Non-invasive investigation of Arctic hunter-gatherer archaeological landscapes using combined remote sensing and near surface geophysics

This dissertation aims to test and evaluate new applications of non-invasive remote sensing and geophysical technologies at three archaeological sites (LdFa-1; LeDx-42; and LbDt-1) located in the interior region of southern Baffin Island, Nunavut. LdFa-1 and LeDx-42 are both Paleo-Inuit occupation s...

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Bibliographic Details
Published in:Open Archaeology
Main Author: Landry, David Bryce
Other Authors: Milne, Brooke (Anthropology), Fayek, Mostafa (Anthropology), Park, Robert (Anthropology), Ferguson, Ian (Geological Sciences), Bamforth, Douglas (University of Colorado Boulder)
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Wiley Online Library 2018
Subjects:
Arctic Prehistory
Non-Invasive Archaeology
Geophysics
Remote Sensing
southern Baffin Island
Nunavut
Arctic
Baffin Island
Baffin
inuit
Magnetic susceptibility
Online Access:http://hdl.handle.net/1993/32940
Description
Summary:This dissertation aims to test and evaluate new applications of non-invasive remote sensing and geophysical technologies at three archaeological sites (LdFa-1; LeDx-42; and LbDt-1) located in the interior region of southern Baffin Island, Nunavut. LdFa-1 and LeDx-42 are both Paleo-Inuit occupation sites, while LbDt-1 is one of only two known chert quarry sites in this region. Methods used at these three Paleo-Inuit sites include terrestrial laser scanning, radar imaging, electromagnetic resistivity and conductivity mapping, and magnetic susceptibility mapping. The methods are examined for both their effectiveness in archaeological fieldwork, and their investigative value on lower relief hunter-gatherer sites. The results of these tests are presented through four original research manuscripts. Developing and integrating a non-invasive multi-method approach to site investigation in the Arctic facilitates efficient in-field data acquisition and allows for less reliance on wide-scale excavation and extended field seasons. Because weather can be an unpredictable factor on site accessibility in the deep interior regions, entire field seasons can, and have been derailed despite best planning efforts and sufficient funding. As such, it is vital that these technologies enable us to collect valuable data within a limited amount of time. Remote sensing and geophysical survey data were collected, processed, analysed, and interpreted in both field and lab settings throughout this project. Because the motivations of this project are heavily methodological in nature, the analytical approach of this dissertation focuses on the ways to integrate these methods and interpretations within pre-established archaeological frameworks. The results of this study demonstrate that non-invasive, multi-method investigation of Arctic hunter-gatherer sites is an effective approach to derive detailed archaeological data without the need for wide-scale excavation. With these data, I was able to more clearly interpret and understand Paleo-Inuit ...

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