Barton, R.N., Bergman, C.A., Hunters at Hengistbury: some evidence from experimental archaeology. World Archaeol. 14 (1982), 237–248.
Bergman, C.A., Newcomer, M.h., Flint arrowhead breakage: examples from Ksar Akil, Lebanon. J. F. Archaeol. 10 (1983), 238–243.
Bertouille, H., Théories physiques et mathématiques de la taille des outils préhistoriques. Cah. du Quat. 1989.
Beyries, S., Plisson, H., Pointes ou outils triangulaires? Données fonctionnelles dans le Moustérien levantin [suivi des] Commentaires de J. Shea, A. Marks, J-M Geneste et de la réponse des auteurs. Paléorient. 24, 1998, 5–24, 10.3406/paleo.1998.4666.
Bleed, P., The optimal design of hunting weapons: maintainability or reliability. Am. Antiq. 51 (1986), 737–747.
Borgia, V., Ancient gravettian in the south of italy: functional analysis of backed points from Grotta Paglicci (Foggia) and Grotta Della Cala (Salerno). Projectile Weapon Elements from the Upper Palaeolithic to the Neolithic, 2009, 45–64.
Brindley, J., Clarkson, C., Beyond a suggestive morphology: were Wardaman stone points exclusively spear armatures?. Aust. Archaeol. 81 (2015), 12–23.
Brown, K.S., Marean, C.W., Jacobs, Z., Schoville, B.J., Oestmo, S., Fisher, E.C., Bernatchez, J., Karkanas, P., Thalassa, M., An early and enduring advanced technology originating 71,000 years ago in South Africa. Nature 491 (2012), 593–594.
Carrère, P., Contribution de la balistique au perfectionnement des études techno-fonctionnelles des pointes de projectiles préhistoriques. PALEO, 1990, 167–176.
Carrère, P., Lepetz, S., Etude de la Dynamique des Pointes de Projectiles: Elaboration d'une Méthode. 1988, Univ. Paris I Mem. Maitrise.
Cattelain, P., Hunting during the Upper Paleolithic: bow, spearthrower, or both?. Proj. Technol., 1997, 111.
Chesnaux, L., Reflexion sur le microlithisme en France au cours du premier mesolithique Xe -VIIIe millenaires avant J.-C. Approches technologique, expérimentale et fonctionnelle. Université de Paris 1 Panthéon-Sorbonne UFR. 2014.
Clarkson, C., Testing archaeological approaches to determining past projectile delivery systems using ethnographic and experimental data. Iovita, R., Sano, K., (eds.) Multidisciplinary Approaches to the Study of Stone Age Weaponry, 2016, 189–202 New York.
Committee, H.H., The Ho Ho classification and nomenclature committee report. Hayden, B., (eds.) Lithic Use-wear Analysis, 1979, 133–135 New York.
Costa, P.S., Santos, N.C., Cunha, P., Cotter, J., Sousa, N., The use of multiple correspondence analysis to explore associations between categories of qualitative variables in healthy ageing. J. Aging Res., 2013, 2013, 302163, 10.1155/2013/302163.
Cotterell, B., Kamminga, J., The mechanics of flaking. Lithic Use-wear Analysis: Proceedings, Conference on Lithic Use Wear; Burnaby, 1977.03.16-20. (Proceedings of the Conference on Lithic Use Wear; 1). New York, San Fransisco, London, 1979, 97–112.
Cotterell, B., Kamminga, J., The formation of flakes. Am. Antiq. 52 (1987), 675–708.
Crabtree, D., A stoneworker's approach to analyzing and replicating the Lindenmeier Folsom. Tebiwa 9 (1966), 3–39.
Crabtree, D.E., Cone fracture principle and the manufacture of lithic materials. Tebiwa 15 (1972), 29–42.
Crombé, P., Caspar, J., Wear analysis on early mesolithic microliths from the Verrebroek site, East Flanders, Belgium. J. F. Archaeol. 28 (2001), 253–269.
Davis, B., Davis, H., Instructions for Making “Home-Made” Ballistic Gelatin [WWW Document]. URL http://www.customcartridge.com/pdfs/BallisticGel.pdf, 2002 (accessed 3.10.16).
De Bie, M., Caspar, J.-P., Preparing for the hunt in the Late Paleolithic Camp at Rekem, Belgium. J. F. Archaeol. 23 (1996), 437–460.
Ellis, C.J., Factors influencing the use of stone projectile tips. Knecht, H., (eds.) Projectile Technology, 1997, 37–74.
Fischer, A., Vemming Hansen, P., Rasmussen, P., Macro and micro wear traces on lithic projectile points: experimental results and archaeological examples. J. Danish Archaeol. 3 (1984), 19–46.
Frison, G.C., Archaeology of the Casper Site. Frison, G.C., (eds.) The Casper Site: A Hell Gap Bison Kill on the Hight Plains, 1974, 1–111 New York.
Fullagar, R., McDonald, J., Field, J., Donlo, D., Deadly weapons: backed microliths from Narrabeen, New South Wales. Haslam, M., Robertson, G., Crowther, A., Nugent, S., Kirkwood, L., (eds.) Archaeological Science Under a Microscope [electronic Resource]: Studies in Residue and Ancient DNA Analysis in Honour of Thomas H. Loy, 2009, 258–268 Canberra ACT 0200 Australia.
Gaillard, Y., Chesnaux, L., Girard, M., Burr, A., Darque-Ceretti, E., Felder, E., Mazuy, A., Regert, M., Assessing hafting adhesive efficiency in the experimental shooting of projectile points: a new device for instrumented and ballistic experiments. Archaeometry 58 (2015), 465–483, 10.1111/arcm.12175.
Geneste, J.-M., Plisson, H., Analyse technologique des pointes à cran solutréennes du Placard (Charente), du Fourneau du Diable, du Pech de la Boissiere et de Combe-Saunière (Dordogne). Paléo 1 (1989), 65–106, 10.3406/pal.1989.954.
Geneste, J., Plisson, H., Technologie fonctionnelle des pointes à cran solutréennes: l'apport des nouvelles données de la grotte de Combe Saunière (Dordogne). Feuilles pierre les Ind. à pointes …. 1990.
Greaves, R., Hunting and multifunctional use of bows and arrows. Knecht, H., (eds.) Projectile Technology, 1997, 287–320.
Hauck, T.C., Connan, J., Charrié-Duhaut, A., Le Tensorer, J.-M., Sakhel, H.a., Molecular evidence of bitumen in the Mousterian lithic assemblage of Hummal (Central Syria). J. Archaeol. Sci. 40 (2013), 3252–3262, 10.1016/j.jas.2013.03.022.
Hayden, B., Lithic Use-wear Analysis. 1979 (Academic P. ed).
Hester, T.R., Heizer, R.F., Points or knives? Comments on the proposed function of “Stockton Points.”. Am. Antiq. 38 (1973), 220–221.
Hutchings, W.K., Measuring use-related fracture velocity in lithic armatures to identify spears, javelins, darts, and arrows. J. Archaeol. Sci. 38 (2011), 1737–1746, 10.1016/j.jas.2011.03.005.
Inizan, M., Reduron, M., Roche, H., Tixier, J., Technologie de la pierre taillée Tome 4, Bulletin de la Société préhistorique française. 1995.
Iovita, R., Schönekeß, H., Gaudzinski-Windheuser, S., Jäger, F., Projectile impact fractures and launching mechanisms: results of a controlled ballistic experiment using replica Levallois points. J. Archaeol. Sci. 48 (2014), 73–83, 10.1016/j.jas.2013.01.031.
Junkmanns, J., Pfeil und Bogen in Westeuropa. Von der Altsteinzeit bis zum Mittelalter, 2013 (PhD dissertation, Eberhard Karls Universität Tübingen. ludwigshafen).
Jussila, J., Preparing ballistic gelatine — review and proposal for a standard method. Forensic Sci. Int. 141 (2004), 91–98, 10.1016/j.forsciint.2003.11.036.
Knecht, H., Projectile Technology. 1997, Springer Science & Business Media.
Lawrence, R.A., Experimental evidence for the significance of attributes used in edge-damage analysis. Hayden, B., (eds.) Lithic Use Wear Analysis, 1979, 35–38.
Lazuén, T., European Neanderthal stone hunting weapons reveal complex behaviour long before the appearance of modern humans. J. Archaeol. Sci. 39 (2012), 2304–2311, 10.1016/j.jas.2012.02.032.
Lee, R., What hunters do for a living, or, how to make out on scarce resources. Lee, R., (eds.) Man the Hunter, 1968, 30–48.
Lombard, M., Evidence of hunting and hafting during the Middle Stone Age at Sibidu Cave, KwaZulu-Natal, South Africa: a multianalytical approach. J. Hum. Evol. 48 (2005), 279–300, 10.1016/j.jhevol.2004.11.006.
Lombard, M., Haidle, M.N., Thinking a bow-and-arrow set: cognitive implications of Middle Stone Age bow and stone-tipped arrow technology. Camb. Archaeol. J. 22 (2012), 237–264, 10.1017/S095977431200025X.
Lombard, M., Pargeter, J., Hunting with Howiesons Poort segments: pilot experimental study and the functional interpretation of archaeological tools. J. Archaeol. Sci. 35 (2008), 2523–2531, 10.1016/j.jas.2008.04.004.
Lombard, M., Parsons, I., Van Der Ryst, M.M., Middle Stone Age lithic point experimentation for macro-fracture and residue analyses: the process and preliminary results with reference to Sibudu Cave points. South African J. Sci. 100 (2004), 159–166.
McBrearty, S., Brooks, A.S., The revolution that wasn't: a new interpretation of the origin of modern human behavior. J. Hum. Evol. 39 (2000), 453–563, 10.1006/jhev.2000.0435.
Moss, E.H., Newcomer, M.H., Reconstruction of tool use at pincevent: microwear and experiments. Tailler! Pourquoi Faire: Préhistoire et Technologie Lithique II, Recent Progress in Microwear Studies, 1982, 289–312 Leuven.
Naudinot, N., Les armatures lithiques tardiglaciaires dans l'Ouest de la France (Régions Bretagne et Pays de la Loire): proposition d'organisation chrono-culturelle et. Pétillon, J.-M., Dias-Meirinho, M.-H., Cattelain, P., Honegger, M., Normand, C., Valdeyron, N., (eds.) Recherches Sur Les Armatures de Projectiles Du …, 2009, 250–277.
Odell, G.H., Préliminaires d' une analyse fonctionnelle des pointes microlithiques de Bergumermeer (Pays-Bas) 37–49. 1978.
Odell, G.H., Cowan, F., Experiments with spears and arrows on animal targets experiments. J. F. Archaeol. 13 (1986), 195–212.
O'Farrell, M., Approche technologique et fonctionnelle des pointes de la Gravette: une analyse archéologique et expérimentale appliquée à la collection de Corbiac (Dordogne, fouilles F. Bordes). 1996, Université, Bordeaux I.
O'Farrell, M., Les pointes de La Gravette de Corbiac (Dordogne) et considérations sur la chasse au Paléolithique supérieur ancien. Bodu, P., Constantin, C., (eds.) Approches Fonctionnelles En Préhistoire, 2004, Société Préhistorique Française, Paris, 121–138.
Pargeter, J., Howiesons Poort segments as hunting weapons: experiments with replicated projectiles. South African Archaeol. Bull. 62 (2007), 147–153, 10.2307/20474970.
Pétillon, J., Bignon, O., Bodu, P., Hard core and cutting edge: experimental manufacture and use of Magdalenian composite projectile tips. J. Archaeol. Sci. 38 (2011), 1266–1283.
Rots, V., Plisson, H., Projectiles and the abuse of the use-wear method in a search for impact. J. Archaeol. Sci. 48 (2014), 154–165, 10.1016/j.jas.2013.10.027.
Sano, K., Hunting evidence from stone artefacts from the Magdalenian cave site Bois Laiterie, Belgium: a fracture analysis. Quartär 56 (2009), 67–86.
Sano, K., Oba, M., Projectile experimentation for identifying hunting methods with replicas of upper palaeolithic weaponry from japan. Marreiros, J., Bicho, N., Bao, J.G., (eds.) International Conference on Use-Wear Analysis: Use-Wear 2012, 2014, Cambridge Scholars Publishing, Newcastle, 466–478.
Sano, K., Oba, M., Backed point experiments for identifying mechanically-delivered armatures. J. Archaeol. Sci. 63 (2015), 13–23, 10.1016/j.jas.2015.08.005.
Schoville, B.J., Brown, K.S., Comparing lithic assemblage edge damage distributions: examples from the late pleistocene and preliminary experimental results. Explor. Anthropol. 10 (2010), 34–49.
Shea, J., Spear points from the Middle Paleolithic of the Levant. J. F. Archaeol. 15 (1988), 441–450.
Shea, J.J., The origins of lithic projectile point technology: evidence from Africa, the Levant, and Europe. J. Archaeol. Sci. 33 (2006), 823–846, 10.1016/j.jas.2005.10.015.
Shea, J., The Impact of Projectile Weaponry on Late Pleistocene Hominin Evolution. Evol. Hominin Diets Integr. Approaches to Study Palaeolithic Subsist. 2009.
Shea, J.J., Sisk, M.L., Complex projectile technology and Homo sapiens dispersal into Western Eurasia. PaleoAnthropology, 2010, 100–122, 10.4207/PA.2010.ART36.
Shea, J.J., Davis, Z., Brown, K., Experimental tests of middle palaeolithic spear points using a calibrated crossbow. J. Archaeol. Sci. 28 (2001), 807–816, 10.1006/jasc.2000.0590.
Sisk, M.L., Shea, J.J., Experimental use and quantitative performance analysis of triangular flakes (Levallois points) used as arrowheads. J. Archaeol. Sci. 36 (2009), 2039–2047, 10.1016/j.jas.2009.05.023.
Sisk, M.L., Shea, J.J., The african origin of complex projectile technology: an analysis using tip cross-sectional area and perimeter. Int. J. Evol. Biol. 2011 (2011), 1–8, 10.4061/2011/968012.
Soriano, S., Les microgravettes du Périgordien de Rabier à Lanquais (Dordogne): analyse technologique fonctionnelle. Gall. préhistoire 40 (1998), 75–94, 10.3406/galip.1998.2158.
Tsirk, A., Fractures in Knapping., Archaeopre. ed. 2014, Oxford.
Villa, P., Lenoir, M., Hunting weapons of the Middle Stone Age and the Middle Palaeolithic: spear points from Sibudu, Rose Cottage and Bouheben. South. Afr. Humanit. 18:1 (2006), 89–122.
Villa, P., Lenoir, M., Hunting and hunting weapons of the Lower and Middle Paleolithic of Europe. Hublin, J.-J., Richards, M.P., (eds.) The Evolution of Hominin Diets: Integrating Approaches to the Study of Palaeolithic Subsistence, Vertebrate Paleobiology and Paleoanthropology, 2009, Springer Netherlands, 59–85, 10.1007/978-1-4020-9699-0.
Villa, P., Roebroeks, W., Neandertal demise: an archaeological analysis of the modern human superiority complex. PLoS One 9 (2014), 1–10.
Waguespack, N.M., Surovell, T.A., Denoyer, A., Dallow, A., Savage, A., Hyneman, J., Tapster, D., Making a point: wood- versus stone-tipped projectiles. Antiquity 83 (2009), 786–800.
Wilkins, J., Schoville, B.J., Brown, K.S., Chazan, M., Evidence for early hafted hunting technology. Science 338 (2012), 942–946, 10.1126/science.1227608.
Wilkins, J., Schoville, B.J., Brown, K.S., An experimental investigation of the functional hypothesis and evolutionary advantage of stone-tipped spears. PLoS One, 9, 2014, 13, 10.1371/journal.pone.0104514.
Witthoft, J., Flint Arrowpoints from the Eskimo of Northwestern Alaska. Exped. Univ. Pennsylvania Museum 10 (1968), 30–37.
Yaroshevich, A., Kaufman, D., Nuzhnyy, D., Bar-Yosef, O., Weinstein-Evron, M., Design and performance of microlith implemented projectiles during the Middle and the Late Epipaleolithic of the Levant: experimental and archaeological evidence. J. Archaeol. Sci. 37 (2010), 368–388, 10.1016/j.jas.2009.09.050.
