Detecting Precontact Anthropogenic Microtopographic Features in a Forested Landscape with Lidar: A Case Study from the Upper Great Lakes Region, AD 1000-1600

Forested settings present challenges for understanding the full extent of past human landscape modifications. Field-based archaeological reconnaissance in forests is low-efficiency and most remote sensing techniques are of limited utility, and together, this means many past sites and features in for...

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Bibliographic Details
Published in:PloS one 2016-09, Vol.11 (9), p.e0162062-e0162062
Main Authors: Howey, Meghan C L, Sullivan, Franklin B, Tallant, Jason, Kopple, Robert Vande, Palace, Michael W
Format: Article
Language:English
Subjects:
Anthropogenic factors
Archaeological surveying
Archaeology
Biology and Life Sciences
Case reports
Clusters
Earth Sciences
Ecology and Environmental Sciences
Engineering and Technology
Food
Food storage
Forests
Great Lakes Region
Human influences
Humans
Hunter-gatherers
Image processing
Lake shores
Lakes
Landscape
Lasers
Lidar
Optical radar
Pits
Quality
Remote sensing
Remote sensing techniques
Remote Sensing Technology - methods
Sensing techniques
Social Sciences
Spatial discrimination
Spatial resolution
Statistical analysis
Surveys and Questionnaires
Trees
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Summary:Forested settings present challenges for understanding the full extent of past human landscape modifications. Field-based archaeological reconnaissance in forests is low-efficiency and most remote sensing techniques are of limited utility, and together, this means many past sites and features in forests are unknown. Archaeologists have increasingly used light detection and ranging (lidar), a remote sensing tool that uses pulses of light to measure reflecting surfaces at high spatial resolution, to address these limitations. Archaeology studies using lidar have made significant progress identifying permanent structures built by large-scale complex agriculturalist societies. Largely unaccounted for, however, are numerous small and more practical modifications of landscapes by smaller-scale societies. Here we show these may also be detectable with lidar by identifying remnants of food storage pits (cache pits) created by mobile hunter-gatherers in the upper Great Lakes during Late Precontact (ca. AD 1000-1600) that now only exist as subtle microtopographic features. Years of intensive field survey identified 69 cache pit groups between two inland lakes in northern Michigan, almost all of which were located within ~500 m of a lakeshore. Applying a novel series of image processing techniques and statistical analyses to a high spatial resolution DTM we created from commercial-grade lidar, our detection routine identified 139 high potential cache pit clusters. These included most of the previously known clusters as well as several unknown clusters located >1500 m from either lakeshore, much further from lakeshores than all previously identified cultural sites. Food storage is understood to have emerged regionally as a risk-buffering strategy after AD 1000 but our results indicate the current record of hunter-gatherer cache pit food storage is markedly incomplete and this practice and its associated impact on the landscape may be greater than anticipated. Our study also demonstrates the potential of harnessing commercial-grade lidar for other fine-grained archaeology applications.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0162062