Non-linear landscape and cultural response to sea-level rise (datasets)
Barnett, R; Charman, DJ; Johns, C; et al.Ward, SL; Bevan, A; Bradley, SL; Camidge, K; Fyfe, RM; Gehrels, WR; Gehrels, MJ; Hatton, J; Khan, NS; Marshall, P; Maezumi, SY; Mills, S; Mulville, J; Perez, M; Roberts, HM; Scourse, JD; Shepherd, F; Stevens, T
Date: 19 August 2020
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University of Exeter
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Abstract
Rising sea levels have been associated with human migration and behavioral shifts throughout prehistory, often with an emphasis on landscape submergence and consequent societal collapse. However, the assumption that future sea-level rise will drive similar adaptive responses is overly simplistic. Whilst the change from land to sea ...
Rising sea levels have been associated with human migration and behavioral shifts throughout prehistory, often with an emphasis on landscape submergence and consequent societal collapse. However, the assumption that future sea-level rise will drive similar adaptive responses is overly simplistic. Whilst the change from land to sea represents a dramatic and permanent shift for pre-existing human populations, the process of change is driven by a complex set of physical and cultural processes with long transitional phases of landscape and socio-economic change. Here we use reconstructions of prehistoric sea-level rise, paleogeographies, terrestrial landscape change and human population dynamics to show how the gradual inundation of an island archipelago resulted in decidedly non-linear landscape and cultural responses to rising sea-levels. Interpretation of past and future responses to sea-level change requires a better understanding of local physical and societal contexts to assess plausible human response patterns in the future.
Geography - old structure
Collections of Former Colleges
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