Deep in the arid Red Mesa Valley of New Mexico, archaeologists have uncovered a remarkable piece of Chacoan history—an extensive network of parallel roads and ceremonial structures hidden beneath the desert landscape. The Gasco Site, located 70 km south of Chaco Canyon, was found to contain two parallel road segments, a crescent-shaped stone structure known as a herradura, and alignments that suggest significant ritual and astronomical functions. Most strikingly, the Gasco Road aligns with the winter solstice sunrise over Mount Taylor, a sacred mountain in Indigenous traditions. These discoveries provide crucial insight into how the Chacoans structured their landscape to incorporate both practical and cosmological elements, reinforcing the spiritual and cultural depth of their civilization. Once again, lidar is adding considerably to our insight into pre-historic cultures.
Lidar played a pivotal role in the discovery and analysis of the Gasco Site’s ancient road system. Researchers used high-resolution digital elevation model (DEM) data with a 1-meter resolution, sourced from the U.S. Geological Survey’s National Map. This dataset, processed through ArcMap’s (Esri, v.10.8.1) hillshade filters, allowed archaeologists to visualize minute surface variations that would otherwise be invisible under natural lighting conditions. By simulating different light angles and enhancing vertical exaggeration, researchers could reveal subtle linear features—confirming the existence of parallel roads and revealing the second herradura, a previously undocumented ceremonial structure. Without lidar’s ability to penetrate the desert’s rugged terrain and expose subtle topographic differences, these features might have remained unnoticed for decades.
The lidar data not only confirmed the extent of the Gasco Road but also allowed researchers to make key interpretations about its function and significance. The alignment of the road with Mount Taylor and water sources suggests that Chacoan road systems were far more than utilitarian pathways; they played a role in ceremonial and astronomical traditions. The discovery of the herradura reinforced the notion that these roads were part of a ritual landscape, where movement through space was closely tied to religious observances and seasonal cycles. Such findings exemplify how lidar is transforming archaeological studies, enabling researchers to analyze ancient landscapes at a previously impossible level of detail.
Beyond archaeology, the accessibility of high-resolution lidar data has broad implications for numerous fields. Lidar has been widely used in environmental monitoring, helping scientists assess erosion, track vegetation changes, and model hydrology. It also serves as a critical tool in disaster preparedness—by establishing baseline topography before events like wildfires, landslides, or hurricanes, lidar data enables accurate post-disaster assessments and informs rebuilding efforts. For example, lidar surveys conducted before and after Hurricane Katrina provided crucial data on coastal erosion and flood impacts, shaping future disaster response strategies. Similarly, lidar mapping of forested areas helps fire management agencies model fire behavior and improve wildfire mitigation plans.
The case of the Gasco Site underscores the growing importance of open-access lidar data in scientific research and heritage preservation. Availability of lidar data has many applications, including environmental monitoring, tracking vegetation change, and modeling hydrology. It also serves as a critical tool in disaster preparedness—by establishing baseline topography before events like wildfires, landslides, or hurricanes, lidar data enables accurate post-disaster assessments and informs rebuilding efforts. Just recently, we saw the value of lidar data from before the Palisade and Eaton fires outside of LA. Whether revealing lost landscapes of ancient civilizations or aiding modern infrastructure and disaster recovery efforts, lidar continues to reshape our understanding of the world.
Photo credit: Weiner RS, Friedman RA, Stein JR. Parallel roads, solstice and sacred geography at the Gasco Site: a Chacoan ritual landscape. Antiquity. Published online 2025:1-17. doi:10.15184/aqy.2025.4
For the full details, read the publication in Antiquity.
