Freshwater on the route of hominids out of Africa revealed by U-Th in Red Sea corals
Freshwater on the route of hominids out of Africa revealed by U-Th in Red Sea corals
Geology (Boulder) (November 2011) 39 (11): 1067-1070
- absolute age
- Africa
- Anthozoa
- aquifers
- biogeography
- calcite
- carbonates
- Cenozoic
- Chordata
- Cnidaria
- coastal aquifers
- coastal environment
- dates
- diagenesis
- Eutheria
- fresh water
- Gulf of Aqaba
- Hominidae
- Indian Ocean
- interglacial environment
- Invertebrata
- Mammalia
- migration
- paleoecology
- paleohydrology
- Pleistocene
- Primates
- Quaternary
- recrystallization
- Red Sea
- Red Sea region
- saturated zone
- sea-level changes
- terrestrial environment
- Tetrapoda
- Th/U
- Theria
- uplifts
- upper Pleistocene
- uranium disequilibrium
- Vertebrata
A fundamental issue in the evolution of human culture concerns the route and conditions of anatomically modern hominids during the migration out of Africa. A particular question is, how could anatomically modern hominids cross the hyperarid Arabian deserts? Here we outline evidence for significant presence of freshwater along the Red Sea shores during the last interglacial period. Freshwater caused an extensive recrystallization of coral reefs from aragonite to calcite, indicating uplift of the reefs through well-developed phreatic freshwater coastal aquifers. Applying novel open-system U-Th dating methodology to the calcitic corals, we dated the freshwater recrystallization to ca. 140 ka, consistent with other geological lines of evidence placing the migration of anatomically modern hominids out of Africa at the onset of the last interglacial.