Uncovering Archaeological Landscapes at Angkor Using Lidar

Uncovering Archaeological Landscapes at Angkor Using Lidar

Uncovering archaeological landscapes at Angkor using lidar Damian H. Evansa,1, Roland J. Fletchera, Christophe Pottierb, Jean-Baptiste Chevancec, Dominique Soutifb, Boun Suy Tand, Sokrithy Imd, Darith Ead, Tina Tind, Samnang Kimd, Christopher Cromartye, Stéphane De Greefc, Kasper Hanusf, Pierre Bâtyg, Robert Kuszingerh, Ichita Shimodai, and Glenn Boornazianj aUniversity of Sydney, Sydney 2006, Australia; bÉcole Française d’Extrême-Orient, Paris 75116, France; cArchaeology and Development Foundation, London W1K 4DZ, United Kingdom; dAuthority for the Protection and Management of Angkor and the Region of Siem Reap (APSARA), Siem Reap 17251, Cambodia; eMcElhanney Indonesia, Jakarta 12510, Indonesia; fInstitute of Archaeology, Jagiellonian University, Kraków 31-007, Poland; gInstitut national de recherches archéologiques préventives, Paris 75008, France; hHungarian Indochina Company, H-1062 Budapest, Hungary; iJapan-APSARA Safeguarding Angkor, Siem Reap 17253, Cambodia; and jWorld Monuments Fund, New York, NY 10118 Edited by Arlen F. Chase, University of Central Florida, Orlando, Florida, and accepted by the Editorial Board June 13, 2013 (received for review April 9, 2013) Previous archaeological mapping work on the successive medieval at Angkor, and the trajectory of its growth and decline, is there- capitals of the Khmer Empire located at Angkor, in northwest fore of value both for our understanding of contemporary human Cambodia (∼9th to 15th centuries in the Common Era, C.E.), has geography and for evaluating the historical sustainability of this identified it as the largest settlement complex of the preindustrial specific mode of urban organization (6–9). Arriving at a detailed, world, and yet crucial areas have remained unmapped, in particu- accurate, and comprehensive understanding of the urban mor- lar the ceremonial centers and their surroundings, where dense phology of Angkor is a fundamentally important component of that forest obscures the traces of the civilization that typically remain research agenda. in evidence in surface topography. Here we describe the use of Around the central monuments of Angkor, however, thou- airborne laser scanning (lidar) technology to create high-precision sands of hectares of dense vegetation cover now obscure the digital elevation models of the ground surface beneath the vege- remnant contours of the medieval cityscape from conventional tation cover. We identify an entire, previously undocumented, for- remote sensing instruments, and ground-based surveys of the mally planned urban landscape into which the major temples such topography in the area have been fragmentary and incomplete as Angkor Wat were integrated. Beyond these newly identified (2). The problem that has thus arisen is that two quite different urban landscapes, the lidar data reveal anthropogenic changes interpretations of habitat on the Angkor plain are possible from to the landscape on a vast scale and lend further weight to an previous data (3): on the one hand, a view of urbanism as a emerging consensus that infrastructural complexity, unsustainable succession of discrete, insular spaces that are functionally and modes of subsistence, and climate variation were crucial factors in morphologically distinct from an essentially “nonurban” hinter- the decline of the classical Khmer civilization. land (2, 10); and on the other hand, a view of Angkor as a vast, low-density urban complex with a high degree of operational and Southeast Asia | urbanism | sustainability | resilience | water management functional interdependency with a densely populated urban center (4, 5). he medieval temple complex at Angkor, in northwestern Elsewhere in the world, developments in airborne laser scan- TCambodia, has been the focus of more than a century of ning (lidar) technology are revolutionizing the field of archaeo- intensive scholarly research. The principal focus of that work has logical remote sensing in tropical environments (11). Lidar traditionally been on the famous monumental remains of stone provides an unparalleled ability to penetrate dense vegetation and brick and on the inscriptions and works of art that are found cover and map archaeological remains on the forest floor. It can within them. Based on that body of research, archaeologists have uncover and map microtopographic relief that otherwise cannot arrived at a clear understanding of the developmental sequence be discerned without very costly and labor-intensive programs of of the public architecture of Angkor. Until recently, however, ground survey (12). Lidar technology has recently matured to the Angkor has remained very poorly understood as an inhabited point where it has become cost effective for archaeologists to – space (1 3). In general, the use of masonry was limited to re- undertake bespoke data acquisitions at landscape scale, even ligious architecture, and most other components of the built while capturing topographic variation with sufficient accuracy — ’ environment from the palaces of Angkor s kings to the ver- and precision to identify archaeological features of only a few — nacular architecture of the common people were made of centimeters in size (13, 14). In Mesoamerica, programs of ar- perishable materials such as wood and thatch and have not chaeological lidar have added important context to the monu- survived in the archaeological record. Nonetheless, subtle traces mental remains that form the core of low-density settlement of these ephemeral cities remain inscribed into the surface of the complexes, revealing extensive and sophisticated urban and ag- Cambodian landscape even centuries later, in the form of to- ricultural networks stretching between and far beyond the well- pographic variations that indicate the former existence of roads, known temples (11, 13). Apparent similarities between early canals, ponds, field walls, occupation mounds, and other basic elements of the urban and agricultural networks (1). In the past 20 y, a series of archaeological mapping projects have used re- Author contributions: D.H.E., R.J.F., C.P., J.-B.C., D.S., B.S.T., S.I., D.E., S.K., C.C., P.B., R.K., mote sensing techniques to map those traces at Angkor, with I.S., and G.B. designed research; D.H.E., J.-B.C., D.S., B.S.T., S.I., D.E., T.T., S.K., and C.C. a view to elucidating the development of urban form and of performed research; D.H.E., R.J.F., C.P., J.-B.C., B.S.T., S.I., D.E., S.D.G., and K.H. analyzed hydraulic engineering over time and space (2, 4, 5). data; and D.H.E. and C.C. wrote the paper. Those studies have uncovered an engineered landscape on The authors declare no conflict of interest. a scale perhaps without parallel in the preindustrial world (5). This article is a PNAS Direct Submission. A.F.C. is a guest editor invited by the Editorial The macroscale structure of the settlement complex at Angkor Board. bears a prima facie resemblance to many other low-density urban Freely available online through the PNAS open access option. complexes of that era, such as the those of the Maya, and also to 1To whom correspondence should be addressed. E-mail: [email protected]. the low-density megacities that have emerged in the 20th century This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10. ANTHROPOLOGY (6). Understanding the nature of human–environment interactions 1073/pnas.1306539110/-/DCSupplemental. www.pnas.org/cgi/doi/10.1073/pnas.1306539110 PNAS | July 30, 2013 | vol. 110 | no. 31 | 12595–12600 Downloaded by guest on September 29, 2021 civilizations in the tropical forest environments such as Meso- america and Southeast Asia have long been noted by scholars (6, 7, 15, 16). However, archaeological lidar programs in such environments have so far been limited to Mesoamerica, and the unique potential of the method to produce detailed images of the archaeological landscape beneath forest cover has remained unrealized in Asia (17, 18). Here we begin to address that deficit by reporting the results of a 370 km2 lidar survey undertaken in northwest Cambodia in 2012 (Fig. 1). We show that the dense forest surrounding the major temples of Angkor has previously obscured the remnant traces of a succession of formally planned urban spaces, which the lidar data now reveal with exceptional clarity. Previous studies identified a vast, low-density urban periphery stretching far beyond the major Angkorian temples (4, 5). We confirm that analysis, while further identifying a densely populated urban core and revealing that peripheral temples were also nodes in an extended, polynucleated settlement complex. We also identify previously undocumented urban landscapes in the region of Greater Angkor, and present a model of urban intensification and landscape engineering spanning several centuries, in which Fig. 2. An oblique view of Angkor Wat and its immediate environs. Upper a very large and increasingly urbanized population was highly layer: Digital orthophoto mosaic, with elevation derived from the lidar dependent on the delivery of consistent agricultural yields from digital surface model at 1-m resolution. Lower layer: extruded lidar digital an extended agro-urban landscape. terrain model, with 0.5-m resolution and 2× vertical exaggeration. Red lines indicate modern linear features including roads and canals. Results The results of the lidar acquisition have profoundly transformed our understanding of urbanism in the region of Angkor, even a comparison with previously published maps (2, 4, 5, 19), we while confirming various long-standing assumptions. The tradi- conclude that the lidar imagery reveals extensive and previously tional model of the growth and decline of cities in the Khmer undocumented cityscapes in all three of the main acquisition Empire (3) charts the development of urban form from “temple- blocks: Angkor (Fig. 3), Phnom Kulen (Fig. S1), and Koh Ker (Fig. cities” in the early first millennium in the Common Era (C.E.) to S2). The lidar acquisition provides coverage over all of the main walled urban enclosures in the beginning of the second millen- forested temple zones of the Greater Angkor area and their cen- “ ” nium C.E.

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