| Protoaurignacian Core Reduction Procedures: Blade and Bladelet Technologies at Fumane Cave |
5 |
| Towards Quantifying Teaching and Learning in Prehistory Using Stone Artifact Reduction Sequences |
5 |
| Built-in Misdirection: On the Difficulties of Learning to Knap |
4 |
| Size Matters: The Role of Nodule Size in Assessing Lithic Transportation-The Case of the Mount Reihan Flint Extraction and Axe/Adze Workshop, Dishon Basin, Eastern Galilee, Israel |
3 |
| Thermoluminescence (TL) and Optically Stimulated Luminescence (OSL) Dating of Two Burned Clovis Wyandotte Chert Lithic Specimens from Paleo Crossing (33ME274), Ohio, USA |
2 |
| Chert Nucleus and Cortex Characterization for Archaeological Provenance Study Tested in the Prebaetic System Region (Valencian Community, Spain) |
2 |
| Assessing the Durability of Oldowan Stone Tools in South Africa: Implications for Quartz Selectivity and Use |
2 |
| On the Function of Late Acheulean Stone Tools: New Data From Three Specific Archaeological Contexts at the Lower Palaeolithic Site of Revadim, Israel |
2 |
| Gestures During Knapping: A Two-perspective Approach to Pleistocene Technologies |
2 |
| Further Evidence of Organic Soft Hammer Percussion and Pressure Retouch from Lingjing (Xuchang, Henan, China) |
2 |
| Mass Distribution Analysis of Spheroid Manuports, Spheroid Artifacts, and the Lithics of Play Learning |
1 |
| Strategies for Quartzitic Raw Materials Procurement in the Eastern Pampa-Patagonia Transition of Argentina during the Initial Late Holocene |
1 |
| Inter-site Relationships at the End of the Early Neolithic in North-western Europe, Bartonian Flint Circulation and Macro-features Matching Method |
1 |
| Geomeasure: GIS and Scripting for Measuring Morphometric Variability |
1 |
| Toward Recognizing the Prehistoric Butchery of Frozen Meat: An Archaeological Experiment and Stone Tool Microwear Analysis |
1 |
| The Atlatl to Bow Transition: What Can We Learn from Modern Recreational Competitions? |
1 |
| Down the T'uhl Hole: Technological, Metric, and Functional analyses of Chipped Stone From an Ancient Maya Chultun |
0 |
| The Identification and Recovery of Backing Debitage: A New Method for Detecting Backed Artifact Industries |
0 |
| Not Your Average Flake: A Morphological and Functional Analysis of an Expedient Flake Tool Industry from the Mussel Beach Site (40MI70) |
0 |
| Hyperspectral Imaging for Characterization of Lithic Raw Materials: The Case of a Mesolithic Dwelling in Northern Sweden |
0 |
| Pre-Maya Lithic Technology in the Wetlands of Belize: The Chipped Stone from Crawford Bank |
0 |
| Refitting Bifacial Production Waste - The Case of the Pottery Neolithic Wadi Rabah Refuse Pit from Ein Zippori, Israel |
0 |
| Mid-to-Late Holocene Aboriginal Flaked Stone Artefact Technology on the Cumberland Plain, Sydney, New South Wales, Australia: A View from the South Creek Catchment |
0 |
| Robert J.Patten (1944-2017): Life, Legacy, and Contributions to Archaeology, Lithic Technology, and Flintknapping |
0 |
| The Decline and Disappearance of Chipped-Stone Tools: New Insights From Qubur el-Walaydah, a Late Bronze/Iron Age Site in Israel |
0 |
| A Comparative Study of Overshot Flaking Between Clovis and Other Components From the Gault Site, Texas |
0 |
| The Study of Rock Art Engravings Through Lithic Technologies: The Villavil 2 Site (Hualfin Valley, Catamarca, Argentina) |
0 |
| Technological Choice and Raw Material Availability: Lithic Production Implements in Western Belize |
0 |
| A New Look at Flaked Stone Projectiles from the Mixter Site (33-ER-4), Erie County, Ohio, USA |
0 |
| Reverse Engineering Stone Atlatl Dart Points |
0 |
| Blade Technology Characterizing the MIS 5 D-A Layers of Sibudu Cave, South Africa |
0 |
| Obsidian Provenance Data Reveals New Insights into Archaic Lifeways in Chihuahua, Mexico |
0 |
| Pebbles in Archaeological Contexts: A Case Study from a West Texas Cave |
0 |
