A.K. Milne scite author profile

The great medieval settlement of Angkor in Cambodia [9th-16th centuries Common Era (CE)] has for many years been understood as a ''hydraulic city,'' an urban complex defined, sustained, and ultimately overwhelmed by a complex water management network. Since the 1980s that view has been disputed, but the debate has remained unresolved because of insufficient data on the landscape beyond the great temples: the broader context of the monumental remains was only partially understood and had not been adequately mapped. Since the 1990s, French, Australian, and Cambodian teams have sought to address this empirical deficit through archaeological mapping projects by using traditional methods such as ground survey in conjunction with advanced radar remote-sensing applications in partnership with the National Aeronautics and Space Administration (NASA)/Jet Propulsion Laboratory (JPL). Here we present a major outcome of that research: a comprehensive archaeological map of greater Angkor, covering nearly 3,000 km 2 , prepared by the Greater Angkor Project (GAP). The map reveals a vast, low-density settlement landscape integrated by an elaborate water management network covering >1,000 km 2 , the most extensive urban complex of the preindustrial world. It is now clear that anthropogenic changes to the landscape were both extensive and substantial enough to have created grave challenges to the long-term viability of the settlement.archaeology ͉ geographic information systems ͉ remote sensing ͉ Southeast Asia ͉ urbanism

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A review of remote sensing technology in support of the Kyoto Protocol

Rosenqvist¹,

Milne

Lucas

et al. 2003

Environmental Science & Policy

227

118

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Use of stereo aerial photography for assessing changes in the extent and height of mangrove canopies in tropical Australia

Lucas

Milne

Mitchell

et al.

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A.K. Milne

A comprehensive archaeological map of the world's largest preindustrial settlement complex at Angkor, Cambodia

A review of remote sensing technology in support of the Kyoto Protocol

Use of stereo aerial photography for assessing changes in the extent and height of mangrove canopies in tropical Australia

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