Iron smelting and smithing in major urban centers in Israel during the Iron Age

By-products of iron production, mainly slag and bloom fragments, unearthed at three Iron Age urban centres in Israel (Hazor, Tel Beer sheba and Rehov), were analysed in order to better understand the organization of iron production during the Iron Age. The production remains studied are all dated not earlier than the Iron Age IIA, and thus shed light on a period of transition from bronze to iron production. Chemical composition and microstructural analyses enable us to determine that both the smelting of iron ores and the refining of the bloom took place within the urban centres of Hazor and Beer-Sheba. We show that slag cakes are the products of smelting, possibly carried out in pit-furnaces. Hammerscales, products of primary and secondary smithing, were attached to slags. From these observations we infer that all stages of iron production were practiced in these urban centres.     

Early ironworking in Iron Age South India: New evidence for the social organization of production from northern Karnataka

Abstract

Iron production was integral to political and ritual practices during the South Indian Iron Age (ca. 1200–300 b.c.), yet the investigation of the social relations of metals production during this period has been overshadowed by studies of iron consumption, particularly of iron objects in megalithic mortuary contexts. Recent archaeological research in the Tungabhadra River Corridor, Karnataka, has revealed iron production debris within and between settlements in more ephemeral occupational contexts, such as rockshelters. One notable discovery is the earliest ironworking facility in South India at Bukkasagara. The regional pattern suggests that iron production involved at least two classes of specialist producers—smelters and smiths—who exercised varying degrees of control over the practice and products of their craft. It also suggests that iron production was an important component in the construction and negotiation of Iron Age social differences, affiliations, and inequalities.     

Metalworking at Hazor: A Long‐Term Perspective

The temporal and spatial distribution of metal production remains from Hazor was used in this study to sketch the development of metalworking (bronze, iron and silver) at this important site. The remains attest to a long sequence of metalworking at Hazor, from the Middle Bronze Age through to the Iron Age, and significantly highlight the transition from bronze to iron production and the mode of bronze production after the transition had been completed.     

Iron Age pastoral nomadism and agriculture in the eastern Eurasian steppe: implications from dental palaeopathology and stable carbon and nitrogen isotopes

Iron Age societies of the eastern Eurasian steppe are traditionally viewed as nomadic pastoralists. However, recent archaeological and anthropological research in Kazakhstan has reminded us that pastoralist economies can be highly complex and involve agriculture. This paper explores the nature of the pastoralist economies in two Early Iron Age populations from the burial grounds of Ai-Dai and Aymyrlyg in Southern Siberia. These populations represent two cultural groups of the Scythian World – the Tagar Culture of the Minusinsk Basin and the Uyuk Culture of Tuva. Analysis of dental palaeopathology and carbon and nitrogen stable isotopes suggests that domesticated cereals, particularly millet, and fish formed a major component of the diet of both groups. The findings contribute to the emerging picture of the nuances of Early Iron Age subsistence strategies on the eastern steppe.     

Iron and bronze production in Iron Age IIA Philistia: new evidence from Tell es-Safi/Gath, Israel

A metallurgically-oriented excavation in Area A at Tell es-Safi/Gath yielded evidence for iron and bronze production dating to the early Iron Age IIA. Two pit-like features, which differed considerably from one another in colour, texture and content, were excavated. Evidence shows that each feature represents a different in situ activity related to iron production, inferred by the presence of hammerscales, slag prills and slag. An upturned crucible was found on top of one of the features. Analysis of the crucible slag showed that it was used for bronze metallurgy. Tuyères, both round and square in cross-section, were found in and around the two features. The presence of the two industries together presents a unique opportunity to explore the relationship between copper and iron working. This is especially important against the background of the scarcity of evidence for iron production in the Levant during the early phases of the Iron Age.     

THE SOCIAL PRODUCTION OF IRON IN FIRST MILLENNIUM BC IRELAND

Archaeological data available for reconstructing the Irish Iron Age have expanded rapidly due to the large number of excavations conducted in recent decades as part of large infrastructure projects. This article interprets iron‐production sites dating to the first millennium BC, many of which were discovered as part of those projects, as representing discrete but overlapping communities of ironworking practice. Through a synthesis of recent excavation data, I outline the evidence for different modes of iron production that range from very small scale to ironworking specialists attached to high‐status persons. Developing a socially‐driven reconstruction of this technology provides insight into various aspects of Iron Age society as embedded in local, regional, and pan‐regional communities.     

Iron Working in the Vicinity of Weybridge,Surrey

Abstract

The presence of eighteenth-century iron working mills and the coincidental local, but limited, source of iron in the Weybridge area of Surrey, has led a number of authors to suggest that these mills smelted locally extracted iron ore. The present author has described elsewhere the occurrence of the ore and indicated that extraction was in pre-mediaeval times, probably during the Iron Age. In further support of this theory, the original records of Iron Age archaeological sites in the area are shown to reveal positive evidence of iron working. The history of the iron mills throughout their restricted period of iron working is also described, and at each site a close association between the fabrication of iron, and brass and copper products, where the metal is of undoubted extraneous origin, is evident.     

FROM RAW IRON TO SEMI‐PRODUCT: QUALITY AND CIRCULATION OF MATERIALS DURING THE IRON AGE IN FRANCE*

Iron raw materials provide a privileged source of information for the reconstruction of metallurgical techniques and the circulation of iron products. An interdisciplinary approach, combining archaeological and archaeometrical studies of the exemplars known from the French Iron Age, has been undertaken. This enables a new typological classification to be produced that demonstrates a correlation between morphological and structural properties. Through comparison with chronological data, it is possible to propose a reconstruction of the organization of production according to three main periods, which are characterized by the circulation of different qualities of iron and by diverse levels of artisanal specialization.     

BLACKSMITHING TECHNOLOGY IN IRON AGE WESSEX

Summary. The sophistication of Iron Age blacksmithing technology in Wessex was determined by the metallurgical examination of 503 iron artefacts using Optical Metallography, Electron Microprobe Analysis and Vickers Hardness Testing. Iron artefacts from the different regions and site types of Southern Britain were examined to determine both the capabilities of Iron Age blacksmiths to alter the properties of iron artefacts through cold-working, carburization, heat-treatment and alloy selection, and the distribution of these possible techniques. The reasons for the selection of the areas, the sites, and the actual artefacts chosen for examination are discussed.     

REDEFINING THE NORTHERN BRITISH IRON AGE

Summary.   Unlike Southern Britain, the Iron Age in Northern Britain spans two millennia from the introduction of iron technology to the Norse settlements. Northern Britain is divided into a series of geographical and archaeological regions, including for the pre-Roman Earlier Iron Age the whole of aceramic and non-coin-using northern England. Despite a wealth of settlement evidence, the Earlier Iron Age lacks diagnostic material assemblages, even in the ceramic Atlantic regions, where radiocarbon dating is now confirming the origins of Atlantic Roundhouses in the mid-first millennium BC. External connections may have been long-distance, reflecting a complex variety of selective connections. For the Later Iron Age, interpretation based upon historical sources has inhibited a proper archaeological evaluation of the 'Picts' and of the traditional view of Dalriadic settlement in Argyll, both of which are now under review.     

Comparative microstructural and elemental analysis of iron artefacts from Kaveri valley archaeological sites

Iron has been one of the most critical technotraditions that had lasting impact on social formation throughout the Iron Age and historical period. Iron was used in warfare and subsistence economy. Our knowledge on ancient iron smelting and working have generally been derived from ethnography and ethnohistory, which is by all means, time, region, and raw material specific. Scientific analyses of ancient iron have contributed in understanding this heritage to a respectable extent, yet a comprehensive knowledge about the evolution of iron making through time and space in India eludes us. In this work, a comparative study of iron artefacts from two Iron Age/Megalithic-Early Historic sites of Tamil Nadu, south India, that is, Mangadu (burial site) and Ambal (habitation-cum-burial site) is carried out to understand the iron thermal-processing capabilities. The retrieved artefacts were examined using X-ray fluorescence (XRF) for elemental composition. The imaging of the artefacts was done using Scanning Electron Microscopy (SEM), Electron Backscatter Diffraction (EBSD), and Optical Microscopy (OM). In addition, phase identification was performed using X-ray diffraction (XRD) and Energy Dispersive X-ray Spectroscopy (EDS). Combination of these analyses illustrates that inhabitants of Mangadu and Ambal were aware of the iron alloy manufacturing/processing techniques such as forging and hammering.     

‘Guard the Good Deposit’: Technology,Provenance and Dating of Bipyramidal Iron Semi‐Products of the Durrenentzen Deposit (Haut‐Rhin,France)

In the early days of iron metallurgy in Western Europe, the most widespread type of ‘trade iron’ (semi‐product) was bipyramidal in shape. Although they are frequently found, little is known about how they were manufactured and circulated, or even about their age. An interdisciplinary approach was applied to the Durrenentzen deposit (Haut‐Rhin, France), the third‐largest in Europe in terms of artefact quantities, in an attempt to reconstruct the technological, social and economic context that caused them to be abandoned. A morphometric study of the 51 iron bars revealed a high degree of homogeneity, despite variations in detail. Four objects were selected for archaeometric studies. Metallographic analyses show internal differences (quality of the material, nature of the alloys and manufacturing techniques). Chemical analyses also showed different provenances. Finally, radiocarbon analyses of the carbon in steel (iron/carbon alloy) linked this deposit to the early Iron Age. This study provided the first benchmark for more general research, significantly changing perceptions of the economics of iron at the beginning of the Iron Age.     

Slag as evidence for early iron production in arctic Norway

Physical, structural and chemical analyses were made on slag remains obtained from three sites in Iron Age arctic Norway. Scanning electron microscopy and x‐ray microanalysis were employed to confirm that the slag can only be a result of iron production. Although a distinction between slag produced by smithing and smelting proved difficult, consideration of the processes and the resources available support the assumption that both were practiced at the sites. The results provide firm evidence of iron production in the region of Norway north of the 69th parallel, by at least the sixth century AD.     

REGIONAL VARIATIONS IN BLOOMERY SMELTING SLAG OF THE IRON AGE AND ROMANO‐BRITISH PERIODS*

This study highlights regional variation in the composition of iron‐smelting slag produced in England prior to the medieval period and attempts to link slag composition to the type of ore smelted. For many sites, the slag compositions were consistent with the use of limonite ore, but there is evidence that siderite ore was smelted at sites in Sussex in the late Iron Age/Romano‐British periods. A compositional comparison of smelting slags and slag inclusions in Iron Age currency bars, using data from Hedges and Salter (1979 ), illustrates the potential of smelting slag compositional data in provenance studies of early iron objects.     

POST-COLLAPSE: THE RE-EMERGENCE OF POLITY IN IRON AGE BOĞAZKÖY, CENTRAL ANATOLIA

How communities reorganize after collapse is drawing increasing attention across a wide spectrum of disciplines. Iron Age Boğazköy provides an archaeological case study of urban and political regeneration after the widespread collapse of eastern Mediterranean Late Bronze Age empires in the early twelfth century BC. Recent work at Boğazköy has significantly expanded our understanding of long-term occupation in north central Anatolia. This work counters previous suggestions that Boğazköy was abandoned after the collapse of the Hittite Empire during the Early Iron Age. In this paper, we focus on the Iron Age occupations at the site to show how growth in the scale and complexity of ceramic production and trade during this period provides another line of evidence for economic and political re-emergence. Based on the increasing diversity of non-local ceramics and ceramic emulations during the Iron Age, we suggest that only in the Late Iron Age, 500–700 years after Hittite collapse, did Boğazköy re-emerge as a significant polity in central Anatolia.     

Reassessment and new data on the diachronic relationship of Thassos Island with its indigenous metal resources: a review

The extraction of mineral ores and its associated metal production has been a persistent element of the economy on Thassos Island since prehistoric times. As early as the Upper Palaeolithic, around 20,000 years ago, ochre had been mined and used for painting, while early silver extraction is attested during the Final Neolithic (early fourth millennium BC). Copper production and alloying becomes an important activity in the coastal settlements of the island during the third and second millennia. The inception of iron metallurgy has been seen in association with copper smelting as confirmed by analyses on slag found in Early Iron Age upland cemeteries. With the arrival of the Greek colonists around 650 BC, intensification in silver and gold extraction became paramount for further economic expansion. This deep history in the use of Thassian metals is being reviewed based on archaeological findings and archaeometallurgical research of the last three decades, while new analytical data on Early Bronze Age copper smelting at Aghios Antonios are being presented.     

Surplus Production and Marine Resource Use in the North Norwegian Iron Age

The coast of northern Norway was an important dried‐cod production area during the Medieval period. During the Iron Age, marine resources had also played a vital role in the economy of the inhabitants in the region. The increase in marine harvesting post c.AD 600, as substantiated by archaeological finds, suggests that mass maritime goods, in addition to those goods of a prestigious character, were a significant part of the chiefly provisioning system of the Iron Age.     

Collapsing Commodities or Lavish Offerings? Understanding Massive Metalwork Deposition at Langton Matravers,Dorset During the Bronze Age–Iron Age Transition

The discovery of 373 intact and broken tin‐bronze socketed axes accompanied by 404 fragments in four pits at Langton Matravers collectively represents one of the largest hoards found to date in prehistoric Britain and Ireland. They were very probably never meant to be used as axes as the very high levels of tin they contain would have made them brittle. Many were poorly finished, with the majority still containing their casting cores. The axes are typologically dated to the Llyn Fawr metalwork phase (c.800–600 BC) and span the Bronze Age/Iron Age transition, when the production, circulation and deposition of bronze appear to have been substantially reduced throughout north‐west Europe. By placing the Langton Matravers hoard(s) in a broader metallurgical, material and archaeological context, existing theories for this phenomenon, such as the preference for iron, a collapse in bronze supply, or the sharp devaluation of a social or ritual ‘bronze standard’, are evaluated. It is proposed that the Langton Matravers axes belong to a short phase in the centuries‐long processes underlying the changing roles of bronze and iron.     

Bronze alloy production during the Iron Age of Luristan: a multianalytical study on recently discovered bronze objects

Application of bronze alloy to produce artistic and religious artefacts was commonplace during the Iron Age in western Iran (1500–550 BC). These bronze artefacts are the so-called Luristan bronzes and have been found often from excavated graves and sanctuaries. The aim of this paper is to study on alloy composition and manufacturing process in some recently excavated objects from the Iron Age cemetery of Baba Jilan, northern Luristan. For this purpose, some objects were analysed by quantitative ICP-MS as well as microscopic studies by scanning electron microscopy coupled with energy dispersive X-ray spectroscopy (SEM-EDS) and metallography methods. Also, some comparisons were carried out between Baba Jilan and other analysed bronze objects from Luristan in order to identify the metalworking process in bronze objects from the Iron Age of western Iran. The results showed that all Baba Jilan samples are made of binary copper-tin alloy. Tin content was variable in the composition of the samples. The variety of tin constituents proved that alloying has been performed by an uncontrolled process to produce bronze. The microscopic studies also showed that the manufacturing operations are similar in the Luristan bronzes. It was carried out to identify probable similarities in the bronze alloy production in the Iron Age of the Luristan region.