Stones from the Bronze Age: Raw materials and exploration of the stone artifacts from Panlongcheng

2021 ◽  
Vol 40 ◽  
pp. 103259
Author(s):  
Xin Su ◽  
Xiaojia Tang ◽  
Qiushi Zou ◽  
Changping Zhang
Keyword(s):  
Bronze Age ◽  
Raw Materials ◽  
Stone Artifacts ◽  
The Bronze Age

scholarly journals From the Parochial to the Universal: Comparing Cloth Cultures in the Bronze Age

2012 ◽  
Vol 15 (1) ◽  
pp. 61-97 ◽  
Author(s):  
Susanna Harris
Keyword(s):  
Bronze Age ◽  
Raw Materials ◽  
Comparative Approach ◽  
Textile Fibre ◽  
Eighteenth Dynasty ◽  
Salt Mines ◽  
Southern Scandinavia ◽  
Chronological Period ◽  
The Bronze Age ◽  
Thread Count

The aim of this research is to compare the cloth cultures of Europe and Egypt in the Bronze Age and New Kingdom. The comparison focuses on the fourteenth century cal BC and includes four geographically separate areas, including the oak coffin burials of southern Scandinavia, the Hallstatt salt mines of central Europe, Late Minoan Crete, and the tombs and towns of the later Eighteenth Dynasty of Egypt. The comparative approach can bring insights even when applied to unconnected cultures or regions. However, in this study I concentrate on a restricted chronological period and areas that were connected, directly or indirectly, by widespread networks of trade or exchange. The concept of cloth cultures is used to include both textiles and animal skins as these were closely related materials in the prehistoric past. Information was gathered according to the following categories: raw materials, including textile fibre, and species of skins; fabric structure and thread count (only for textiles); decoration and finish; and use and context. From this study, it is possible to recognize the universally shared principles of cloth cultures and the great versatility and creativity in the regional cloth cultures of the Bronze Age.

scholarly journals Transformations of Metal Supply during the Bronze Age in the Carpathian Basin

2020 ◽  
Vol 9 (2) ◽  
pp. 315-330
Author(s):  
Viktória Kiss
Keyword(s):  
Bronze Age ◽  
Neutron Radiography ◽  
Raw Materials ◽  
Isotope Analysis ◽  
Carpathian Basin ◽  
Raw Material ◽  
Research Centre ◽  
Metal Artifacts ◽  
Mining Sites ◽  
The Bronze Age

This paper presents recent research questions which have been raised and methods which have been used in the study of Bronze Age metallurgy in connection with available natural resources (ores) in and around the Carpathian Basin. This topic fits in the most current trends in the research on European prehistoric archaeology. Given the lack of written sources, copper and bronze artifacts discovered in settlement and cemetery excavations and prehistoric mining sites provide the primary sources on which the studies in question are based. The aim of compositional and isotope analysis of copper and tin ores, metal tools, ornaments, and weapons is to determine the provenience of the raw materials and further an understanding of the chaine operatiore of prehistoric metal production. The Momentum Mobility Research Group of the Institute of Archaeology, Research Centre for the Humanities studies these metal artifacts using archaeological and scientific methods. It has focused on the first thousand years of the Bronze Age (2500–1500 BC). Multidisciplinary research include non-destructive XRF, PGAA (promptgamma activation), TOF-ND (time-of-flight neutron diffraction) analyses and neutron radiography, as well as destructive methods, e.g. metal sampling for compositional and lead isotope testing, alongside archaeological analysis. Microstructure studies are also efficient methods for determining the raw material and production techniques. The results suggest the use of regional ore sources and interregional connections, as well as several transformations in the exchange network of the prehistoric communities living in the Carpathian Basin.

Prehistoric Copper Mining on the Great Orme, Llandudno, Gwynedd

1994 ◽  
Vol 60 (1) ◽  
pp. 245-286 ◽  
Author(s):  
Andrew Dutton ◽  
Peter J. Fasham ◽  
D. A. Jenkins ◽  
A. E. Caseldine ◽  
S. Hamilton-Dyer
Keyword(s):  
Bronze Age ◽  
Raw Materials ◽  
Copper Mining ◽  
Mining Operations ◽  
Copper Ore ◽  
Near Surface ◽  
Radiocarbon Dates ◽  
Local Resources ◽  
Copper Ores ◽  
The Bronze Age

The discovery of evidence to suggest that copper ore was exploited at the Great Orme on a considerable scale in prehistory is of great significance in our understanding of the development of metalworking technology in the British Isles.In the past, the apparent absence from the archaeological record of a contemporaneous native mineral source for the production of copper and copper alloy artefacts during the Bronze Age has led to the assumption that raw materials, as well as metal technology, were imported from abroad. Alternatively, whilst accepting that local resources could have been exploited, it was assumed that these would have been obliterated by the mining operations of later centuries.There are now several sites on the British mainland and in Ireland which have been identified and dated as having been exploited for copper ores during the Bronze Age, of which a number, as on the Great Orme, had since seen intensive working during the 18th and 19th centuries AD. AS yet, much of the evidence has come essentially from surface excavations, but at the Great Orme surface excavation combined with underground exploration has revealed a system of workings of truly remarkable size. A series of 10 radiocarbon dates has been obtained from within the mine complex, indicating that working was carried out for over a thousand years spanning the Early to Late Bronze Age.The true extent of the surviving prehistoric workings is yet to be realized but present evidence indicates mining activity covering an area in excess of 24,000 square metres, incorporating passages totalling upwards of 5 km, penetrating to a vertical depth of 70 m.Much of the archaeological evidence contained within this report has been gained from detailed excavation carried out within surface workings, which in their own right constitute a sizeable part of the prehistoric mine. From the surface area presently exposed it is conservatively estimated that 40,000 cubic metres of material was removed during the Bronze Age. Much of the early technology represented within the surface workings reflects the technology employed in the deep workings, with the additional evidence of ancillary operations which would seem to relate solely to surface locations.Whilst the excavations reported in this paper relate to surface, or near surface, workings, they must be seen in the context of a labyrinthine complex of prehistoric workings recorded at depths of over yom (Jenkins & Lewis 1991; Lewis 1994). These deep workings are the subject of parallel studies to be reported elsewhere. The known underground and surface prehistoric workings are on a scale so far unparallelled in Britain and are of international significance. Elsewhere in Europe there is evidence for the mining of copper ores at Ai Bunar in Bulgaria dated to 5840 BC (Cernych 1978) and at Rudna Glava in former Yugoslavia dated to 4715 BC (Jovanovic 1979). Evidence for subsequent copper mining has been dated to 3785 BC in southern Spain (Rio Tinto area: Rothenburg & Blanco Freijeiro 1980) and to 3330 BC in Austria (Mitterberg; Pittioni 1951), marking an apparent development and extension westwards and northwards of copper technology. More recently, the dating of two sites in the south of France to around 3330 BC, at Cabrieres (Ambert et al. 1990) and Bouche Payrol, near Brusque (Barge 1985), has confirmed another area of Bronze Age working.

Stone Axe-head Manufacture: New Evidence from the Preseli Hills, West Wales

1995 ◽  
Vol 61 ◽  
pp. 433-460 ◽  
Author(s):  
A. David ◽  
G. Williams ◽  
David Jenkins ◽  
Ian Rigby ◽  
Olwen Williams-Thorpe
Keyword(s):  
Bronze Age ◽  
Raw Materials ◽  
Small Scale ◽  
Geochemical Analysis ◽  
Group Viii ◽  
Geological Origin ◽  
Thin Section Analysis ◽  
New Evidence ◽  
The Bronze Age ◽  
Section Analysis

Fieldwork by the Dyfed Archaeological Trust during 1989–92 has identified clear evidence for the manufacture of stone axeheads at two locations on the eastern flanks of the Preseli Mountains, Dyfed: at Glyn-y-Fran, Llanfyrnach (SN 186 307) and near Glandy Cross (SN 143 266). At both sites, small quantities of lithic debris were collected from field surfaces after cultivation; unfortunately, no contemporaneous features were found by subsequent, very limited, trial trenching. In this report we describe the fieldwork at these two sites, and the resulting lithic collection, concluding that the latter represents evidence for small-scale and opportunistic exploitation of locally abundant erratics during the Neolithic. The Glandy Cross area was later a focus for the construction of ritual monuments during the Bronze Age, and there is also some evidence for continuing activity at Glyn-y-Fran at this time.Petrological thin section analysis of some of the artefacts is reported and demonstrates a probable identity with petrological Group VIII; geochemical analysis of some of the same artefacts places the likely geological origin of these at local igneous exposures also in the Preselis. These conclusions are reviewed in the light of current discussion on the usage and origins of raw materials in later prehistory.

scholarly journals Lithic Industry of the Itomiura Site in the Lower Angara Region (Neolithic and Bronze Ages): Spatial Organization and Key Characteristics

2020 ◽  
pp. 17-30
Author(s):  
Dmitry A. Gurulev ◽  
Liliya A. Maksimovich ◽  
Polina O. Senotrusova ◽  
Pavel V. Mandryka
Keyword(s):  
Bronze Age ◽  
Spatial Organization ◽  
Raw Materials ◽  
Stone Tools ◽  
Industry Dynamics ◽  
Neolithic Period ◽  
Key Characteristics ◽  
Lithic Industry ◽  
Stone Industry ◽  
The Bronze Age

The article presents the results of the analysis of the collection of the Itomiura site located in the Lower Angara region. As for today, no markers or concepts of stone industry dynamics in the Neolithic and Bronze Age have been described for the territory of the Lower Angara region. The materials of the Itomiura site allow us to define some of these concepts. Based on the spatial distribution of findings in the cultural layer of the site, we identified 12 areas of concentration of stone pieces (clusters). The areas differ in their composition and types of economic and production activities held. Knapping areas with large amounts of debitage, unfinished items and used microcores predominate. There are also areas that are likely to be more associated with the use of stone tools and their rejuvenating. The combined occurrence of stone pieces with pottery fragments made it possible to distinguish several cultural and chronological complexes. The most clearly identifiable complexes are one with net-impressed pottery, previously dated to the late – final Neolithic period (4th – first half of the 3rd millennium BC), and another with “pearl-ribbed” pottery of the Bronze Age (2nd millennium BC). The Neolithic complex is characterized by the use of various siliceous raw materials. The Bronze Age complex is marked by a wide use of purple-burgundy sedimentary rocks, the specificity of the industry in this period is also created by a series of bifacial items and thinned preforms. Stone industries of both assemblages include a variety of expedient flake tools and microblade production products, represented by different prismatic and edge-faceted cores. The data obtained, with their further correlation with the materials of other sites, can be used for the further study of stone industries of the Lower Angara region and the development of the concept of regional paleocultural dynamics

scholarly journals Ageing of low-firing prehistoric ceramics in hydrothermal conditions

2012 ◽  
Vol 6 (1) ◽  
pp. 59-64 ◽  
Author(s):  
Petra Zemenová ◽  
Alexandra Klouzková ◽  
Martina Kohoutková
Keyword(s):  
Bronze Age ◽  
Model Compound ◽  
Raw Materials ◽  
Archaeological Site ◽  
Hydrothermal Conditions ◽  
The Czech Republic ◽  
Archaeological Ceramics ◽  
Object A ◽  
Prehistoric Ceramics ◽  
The Bronze Age

Remains of a prehistoric ceramic object, a moon-shaped idol from the Bronze Age found in archaeological site Zdiby near Prague in the Czech Republic, were studied especially in terms of the firing temperature. Archaeological ceramics was usually fired at temperatures below 1000?C. It contained unstable non-crystalline products, residua after calcination of clay components of a ceramic material. These products as metakaolinite can undergo a reverse rehydration to a structure close to kaolinite. The aim of this work was to prove whether the identified kaolinite in archaeological ceramics is a product of rehydration. The model compound containing high amount of kaolinite was prepared in order to follow its changes during calcination and hydrothermal treatment. Archaeological ceramics and the model compound were treated by hydrothermal ageing and studied by XRF, XRD and IR analyses. It was proved that the presence of kaolinite in the border-parts of the archaeological object was not a product of rehydration, but that it originated from the raw materials.

scholarly journals Beginning of the metal age in the central Balkans according to the results of the archeometallurgy

2009 ◽  
Vol 45 (2) ◽  
pp. 143-148 ◽  
Author(s):  
B. Jovanovic
Keyword(s):  
Bronze Age ◽  
Raw Materials ◽  
Late Neolithic ◽  
Alluvial Deposits ◽  
Serial Production ◽  
Gradual Development ◽  
Copper Mines ◽  
Copper Metallurgy ◽  
Metal Age ◽  
The Bronze Age

The gradual development of the primary copper metallurgy in Balkans starts with production of small jewelry pieces and ends with the serial production of massive tools and weapons. It is confirmed that this metallurgy depended on the contemporary mining, i.e. the available sources of the raw materials. It is also corroborated by the discovery of two Early Eneolithic copper mines: Rudna Glava in Eastern Serbia and Ai-Bunar in Bulgaria /first half and the middle of the 5th millennium BC/. These mines are also the evidence for the local exploitation of the carbonate copper minerals - malachite and azurite. The technology employed is close to the former flint mining in the Late Neolithic; massive pebbles obtained from the neighboring alluvial deposits were used as mining hammers. Identical technology was employed in the mines dating from the later periods /Rudnik, Central Serbia, Jarmovac, Priboj na Limu/. The Vinca culture of the central Balkan followed all metallurgical phases of introduction of metal and use of the carbonate ores /Gradac I - III phase/. This long process of including the metal in wider use lasted generally from the middle of the 5th millennium BC to the end of the 4th millennium BC, i.e. to the appearance of the Bronze Age.

scholarly journals RESULTS OF A PETROGRAPHIC STUDY OF THE BRONZE AGE CASTING MOLDS FINDS

2020 ◽  
pp. 28-35
Author(s):  
I. Nikitenko ◽  
O. Starik ◽  
M. Kutsevol
Keyword(s):  
Bronze Age ◽  
Raw Materials ◽  
Southern Urals ◽  
Late Bronze Age ◽  
The Southern Urals ◽  
Thin Sections ◽  
Azov Sea ◽  
The Bronze Age ◽  
Archaeological Monument

The present article is devoted to the mineralogical and petrographic research of raw materials of the collection of casting molds of the Bronze Age, found by the expedition of Dnipropetrovsk National Historical Museum named after D.I. Yavornytskyi during the excavations of the archaeological monument of Tokivske-1, located near the village Tokivske of Apostolove Rayon, Dnipropetrovsk Oblast. The finding of casting molds is of great importance, since it can be the evidence of bronze foundry production existence in the territory of the monument, which until now was regarded only as a megalithic place of worship. Provenance determination of the raw materials of casting molds can help to identify the role of Tokivske-1 in the system of metalworking cells of the Sabatynivska culture time (XVI–XIII centuries BC) and to establish its links with the ancient centers of mining of stone raw materials. According to previous petrographic studies, it is known that stone molds were made mainly of talc-chlorite-tremolite schists, since this material was easily processed and could withstand more castings than clay molds. Because of this, stone casting molds were highly valued, as well as bronze wares and ingots, and were transported over long distances. The purpose of the study was to establish links between the archaeological monument of Tokivske-1 and known mining and metallurgical centers of the Bronze Age, on the basis of mineralogical and petrographic research of raw materials of casting molds. As a result of the study of samples in thin sections and by X-ray diffraction analysis, it was established that the stone molds were mainly made of tremolite-chlorite-anthophyllite meta-ultrabazites. The determination of the origin of the rocks from which the casting molds were made was carried out by comparing their mineralogical and petrographic features with the features of similar rocks that form natural outcrops, as described in geological survey reports and literary data, and as observed by us in rock samples from natural outcrops in the Middle Dnipro and the Azov Sea areas. It was ascertained that the rocks from which all the casting molds of the collection were made do not form natural outcrops in the Middle Dnipro area and are not characteristic of the Kryvyi Rih area, which is considered to be the main center of raw materials extraction for the stone foundry forms of the Late Bronze Age on the territory of Ukraine. It was established that such rocks are more characteristic of the Western Azov Sea area, but one can not exclude another source of raw materials of the mold collection, in particular the Southern Urals, where bronze metallurgy was significantly developed and similar stone matrices were used. The obtained results suggest revision of established ideas on sources of supply of stone raw materials during the late Bronze Age.

Making Pots and Potters in the Bronze Age Maros Villages of Kiszombor-Új-Élet and Klárafalva-Hajdova

2008 ◽  
Vol 18 (3) ◽  
pp. 355-380 ◽  
Author(s):  
Kostalena Michelaki
Keyword(s):  
Bronze Age ◽  
Raw Materials ◽  
Small Scale ◽  
Group I ◽  
The Creation ◽  
The One ◽  
The Bronze Age

This article examines the choices potters made while collecting and preparing their raw materials, forming, finishing and firing their pots in the Bronze Age villages of Kiszombor-Új-Élet (2600–2000 cal. bc) and Klárafalva-Hajdova (2000–1650 cal. bc) in present-day southeastern Hungary. Following the one-thousand-year-long ceramic tradition of these villagers, known archaeologically as members of the Maros group, I highlight choices that were shared by all, suggesting deeply engrained ideas about how Maros pots should be made, versus choices that were more restricted in distribution, suggesting a smaller group of potters, of greater skill and possibly greater status within the villages. I argue that, although pot making was one of many small-scale housekeeping tasks, the creation and use of pottery were integrally tied to expressions of status and identity, and that by the Late Maros Phase the identity of ‘potter’ was acknowledged by the community as distinct from other identities, such as those of ‘metalworker’, or ‘weaver’.

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