Abstract
Open access airborne laser scanning (ALS) data have been available in Finland for over a decade and have been actively applied by the Finnish archaeologists in that time. The low resolution of this laser scanning 2008–2019 dataset (0.5 points/m2), however, has hindered its usability for archaeological prospection. In the summer of 2020, the situation changed markedly, when the Finnish National Land Survey started a new countrywide ALS survey with a higher resolution of 5 points/m2. In this paper we present the first results of applying this newly available ALS material for archaeological studies. Finnish LIDARK consortium has initiated the development of semi-automated approaches for visualizing, detecting, and analyzing archaeological features with this new dataset. Our first case studies are situated in the Alpine tundra environment of Sápmi in northern Finland, and the assessed archaeological features range from prehistoric sites to indigenous Sámi reindeer herding features and Second Word War-era German military structures. Already the initial analyses of the new ALS-5p data show their huge potential for locating, mapping, and assessing archaeological material. These results also suggest an imminent burst in the number of known archaeological sites, especially in the poorly accessible and little studied northern wilderness areas, when more data become available.
Highlights
Finland is the most forested of all the Nordic countries, with nearly 80 percent forest cover [1]
Our first case studies are situated in the Alpine tundra environment of Sápmi in northern Finland, and the assessed archaeological features range from prehistoric sites to indigenous
As soon as airborne laser scanning (ALS/LiDAR, light detection and ranging) data became available in 2009 from the Finnish National Land Survey (NLS), they were eagerly adopted by Finnish archaeologists
Summary
Finland is the most forested of all the Nordic countries, with nearly 80 percent forest cover [1]. As soon as airborne laser scanning (ALS/LiDAR, light detection and ranging) data became available in 2009 from the Finnish National Land Survey (NLS), they were eagerly adopted by Finnish archaeologists. The low resolution of the ALS-0.5p data, 0.5 points/m2 , has dictated what kind of archaeological features can be surveyed with it. It has proven useful for locating various kinds of pit and mound features down to 2–5-m diameter, depending on the local conditions, such as Stone Age house pits, prehistoric pitfall traps, charcoal kilns, and modern conflict archaeological structures such as trenches and dugouts [7,8,9,10,11,12].
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