Detecting Classic Maya Settlements with Lidar-Derived Relief Visualizations

In the past decade, Light Detection and Ranging (lidar) has fundamentally changed our ability to remotely detect archaeological features and deepen our understanding of past human-environment interactions, settlement systems, agricultural practices, and monumental constructions. Across archaeologica...

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Bibliographic Details
Published inRemote sensing (Basel, Switzerland) Vol. 12; no. 17; p. 2838
Main Author Thompson, Amy E.
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.09.2020
Subjects
Agricultural practices
Anthropogenic factors
Archaeology
Automation
Datasets
Density
Environmental impact
Human influences
Human settlements
Human-environment relationship
Identification
Image analysis
Image processing
Lidar
Polls & surveys
Principal components analysis
Relief models
relief visualization techniques
Remote sensing
simple local relief model (SLRM)
topographic position index (TPI)
Topography
Urbanism
Vegetation
vegetation classification
Visualization
Belize
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Summary:In the past decade, Light Detection and Ranging (lidar) has fundamentally changed our ability to remotely detect archaeological features and deepen our understanding of past human-environment interactions, settlement systems, agricultural practices, and monumental constructions. Across archaeological contexts, lidar relief visualization techniques test how local environments impact archaeological prospection. This study used a 132 km2 lidar dataset to assess three relief visualization techniques—sky-view factor (SVF), topographic position index (TPI), and simple local relief model (SLRM)—and object-based image analysis (OBIA) on a slope model for the non-automated visual detection of small hinterland Classic (250–800 CE) Maya settlements near the polities of Uxbenká and Ix Kuku’il in Southern Belize. Pedestrian survey in the study area identified 315 plazuelas across a 35 km2 area; the remaining 90 km2 in the lidar dataset is yet to be surveyed. The previously surveyed plazuelas were compared to the plazuelas visually identified on the TPI and SLRM. In total, an additional 563 new possible plazuelas were visually identified across the lidar dataset, using TPI and SLRM. Larger plazuelas, and especially plazuelas located in disturbed environments, are often more likely to be detected in a visual assessment of the TPI and SLRM. These findings emphasize the extent and density of Classic Maya settlements and highlight the continued need for pedestrian survey to ground-truth remotely identified archaeological features and the impact of modern anthropogenic behaviors for archaeological prospection. Remote sensing and lidar have deepened our understanding of past human settlement systems and low-density urbanism, processes that we experience today as humans residing in modern cities.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs12172838