Researchers find 3,500-year-old loom that reveals key aspects of textile revolution in the Bronze Age

The finding, published in an article in the journal Antiquity, preserves most of the weights as well as components made from wood and plant fibers

University of Alicante

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Reconstruction of a Bronze Age loom by Beate Schneider, on display at the Alcoy Archaeological Museum.

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Credit: University of Alicante

Approximately 3,500 years ago, in the Bronze Age settlement of Cabezo Redondo in present-day Villena, a fire razed dwellings and workshops to the ground. However, the same fire that destroyed part of the village also helped preserve an object that is incredibly hard to document in archaeology: a loom with a largely wooden structure.

Recently published in the journal Antiquity, this finding by a team of researchers from several Spanish universities is one of only a few known cases in Mediterranean Europe in which both the set of loom weights and components made from wood and plant fibres have been preserved. The article is authored by University of Alicante (UA) researchers Gabriel García Atiénzar, Paula Martín de la Sierra Pareja, Virginia Barciela González and Mauro S. Hernández Pérez, Ricardo Basso Rial (University of Granada) and Yolanda Carrión Marco (Universitat de València).

UA Professor of Prehistory Gabriel García Atiénzar explains that the fire generated a very specific archaeological context where “the collapse of the ceiling was crucial […] resulting in a sealed space in which the area was suddenly destroyed and immediately buried, enabling its preservation”. The loom components – including charred timbers, clay weights and esparto ropes – were trapped beneath the remains of the collapsed ceiling.

The loom appeared during the excavation of a circulation area on the western slope of the settlement, where the researchers found a raised platform with a dense concentration of clay weights. According to University of Granada predoctoral researcher Ricardo Basso Rial, this evidence allowed the team to identify the device with a high degree of certainty, as “although the loom was recovered from a collapsed area and some pieces were missing, the compact set of 44 cylindrical weights with a central perforation, most of them about 200 grams in weight, is characteristic of a vertical warp-weighted loom”.

Several pine timbers in a parallel arrangement were discovered alongside the weights. Some of the thicker timbers, with a rectangular cross-section, are probably the remains of the upright posts of the loom frame; other narrower pieces, with a rounded cross-section, supposedly constitute the horizontal posts.

The researchers also identified plaited esparto fibres associated with the structure, and even remains of small cords in the perforations of some weights, likely used to warp the warp threads to each loom weight. Thanks to this combination of weights, timbers and fibres, the researchers have been able to accurately determine how the loom worked, which is highly unusual in prehistoric contexts.

The archaeobotanist Yolanda Carrión (Universitat de València) analysed the wooden pieces. “The preservation of the organic elements was due to the fire that charred the remains and to the fact that these remains were practically unaltered later. Paradoxically, the fire both destroyed and preserved the site”, she says.

It was concluded from the microscopic study of the wood that the loom was made from Aleppo pine, widely found in the surrounding area. According to Carrión, the observation of the growth rings suggests that the timbers came from long-lived trees that provided large-diameter pieces of wood, which indicates that the material was carefully selected.  The researcher adds that “the arrangement of wooden components of various sizes, assembled with each other and resting on a wall, and the presence of the weights allow us to develop a robust hypothesis about the morphology of the loom”.

The loom was part of a wider process known as the “textile revolution” in the European Bronze Age, characterised by technological and economic changes in textile production.

For Ricardo Basso, this process was not driven by a single factor: “the textile revolution was the result of a combination of processes, including the expansion of livestock breeding for wool production, technical innovations in looms and spinning and weaving tools, and social changes that led to more intensive and diversified textile production”.

At Cabezo Redondo, these transformations are inferred from the presence of new forms of lighter spindle whorls and various types of loom weights. Some of them are lightweight enough to allow for the production of finer, more complex fabrics, such as twills. However, the fabrics themselves are rarely preserved in archaeological settings, and therefore many of these deductions are based on the indirect study of tools.

For this reason, the loom recovered from Cabezo Redondo is especially valuable, allowing researchers to “go from interpreting isolated loom weights to documenting a working loom with extreme detail: the wooden structure, the ropes, the weights and the architectural context”, Basso argues.

The context in which the loom appeared also provides information on the social organisation of work. The device was located in an outdoor space shared by several households, which suggests that production was a cooperative effort. “This indicates that different household groups may have collaborated on activities such as spinning, weaving and milling”, as noted by Paula Martín de la Sierra, a predoctoral researcher at the UA Institute for Archaeology and Heritage Research (INAPH) and research team member. “Other artisanal activities in the village, such as metalwork or ivory craftsmanship, seem to have been concentrated in specialised areas”, she adds.

Bioanthropological evidence also points to a central role of women in textile activities. In several graves at the site, teeth recovered from female remains have a degree of wear characteristically associated with spinning and weaving, as these women probably used their incisors to hold fibres in place or cut threads.

Cabezo Redondo settlement

Cabezo Redondo was not an isolated village, but a key regional hub. Its size and continued occupation, as well as the presence of monumental structures, suggest that it had a major political and economic role in the south-eastern area of the Iberian Peninsula during the second millennium BCE.

While there are similarities to the well-known Argaric culture, the researchers think that the settlement dates from a later, “post-Argaric” period. The famous Cabezo Redondo treasure is likely contemporary to the loom.

In the researchers’ view, the finding opens up new lines of research. Future studies may include archaeometric analyses of microscopic fibres or isotopic studies of sheep to determine the origin of the raw materials and the degree of specialisation of textile production.

In the meantime, the Cabezo Redondo loom is already one of the most complete examples of textile technology in the European Bronze Age. As pointed out by Basso, the settlement has become “an exceptional laboratory to study the technical and social evolution of textiles in the second millennium BCE”.

Cabezo Redondo is a major Bronze Age settlement in the south-east of the Iberian Peninsula. Systematic excavations started in 1960 under the direction of local researcher José María Soler, who intervened to prevent the destruction of the site by gypsum quarries.

From 1987 onwards, excavation campaigns at the site were led by Mauro S. Hernández. A team made up of INAPH researchers Gabriel García Atiénzar, Virginia Barciela González and others was set up afterwards.

Occupied approximately between 2100 and 1250 BCE, the settlement had a size of up to one hectare. The dwellings, built on a series of terraces on the slope of the hill, had workbenches, fireplaces, silos and receptacles for storage. The analysis of plant and animal remains indicates that the economy was based on intensive farming.

Moreover, numerous findings such as gold, silver and ivory ornaments or glass and seashell beads, among others, prove that the settlement was part of large exchange networks that connected it with other areas of the Iberian Peninsula, the Eastern Mediterranean and even Central Europe.

 

 Wooden loom weight.

 

 Wooden remains of the loom during the excavation process.

Credit

University of Alicante

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Journal

Antiquity

DOI

10.15184/aqy.2026.10312 

Method of Research

Observational study

Article Title

Evidence of a warp-weighted loom in the Bronze Age settlement of Cabezo Redondo (south-east Spain)

Article Publication Date

16-Mar-2026

 LA REVUE GAUCHE - Left Comment: Search results for BRONZE AGE DEVELOPMENT

 

Column: Every mineral is critical in the new metals age

Reuters | January 2, 2026 | 

Stock image.

The US Geological Survey’s (USGS) updated critical minerals list now encompasses 60 different materials, representing around 80% of all the mined commodities on the periodic table.

Some are well-known industrial inputs such as copper, nickel and zinc. Many are not. Among the rare earth elements are exotic metals such as gadolinium, ytterbium and praseodymium.

From aluminum through to zirconium, all are considered “essential for national security, economic stability and supply chain resilience,” according to the USGS.

The spectrum of metals now deemed “vital for a modern American economy” speaks to a quiet revolution in how metals are used, one nurtured more in the laboratory than in the blast furnace.

Spice metals

Many critical minerals are “spice metals” – used in only tiny quantities but with a transformative impact.

Consider, for example, the humble semiconductor chip, the foundation stone of modern technology, ubiquitous but unseen in our laptops, mobile phones and cars.

Silicon has been the wafer material of choice for decades but is close to its technical limits when it comes to advanced computing. Sprinkle in a dash of gallium and germanium, however, and the chip’s capacity rises exponentially.

As garnish for the finished product, you’ll need a mix of palladium, arsenic, iridium, titanium, copper and cobalt for plating, wiring, doping and packaging.

It’s a lot of metal for something so small, but the spice is worth it as the semiconductor industry seeks ever more powerful chips.

The spice is also highly prized by the US military, which helped develop the technology at the Defense Advanced Research Projects Agency. Super‑powerful gallium nitride chips enhance radar capability and boost drone-jamming capacity, a major defence priority in an age of drone swarms.

Power metals

The accelerator behind much of the recent metals revolution has been the global drive to reduce carbon emissions.

The road to phasing out fossil fuels is paved with metals such as lithium, cobalt, nickel and manganese.

Lithium was a niche industrial mineral used mainly in industrial lubricants until a little-known start-up called Tesla unveiled the Roadster electric vehicle in 2006.

Now lithium sits at the heart of the shift from internal combustion engines to cleaner technology.

No welding required.

Lithium and other metallic cathode ingredients are blended as powders into bespoke recipes for battery makers. It’s more chemistry than metalwork.

A battery alone won’t make a vehicle move. For that you need an electric motor, and the best are permanent-magnet motors rich in rare earths.

Smaller magnet motors are needed to operate the windscreen wipers, adjust the seats and lower the windows.

Like semiconductors, rare earth magnets are everywhere, just not in plain sight.

Phoenix metals

Copper wires the modern technological age and tin glues the whole thing together.

These are two of the oldest metals used by humans; in combination they defined the Bronze Age.

Thirty or so years ago both were in danger of becoming sunset metals as core applications in telecoms and packaging were steadily replaced by fiber optics and plastics respectively.

Tin is still used for brass decorations and long-life food cans, but together these now account for only 17% of global usage, according to the International Tin Association.

More than half of all the tin used today is for soldering circuit boards together, making it an indispensable part of the bridge between physical and virtual worlds.

As for copper, it’s still the best electrical conductor at the price. It wires every EV, it wires every charging point and it wires every power source.

Millennia after bronze transformed tool-making, these two “phoenix metals” have been reborn as core inputs for modern life.

Metals age

Metals, both old and new, have been seeping into our technology in weird, wonderful and mostly unnoticed ways.

Without them, nothing works.

A study by US defence software company Govini found that more than 80,000 parts across 1,900 US weapon systems incorporate antimony, gallium, germanium, tungsten or tellurium. That’s nearly 78% of all US weapons and just five out of 60 critical minerals.

This is a major problem for the Pentagon, since China is the dominant global producer of just about all of them and has this year shown it is quite prepared to leverage that position in the form of export controls.

It’s also a big problem for everyone, since civilian life depends on the same spicy metallic mixes.

The West’s pressing need to escape China’s chokehold on critical minerals supply has thrust these previously obscure elements to the center of world politics.

US President Donald Trump’s deal with Ukraine in May was underwritten by the country’s mineral resources.

The Washington-brokered peace deal between the Democratic Republic of Congo and Rwanda opens the door to a part of the world rich in copper and cobalt, currently dominated by Chinese operators.

The US International Development Finance Corporation is weighing up an investment with Congo’s state miner Gecamines, which would give the US a right of first refusal on future supply.

Critical minerals are going to stay in the news until further notice. So expect more headlines about metals you’ve never heard of, such as indium, niobium and scandium.

They’re all critical in one form or another in the 21st century.

Welcome to the new metals age.

(The opinions expressed here are those of the author, Andy Home, a columnist for Reuters.)

(Editing by Marguerita Choy)

ALCHEMY

Polish archaeologists discover 7,700-year-old kilns and artefacts in joint research with Kuwait

Imported Ubaid ware potsherds from 2024 dig. / Photo: A.Oleksiak / PCMA UW

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By bnm Tehran bureau November 17, 2025

Kuwaiti and Polish archaeologists have announced the discovery of more than 20 kilns dating back around 7,700 years, alongside a collection of artefacts at the Bahra 1 site in the Subiya area of northern Kuwait near the current border with Iraq.

The area now known as Kuwait and Iraq was home to the Ubaid culture, a prehistoric Mesopotamian civilisation that extended from southern Iraq into parts of eastern Arabia. Not much is known about the ancient civilisations in the Kuwait research area, and with the joint research project with Poland, the programme is discovering new and interesting finds. 

Finds include a half‑model of a winged owl, remains of local barley dating back 7,500 years, pottery vessels broken during firing, a small clay human head, miniature figurines, a model ship and pottery used for food preparation.

Mohammed bin Redha, Acting Assistant Secretary‑General for Antiquities and Museums, told KUNA that “the Bahra 1 site is the oldest and largest known settlement in the Arabian Peninsula from the Ubaid culture period, dating back to around 5700 BC. The discoveries reflect the life of the local community thousands of years ago.”

He explained that the latest Polish excavation season focused on field and laboratory analyses, including ground‑penetrating radar surveys that revealed buried cultural remains likely to guide future digs.

Hassan Ashkanani, Assistant Professor of Archaeology at Kuwait University, said the new discoveries mark a significant addition to understanding the development of the community in Al‑Sabiyah, building on earlier seasons that uncovered jewellery and shell ornament workshops.

Agnieszka Bienkowska, Deputy Director of the Polish excavation team, noted that the findings shed light on daily practices, food preparation methods, the production of pottery from clay mixed with wild plants, and the use of bitumen as fuel.

Professor Anna Smogorzewska highlighted the pottery workshop as one of the most important discoveries at the site in recent years.

Bahra 1 has been a focal point of archaeological research since 2009, through collaboration between Kuwait’s National Council for Culture, Arts and Letters and the Polish Centre for Mediterranean Archaeology at the University of Warsaw. The current mission is supervised by Professor Piotr Bielinski, with Bienkowska serving as deputy director.

As part of the showcasing of the discovered items on November 16, the Embassy of Poland in Kuwait, in collaboration with the Polish Centre of Mediterranean Archaeology at the University of Warsaw (PCMA UW), organised a special exhibition highlighting decades of Polish archaeological research in Kuwait.

Earlier in April, bne IntelliNews previously reported neighbouring Iraq had announced it secured three rare ancient artefacts from New York as part of a deal with the US.

 The Iraqi embassy in Washington noted that the items date back to the Sumerian and Babylonian civilisations and described the move as “a new achievement that reflects the tireless diplomatic efforts to safeguard Iraq’s cultural legacy.”

The recovery was coordinated with the Antiquities Trafficking Unit in the Office of the New York District Attorney. The embassy stressed that this step “demonstrates Iraq's firm commitment to retrieving its looted antiquities and returning them to their homeland.”

That retrieval is the latest in a string of returns reported by the country, with the items recently turning up in February.

"It was a significant challenge to recover these Iraqi artefacts, including the Sun God statue and textile panels dating back centuries," said Hussein. "These archaeological pieces are not mere remains but our cherished heritage."

Since 2008, the United States has returned more than 1,200 pieces to Iraq, whose cultural properties and museums were looted after 2003.

In May 2023, President Abdul Latif Jamal Rashid announced the recovery of 6,000 artefacts on loan to the United Kingdom since 1923 for research purposes.

 

Unearthing the City of Seven Ravines

The remains of an extensive Bronze Age settlement on the Kazakh Steppe that was likely once a major regional hub for large-scale bronze production more than 3,500 years ago, have been revealed by an international team of archaeologists.

University College London

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An aerial view of Semiyarka site taken by drone. 

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Credit: Peter J. Brown

The remains of an extensive Bronze Age settlement on the Kazakh Steppe that was likely once a major regional hub for large-scale bronze production more than 3,500 years ago, have been revealed by an international team of archaeologists co-led by researchers from UCL.

Published in Antiquity Project Gallery and co-led by Durham University and Kazakhstan’s Toraighyrov University, the paper presents the first detailed archaeological survey of Semiyarka—a vast, 140-hectare planned settlement and the largest known ancient site of its kind in the region. Although first identified in the early 2000s by researchers at Toraighyrov University, the site has only now been investigated in depth. Dating from around 1600 BC, Semiyarka offers insight into an important period of history when local nomadic communities began transitioning into permanent, urbanised settlements.

Lead author Dr Miljana Radivojević (UCL Archaeology) said: “This is one of the most remarkable archaeological discoveries in this region for decades. Semiyarka changes the way we think about steppe societies. It shows that mobile communities could build and sustain permanent, organised settlements centred on a likely large-scale industry — a true ’urban hub’ of the steppe.”

Today, what remains of the city are two rows of rectangular earthen mounds about a metre high that were the foundations of enclosed homes with multiple rooms. Nearby, the researchers also found the remains of a larger, central structure twice the size of the homes. Though its exact purpose is unclear, it could have been the site of rituals, a common communal space or may have been the home of a powerful family.

The scale and permanence of the settlement is surprising, as researchers had understood the people that lived in the region at the time to be semi-nomadic, living in mobile camps or small villages.

Co-author Professor Dan Lawrence of Durham University said: “The scale and structure of Semiyarka are unlike anything else we’ve seen in the steppe zone. The rectilinear compounds and the potentially monumental building show that Bronze Age communities here were developing sophisticated, planned settlements similar to those of their contemporaries in more traditionally ‘urban’ parts of the ancient world.”

Semiyarka was likely a major centre for tin bronze production in the region – a rare discovery in the Eurasian Steppe. On the southeast end of the city, researchers unearthed evidence of an ‘industrial zone’ dedicated to tin bronze metallurgical production, the main bronze alloy that defined the Bronze Age. Excavations and geophysical surveys revealed crucibles, slag, and tin bronze artefacts, providing the first firm evidence that Semiyarka metallurgists operated complex production systems rather than small-scale workshops.

Currently, little is known little about tin bronze production in the Eurasian Steppe Bronze Age, despite hundreds of thousands of tin bronze artefacts preserved in museum collections. Only one other settlement in eastern Kazakhstan, a Late Bronze Age mining site of Askaraly, has been linked to tin bronze production. Semiyarka shows an entire settlement zone dedicated to tin bronze making —suggesting a highly organised, possibly limited or controlled, industry of this sought-after alloy. The researchers hope that the site can offer more insights into the region’s poorly understood ancient production practices.

The city is located on a promontory above the Irtysh River in northeastern Kazakhstan and was first discovered in the early 2000s. Its name means “Seven Ravines,” taken from the network of valleys it overlooks. Its strategic location suggests that Semiyarka was once both a centre of exchange and a regional power. It’s also situated in the vicinity of copper and tin deposits in the nearby Altai Mountains which supplied the raw materials for its bronze manufacturing.

Co-author Dr Viktor Merz of Toraighyrov University in Kazakhstan, who first discovered the site, said: “I have been surveying Semiyarka for many years with the support of Kazakh national research funding, but this collaboration has truly elevated our understanding of the site. Working with colleagues from UCL and Durham has brought new methods and perspectives, and I look forward to what the next phase of excavation will reveal now that we can draw on their specialist expertise in archaeometallurgy and landscape archaeology.”

Excavated finished metallic artifacts and pottery shards indicate that the Alekseevka-Sargary people predominantly inhabited the site, a group that were some of the first to construct permanent dwellings in settlements in the region. Other items are reminiscent of the Cherkaskul people, another group that lived throughout the region but were thought to be more nomadic, indicating the inhabitants of Semiyarka likely traded with these and other local peoples.

The researchers hope in the future to examine how Semiyarka’s communities organised production and trade with their neighbours, as well as the environmental impact of these activities. In addition, the team also identified several nearby burial sites and temporary settlements from the same timeframe which could provide additional insight into the region’s ancient culture. 

The research was funded by the British Academy, Kazakh Ministry for Science and Higher Education and the ERC awarded/UKRI-funded DREAM Project.

 

Notes to Editors

For more information or to speak to the researchers involved, please contact Michael Lucibella, UCL Media Relations. T: +44 (0)75 3941 0389, E: m.lucibella@ucl.ac.uk

Miljana Radivojević, Dan Lawrence, Victor K. Mertz, Ilya V. Mertz, Elena Demidkova, Mark Woolston-Houshold, Richie Villis and Peter J. Brown, ‘A Major City of the Kazakh Steppe? Investigating Semiyarka’s Bronze Age Legacy’ will be published in Antiquity Project Gallery on Tuesday 18 November 2025, 00:01 UK Time, 17 November 2025, 19:01 US Eastern Time, and is under a strict embargo until this time.

The DOI for this paper will be https://doi.org/10.15184/aqy.2025.10244.

Additional material

Images and a copy of the final paper is available at the following link: https://drive.google.com/drive/folders/1I5NCcXPxJbAW6pam5qM44ClXPu8coT1z?usp=sharing

 

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DOI

10.15184/aqy.2025.10244 

Article Title

A Major City of the Kazakh Steppe? Investigating Semiyarka’s Bronze Age Legacy

Article Publication Date

18-Nov-2025

A bronze axe discovered at the Semiyarka site.




A bronze object discovered at the Semiyarka site.



A crucible used for refining and producing bronze discoverd at the Semiyarka site.

Credit
VK Merz & IK Merz





Researchers Dan Lawrence, Miljana Radivojevic and Ilya Merz (L to R) in the field vehicle on the site




Researchers Miljana Radivojevi, Ilya Merz, Dan Lawrence, and Richie Villis discussing results.

Credit
Peter J. Brown