Digital Archaeology and Virtual Reality Models of the Penal Colonies in the Galápagos Islands (1860–1959)

Author(s): Fernando Astudillo; Paúl Rosero

Year: 2023

Summary

This is an abstract from the "Unsettling Infrastructure: Theorizing Infrastructure and Bio-Political Ecologies in a More-Than-Human World" session, at the 88th annual meeting of the Society for American Archaeology.

Islands have been used by societies around the world to abandon, exile, or relocate those deemed unworthy. Repressive institutions, as a form of state infrastructure, have been created on the islands during the nineteenth and twentieth centuries to detain political prisoners, immigrants, criminals, or the mentally ill. The ambiguous sovereign status and geographical remoteness of the islands were used as the perfect location to create violent repressive institutions. In South America, penal colonies existed on the Juan Fernández, Fernando de Noronha, Gorgona, Coiba, and Galápagos. Today, these prisons have been abandoned and the islands are mainly visited by scientists, biologists, and tourists. Our project is focusing on designing digital models of penal colonies that existed in the Galápagos. We use lidar, remote sensing, photogrammetry, and 3D/virtual reality to re-create abandoned buildings. The objectives are to understand the spatial organization of penal colonies, to explore the ecological impacts and its legacy on politics and identities, and to disseminate archaeological results through digital media for education and tourism. Culture and identities in the South American islands are taking shape in a scenario where memories of a violent past collide with ecological conservation and luxury ecotourism agendas.

Cite this Record

Digital Archaeology and Virtual Reality Models of the Penal Colonies in the Galápagos Islands (1860–1959). Fernando Astudillo, Paúl Rosero. Presented at The 88th Annual Meeting of the Society for American Archaeology. 2023 ( tDAR id: 474297)

Keywords

Spatial Coverage

min long: -93.691; min lat: -56.945 ; max long: -31.113; max lat: 18.48 ;

Record Identifiers

Abstract Id(s): 36737.0