Tuesday, December 17, 2024

 

Magnetic resonance imaging also sheds light on history without destroying fragile finds - Ancient Roman harbor wooden structures analyzed at the University of Oulu, Finland




University of Oulu, Finland
Mdern and ancient small wood samples 

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Accurate NMR measurements can provide historical information from very small samples. The picture shows the archaeological wood samples examined, seen from left 1 to 3, the first modern samples of spruce, maple and chestnut and 4 to 6 the archaeological samples the in same order. Image Otto Mankinen / University of Oulu

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Credit: Otto Mankinen / University of Oulu



In a recent study, rare 300-century wooden structures from the Roman Empire were investigated in a wide range of ways using NMR methods. These methods, widely known for their use in hospital MRI scans to produce detailed images of the human body, have proven equally valuable in unraveling the secrets of archaeological treasures. Promising applications are rapidly expanding into a wide range of fields.

The samples are from the wooden poles of the ancient pier of an ancient Roman harbour discovered during excavations for a new metro line in Naples, Italy, which began in 2004. The discoveries also moved the route of the metro line, which now runs underneath the archaeological treasures, and the metro line was not due to open until the summer of 2024. The development of the discovered port tells an interesting story of the Roman Empire, read more.

"It is rare that ancient organic wooden structures are found at all, as they usually degrade over time unless they are in a humid environment. The exceptional discovery was made possible by the aquifer that has preserved the pier structures for centuries," says Otto Mankinen, a researcher at the University of Oulu.

NMR spectroscopy, or nuclear magnetic resonance spectroscopy, is based on radio-frequency radiation, so it does not damage the target at all. Medical MRI in hospitals is one of the well-known applications of NMR spectroscopy. The technique exploits the magnetic properties of atomic nuclei to obtain very precise information about the structure and properties of matter.

The non-invasive nature of NMR measurements is also particularly important when examining archaeologically valuable samples or, for example, paintings for restoration. Many other methods can damage the sample, such as X-ray or light microscopy, which often also requires slicing of the sample, a destructive and challenging process when dealing with fragile and spongy underwater wood remains. If they are lifted into the air, activated decomposers can destroy the samples or they can decay. In the new study, wood samples were preserved under similar conditions where they spent centuries.

The recent study aimed to find out how wood behaves and survives in water and to reconstruct the changes caused by decay, and to make a comprehensive analysis of the structure and changes in archaeological wood remains. The study is one of the first to combine four different NMR techniques: relaxometry, micro-imaging, diffusometry and cryoporometry. Archaeological samples of spruce, chestnut and maple were compared with fresh wood material from the same species.

"Knowledge of structural preservation is essential and important. It helps to find new ways to ensure that archaeologically valuable heritage is preserved for future generations," says Mankinen. "In the future, the method needs to be developed with a larger number of samples of coniferous and deciduous trees. These can be very different depending on the age of the tree, the specimen and the location of the sample in the trunk. The differences between current and old wood samples require careful interpretation."

"The valuable samples were analysed at the University of Oulu, as one of our long-standing research topics has been the analysis of wood materials. The best way forward would be to take NMR equipment on-site to historic finds, which are often too fragile to move," says Mankinen. The new findings will also contribute to the development of mobile NMR instruments.

NMR instruments are getting smaller and cheaper - with applications in many fields

When he came to his studies, Mankinen was surprised by the diversity of physics and NMR studies. "The methods are used for really interesting studies, and I didn't know before that I would be involved in archaeological research." The next studies are already underway, now on even older wooden artefacts from Neolithic inhabitants up to 7,500 years old in Italy's Lake Bracciano.

In recent years, NMR techniques have become faster and more sensitive, and the trend is also towards smaller and smaller instruments. Mobile NMR instruments are also less expensive.

There are high expectations and promising results for practical applications of NMR spectroscopy in several fields, such as environmental and atmospheric monitoring, battery materials, eco concrete, mine water and catalysts, and biochemistry, as shown in a doctoral thesis at the University of Oulu on December 2024.

The study ‘Comprehensive characterization of waterlogged archaeological wood by NMR relaxometry, diffusometry, micro-imaging and cryoporometry’ was carried out in collaboration with researchers from Sapienza University of Rome and published in October 2024 in Physical Chemistry Chemical Physics.

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NMR Research Unit at the University of Oulu, Finland



ing results for practical applications of NMR spectroscopy in several fields, such as environmental and atmospheric monitoring and battery materials. Image Mikko Törmänen / University of Oulu

Credit

Mikko Törmänen / University of Oulu

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