Barton RNE, Bergman CA (1982) Hunters at Hengistbury: some evidence from experimental archaeology. World Archaeol 14:237–248. 10.1080/00438243.1982.9979864
Bordes F (1961) Typologie du Paléolithique ancien et moyen. Delmas, Bordeaux
Broadbent ND, Knutsson K (1975) An experimental analysis of quartz scrapers. Results and applications. Fornvännen. 113–128
Callahan E, Forsberg L, Knutsson K, Lindgren C (1992) Frakturbilder. Kulturhistoriska kommentarer till det säregna sönderfallet vid bearbetning av kvarts. Tor 24:27–63
Coppe J, Rots V (2017) Focus on the target. The importance of a transparent fracture terminology for understanding projectile points and projecting modes. J Archaeol Sci Rep 12:109–123. 10.1016/j.jasrep.2017.01.010
de la Peña P, Taipale N, Wadley L, Rots V (2018) A techno-functional perspective on quartz micro-notches in Sibudu’s Howiesons Poort indicates the use of barbs in hunting technology. J Archaeol Sci 93:166–195. 10.1016/j.jas.2018.03.001
de Lombera Hermida A (2009) The scar identification of lithic quartz industries. In: Sternke F, Eigeland L, Costa L-J (eds) Non-flint raw material use in prehistory. Old Prejudices and New Directions, BAR International Series 1939. Archaeopress, Oxford, pp 5–12
de Lombera-Hermida A, Rodríguez-Rellán C (2016) Quartzes matter. Understanding the technological and behavioural complexity in quartz lithic assemblages. Quat Int 424:2–11. 10.1016/j.quaint.2016.11.039
Derndarsky M, Ocklind G (2001) Some preliminary observations on subsurface damage on experimental and archaeological quartz tools using CLSM and dye. J Archaeol Sci 28:1149–1158. 10.1006/jasc.2000.0646
Domanski M, Webb J, Boland J (1994) Mechanical properties of stone artefact materials and the effect of heat treatment. Archaeom 36:177–208
Driscoll K (2010) Understanding quartz technology in early prehistoric Ireland. Dissertation, University College Dublin
Driscoll K (2011a) Vein quartz in lithic traditions: an analysis based on experimental archaeology. J Archaeol Sci. 10.1016/j.jas.2010.10.027
Driscoll K (2011b) Identifying and classifying vein quartz artefacts: an experiment conducted at the World Archaeological Congress, 2008. Archaeom. 10.1111/j.1475-4754.2011.00600.x
Fernández-Marchena JL, Ollé A (2016) Microscopic analysis of technical and functional traces as a method for the use-wear analysis of rock crystal tools. Quat Int 424:171–190
Fernández-Marchena JL, Rabuñal JR, García-Argudo G (2017) Experimental and functional analysis of rock crystal projectiles. In: Alonso R, Baena J, Canales D (eds) Playing with the time. Experimental archaeology and the study of the past. Servicio de publicaciones de la UAM, Madrid, pp. 101–106
Fischer A, Vemming Hansen P, Rasmussen P (1984) Macro and micro wear traces on lithic projectile points: experimental results and prehistoric examples. J Dan Archaeol 3:19–46
Fullagar R (1986) Use-wear on quartz. In: Ward GK (ed) Archaeology at ANZAAS, Canberra. Canberra Archaeological Society, Canberra, pp 191–197
Geneste JM, Plisson H (1990) Technologie fonctionelle des pointes a cran Solutréennes: l’apport des nouvelles données de la grotte de Combe Saunière (Dordogne). In: Kozlowski JK (ed) Feuilles de pierre. Les Industries à pointes foliacées du Paléolithique supérieur européen. Actes du colloque international de Cracovie (1989). ERAUL, Liège, pp 293–320
Kamminga J (1982) Over the edge: functional analysis of Australian stone tools. University of Queensland
Knutsson K (1988) Patterns of tool use. Scanning electron microscopy of experimental quartz tools. Societas Archaeologica Upsaliensis, Uppsala
Knutsson H, Knutsson K, Molin F, Zetterlund P (2015a) From flint to quartz: organization of lithic technology in relation to raw material availability during the pioneer process of Scandinavia. Quat Int. 10.1016/j.quaint.2015.10.062
Knutsson H, Knutsson K, Taipale N, Tallavaara M, Darmark K (2015b) How shattered flakes were used: Micro-wear analysis of quartz flake fragments. J Archaeol Sci: Rep. 10.1016/j.jasrep.2015.04.008
Lindgren C (1998) Shapes of quartz and shapes of minds. In: Holm L, Knutsson K (eds) Proceedings from the third flint alternatives conference at Uppsala, Sweden, October 18–20, 1996. Occasional papers in archaeology 16. Department of Archaeology and Ancient History, Uppsala University, Uppsala, pp 95–103
Lombard M (2011) Quartz-tipped arrows older than 60 ka: further use-trace evidence from Sibudu, KwaZulu-Natal, South Africa. J Archaeol Sci 38:1918–1930. 10.1016/j.jas.2011.04.001
Manninen MA (2016) The effect of raw material properties on flake and flake-tool dimensions: a comparison between quartz and chert. Quat Int 424:24–31. 10.1016/j.quaint.2015.12.096
Manninen MA, Knutsson K (2011) Northern inland oblique point sites—a new look into the Late Mesolithic oblique point tradition in eastern Fennoscandia. In: Rankama T (ed) Mesolithic interfaces. Variability in lithic technologies in eastern Fennoscandia. Monographs of the Archaeological Society of Finland. Archaeological Society of Finland, Saarijärvi, pp 142–175
Manninen MA, Tallavaara M (2011) Descent history of Mesolithic oblique points in eastern Fennoscandia—a technological comparison between two artefact populations. In: Rankama T (ed) Mesolithic interfaces. Variability in lithic technologies in eastern Fennoscandia. Monographs of the Archaeological Society of Finland. Archaeological Society of Finland, Saarijärvi, pp 176–211
Márquez B, Baquedano E, Pérez-González A, Arsuaga JL (2016) Microwear analysis of Mousterian quartz tools from the Navalmaíllo Rock Shelter (Pinilla del Valle, Madrid, Spain). Quat Int 424:84–97. 10.1016/j.quaint.2015.08.052
Moss EH (1983) The functional analysis of flint implements. Pincevent and Pont d’Ambon: two case studies from the French Final Palaeolithic. BAR International Series 177. Archaeopress, Oxford
Moss EH, Newcomer MH (1982) Reconstruction of tool use at Pincevent: microwear and experiments. In: Tailler! Pourquoi faire: Préhistoire et technologie lithique II, recent progress in microwear studies. Studia Praehistorica Belgica Leuven. 2:289–312
Mourre V (1996) Les industries en quartz au Paléolithique. Terminologie, méthodologie et technologie. Paléo 8:205–223. 10.3406/pal.1996.1160
Odell GH (1978) Préliminaires d’une analyse fonctionnelle des pointes microlithiques de Bergumermeer (Pays-Bas). Bulletin de la Société préhistorique française 75:37–49. 10.3406/bspf.1978.4398
Odell GH, Cowan F (1986) Experiments with spears and arrows on animal targets. J Field Archaeol 13:195. 10.2307/530220
Ollé A, Pedergnana A, Fernández-Marchena JL, Martin S, Borel A, Aranda V (2016) Microwear features on vein quartz, rock crystal and quartzite: a study combining optical light and scanning electron microscopy. Quat Int 424:154–170. 10.1016/j.quaint.2016.02.005
Pargeter J (2011) Assessing the macrofracture method for identifying Stone Age hunting weaponry. J Archaeol Sci 38:2882–2888. 10.1016/j.jas.2011.04.018
Pargeter J (2013) Rock type variability and impact fracture formation: working towards a more robust macrofracture method. J Archaeol Sci 40:4056–4065. 10.1016/j.jas.2013.05.021
Pargeter J, Shea J, Utting B (2016) Quartz backed tools as arrowheads and hand-cast spearheads: hunting experiments and macro-fracture analysis. J Archaeol Sci 73:145–157. 10.1016/j.jas.2016.08.001
Plisson H, Beyries S (1998) 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 24:5–24. 10.3406/paleo.1998.4666
Rankama T (2002) Analyses of the quartz assemblages of houses 34 and 35 at Kauvonkangas in Tervola. In: Ranta H (ed) Huts and houses. Stone Age and Early Metal Age buildings in Finland. National Board of Antiquities, Helsinki, pp 79–108
Rodríguez-Rellán C (2016) Variability of the rebound hardness as a proxy for detecting the levels of continuity and isotropy in archaeological quartz. Quat Int 424:191–211. 10.1016/j.quaint.2015.12.085
Rots V (2016) Projectiles and hafting technology. In: Iovita R, Sano K (eds) Multidisciplinary approaches to the study of Stone Age weaponry. Springer, Dordrecht, pp 167–185
Rots V, Plisson H (2014) Projectiles and the abuse of the use-wear method in a search for impact. J Archaeol Sci 48:154–165. 10.1016/j.jas.2013.10.027
Rots V, Lentfer C, Schmid VC, Porraz G, Conard NJ (2017) Pressure flaking to serrate bifacial points for the hunt during the MIS5 at Sibudu Cave (South Africa). PLoS One 12:e0175151. 10.1371/journal.pone.0175151
Seppä J (1995) Poikkiteräisten kvartsinuolenkärkien tehokkuus: kokeellinen tutkimus. University of Helsinki
Siiriäinen A (1981) Problems of the east Fennoscandian Mesolithic. Finskt Museum 1977:5–31
Taipale N (2012) Micro vs. macro. A microwear analysis of quartz artefacts from two Finnish Late Mesolithic assemblages with comments on the earlier macrowear results, wear preservation and tool blank selection. MA dissertation, Uppsala University/University of Helsinki
Taipale N, Knutsson K, Knutsson H (2014) Unmodified quartz flake fragments as cognitive tool categories: testing the wear preservation, previous low magnification use-wear results and criteria for tool blank selection in two Late Mesolithic quartz assemblages from Finland. In: Marreiros J, Bicho N, Gibaja Bao J (eds) International conference on use-wear analysis: use-wear 2012. Cambridge Scholars, Newcastle upon Tyne, pp 352–361
Tallavaara M, Manninen MA, Hertell E, Rankama T (2010) How flakes shatter: a critical evaluation of quartz fracture analysis. J Archaeol Sci 37:2442–2448. 10.1016/j.jas.2010.05.005
Tardy N, Vosges J, Varoutsikos B (2016) Micro-blade production on hyaline quartz during the Late Neolithic of northern Greece (5400–4600 cal. B.C.): examples from Dikili Tash and Promachonas-Topolniča. Quat Int. 10.1016/j.quaint.2015.11.139
Tomasso S, Rots V, Perdaens Y, Crombé P, Meylemans E (2015) Hunting with trapezes at Bazel-Sluis: the results of a functional analysis. Notae Praehist 35:239–251
