Geoarchaeological simulation of meandering river deposits and settlement distributions: A three-dimensional approach

Clevis, Quintijn; Tucker, G. E.; Lock, Gary; Lancaster, S. T.; Gasparini, N. M.; Desitter, Arnaud; Bras, Rafael L.

doi:10.1002/gea.20142

Cited by 40 publications

(25 citation statements)

References 38 publications

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“…A variety of computational modeling approaches are particularly useful for synthesizing proxy data and representing the dynamics of Pleistocene environmental change. Examples include different approaches to modeling climate, vegetation, and landscape change (Ruter et al, 2004;Clevis et al, 2006;Phillips and Dudík, 2008;Liu et al, 2009;Barton et al, 2010;McDonald and Bryson, 2010;Voinov et al, 2010).…”

Section: Concluding Thoughts and Future Directionsmentioning

confidence: 99%

In glacial environments beyond glacial terrains: Human eco-dynamics in late Pleistocene Mediterranean Iberia

Barton

Bonilla

Zilhão

et al. 2013

Quaternary International

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Section: Concluding Thoughts and Future Directionsmentioning

confidence: 99%

In glacial environments beyond glacial terrains: Human eco-dynamics in late Pleistocene Mediterranean Iberia

Barton

Bonilla

Zilhão

et al. 2013

Quaternary International

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“…There are various, well-known ways of expressing mathematically the way in which water flows and its capacity to erode, transport and deposit sediments (Degani et al 1979;Mitasova et al 1996;Mitas & Mitasova 1998;Mitasova & Mitas 2001a,b;Warren et al 2005;Clevis et al 2006;Peeters et al 2006;Singh & Phadke 2006). We use a transport-limited algorithm to represent the flow of water over land surfaces, based on concepts described by Kirkby (1971) and adapted for two-dimensional surfaces by Moore & Burch (1986).…”

Section: Modelling Dynamic Landscapesmentioning

confidence: 99%

Land use, water and Mediterranean landscapes: modelling long-term dynamics of complex socio-ecological systems

Barton

Ullah

Bergin

2010

Phil. Trans. R. Soc. A.

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The evolution of Mediterranean landscapes during the Holocene has been increasingly governed by the complex interactions of water and human land use. Different land-use practices change the amount of water flowing across the surface and infiltrating the soil, and change water's ability to move surface sediments. Conversely, water amplifies the impacts of human land use and extends the ecological footprint of human activities far beyond the borders of towns and fields. Advances in computational modelling offer new tools to study the complex feedbacks between land use, land cover, topography and surface water. The Mediterranean Landscape Dynamics project (MedLand) is building a modelling laboratory where experiments can be carried out on the long-term impacts of agropastoral land use, and whose results can be tested against the archaeological record. These computational experiments are providing new insights into the socio-ecological consequences of human decisions at varying temporal and spatial scales.

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“…In geomorphology, the application of computer modelling to elucidate landscape evolution and system response has a long history of development [35][36][37], but this approach has rarely been used for heritage management; Clevis et al (2006) provide one of the few examples, although it is tangential, providing a hypothetical simulation of deposition within a meandering river to consider issues of archaeological preservation [38]. This project aimed to simulate river erosion and deposition within the World Heritage Site using CAESAR-Lisflood [39], a model that divides the landscape into a series of cells representing the landscape over which the flow of water and the subsequent erosion and deposition of sediment is simulated.…”

Section: Methodsmentioning

confidence: 99%

Assessing riverine threats to heritage assets posed by future climate change through a geomorphological approach and predictive modelling in the Derwent Valley Mills WHS, UK

Howard

Knight

Coulthard

et al. 2016

Journal of Cultural Heritage

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Future climate change is likely to pose significant challenges for heritage management, especially in landscape settings such as river valleys as the magnitude, intensity and nature of geomorphological processes alter in response to changing threshold conditions. Industrial landscapes afford particular challenges for the heritage community, not only because the location of these historic remains is often intimately linked to the physical environment, but also because these landscapes can be heavily polluted by former (industrial) processes and, if released, the legacy of contaminants trapped in floodplain soils and sediments can exacerbate erosion and denudation. Responding to these challenges requires the development of methodologies that consider landscape change beyond individual sites and monuments and this paper reports the development of such an approach based on investigation of the Derwent Valley Mills World Heritage Site, Derbyshire, UK. Information on geomorphological evolution of the Derwent Valley over the last 1000 years, a time period encompassing the last two periods of major climatic deterioration, the Medieval Warm Period and Little Ice Age, has been dovetailed with archaeological and geochemical records to assess how the landscape has evolved to past landscape change. However, in addition to assessing past evolution, this methodology uses national climate change scenarios to predict future river change using the CAESAR-Lisflood model. Comparison of the results of this model to the spatial distribution of World Heritage Site assets highlights zones on the valley floor where pro-active mitigation might be required. The geomorphological and environmental science communities have long used predictive computer modelling to help understand and manage landscapes and this paper highlights an approach and area of research cross-over that would be beneficial for future heritage management.

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Geoarchaeological simulation of meandering river deposits and settlement distributions: A three-dimensional approach

Cited by 40 publications

References 38 publications

In glacial environments beyond glacial terrains: Human eco-dynamics in late Pleistocene Mediterranean Iberia

In glacial environments beyond glacial terrains: Human eco-dynamics in late Pleistocene Mediterranean Iberia

Land use, water and Mediterranean landscapes: modelling long-term dynamics of complex socio-ecological systems

Assessing riverine threats to heritage assets posed by future climate change through a geomorphological approach and predictive modelling in the Derwent Valley Mills WHS, UK

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