scholarly journals Prehistoric copper from the Eastern Alps

2013 ◽  
Vol 1 (1) ◽  
pp. 25 ◽  
Author(s):  
Joachim Lutz ◽  
Ernst Pernicka
Keyword(s):  
Bronze Age ◽  
Iron Age ◽  
Analytical Data ◽  
Eastern Alps ◽  
Ore Deposits ◽  
Copper Production ◽  
Early Bronze Age ◽  
Late Bronze Age ◽  
Metal Artifacts ◽  
Metal Artefacts

The rich copper ore deposits in the Eastern Alps have long been considered as important sources for copper in prehistoric Central Europe. It is, however, not so clear which role each deposit played. To evaluate the amount of prehistoric copper production of the various mining regions it was attempted to link prehistoric metal artefacts with copper ores based on the geochemical characteristics of the ore deposits that have been exploited in ancient times. More than 120 ore samples from the well known mining districts Mitterberg, Viehhofen, Kitzbühel and Schwaz/Brixlegg have been analysed so far (lead isotope ratios, trace elements). Furthermore, about 730 archaeological copper/bronze artifacts were investigated and analysed. These results were combined with analytical data generated by previous archaeometallurgical projects in order to compile a substantial database for comparative studies. In the Early Bronze Age, most metal artifacts were made of copper or bronze with fahlore impurity patterns and most finds from this period match excellently the fahlore deposits in Schwaz and Brixlegg. At the end of the Early Bronze Age, a new variety of copper with lower concentrations of impurities appeared. The impurity patterns of these finds match the ores from the Mitterberg district. In the Middle Bronze Age, this variety of copper Dominated while in the Late Bronze Age fahlores from Schwaz and Brixlegg experienced a comeback. The reason for this may be a decline of the chalcopyrite mines or a rising demand for copper which could not be covered by the chalcopyrite mines alone. The finds of the Early Iron Age are of similar composition and continue the traditions of the Late Bronze Age.

scholarly journals Melting, smelting, and recycling: A regional study around the Late Bronze Age mining site of Prigglitz-Gasteil, Lower Austria

PLoS ONE ◽  
2021 ◽  
Vol 16 (7) ◽  
pp. e0254096
Author(s):  
Marianne Mödlinger ◽  
Peter Trebsche ◽  
Benjamin Sabatini
Keyword(s):  
Bronze Age ◽  
Focal Point ◽  
Analytical Data ◽  
Eastern Alps ◽  
Copper Production ◽  
Late Bronze Age ◽  
Regional Study ◽  
Metal Production ◽  
Mining Site ◽  
Source Materials

This paper presents a study on copper production and distribution in Lower Austria’s southeastern region during the Late Bronze Age (c. 1350–800 BC), with the focal point being the chemistry and isotopic character of artifacts from a small copper mining site at Prigglitz-Gasteil on the Eastern Alps’ easternmost fringe. Ores, casting cakes, and select objects from the Late Bronze Age mining site at Prigglitz-Gasteil, Lower-Austria, and within 15 km of its surroundings, were chemically and isotopically analysed using XRF, NAA, and MC-ICPMS. The importance of Prigglitz-Gasteil as a local mining and metal processing center is evaluated based on the produced data, and the distribution and sourcing of copper-producing materials found at the site are discussed. Special attention is paid to the mixing of scrap and source materials early in the metal production process. The most salient discussions focus on the variability of the chemistry and Pb isotopic ratios of the studied objects, which seem to constitute a multitude of source materials, unlike the pure chalcopyrite-source copper produced from the Prigglitz-Gasteil mine itself. The analytical data suggests that copper alloys were mainly imported from materials originating in the Slovakian Ore Mountains, which were subsequently mixed/recycled with relatively pure locally produced copper. The purity of the copper from Prigglitz-Gasteil was fortuitous in identifying imported copper that contained measurable amounts of Pb and other chemically distinct characteristics. The chaîne opératoire of metal production at the site is mentioned; however, it is clear that additional information on the region’s geochemistry is required before any finite conclusions on the ore-to-metal production can be made.

scholarly journals An insight into Old Hittite metallurgy: alloying practices at Hüseyindede (Çorum, Turkey)

2019 ◽  
Vol 69 ◽  
pp. 77-94 ◽  
Author(s):  
Gonca Dardeniz ◽  
İ. Tunç Sipahi ◽  
Tayfun Yıldırım
Keyword(s):  
Bronze Age ◽  
Nickel Alloys ◽  
18Th Century ◽  
Analytical Data ◽  
Rural Landscape ◽  
Early Bronze Age ◽  
Old Kingdom ◽  
Metal Artefacts ◽  
First Time ◽  
Insight Into

AbstractThis paper presents archaeological and analytical data on metal artefacts from Hüseyindede (Çorum, Turkey), dated to the Old Hittite period (ca 16th century BC). Hüseyindede, which is set in a rural landscape, demonstrates continuity in alloying traditions from the Early Bronze Age III (ca 26th/25th–22nd/21st century BC) and the Assyrian Trading Colonies period (20th–18th century BC) to the emergence of the Hittites. In addition to known alloying practices of the period, the site presents, for the first time, evidence of the existence of copper-nickel alloys, namely cupronickels, which so far have been documented only at the Late Bronze Age capital of the Hittites, Boğazköy/Hattuša. The Hüseyindede cupronickel objects now pinpoint the presence of this technology to regions spreading out from the Halys basin from the Old Kingdom Hittite period.

scholarly journals Ancient metallurgical traditions and connections around the caput Adriae

2009 ◽  
Vol 45 (2) ◽  
pp. 149-163 ◽  
Author(s):  
A. Giumlia-Mair
Keyword(s):  
Bronze Age ◽  
Late Antiquity ◽  
Analytical Techniques ◽  
Eastern Alps ◽  
Late Bronze Age ◽  
Northern Adriatic ◽  
Metal Artefacts ◽  
Ancient Metallurgy

In the last decade several archaeological projects concerning metallurgical tradition and techniques, were carried out on metal finds from various sites around the Northern Adriatic and in the Eastern Alps. The pieces, made of different metals, are dated to various periods, between the Late Bronze Age and Late Antiquity. The results of different kinds of analytical techniques, applied to several hundreds of archaeological metal artefacts from this area, are presented and evaluated in the paper. The different metallurgical techniques and traditions, identified during the researches are illustrated, compared and interpreted. An overview of the available data and of the general trends of ancient metallurgy in this broader area is attempted.

scholarly journals Manufacture, use and management of macro-lithic resources in the Bronze Age settlement of Bruszczewo (Poland)

2020 ◽  
Vol 7 (3) ◽  
pp. 1-26
Author(s):  
Selina Delgado-Raack ◽  
Jutta Kneisel ◽  
Janusz Czebreszuk ◽  
Johannes Müller
Keyword(s):  
Bronze Age ◽  
Middle Ages ◽  
Central Europe ◽  
Iron Age ◽  
Raw Material ◽  
Early Bronze Age ◽  
Fully Integrated ◽  
Metal Artefacts ◽  
Use Wear ◽  
Archaeological Materials

Contrary to pottery or metal artefacts, macro-lithic tools are still not fully integrated into the archaeological research programs concerning the Early Bronze Age of Central Europe. While such kind of archaeological materials usually do not easily allow typological approaches, their constant participation in several productive spheres makes them a crucial element for understanding the economic processes and the organisation of past societies. This paper presents the general results of the investigation carried out on an assemblage of 1073 macro-lithic items recovered in the wet soil area of the site of Bruszczewo (municipality of Śmigiel, Poland). This fortified settlement was inhabited during the Early Bronze Age (2100-1650 BCE) and later on in the Late Bronze Age and Early Iron Age (1100-800 BCE), with minor archaeological evidences from Middle Ages. The methodology applied in this assessment is a holistic one, which combines manufacturing (petrography and morphometry), functional (use-wear and residues) and spatial analyses. This approach has allowed recording a mainly local raw material supplying system, based on the gathering of pebbles in the vicinity of the site and a minimal transformation of raw pieces previous to use. Moreover, Bruszczewo comes out to be a central settlement managing and controlling exogenous ores, such as copper and gold, as shown by residues found on some macro-lithic forging anvils. All in all, the recognition in the macro-lithic tool assemblage of different tasks related to subsistence (food preparation) as well as to manufacture (metallurgy, probably bone working) processes contributes to (a) defining the settlement's organisation and the management of resources in the site and (b) improving our understanding of the role played by central settlements in the socio-economic networks, at a time when the first class societies emerged in Central Europe.

scholarly journals Vegetation and Climate Changes during the Bronze and Iron Ages (∼3600–600 BCE) in the Southern Levant Based on Palynological Records

Radiocarbon ◽  
2015 ◽  
Vol 57 (2) ◽  
pp. 217-235 ◽  
Author(s):  
Dafna Langgut ◽  
Israel Finkelstein ◽  
Thomas Litt ◽  
Frank Harald Neumann ◽  
Mordechai Stein
Keyword(s):  
Bronze Age ◽  
Iron Age ◽  
Vegetation History ◽  
Early Bronze Age ◽  
Anthropogenic Activity ◽  
Time Interval ◽  
Late Bronze Age ◽  
Southern Levant ◽  
Climate Conditions ◽  
Middle Bronze Age

This article presents the role of climate fluctuations in shaping southern Levantine human history from 3600 to 600 BCE (the Bronze and Iron Ages) as evidenced in palynological studies. This time interval is critical in the history of the region; it includes two phases of rise and decline of urban life, organization of the first territorial kingdoms, and domination of the area by great Ancient Near Eastern empires. The study is based on a comparison of several fossil pollen records that span a north-south transect of 220 km along the southern Levant: Birkat Ram in the northern Golan Heights, Sea of Galilee, and Ein Feshkha and Ze'elim Gully both on the western shore of the Dead Sea. The vegetation history and its climatic implications are as follows: during the Early Bronze Age I (∼3600–3000 BCE) climate conditions were wet; a minor reduction in humidity was documented during the Early Bronze Age II–III (∼3000–2500 BCE). The Intermediate Bronze Age (∼2500–1950 BCE) was characterized by moderate climate conditions, however, since ∼2000 BCE and during the Middle Bronze Age I (∼1950–1750 BCE) drier climate conditions were prevalent, while the Middle Bronze Age II–III (∼1750–1550 BCE) was comparably wet. Humid conditions continued in the early phases of the Late Bronze Age, while towards the end of the period and down to ∼1100 BCE the area features the driest climate conditions in the timespan reported here; this observation is based on the dramatic decrease in arboreal vegetation. During the period of ∼1100–750 BCE, which covers most of the Iron Age I (∼1150–950 BCE) and the Iron Age IIA (∼950–780 BCE), an increase in Mediterranean trees was documented, representing wetter climate conditions, which followed the severe dry phase of the end of the Late Bronze Age. The decrease in arboreal percentages, which characterize the Iron Age IIB (∼780–680 BCE) and Iron Age IIC (∼680–586 BCE), could have been caused by anthropogenic activity and/or might have derived from slightly drier climate conditions. Variations in the distribution of cultivated olive trees along the different periods resulted from human preference and/or changes in the available moisture.

Chronology and Terminology in the British Bronze Age

1969 ◽  
Vol 49 (1) ◽  
pp. 22-29 ◽  
Author(s):  
C. B. Burgess
Keyword(s):  
Bronze Age ◽  
Iron Age ◽  
Early Bronze Age ◽  
Late Bronze Age ◽  
The Past ◽  
Age Gap ◽  
Middle Bronze Age

SummaryThe paper pleads for an end to persistent misuse of the traditional ‘Three Age’ terminology which still governs the Irish British Bronze Age, and for acceptance of work of the past decade which has either been ignored or misunderstood. Uniform terms of reference are needed, fitted to the new attitudes. Hawkes's Scheme of 1960 provides a framework for this, and is summarized. The Early, Middle, and Late divisions now have a techno-typological, rather than cultural, basis.Traditional cultural and ceramic concepts, based on typology, have resisted changes demanded by a new emphasis on the evidence of associated finds. The various Urn forms and the Deverel—Rimbury complex are particularly relevant here. Associations of Urns, and the few available C14 dates, are examined to demonstrate their existence in the Early Bronze Age, but, because of a remarkable ritual break at c. 1400, not in the Middle Bronze Age, let alone the Late Bronze Age. Similarly, Deverel—Rimbury is now Middle Bronze Age, not Late Bronze Age, its position after c. 1000 uncertain. Since much in our Iron Age is now thought indigenous, already apparent in Deverel—Rimbury, an awkward Late Bronze Age gap is opened up, apparently devoid of settlements and pottery. But much nominally Iron Age material may prove to be Late Bronze Age. There is a need for many more C14 dates to clarify these problems.

Anatolian Chronology and Terminology

2012 ◽  
Author(s):  
Jak Yakar
Keyword(s):  
Bronze Age ◽  
Iron Age ◽  
Early Bronze Age ◽  
Late Bronze Age ◽  
Textual Evidence

This article discusses dating techniques and the necessity of working with both material and textual evidence to develop secure chronologies for the rather daunting range of Anatolian peoples and sites. It analyzes the comparative dates and phases of Neolithic, Chalcolithic, Early Bronze Age, Modern Bronze Age, Late Bronze Age, and Iron Age sites.

scholarly journals Digital documentation and visualization of archaeological excavations and finds using 3D scanning technology

2010 ◽  
Vol 1 (2) ◽  
pp. 143 ◽  
Author(s):  
Michael Moser ◽  
Simon Hye ◽  
Gert Goldenberg ◽  
Klaus Hanke ◽  
Kristóf Kovács
Keyword(s):  
Bronze Age ◽  
Large Scale ◽  
Mining Area ◽  
Ore Deposits ◽  
Copper Production ◽  
Late Bronze Age ◽  
Research Project ◽  
History Of ◽  
Early Modern Times ◽  
The University

<p>In 2007 the special research program HiMAT - History of Mining Activities in Tyrol and adjacent areas, focussing on environment and human societies, was established at the University of Innsbruck as an interdisciplinary and international research project, sponsored by the Austrian Science Fund (FWF). During late medieval and early modern times, the mining area of Schwaz in Tyrol became famous in Europe, due to the large scale exploitation of copper and silver bearing fahlores, going along with the development of high technologies in the field of mining and metallurgy. In that period, Schwaz was even called “the mother of all mines”.</p><p>In the area of Schwaz/Brixlegg the main focus of our research project is on early traces of copper mining and metallurgy dating back to the late Bronze Age. Such traces are still preserved, especially in boundary areas of the main ore deposits. On the basis of previous surveys a little valley called “Maukental” was chosen for archaeological investigations, because within this small area the entire copper production process of the late Bronze Age can be studied in detail. During the past two years, the Institute of Archaeology and Surveying and the Geoinformation Unit of the University of Innsbruck worked together in this area. One object of interest was a late Bronze Age ore dressing site situated in a former peat-bog. In this place the advantageous environment preserved fragile wooden structures and artefacts which could be digitally documented in the condition of retrieval.</p>

scholarly journals Early Sarmatian Burials from the Chechen Republic Territory

2021 ◽  
pp. 186-195
Author(s):  
Mikhail Krivosheev ◽  
Vladimir Moiseev
Keyword(s):  
Compact Group ◽  
Bronze Age ◽  
Iron Age ◽  
Feature Analysis ◽  
Early Bronze Age ◽  
Early Iron Age ◽  
Late Bronze Age ◽  
North Caucasus ◽  
Sedentary Population ◽  
Ceramic Vessels

In 2018, Kurgan 2 of Gvardeyskiye 3 Kurgany (the 3rd Gvardeiskiy Kurgans) in the Nadterechny District of the Chechen Republic was studied. In the result, nine burials were found in the Kurgan which was created during the Early Bronze Age and continued to be used in the course of the Middle and Late Bronze Age. However, the three most recent burials date back to the Early Iron Age period. The burials were localized inside the existing embankment and formed a compact group. In two cases, the burial type was not identified; nevertheless in one case, the burial was constructed in a catacomb. The grave goods are mainly presented by ceramic vessels from the workshops of the sedentary population from the foothill area of Central and Eastern North Caucasus regions. The conclusion was made that the investigated Kurgans were left by the nomadic North Caucasian steppes population of the 3rd–1st centuries BC due to the feature analysis of the Early Iron Age burial complexes.

France and The Western Alps

2014 ◽  
Author(s):  
William O'Brien
Keyword(s):  
Bronze Age ◽  
Eastern Alps ◽  
Western Alps ◽  
Copper Production ◽  
Late Bronze Age ◽  
Copper Ore ◽  
Mining Sites ◽  
Copper Mines ◽  
The Alps ◽  
Difficult Terrain

The use of copper was first established in the western Alps during the late fifth/ early fourth millennia BC. There were several metal-using groups in what is now modern Switzerland during the fourth millennium, including the Cortaillod and Pfyn cultures, followed in the third millennium BC by groups of the Saône-Rhône culture (Strahm 1994). The first direct evidence of copper production, however, only dates from the Late Bronze Age. This is based on the dating of smelting slag heaps in the valley of Oberhalbstein in the canton of Graubünden (Fasnacht 2004). These slags derive from the smelting of chalcopyrite ore derived from pillow lavas of the ophiolite geology in that area (Geiger 1984). The ability to smelt iron-rich copper ore involved a furnace technology that seems to have been first developed in the eastern Alps (see Chapter 7). No prehistoric mines are known; however, their existence may be inferred from the smelting of local ore at Late Bronze Age sites such as Savognin-Padnal and Marmorera-Stausees in the Oberhalbstein valley. Potential mining sites have been identified (see Schaer 2003), however, these have yet to be investigated in any detail. There are numerous deposits of copper mineralization in many parts of France. These occur in Brittany, the Pyrenees, the Corbières, on the margins of the Massif Central, the Maures, and the Alps. Research over the past 30 years has identified prehistoric copper mines in several of these areas. Further discoveries are possible in the difficult terrain of the Alps and Pyrenees, and also in areas where early copper mines have not been discovered, such as Brittany where deposits of steam tin and gold are also known. The oldest metal objects in France are recorded in the Paris Basin, where a small number of sheet copper beads date to the second half of the fourth millennium BC. These include the burial at Vignely (Seine-et-Marne) where a necklace of nine such beads was found with the burial of a five-year old child dated to 3499–3123 BC (Allard et al. 1998).

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