Risky business: The impact of climate and climate variability on human population dynamics in Western Europe during the Last Glacial Maximum

Risky business: The impact of climate and climate variability on human population dynamics in Western Europe during the Last Glacial Maximum

The extent to which climate change has affected the course of human evolution is an enduring question. The ability to maintain spatially extensive social networks and a fluid social structure allows human foragers to “map onto” the landscape, mitigating the impact of ecological risk and conferring r...

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Veröffentlicht in:Quaternary science reviews 2017-05, Vol.164, p.217-229
Hauptverfasser: Burke, Ariane, Kageyama, Masa, Latombe, Guillaume, Fasel, Marc, Vrac, Mathieu, Ramstein, Gilles, James, Patrick M.A.
Format: Artikel
Sprache:eng
Schlagworte:
Archaeology and Prehistory
Climatology
Earth Sciences
Humanities and Social Sciences
Last Glacial Maximum
Paleoclimate modelling
Pleistocene
Population dynamics
Random Forest
Sciences of the Universe
Upper Palaeolithic
Western Europe
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container_end_page 229
container_issue
container_start_page 217
container_title Quaternary science reviews
container_volume 164
creator Burke, Ariane
Kageyama, Masa
Latombe, Guillaume
Fasel, Marc
Vrac, Mathieu
Ramstein, Gilles
James, Patrick M.A.
description The extent to which climate change has affected the course of human evolution is an enduring question. The ability to maintain spatially extensive social networks and a fluid social structure allows human foragers to “map onto” the landscape, mitigating the impact of ecological risk and conferring resilience. But what are the limits of resilience and to which environmental variables are foraging populations sensitive? We address this question by testing the impact of a suite of environmental variables, including climate variability, on the distribution of human populations in Western Europe during the Last Glacial Maximum (LGM). Climate variability affects the distribution of plant and animal resources unpredictably, creating an element of risk for foragers for whom mobility comes at a cost. We produce a model of habitat suitability that allows us to generate predictions about the probable distribution of human populations and discuss the implications of these predictions for the structure of human populations and their social and cultural evolution during the LGM. •A new, high-resolution climate simulation for the Last Glacial Maximum is produced.•Random Forests (RF) is used to select variables and produce models of human habitat suitability.•Candidate variables considered in the modelling process include topographic and climate variables, as well as climate variability indices.•The distribution of suitable habitat on a continental scale is predicted and its impact on human populations explored.
doi_str_mv 10.1016/j.quascirev.2017.04.001
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subjects Archaeology and Prehistory
Climatology
Earth Sciences
Humanities and Social Sciences
Last Glacial Maximum
Paleoclimate modelling
Pleistocene
Population dynamics
Random Forest
Sciences of the Universe
Upper Palaeolithic
Western Europe
title Risky business: The impact of climate and climate variability on human population dynamics in Western Europe during the Last Glacial Maximum
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