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Documenting archaeological thin sections in high‐resolution: A comparison of methods and discussion of applications
Author(s) -
Haaland Magnus M.,
Czechowski Matthias,
Carpentier Frank,
Lejay Mathieu,
Vandermeulen Bruno
Publication year - 2018
Publication title -
geoarchaeology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.696
H-Index - 44
eISSN - 1520-6548
pISSN - 0883-6353
DOI - 10.1002/gea.21706
Subject(s) - documentation , computer science , magnification , section (typography) , scanner , computer graphics (images) , digital camera , photography , digital data , digital image , thin section , remote sensing , computer vision , artificial intelligence , geology , image processing , image (mathematics) , visual arts , art , mineralogy , telecommunications , transmission (telecommunications) , programming language , operating system
Optical thin section observations represent the core empirical basis for most micromorphological interpretations at archaeological sites. These observations, which often vary in size and shape, are usually documented through digital graphic representations such as photomicrographs, scans, or figures. Due to variability in documentation practices, however, visual thin section data can be captured with a range of methods and in many different formats and resolutions. In this paper, we compare and evaluate five common image‐based methods for documenting thin sections in high‐resolution: a flatbed scanner, a film scanner, a macro photography rig, and conventional stereo and light microscopes. Through the comparison results, we demonstrate that advances in digital imaging technology now allow for fast and high‐resolution visual recording of entire thin sections up to at least ×30 magnification. We suggest that adopting a digital micromorphological documentation practice has several advantages. First, a digital thin section may be observed more efficiently and consistently, for example, on a computer screen, and the spatial configuration of large or complex features may be more accurately documented. Second, they allow for the establishment of digital repositories that may promote scientific reproducibility and inter‐laboratory communication, as well as lay the foundations for more consensus‐based educational training of archaeological micromorphology.