New! Sign up for our free email newsletter.
Science News
from research organizations

Earliest European evidence of lead pollution uncovered in the Balkans

Metal-related pollution began in the Balkans more than 500 years before it appeared in western Europe

Date:
June 1, 2018
Source:
Northumbria University
Summary:
New research has revealed that metal-related pollution began in the Balkans more than 500 years before it appeared in western Europe, and persisted throughout the Dark Ages and Medieval Period, meaning the region played a far bigger role in mineral exploitation than previously believed.
Share:
FULL STORY

New research from Northumbria University has revealed that metal-related pollution began in the Balkans more than 500 years before it appeared in western Europe, and persisted throughout the Dark Ages and Medieval Period, meaning the region played a far bigger role in mineral exploitation than previously believed.

The study provides a new perspective on both the timing and extent of metallurgy -- the technique of extracting metal from ores prior to heating or working with metals to give them a desired shape -- in the Balkans, and the associated economic change this brought to the region, such as the inception of the Metal Ages.

The findings are published in the journal Proceedings of the National Academy of Sciences (PNAS) today (Monday 28 May 2018).

The exploitation of mineral resources has a broad range of environmental impacts, including metal-contaminated wastewater and the release of microscopic chemical particles into the atmosphere from mining and smelting. As these particles settle on to the surface of a peat bog, an environment in which the sediment develops year on year, a clear history of the bog's development may be established.

Samples recovered from the Crveni Potok peat bog, located on the Serbia/Montenegro border, were geochemically examined by researchers from Northumbria's Department of Geography and Environmental Sciences alongside colleagues from the University of Montpellier and the Romanian Academy. They found the first clear evidence of metal pollution originating from lead in the region dating back to approximately 3600 BC.

The evidence is supported by a concurrent rise in charcoal concentration, which suggests an increase in biomass burning which is potentially related to a broad range of economic activities, including fuel production for metal smelting.

Previously, the oldest European environmental pollution dating to circa 3000 BC had been found in southern Spain, but the new data from Crveni Potok show that metal pollution was evident in this region of eastern Europe more than 500 years earlier. This evidence is the earliest documented in European environmental records and indicates environmental pollution from metallurgy at a time when Britons were still in the Stone Age. This confirms that the Balkans were not only the birthplace of metallurgy in Europe, but also of metallic pollution.

Furthermore, levels of lead pollution decreased dramatically in western Europe after the collapse of the Roman Empire, a feature not observed in this Balkan record. This suggests that the region -- which is metal rich -- should be considered more of a major player in environmental metal pollution through Dark and Middle Ages than previously thought.

This contrast between eastern and western Europe indicates that while western Europe was in the 'Dark Ages' there was significant economic development in the Balkan area with high levels of metal environmental pollution throughout the Medieval period. This confirms the large extent and size of the metalworking industry in the Balkans during this era.

As part of his PhD research Jack Longman uncovered these findings supervised by Dr Vasile Ersek, Senior Lecturer in Physical Geography in the University's Department of Geography and Environmental Sciences.

Dr Ersek explained: "Much of the focus in determining sources of ancient pollution has been on established sources such as the Romans or ancient Greeks, but these findings highlight the crucial role that the Balkan metallurgy has played in the economic development of the area.

"Metallurgy and mining is intimately linked to socioeconomic development, therefore improving our knowledge of how these resources were exploited in the past can help us understand better how societies developed over time. In this respect, the peat bog record from Crveni Potok provides a fascinating history of pollution from the early Bronze Age through to the Industrial Revolution."

Dr Longman added: "What is most interesting is that after the Roman Empire falls in the third and fourth centuries AD, lead pollution continues and even increases, indicating that the strong mining and smelting culture developed by the Romans was continued by the local population. This goes against the long-held view of barbaric hordes with little technological know-how ousting the Romans leading to the Dark Ages -- as we term the 1,000 years following the Roman period. These Dark Ages may well have been true in much of western Europe, but in the Balkans, it seems that this period was, in fact, rather 'well-lit'."


Story Source:

Materials provided by Northumbria University. Note: Content may be edited for style and length.


Journal Reference:

  1. Jack Longman, Daniel Veres, Walter Finsinger, Vasile Ersek. Exceptionally high levels of lead pollution in the Balkans from the Early Bronze Age to the Industrial Revolution. Proceedings of the National Academy of Sciences, 2018; 201721546 DOI: 10.1073/pnas.1721546115

Cite This Page:

Northumbria University. "Earliest European evidence of lead pollution uncovered in the Balkans." ScienceDaily. ScienceDaily, 1 June 2018. <www.sciencedaily.com/releases/2018/06/180601160442.htm>.
Northumbria University. (2018, June 1). Earliest European evidence of lead pollution uncovered in the Balkans. ScienceDaily. Retrieved November 22, 2024 from www.sciencedaily.com/releases/2018/06/180601160442.htm
Northumbria University. "Earliest European evidence of lead pollution uncovered in the Balkans." ScienceDaily. www.sciencedaily.com/releases/2018/06/180601160442.htm (accessed November 22, 2024).

Explore More

from ScienceDaily

RELATED STORIES