Optical dating and lithic microwaste-Archaeological applications

Lithic microwaste (<1 mm in maximum dimensions) is produced during lithic tools and rock engraving manufacture. For tools or rocks containing quartz, small particles persist as microwaste initially on the ground surface but later at least some particles are incorporated into sedimentary deposits associated with the occupation site. If microwaste is distinguished from naturally occurring sediments, then optical dating of microwaste or its surrounding sediment would provide a mechanism for establishing a terminus-ante-et-post-quem for archaeological deposits. Identification of microwaste is undertaken by comparing the shape of microwaste particles with those from surface sediments, taking particular note of angularity and irregular shapes; and by analysing quartz grain surface morphologies. On the basis of surface features identified on experimental microwaste, particles identified as microwaste are separated from the sedimentary grains. Scanning electron microscopy and light microscopy are used to determine surface differences between pedogenic grains and anthropogenic material from archaeological deposits. Single-grain OSL dating technique is then employed for age determinations for particles identified as microwaste. It has been noted in previous research that microwaste particles may lie within or close to the age boundaries of the surrounding sediments but not necessarily where larger lithic material is found. Microwaste is incorporated into sediment and is not subjected to the same degree of movement as larger lithic waste and stone tools within the deposit. The advantage of dating microwaste directly by OSL is that it removes ambiguity about archaeological association. Archaeological events can be dated directly and correlated with sediment ages from surrounding environments, regardless of post-depositional processes. Sand grains surrounding artefacts are dated, usually leaving open the question of the association of the artefact to the sedimentary level, as the artefact may have been displaced from its original depositional level.