%0 Journal Article %A Benson, Alexa %A Kinsley, Les %A Willmes, Malte %A Defleur, Alban %A Kokkonen, Harri %A Mussi, Margherita %A Grün, Rainer %+ External Organizations %T Laser ablation depth profiling of U-series and Sr isotopes in human fossils : %G eng %U https://hdl.handle.net/11858/00-001M-0000-002C-AE23-C %R 10.1016/j.jas.2013.02.028 %D 2013 %* Review method: peer-reviewed %X We have explored laser depth profiling to obtain data sets for U-series as well as Sr analyses. Laser probing with an 81 μm spot size allows for the exploration of low uranium domains of up to 400 μm below the outer surface in tooth enamel. These low U domains will contain Sr isotope compositions of the individual, that are least affected by diagenetic Sr overprints. The small holes drilled for U surveying are not visible to the naked eye. Using larger spot sizes of around 233 μm, laser drilling can be used to obtain reliable U-series isotope data to a depth of approximately 1000 μm in enamel and around 1300 μm in bone. Furthermore, meaningful 87Sr/86Sr isotope data can also be obtained with this spot size. Using our sampling strategy, the overall damage to a human tooth is minute, as demonstrated on a Neanderthal tooth from Moula-Guercy. We expect that laser ablation depth profiling will become routine for gaining insights into the age of human fossils and the migrations of ancient humans. %K Human fossils, Human migration, Laser ablation analysis, Neanderthals, Sr analysis, U-series dating %J Journal of Archaeological Science %O Journal of Archaeological Science %V 40 %N 7 %& 2991 %P 2991 - 3000 %@ 0305-4403