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1.
Nat Commun ; 15(1): 3430, 2024 Apr 23.
Article in English | MEDLINE | ID: mdl-38653772

ABSTRACT

The route and speed of migration into Sahul by Homo sapiens remain a major research question in archaeology. Here, we introduce an approach which models the impact of the physical environment on human mobility by combining time-evolving landscapes with Lévy walk foraging patterns, this latter accounting for a combination of short-distance steps and occasional longer moves that hunter-gatherers likely utilised for efficient exploration of new environments. Our results suggest a wave of dispersal radiating across Sahul following riverine corridors and coastlines. Estimated migration speeds, based on archaeological sites and predicted travelled distances, fall within previously reported range from Sahul and other regions. From our mechanistic movement simulations, we then analyse the likelihood of archaeological sites and highlight areas in Australia that hold archaeological potential. Our approach complements existing methods and provides interesting perspectives on the Pleistocene archaeology of Sahul that could be applied to other regions around the world.


Subject(s)
Archaeology , Human Migration , Humans , Human Migration/history , Australia , History, Ancient , Geography , Feeding Behavior/physiology
2.
Nature ; 624(7990): 115-121, 2023 Dec.
Article in English | MEDLINE | ID: mdl-38030724

ABSTRACT

The long-term diversification of the biosphere responds to changes in the physical environment. Yet, over the continents, the nearly monotonic expansion of life started later in the early part of the Phanerozoic eon1 than the expansion in the marine realm, where instead the number of genera waxed and waned over time2. A comprehensive evaluation of the changes in the geodynamic and climatic forcing fails to provide a unified theory for the long-term pattern of evolution of life on Earth. Here we couple climate and plate tectonics models to numerically reconstruct the evolution of the Earth's landscape over the entire Phanerozoic eon, which we then compare to palaeo-diversity datasets from marine animal and land plant genera. Our results indicate that biodiversity is strongly reliant on landscape dynamics, which at all times determine the carrying capacity of both the continental domain and the oceanic domain. In the oceans, diversity closely adjusted to the riverine sedimentary flux that provides nutrients for primary production. On land, plant expansion was hampered by poor edaphic conditions until widespread endorheic basins resurfaced continents with a sedimentary cover that facilitated the development of soil-dependent rooted flora, and the increasing variety of the landscape additionally promoted their development.


Subject(s)
Aquatic Organisms , Biodiversity , Biological Evolution , Climate , Earth, Planet , Plants , Animals , Oceans and Seas , Soil/chemistry , Plants/classification , Aquatic Organisms/classification , Models, Biological , Rivers/chemistry , Geologic Sediments/analysis , Geologic Sediments/chemistry
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