The Design, Application and Evaluation of an Effective Subsurface Sampling Strategy: Detecting Holocene Knapping Floors in Southeastern Australia

Abstract

ABSTRACTSubsurface sampling programs are regularly employed to detect buried archaeological material in open landscapes. Rarely, however, is the effectiveness of the sampling program assessed through subsequent excavation. Here, an optimal subsurface testing strategy is designed using Kintigh’s simulation approach to locate prehistoric knapping floors and is applied to an open landscape in southeastern Australia. Several prehistoric knapping floors were discovered using this strategy and nine of these were subsequently excavated to establish their diameters, densities, and density distributions. The results indicate that there is a high level of divergence between test-pitting data and excavation data. This demonstrates that test-pit data cannot be assumed to provide an accurate representation of site characteristics. It follows that an empirical validation of site characteristics through subsequent excavation is needed before a meaningful evaluation of the effectiveness of a sampling strategy can be conducted.