch of Gurness provide direct proof for finger wear (Hedges Reference Hedges1987, 86–7). In addition, at least eight spiral rings are compressed on one side as if they were worn on the same finger and repeatedly rubbed within the fold of skin between digit and palm (Fig. 4).

Figure 4. Copper alloy rings with use-wear on one side (worn-down or compressed) indicating likely use as finger rings: (left) from Cleaves Cove, Ayrshire (NMS X.HM 50) and (right) from Traprain Law, East Lothian (NMS X.GVM 140). (Photographs: author, by kind permission National Museums Scotland.)

To address the question of use, internal diameter measurements for 67 spiral rings were taken (Fig. 5). In a study of Roman burials, Swift (Reference Swift2017, 165) identified modal averages for the internal diameter of finger rings with central motifs for children (14 mm) and women (17 mm); rings found in adult female graves mainly ranged from 13 to 19 mm while rings found in adult male graves ranged between 16 and 22 mm. Of the 67 spiral rings measured for this study, 50 (74 per cent) measured between 13.1 and 19.0 mm and are thus likely candidates for finger wear. Three spikes in the dataset might point towards wear by children (14–15 mm), adult females (16–17 mm) and adult males (18–19 mm). However, most of the spiral rings fall between 15 and 19 mm and thus could have been worn by adult males or females. Furthermore, three spiral rings found on toe bones have internal diameters that could also fit fingers: 13 mm in a female grave at Mine Howe, Orkney (Card Reference Card2005) and 16.2 mm in a male grave at Marshill, Alloa (Mills Reference Mills2003). This, and the fact that we do not know on which fingers spiral rings were worn, makes it difficult to assign use to a specific group.Footnote 18 The outliers in this dataset—those of exceptionally small or large internal diameters—certainly point to uses other than finger wear, such as footwear (Hunter Reference Hunter, Bradley and Nimura2016, 45–6; Rogers Reference Walton Rogers, Bradley and Nimura2016, 46–7; Schweitzer Reference Schweitzer, O'Sullivan and Stanley2005) or composite objects like armlets.

Figure 5. Internal diameters of the 30 D-sectioned rings compared against the entire dataset of spiral rings, with available measurements. (Image: author.)

Production

Spiral rings were most likely formed by bending a cast metal rod around a mandrel and winding it into multiple spirals. This involved regular annealing to maintain the metal's structural integrity and filing/finishing with tools to smooth off the shape. Identifying moulds for rods that could become rings is complicated by the fragmentary nature of two-part casting moulds. It is also possible that spiral rings could have been cast in a finished form using a corrugated mould, although this seems unnecessarily complicated. While there is an apparent spiral ring mould from Rhynie, Aberdeenshire (Cruickshanks & Noble Reference Cruickshanks, Noble, Goldberg, Blackwell and Rauin press), none of the 93 Scottish spiral rings have connected sections as would be expected of this technology. No other sites have yielded any direct evidence for spiral ring production.

Typologies

The defining typological feature of Scotland's spiral rings is the rod section shape: circular, rectangular, and D-shaped (Fig. 1). Rings without available section height and thickness measurements were categorized by their apparent rod shape so that 90 rings could be included in the typological analysis.

Both the circular- and rectangular-sectioned spiral rings include a range of sizes and use on fingers, toes and composite objects. Some are spiralled in a Z direction, others in an S direction. Some are tightly twisted while others are loose. Terminals can be cut, tapered and knobbed. Circular-sectioned rings (29 in total) date mainly to the first–second centuries and are well distributed throughout Scotland, although there is a notable concentration in the central lowlands. Rectangular-sectioned rings (19 in total) date across the first to fourth centuries and have a more sporadic, limited distribution across Scotland (Martin Reference Martin2023; Reference Martinin prep.).

The 43 D-sectioned rings are more standardized in form and use. Available internal diameters for 30 D-sectioned rings, tightly ranging between 12.5 and 20 mm, stand out against the overall dataset of 67 available internal diameters (Fig. 5). This size range implies their use on either fingers or toes: there is one confirmed toe ring (Alloa) and one certain finger ring (Gurness). It seems clear that D-sectioned rings were not worn on composite objects like armlets, torcs or shoes. The flat interior of D-sectioned rings would have made them comfortable as finger or toe rings because they could fit snugly around the digit while maintaining an appealing curved surface on the exterior. The distribution of D-sectioned spiral rings shows continued heavy activity around the Firth of Forth, but also an intriguing increase in Orkney and Shetland. D-sectioned rings with reliably dated findspots indicate a range from 60 bc to ad 600 (Fig. 6), so all three section types were circulating simultaneously during the first and second centuries. However, while circular- and rectangular-sectioned rings largely disappeared by the fourth century,Footnote 19 the more popular D-sectioned shape endured into the sixth. Once silver started being used to make spiral rings, possibly as early as ad 250,Footnote 20 CuA D-sectioned spiral rings disappear.

Figure 6. Reliable deposition date ranges for 29 of the 42 D-sectioned rings. Colour represents silver (blue) and CuA (red). (Image: author.)

D-sectioned rings can be grouped into two sub-types: (D1) undecorated rod (21 rings) and (D2) rod decorated with ribbing (19 rings).Footnote 21 D2 (ribbed) rings tend to be slightly larger than D1 (undecorated) rings in internal diameter. D2 silver rings have an even tighter range between 15 and 18.5 mm (Fig. 7). This implies that D-sectioned spiral rings, and perhaps especially silver ones due to their internal diameters, were most likely worn on fingers, not toes or composite objects. Reliable deposition dates for the D1 rings range from 50 bc to ad 300, while D2 rings fall between ad 1 and 600 (Fig. 6). Leckie Broch and Traprain Law have D1 rings in earlier occupation levels and D2 rings in later occupation levels. Overall, it appears that D1 rings preceded D2 rings in deposition and most likely in production. Once D2 ribbing decoration came into use in the first or second century, it largely replaced D1 rings. And when silver D2 rings came onto the scene around the fourth century, they replaced CuA D2 rings.

Figure 7. Comparison of internal diameter ranges between silver D2, CuA D1 and CuA D2 rings. (Image: author.)

The ribbing pattern on many rings has been worn down so much that only notches or small indentions remain, but these linear patterns were originally well-defined and prominently visible on the exterior surfaces. There are two general forms with slight variations: a vertical, sometimes angled, ribbing pattern (Fig. 8) and a lozenge-and-ribbing pattern (Fig. 9). Both styles run along the exterior of the rod, usually in the central turn for a complete spiral. The ribbing may disappear for a space before taking up again at the ring's (usually) tapered terminals. Where complete, these D2 rings are often made up of exactly three turns so that the central ribbed turn is sandwiched by two plain turns and the tapered terminals align or nearly align. Sometimes, a single lozenge pattern on an otherwise ribbed ring is lined up perfectly from one turn to the next as seen on the Norrie's Law ring (Fig. 9). This implies careful planning in decoration and rod length, and a measurement for the intended wearer's finger, to achieve the perfect D2 look.

Figure 8. Vertical or angled ribbing pattern on D2 rings: (left) silver ring from Norrie's Law, Fife (NMS X.FC 35); (right) CuA ring from Dùn An Fheurain, Argyll (NMS X. HD 410). (Left: Image © National Museums Scotland. Right: photograph by author using a Keyence VHX-7000 microscope, by kind permission National Museums Scotland.)

Figure 9. Lozenge-and-ribbing pattern on D2 rings: (left) silver ring from Traprain Law, East Lothian (NMS X.GVM 147); (right) silver ring from Broch of Howe, Sanday (NMS X.GA 1174). (Images © National Museums Scotland.)

The ribbing pattern could have been achieved by casting a metal rod using a ribbed mould, as was done for brooches and other objects (Heald Reference Heald2005, 310, 343, pl. 8). This appears to be the technique used for at least two CuA rings—one from Hyndford Crannog (NMS X. HTA 9) (Fig. 10) and one from Edgerston, Roxburghshire (NMS X. HH 803) examined using a microscope (Keyence VHX-7000). The very regularly spaced ribs are somewhat soft/rounded and ribbing is present on sections of the ring still complete with a casting ridge. Furthermore, finishing and hammering marks are visible on top of the cast impressions.

Figure 10. Microscopic images of (right) a copper alloy ring with a cast ribbing pattern from Hyndford Crannog, Lanarkshire (NMS X.HTA 9) and (left) a silver ring with tooled ribbing pattern produced using a filing tool from Norrie's Law, Fife (NMS X.FC 35). (Photographs: author using a Keyence VHX-7000 microscope, by kind permission National Museums Scotland.)

Alternative techniques involved filing or chasing tools. A chasing tool, which pushes the metal outward on either side into ovular ribs, would create bolder, sharper impressions than a casting mould. A filing tool, as tested experimentally in a metalworking shop,Footnote 22 would have worked well to carve especially sharp, deep and roughly defined crevices for a more dramatic effect, as visible on the Norrie's Law (Fig. 10) and Broch of Howe rings. Perhaps silver's soft malleability allowed metalworkers to achieve ribbing more readily, or perhaps the way silver's colour captures light inspired more dramatic ribbing effects. Chasing or filing certainly allowed more spontaneous creativity than using a prepared mould. Perhaps this approach was preferred for a more prestigious style of silver D2 ring commissioned by privileged individuals.

Scotland's nine silver rings (Table 1), roughly dated from ad 250 to 600, are the most homogenous category. The five precisely measured rings have internal diameters ranging from 15 to 18.5 mm, which could have fitted adult male or female fingers. They were made in the D2 style: cast D-sectioned rod, ribbed in the central turn,Footnote 23 and spiralled in a Z direction. The five complete rings all have approximately three tight turns. This explains why their reconstructed lengths range from 179 to 214 mm, a tight grouping compared to CuA rings. Silver spiral rings were produced according to an established number of turns. Compared to CuA spiral rings, silver rings were on average over twice as heavy. This standardization differs from the broader tradition of spiral rings. Evidently, sometime in the fourth century, D-sectioned (and circular-sectioned)Footnote 24 spiral rings as non-homogenous categories were superseded by a distinctive style of silver D2 finger ring.

Table 1. Silver spiral rings of Britain and Ireland. * = Not examined microscopically by this author.

In deposition, the silver rings also bear similarities. They have been found at social centres of power and within Hacksilber hoards.Footnote 25 Two fragments and one complete ring come from the Hacksilber hoard buried at an ancient monument at Norrie's Law, Fife, which is plausably a high-status votive deposit (Noble et al. Reference Noble, Goldberg, McPherson and Sveinbjarnarson2016, 737). Two rings come from the hillfort at Traprain Law in East Lothian. Three rings come from brochs:Footnote 26 Clickhimin (Shetland), Howe (Sanday) and Dun Mor Vaul (Tiree) (Table 1). Both Clickhimin and Dun Mor Vaul bear indications of high status in their architecture, non-ferrous metalworking and unusually high concentrations of imported Roman goods (Hamilton Reference Hamilton1968; MacKie Reference MacKie1974). Silver spiral rings have only turned up in well-connected spaces of power. Owning anything silver must have marked out an individual as well connected and wealthy during the IA. The extreme use-wear visible on these silver rings also indicates that they were well loved for many years, perhaps generations. Although it is possible that the material resistance of CuA rings made them more hard-wearing, in general CuA D2 do not seem to have been worn to such an extreme. Furthermore, they were not exclusively found in deposition contexts associated with power through structures and materials and this might indicate a wider social distribution.

Beyond Scotland, there are only two examples of D2 silver spiral rings (Table 1), both from a collection of exotic material deposited near a Neolithic tomb in Newgrange, Ireland. These rings—and other silver items with shared decorative motifs—indicate strong links between Scotland and Ireland during this period (Goldberg Reference Goldberg, Farley and Hunter2015, 156). Three silver spiral rings are known to this author from England, but they are stylistically different from the Scottish rings and from one another (Table 1). Clearly, the distribution of D2 silver spiral rings skews heavily toward Scotland and the Newgrange rings are probably exports. One English ring—found in the Wem (Shropshire) Roman Hacksilber hoard (White et al. Reference White, Hobbs, Abdy, Goldberg, Blackwell and Rauin press)—parallels the Scottish silver spiral rings in its find circumstance, but does not share the ribbing pattern or tightly spiralled structure. However, its fifth-century date and location in western England suggests that this ring probably circulated within the same silver economy developing on the outskirts of the empire during and after the decline of Roman rule in Britain.

Discussion

Silver's early form as coinage and its role as a Roman imperial delegate impacted its trajectory of use. Roman denarius hoards were preserved en masse. Coins were probably considered a special category of foreign objects, prestigious and ‘restricted to certain formalized social and religious contexts’ (Marzinzik Reference Marzinzik, Hunter, Kaufmann-Heinimann and Painter2022, 406). If Roman goods could be used locally to legitimize social status, then transforming coins into something less Roman would have negated their local relevance. Hacksilber inspired new human–object collaborations. Hacksilber embodied a socially relevant and obviously divisible medium that encouraged recycling. Hacked, folded and crumpled objects might have showcased silver's malleability and thus motivated local people to want to work it. Certain existing conditions of possibility—local technical skill in casting and finishing bronzeFootnote 27 as well as a tradition of wearable metalworkFootnote 28—meant that silver could find relevance and purpose in IA society as prestige jewellery.Footnote 29 Its relative scarcity in the region probably contributed to its locally specific prestige.Footnote 30

The trajectory of spiral rings in IA Scotland showcases how silver's material efficacy played out. One of silver's most poignant attributes was its colour, desirable even at the expense of metal purity. The nearly complete replacement of copper alloy spiral rings with silver ones and the contemporaneous development of tinned CuA objects on related fourth- to fifth-century objects within the northwest exchange zone (Blackwell et al. Reference Blackwell, Goldberg and Hunter2017, 139; Gavin Reference Gavin, Hunter and Painter2013, 435) indicates that people desired to appear silvery, even if their personal adornment was not truly made of silver. Perhaps tinned objects masqueraded successfully alongside silver objects, bringing status to their wearers in a similar way. The higher percentages of tin in indigenous silver objects of the fifth to seventh centuries (Troalen & Lang Reference Troalen, Lang, Hunter, Kaufmann-Heinimann and Painter2022, 318) might indicate that a few tinned objects were recycled, whether accidentally or purposefully, along with high-purity Roman silver (Martin Goldberg, pers. comm. 2023). Evidently, silver's material power stemmed not only from its precious metal content but also from its visual identity. Silver's colour had come to be associated with power, much as the second-century bc influx of gold coins and torcs cultivated a desire for yellow-gold-coloured metal objects at the expense of gold purity in southern England (Creighton Reference Creighton2000, 41).

Silver's weightiness was an affordance in that it felt more impressive; it carried its power more so than CuA. Such heavy silver rings felt more satisfying on one's finger than lighter CuA rings. One need only look at the massive silver chains above to note that weight was a valuable feature of silver's prestige. Both the silver chains and the spiral finger rings developed out of indigenous IA traditions. Perhaps silver brought added weight (literal and figurative) to reimagining these ancient traditions.

The visual complexity of metalwork meant to adorn individual bodies has been identified as a crucial and continuous characteristic of the early European visual world (Wells Reference Wells2008, 42–84). Silver's particular material properties afforded and inspired new such devices and possibilities beyond existing metalworking traditions in IA Scotland. CuA ribbed rings disappeared abruptly with the introduction of ribbed silver rings. The patterns on silver rings are more technologically complicated and they were probably applied post casting. Maybe silver's glittering, bright surface colour allowed traditional ribbing patterns to stand out more prominently than on CuA rings. Perhaps revising the technology used to create the ribbing pattern was somehow a result of silver's material properties; or the technology itself was inspired by silver's prestige. Whatever the reason, silver stimulated more material embellishment and a meaningful standardization of the spiral ring tradition.

In addition to its material properties, silver carried an association with Roman-ness due to its diplomatic entanglement. And yet, silver's use in local prestige goods implies that it could play two roles at once. It could convey power without demanding Roman-ness. It was a malleable entity that privileged persons could collaborate with to negotiate a new sense of identity. This holds true for the entire assemblage of wearable silver that developed during the fourth to fifth centuries in northern Britain (see above), but it is directly traceable here in the trajectory of spiral finger rings. Around the fourth century, a diversity of spiral rings was replaced by a very specific style of silver D2 spiral finger ring.

In Scandinavia, gold snake-headed rings developed as insignia for the uppermost elites and visual markers of elite alliances, possibly as counterparts to Roman ‘dona militaria’ (Jørgenson & Peterson Reference Jørgenson, Peterson, Hines and Petes1998, 160–61; Reiersen Reference Reiersen, Vedeler, Røstad, Kristoffersen and Glørstad2018, 31). In mid second-century southern Britain, two types of snake-headed ring became popular in both silver and gold; this regional variant of a long-lived snake jewellery tradition found elsewhere in the empire probably reflects the development of particular Roman religious practices in the province (Cool Reference Cool2000; Johns Reference Johns1997). Bezelled and enamelled CuA rings in IA Scotland have also been interpreted as a response to Roman ring-wearing traditions (Hunter Reference Hunter2006, 152; Reference Hunter2019, 97). Scottish silver D2 rings were another regionally distinct collaboration between people and things that developed in conversation with the Roman world. This might partially account for the heavy concentration of early CuA spiral rings and early silver spiral rings in the volatile, cross-cultural zone of the central lowlands. As silver already marked out a person of rare status on Roman sites in northern Britain,Footnote 31 the development of silver D2 rings as a distinct category for indigenous elite wear might be an aggrandized adaptation of this Roman tradition.

Silver was possibly unique among other Roman goods that could only denote a one-sided association with Rome. Coins could not circulate as currency without imperial structure, and they failed to draw northern communities into a Roman monetary system. Pottery, once broken, could be transformed into smaller, everyday objects (i.e. spindle whorls) in a fragmentary state but it could not be truly re-made. Accessing more coins and pottery was contingent upon a good relationship with Roman agents. Hacksilber—partially because it demanded no culturally sanctioned connotations for use—could be more than Roman. It is significant that Hacksilber was not recycled to replicate tableware or money (Roman preferences). Instead, silver inspired a pointedly local and innovative style of elite jewellery.

Recycling Roman silver into distinctly indigenous wearable wealth was thus a crucial material–human collaboration, a statement in moving beyond old patterns of Roman–indigenous politics. D2 silver spiral finger rings actively proclaimed a new, regionally specific identity beginning around the fourth century. In fact, these spiral rings might have played a directly assistive role in developing the broader assemblage of wearable silver. The spiral ring form has deep roots in northern Britain, along with handpins (Youngs Reference Youngs, Hunter and Sheridan2016, 307–8). A few tantalisingly early possible deposition dates for silver rings (Dun Mor Vaul and Traprain Law) also could pre-date other early silver products. Perhaps spiral rings were not just amongst the first silver products in IA Scotland, but the first. If people were just starting to experiment with silver-working, it would make sense to select a local and relatively simple form which required a low volume of silver material.

The dataset of Scottish silver spiral rings is small and any interpretation of their development and impact demands caution. However, when considered within the larger context of indigenous silver in Iron Age Scotland, silver's efficacy remains convincingly impactful. Scotland's early silver products together made up an assemblage of wearable power which privileged persons could use to draw attention to themselves and enchant viewers. Silver also allowed people in northern Britain to distinguish themselves from other socio-political groups. Irish metalwork in around ad 250–650 shared many commonalities in material and style with Scotland, but the Irish silver products were fewer and less pure (Goldberg Reference Goldberg, Farley and Hunter2015, 156–7). Most of the Scottish handpins have a high percentage of silver while the Irish pins have a little less silver (Youngs Reference Youngs, Hunter and Sheridan2016, 306), perhaps resulting from richer Roman diplomatic endeavours in Scotland. The Germanic groups who settled in England during the fifth–seventh centuries preferred fine gold objects (Goldberg Reference Goldberg, Farley and Hunter2015, 168). Even when using silver for the body of an object, it was often covered with gold to imitate gold's appearance. Gold was also the metal of choice in Scandinavia for snake-headed rings. In contrast, silver reigned supreme in Scotland. This selectivity cannot solely be attributed to material availability as the region had known gold before Roman occupation. Instead, silver's power and prestige were directly due to its collaborations with indigenous groups, initially as an imperial delegate and later as a transformative ally.

By wearing silver rings made from recycled Roman silver but designed to display local artistic preferences, individuals in northern Britain could demonstrate their connectedness to the wider world, display their wealth on a local level and define their regional identity in contrast to other ‘less silvery’ socio-political groups. These were crucial affordances for an emergent aristocracy of larger-scale leaders in northern Britain (Hunter Reference Hunter2019, 63) and the northwest exchange zone (Gavin Reference Gavin, Hunter and Painter2013, 433). In other words, silver was not just central to what this new socio-political identity looked like; it helped forge that identity. Silver's efficacy created the conditions under which that identity could be made visible by humans. Silver was not just a tool, but itself a generator of social change. This silvery identity and the accompanying socio-political changes were not inevitable or attributable solely to Roman interference, but can be better understood as the result of indigenous human–silver collaborations.

An interesting point of comparison to silver are Roman glass drinking vessels. Dominic Ingemark (Reference Ingemark2014, 236–8) argued that native elites in IA Scotland used glass vessels to perform their social and political superiority through pointedly Roman behaviours (albeit reinterpreted to a certain degree). Silver spiral rings seem to reflect a more transformative, purposefully and uniquely indigenous ‘post’ or ‘beyond’ Roman northern identity. As Roman drinking vessels and early indigenous silver jewellery circulated together in the fourth and fifth centuries, these two contradictory yet complementary collaborations with Roman imperial things illustrate the multifaceted processes of becoming undertaken within this cross-cultural context.

To ignore silver's efficacy risks seeing changes in socio-politics and material culture in IA Scotland as inevitable steps within an historical narrative of disruptive Roman colonization. It risks seeing the metalwork itself as passively representative of social change or cemented categories of identity, which in turn places agency only on imperial agents and events as the causal means by which such change developed in IA Scotland. Granting material efficacy to silver provides an analytical access point for exploring the diverse and fascinating ways in which indigenous people played a role in these historical processes by wrestling out new collaborative ventures with imperial things. Effective object-oriented methodologies need not overshadow human actors, but instead work best when they mutually shed light upon one another's impact.

Acknowledgements

I am grateful to my exceptionally supportive MA thesis advisors at Cornell University, Dr Astrid Van Oyen and Dr Lori Khatchadourian. They provided invaluable encouragement, direction and constructive feedback in shaping my theoretical approach. My research was also largely shaped by the guidance and generosity of Dr Fraser Hunter. He welcomed me into National Museums Scotland as a Visiting Researcher, served on my committee as an ad hoc member, and made available the scholarly resources, artefacts and connections I needed to successfully complete this project. I would like to thank the following institutions for providing financial support: the Archaeological Institute of America, Mario Einaudi Institute for European Studies, Einaudi Center for International Studies, Cornell Institute of Archaeology and Material Studies and Cornell Graduate School. Thanks also to the many generous scholars at NMS who offered their feedback and support.

Supplementary material

A supplementary appendix may be found at https://doi.org/10.1017/S0959774324000180

Footnotes

1. The one piece of (Gaulish) pre-Roman silver in IA Scotland could be a modern loss (Hunter Reference Hunter and Wells2013a, 24).

2. One of the denarius hoards at Birnie was buried in a Roman leather bag (Hunter Reference Hunter, Hingley and Willis2007c). The Falkirk hoard was found in a Roman pot (NMS X.FR 483; X.FR 482). For further discussion, see Hunter Reference Hunter, Morillo, Hanel and Martín2007a.

3. There is currently no indication of the melting of silver or gold before ad 300 (Heald Reference Heald2005, 68). While locally made gold products imply native gold-working activity, there are no such local silver products until the fourth century.

4. For interpretations of Roman Hacksilber in Scotland, see Hunter & Painter Reference Painter, Hunter and Painter2013 and Hunter et al. Reference Hunter, Kaufmann-Heinimann and Painter2022.

5. See also Hobbs Reference Hobbs, Hunter and Painter2013 for a review of stray silver finds in southern Britain.

6. Similar evidence for re-establishment might be present at Edinburgh Castle hill, Eildon Hill and Dumbarton Rock, but these sites have not seen the same level of excavation to support this securely (Hunter Reference Hunter, Collins and Allason-Jones2010, 96).

7. For chains, see Blackwell et al. Reference Blackwell, Goldberg and Hunter2017, 102; Youngs Reference Youngs, Hunter and Painter2013. For bangles, see Blackwell et al. Reference Blackwell, Goldberg and Hunter2017, 79.

9. See Heald Reference Heald2001, 690; Youngs Reference Youngs and Youngs1989, 22–3; 2016, 305–10.

10. See Booth Reference Booth2014, 302; Fowler Reference Fowler1960, 153; Gavin Reference Gavin, Hunter and Painter2013, 434; Youngs Reference Youngs, Hunter and Sheridan2016, 307 for specific object types.

12. See Sherratt Reference Sherratt, Armada, Murillo-Barroso and Charlton2018 for a detailed discussion of silver's appeal throughout human history. For an example in ancient West Mexico, see Hosler Reference Hosler1995.

13. In Cool's (Reference Cool2000) study of 700 first- to second-century finger rings found in southern Britain, 10 per cent (32) were silver.

14. A more detailed study specifically of the Scottish copper alloy spiral rings is in preparation.

15. Hyndford crannog: Cavers Reference Cavers2010; Munro Reference Munro1899; Leckie Broch: MacKie Reference MacKie2016 and Traprain Law: Hunter Reference Hunter, Hunter, Kaufmann-Heinimann and Painter2022c.

16. The fifth site with an especially high number of spiral rings is Clickhimin, Shetland (Hamilton Reference Hamilton1968).

17. Due to a lack of evidence for silver-working in Scotland pre-ad 300 (Heald Reference Heald2005, 68) but a possible late third-century deposition date for one silver ring from Dun Mor Vaul (MacKie Reference MacKie1974, 132–3), this study considers all Scottish silver rings to be no older than c. 250 ad. This remains a circular argument and needs to be consistently reassessed with future research on silver-working and metal composition studies. Where CuA rings have been analysed, the presence of Zn indicates an ad 80 or later date (Dungworth Reference Dungworth1995). These parameters excluded 30 of the 93 rings for dating consideration.

18. Roman depictions generally show rings occur on the smaller third and fourth fingers (Swift Reference Swift2017, 159), but this cannot be assumed for indigenous spiral rings.

19. The two circular-sectioned exceptions are gold rings from Buiston Crannog and probably Anglo-Saxon products (Munro Reference Munro1882, 228–9, figs 244–5; Crone Reference Crone2000 for site).

20. See note 17.

21. The ribbing tradition distinct to D-sectioned rings is found on four (possibly) rectangular-sectioned rings. These require further analysis to understand their relationship to the D-sectioned ribbing tradition.

22. Experimental ring-making undertaken in collaboration with Maciek Sankowski (Glasgow, UK).

23. The Shetland find; was not available for close study.

24. A few rectangular-sectioned rings might have continued to be made in CuA (often containing Zn) but never in silver. These rectangular-sectioned rings seem to have been less often used as finger rings.

25. For source material, see Table 1.

26. Brochs are drystone hollow-walled structures, characteristic of the Iron Age in northern and Atlantic Scotland. They had defensive, cultural and social affordances.

27. The technical differences in working with silver versus bronze were probably negligible and thus provided little barrier to local metalsmiths.

28. Heald (Reference Heald2005, 3) concluded that non-ferrous metalwork played a crucial role in socio-politics throughout the Scottish Iron Age.

29. Noble et al. (Reference Noble, Goldberg, McPherson and Sveinbjarnarson2016, 737) argued that metalworking helped create and support elite identities in the post-Roman period at Pictish hillforts.

30. There is currently no published evidence for a continued influx of silver into IA Scotland after Roman contacts with Britain declined in the early fifth century.

31. Silver brooches make up only 1.2 per cent of all Roman brooches known from Scotland (Blackwell et al. Reference Blackwell, Goldberg and Hunter2017, 16, no. 4).

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Figure 0

Figure 1. Spiral ring typologies by rod section shape: (left) circular-sectioned; (centre) D-shaped section; (right) rectangular-sectioned. (Centre image © National Museums Scotland; left- and right-hand photographs: author, by kind permission National Museums Scotland.)

Figure 1

Figure 2. Distribution map of spiral rings in Britain and Ireland. *The unidentified rings are those marked on Jope & Wilson's 1957 map but which remain unidentified by me. They are included here so as not to skew the distribution away from southwest England and Wales. (Map: author using GIS online. This map is comprehensive for Scotland and presents a strong representative number of ring findspots in Ireland and England.)

Figure 2

Figure 3. Reliable deposition date ranges for spiral rings by findspot. Colours represent gold (orange), silver (blue), and CuA (red). (Image: author.)

Figure 3

Figure 4. Copper alloy rings with use-wear on one side (worn-down or compressed) indicating likely use as finger rings: (left) from Cleaves Cove, Ayrshire (NMS X.HM 50) and (right) from Traprain Law, East Lothian (NMS X.GVM 140). (Photographs: author, by kind permission National Museums Scotland.)

Figure 4

Figure 5. Internal diameters of the 30 D-sectioned rings compared against the entire dataset of spiral rings, with available measurements. (Image: author.)

Figure 5

Figure 6. Reliable deposition date ranges for 29 of the 42 D-sectioned rings. Colour represents silver (blue) and CuA (red). (Image: author.)

Figure 6

Figure 7. Comparison of internal diameter ranges between silver D2, CuA D1 and CuA D2 rings. (Image: author.)

Figure 7

Figure 8. Vertical or angled ribbing pattern on D2 rings: (left) silver ring from Norrie's Law, Fife (NMS X.FC 35); (right) CuA ring from Dùn An Fheurain, Argyll (NMS X. HD 410). (Left: Image © National Museums Scotland. Right: photograph by author using a Keyence VHX-7000 microscope, by kind permission National Museums Scotland.)

Figure 8

Figure 9. Lozenge-and-ribbing pattern on D2 rings: (left) silver ring from Traprain Law, East Lothian (NMS X.GVM 147); (right) silver ring from Broch of Howe, Sanday (NMS X.GA 1174). (Images © National Museums Scotland.)

Figure 9

Figure 10. Microscopic images of (right) a copper alloy ring with a cast ribbing pattern from Hyndford Crannog, Lanarkshire (NMS X.HTA 9) and (left) a silver ring with tooled ribbing pattern produced using a filing tool from Norrie's Law, Fife (NMS X.FC 35). (Photographs: author using a Keyence VHX-7000 microscope, by kind permission National Museums Scotland.)

Figure 10

Table 1. Silver spiral rings of Britain and Ireland. * = Not examined microscopically by this author.

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