Jordan, P. Technology as Human Social Tradition: Cultural Transmission Among Hunter-Gatherers Vol. 7 (Univ. California Press, 2014).
O’Brien, M. J. & Lyman, R. L. Evolutionary archeology: current status and future prospects. Evol. Anthropol.11, 26–36 (2002).
Google ScholarÂ
Pettitt, P. The Palaeolithic Origins of Human Burial (Routledge, 2013).
Bar-Yosef, O. & Kuhn, S. L. The big deal about blades: laminar technologies and human evolution. Am. Anthropol.101, 322–338 (1999).
Google ScholarÂ
Bon, F. At the crossroad. Palethnol. Archéol. Sci. Hum. https://doi.org/10.4000/palethnologie.680 (2015).
Kuhn, S. L. et al. The early upper paleolithic occupations at Üçağızlı cave (Hatay, Turkey). J. Hum. Evol.56, 87–113 (2009).
Google ScholarÂ
Bennett, E. A. et al. The origin of the Gravettians: genomic evidence from a 36,000-year-old Eastern European. Preprint at bioRxiv https://doi.org/10.1101/685404 (2019).
Fu, Q. et al. The genetic history of ice age Europe. Nature534, 200–205 (2016).
Google ScholarÂ
Posth, C. et al. Paleogenomics of upper paleolithic to neolithic European hunter-gatherers. Nature615, 117–126 (2023).
Google ScholarÂ
Villalba-Mouco, V. et al. A 23,000-year-old southern Iberian individual links human groups that lived in Western Europe before and after the Last Glacial Maximum. Nat. Ecol. Evol.7, 597–609 (2023).
Google ScholarÂ
Eisenmann, S. et al. Reconciling material cultures in archaeology with genetic data: the nomenclature of clusters emerging from archaeogenomic analysis. Sci. Rep.8, 13003 (2018).
Google ScholarÂ
Riede, F. in Investigating Archaeological Cultures: Material Culture, Variability, and Transmission (eds Roberts, B. W. & Vander Linden, M.) 245–270 (Springer, 2011).
Riede, F., Hoggard, C. & Shennan, S. Reconciling material cultures in archaeology with genetic data requires robust cultural evolutionary taxonomies. Palgrave Commun.5, 55 (2019).
Google ScholarÂ
Joyce, R. A. Archaeology of the body. Annu. Rev. Anthropol.34, 139–158 (2005).
Google ScholarÂ
Plog, S. E. & Richman, K. Symbols in action: ethnoarchaeological studies of material culture. Ian Hodder. Am. Anthropol. 85, 718–720 (1983).
Alvarez-Fernandez, E. Los Objetos de Adorno-colgantes del PaleolÃtico Superior y del MesolÃtico en la Cornisa Cantábrica y en el Valle Del Ebro: Una Visión Europea (Univ. Salamanca, 2006).
Rigaud, S., Manen, C. & GarcÃa-MartÃnez de Lagrán, I. Symbols in motion: flexible cultural boundaries and the fast spread of the Neolithic in the western Mediterranean. PLoS ONE13, p.e0196488 (2018).
Google ScholarÂ
Rigaud, S., d’Errico, F. & Vanhaeren, M. Ornaments reveal resistance of North European cultures to the spread of farming. PLoS ONE10, e0121166 (2015).
Google ScholarÂ
Sehasseh, E. M. et al. Early middle stone age personal ornaments from Bizmoune Cave, Essaouira, Morocco. Sci. Adv.7, eabi8620 (2021).
Google ScholarÂ
Vanhaeren, M. & d’Errico, F. Aurignacian ethno-linguistic geography of Europe revealed by personal ornaments. J. Anthropol. Sci.33, 1105–1128 (2006).
Aubry, T., Santos, A. T. & Martins, A. Côa Symposium. Novos olhares sobre a arte paleolÃtica. New perspectives on palaeolithic art. Repositório Comum http://hdl.handle.net/10400.26/38285 (2021).
Bouzouggar, A. et al. 82,000-year-old shell beads from North Africa and implications for the origins of modern human behaviour. Proc. Natl Acad. Sci. USA104, 9964–9969 (2007).
Google ScholarÂ
d’Errico, F., Henshilwood, C., Vanhaeren, M. & Van Niekerk, K. Nassarius kraussianus shell beads from Blombos Cave: evidence for symbolic behaviour in the Middle Stone Age. J. Hum. Evol.48, 3–24 (2005).
Google ScholarÂ
Grün, R. et al. U-series and ESR analyses of bones and teeth relating to the human burials from Skhul. J. Hum. Evol.49, 316–334 (2005).
Google ScholarÂ
Miller, J. M. & Wang, Y. V. Ostrich eggshell beads reveal 50,000-year-old social network in Africa. Nature601, 234–239 (2022).
Google ScholarÂ
Iliopoulos, A. Early body ornamentation as ego-culture: tracing the co-evolution of aesthetic ideals and cultural identity. Semiotica2020, 187–233 (2020).
Google ScholarÂ
Janowski, M. in Beads and Bead Makers: Gender, Material Culture and Meaning (eds Sciama, L. D. & Eicher, J. B.) 213–246 (Berg Publishers, 1998).
Weiner, A. B. The Trobrianders of Papua New Guinea (Holt, Rinehart and Winston, 1988).
Cangelosi, A. Evolution of communication and language using signals, symbols, and words. IEEE Trans. Evol. Comput.5, 93–101 (2001).
Google ScholarÂ
Kuhn, L. S. & Stiner, M. C. Paleolithic ornaments: implications for cognition, demography and identity. Diogenes214, 40–48 (2007).
Google ScholarÂ
Newell, R. R., Kielman, D., Constandse-Westermann, T. S., van der Sanden, W. A. B. & van Gijn, A. An Inquiry into the Ethnic Resolution of Mesolithic Regional Groups. The Study of Their Decorative Ornaments in Time and Space (Brill, 1990).
Hamilton, M. J., Milne, B. T., Walker, R. S., Burger, O. & Brown, J. H. The complex structure of hunter–gatherer social networks. Proc. R. Soc. B274, 2195–2203 (2007).
Google ScholarÂ
d’Errico, F. & Vanhaeren, M. in Upper Palaeolithic Mortuary Practices: Reflection of Ethnic Affiliation, Social Complexity, and Cultural Turnover (eds Renfrew, C. et al.) 45–62 (Cambridge Univ. Press, 2015).
Jordan, P. & Shennan, S. Cultural transmission, language, and basketry traditions amongst the California Indians. J. Anthropol. Archaeol.22, 42–74 (2003).
Google ScholarÂ
Kovacevic, M., Shennan, S., Vanhaeren, M., d’Errico, F. & Thomas, M. G. in Learning Strategies and Cultural Evolution During the Palaeolithic (eds Mesoudi, A. & Aoki, K.) 103–120 (Springer, 2015).
Lycett, S. J. Confirmation of the role of geographic isolation by distance in among-tribe variations in beadwork designs and manufacture on the High Plains. Archaeol. Anthropol. Sci.11, 2837–2847 (2019).
Google ScholarÂ
Shennan, S. Genes, Memes, and Human History: Darwinian Archaeology and Cultural Evolution (Thames & Hudson, 2002).
Shennan, S. J., Crema, E. R. & Kerig, T. Isolation-by-distance, homophily, and ‘core’ vs. ‘package’ cultural evolution models in Neolithic Europe. Evol. Hum. Behav.36, 103–109 (2015).
Google ScholarÂ
Hardy, O. J. & Vekemans, X. Isolation by distance in a continuous population: reconciliation between spatial autocorrelation analysis and population genetics models. Heredity83, 145–154 (1999).
Google ScholarÂ
Wright, S. Isolation by distance. Genetics28, 114–138 (1943).
Google ScholarÂ
Kozłowski, J. The origin of the Gravettian. Quat. Int.359, 3–18 (2015).
Google ScholarÂ
Taller, A. & Conard, N. J. Were the Technological Innovations of the Gravettian Triggered by Climatic Change? Insights from the Lithic Assemblages from Hohle Fels, SW Germany. PaleoAnthropology2022, 82–108 (2022).
Wilczyński, J. et al. New radiocarbon dates for the late Gravettian in eastern Central Europe. Radiocarbon62, 243–259 (2020).
Google ScholarÂ
Broglio, A. & Dalmeri, G. Pitture Paleolitiche Nelle Prealpi Venete: Grotta di Fumane e Riparo Dalmeri Vol. 9 (Museo Civico di Storia Naturale, 2005).
de Sonneville-Bordes, D. L’évolution du Paléolithique supérieur en Europe occidentale et sa signification. Bull. Soc. Préhist. Française63, 3–34 (1966).
Hahn, J. Aurignacien, das ältere Jungpaläolithikum in Mittel-und Osteuropa Vol. 9 (Böhlau, 1977).
Teyssandier, N. L’émergence du Paléolithique supérieur en Europe: mutations culturelles et rythmes d’évolution. PALEO https://doi.org/10.4000/paleo.702 (2007).
Zilhão, J. & d’Errico, F. The Chronology of the Aurignacian and of the Transitional Technocomplexes. Dating, Stratigraphies, Cultural Implications (Instituto Português de Arqueologia, 2003).
Calvo, A. & Arrizabalaga, A. Piecing together a new mosaic: Gravettian lithic resources and economic territories in the Western Pyrenees. Archaeol. Anthropol. Sci.12, 282 (2020).
Google ScholarÂ
Conard, N. J. & Moreau, L. Current research on the Gravettian of the Swabian Jura. Mitt. Ges. Urgesch.13, 29–57 (2004).
Marreiros, J. & Bicho, N. Lithic technology variability and human ecodynamics during the Early Gravettian of Southern Iberian Peninsula. Quat. Int.318, 90–101 (2013).
Google ScholarÂ
Moreau, L. Geißenklösterle. The Swabian Gravettian in its European context: Geißenklösterle. Das schwäbische Gravettien im europäischen Kontext. Quartär57, 79–93 (2010).
Polanská, M., Hromadová, B. & Sázelová, S. The Upper and Final Gravettian in Western Slovakia and Moravia. Different approaches, new questions. Quat. Int.581–582, 205–224 (2021).
Google ScholarÂ
Vignoles, A. et al. Investigating relationships between technological variability and ecology in the Middle Gravettian (ca. 32–28 ky cal. BP) in France. Quat. Sci. Rev.253, 106766 (2021).
Delporte, H. L’image de la femme dans l’art préhistorique. Rev. Archeol. Centre France18, 183–184 (1979).
Tripp, A. in Cultural Phylogenetics: Concepts and Applications in Archaeology (ed. Mendoza Straffon, L.) 179–202 (Springer, 2016).
Zilhão, J. & Trinkaus, E. (eds) Portrait of the Artist as a Child. The Gravettian Human Skeleton from the Abrigo Do Lagar Velho and Its Archaeological Context (Min. da Cultura, 2002).
Klaric, L., Guillermin, P. & Aubry, T. Des armatures variées et des modes de production variable. Réflexions à partir de quelques exemples issus du Gravettien d’Europe occidentale (France, Portugal, Allemagne). Gall. Prehist.51, 113–154 (2009).
Google ScholarÂ
Laville, H. & Rigaud, J.-P. The Perigordian V industries in Périgord: typological variations, stratigraphy and relative chronology. World Archaeol.4, 330–338 (1973).
Google ScholarÂ
Rigaud, J.-P., Dibble, H. & Monte-White, A. in Upper Pleistocene Prehistory of Western Eurasia (eds Dibble, H. L. & Monte-White, A.) 387–396 (Univ. Pennsylvania Museum of Archaeology and Anthropology, 1988).
Hoffecker, J. F. The Eastern Gravettian ‘Kostenki culture’ as an Arctic adaptation. Anthropol. Pap. Univ. Alsk.2, 115–136 (2002).
Johnson, R. J., Lanaspa, M. A. & Fox, J. W. Upper Paleolithic figurines showing women with obesity may represent survival symbols of climatic change. Obesity29, 11–15 (2021).
Google ScholarÂ
Weber, G. W. et al. The microstructure and the origin of the Venus from Willendorf. Sci. Rep.12, 2926 (2022).
Google ScholarÂ
Bradtmöller, M., Marreiros, J., Pereira, T. & Bicho, N. Lithic technological adaptation within the Gravettian of the Iberian Atlantic region: results from two case studies. Quat. Int.406, 3–24 (2016).
Google ScholarÂ
Kozłowski, J. K. in The Lithic Raw Material Sources and the Interregional Human Contacts in the Northern Carpathian Regions (ed. Mester, Z.) 63–85 (Polish Academy of Arts and Sciences, Institute of Archaeological Sciences of the Eotvos Lorand University Budapest, 2013).
d’Errico, F. et al. Zhoukoudian Upper Cave personal ornaments and ochre: rediscovery and reevaluation. J. Hum. Evol.161, 103088 (2021).
Google ScholarÂ
Kassam, A. Traditional ornament: some general observations. Kenya Past Present https://hdl.handle.net/10520/AJA02578301_68 (1988).
Fernández, E. A. La explotación de los moluscos marinos en la Cornisa Cantábrica durante el Gravetiense: primeros datos de los niveles E y F de La Garma A (Omoño, Cantabria). Zephyrvs https://revistas.usal.es/uno/index.php/0514-7336/article/view/5567 (2007).
d’Errico, F. & Rigaud, S. Crache perforée dans le Gravettien du sire (Mirefleurs, Puy-de-Dôme). PALEO https://doi.org/10.4000/paleo.2172 (2011).
d’Errico, F. & Vanhaeren, M. in Death Shall Have No Dominion: The Archaeology of Mortality and Immortality, a Worldwide Perspective (eds Renfrew, C. et al.) 35–48 (Cambridge Univ. Press, 2012).
Taborin, Y. in Hunters of the Golden Age. The Mid Upper Palaeolithic of Eurasia 30,000–20,000 BP (eds Roebroeks, W. et al.) 135–142 (Cambridge Univ. Press, 2000).
Lisá, L. et al. The role of abiotic factors in ecological strategies of Gravettian hunter–gatherers within Moravia, Czech Republic. Quat. Int.294, 71–81 (2013).
Google ScholarÂ
Wilczyński, J. et al. Population mobility and lithic tool diversity in the Late Gravettian – the case study of Lubná VI (Bohemian Massif). Quat. Int.587, 103–126 (2021).
Google ScholarÂ
Chapais, B. in Mind the Gap (eds Kappeler, P. & Silk, J.) https://doi.org/10.1007/978-3-642-02725-3_2 19-51 (Springer, 2010).
Walker, R. S., Hill, K. R., Flinn, M. V. & Ellsworth, R. M. Evolutionary history of hunter–gatherer marriage practices. PLoS ONE6, e19066 (2011).
Google ScholarÂ
Beresford-Jones, D. et al. Rapid climate change in the Upper Palaeolithic: the record of charcoal conifer rings from the Gravettian site of Dolnà Vĕstonice, Czech Republic. Quat. Sci. Rev.30, 1948–1964 (2011).
Google ScholarÂ
Haws, J. et al. Human adaptive responses to climate and environmental change during the Gravettian of Lapa do Picareiro (Portugal). Quat. Int.587–588, 4–18 (2020).
Maier, A. Population and settlement dynamics from the Gravettian to the Magdalenian. Mitt. Ges. Urgesch.26, 83–101 (2017).
Bradley, R. The destruction of wealth in later prehistory. Man17, 108–122 (1982).
Testart, A. Des Dons et des Dieux. Anthropologie Religieuse et Sociologie Comparative (ERRANCE1, 2006).
Riel-Salvatore, J. & Gravel-Miguel, C. in The Oxford Handbook of the Archaeology of Death and Burial (eds Stutz, L. N. & Tarlow, S.) Ch. 17 (Oxford Univ. Press, 2013).
Oliva, M. Palaeolithic and Mesolithic Moravia Vol. 11 (Moravian Museum, 2005).
Kacki, S. et al. Complex mortuary dynamics in the Upper Paleolithic of the decorated Grotte de Cussac, France. Proc. Natl Acad. Sci. USA117, 14851–14856 (2020).
Google ScholarÂ
Duarte, C. et al. The early Upper Paleolithic human skeleton from the Abrigo do Lagar Velho (Portugal) and modern human emergence in Iberia. Proc. Natl Acad. Sci. USA96, 7604–7609 (1999).
Google ScholarÂ
Einwögerer, T. et al. Upper Palaeolithic infant burials. Nature444, 285 (2006).
Google ScholarÂ
Sinitsyn, A. A. Earliest Upper Palaeolithic layers at Kostenki 14 (Markina gora): preliminary results of the 1998–2001 excavations. BAR Int. Ser.1240, 181–190 (2004).
Wilczyński, J. et al. A mid Upper Palaeolithic child burial from Borsuka Cave (southern Poland). Int. J. Osteoarchaeol.26, 151–162 (2016).
Google ScholarÂ
Abramovitch, H. Death, anthropology of. Int. Encycl. Soc. Behav. Sci. https://doi.org/10.1016/B978-0-08-097086-8.12052-5 (2015).
Formicola, V., Pontrandolfi, A. & Svoboda, J. The Upper Paleolithic triple burial of Dolnà Věstonice: pathology and funerary behavior. Am. J. Phys. Anthropol.115, 372–379 (2001).
Google ScholarÂ
Grosman, L., Munro, N. D. & Belfer-Cohen, A. A 12,000-year-old Shaman burial from the southern Levant (Israel). Proc. Natl Acad. Sci. USA105, 17665–17669 (2008).
Google ScholarÂ
Kaufman, S. R. & Morgan, L. M. The anthropology of the beginnings and ends of life. Annu. Rev. Anthropol.34, 317–341 (2005).
Google ScholarÂ
Petru, S. Identity and fear–burials in the Upper Palaeolithic. Doc. Praehist.45, 6–13 (2018).
Google ScholarÂ
Formicola, V. & Buzhilova, A. P. Double child burial from Sunghir (Russia): pathology and inferences for Upper Paleolithic funerary practices. Am. J. Phys. Anthropol.124, 189–198 (2004).
Google ScholarÂ
Trinkaus, E. & Buzhilova, A. P. Diversity and differential disposal of the dead at Sunghir. Antiquity92, 7–21 (2018).
Google ScholarÂ
Bicho et al. Early Upper Paleolithic colonization across Europe: time and mode of the Gravettian diffusion. PLoS ONE12, e0178506 (2017).
Google ScholarÂ
Bocquet-Appel, J.-P., Demars, P.-Y., Noiret, L. & Dobrowsky, D. Estimates of Upper Palaeolithic meta-population size in Europe from archaeological data. J. Archaeol. Sci.32, 1656–1668 (2005).
Google ScholarÂ
Housley, R. A., Gamble, C. S., Street, M. & Pettitt, P. Radiocarbon evidence for the Lateglacial human recolonisation of northern Europe. Proc. Prehist. Soc.63, 25–54 (1997).
Ramsey, C. B. Radiocarbon calibration and analysis of stratigraphy: the OxCal program. Radiocarbon37, 425–430 (1995).
Google ScholarÂ
Reimer, P. J. et al. The IntCal20 Northern Hemisphere radiocarbon age calibration curve (0–55 cal kBP). Radiocarbon62, 725–757 (2020).
Google ScholarÂ
Dubin, L. S. The History of Beads: From 30,000 B.C. to the Present (Thames and Hudson, 1987).
Erikson, J. M. The Universal Bead (W.W. Norton, 1969).
Taborin, Y. La parure en coquillage au Palaéolithique. Gall. Prehist. https://www.persee.fr/doc/galip_0072-0100_1993_sup_29_1 (1993).
Whallon, R. & Brown, J. Essays on Archaeological Typology (Center for American Archaeology Press, 1982).
Adams, W. Y. & Adams, E. W. Archaeological Typology and Practical Reality: A Dialectical Approach to Artefact Classification and Sorting (Cambridge Univ. Press, 1991).
Whittaker, J. C., Caulkins, D. & Kamp, K. A. Evaluating consistency in typology and classification. J. Archaeol. Method Theory5, 129–164 (1998).
Google ScholarÂ
Lartet, E. & Christy, H. Cavernes du Périgord: Objets Gravés et Sculptés des Temps Pré-historiques dans L’europe Occidentale (Revue Archéologique, 1864).
Riviere, É. Note sur l’homme fossile des cavernes de Baoussé-Roussé (Italie), dites grottes de Menton. Bull. Mem. Soc. Anthropol. Paris7, 584–589 (1872).
d’Errico, F. & Villa, P. Holes and grooves: the contribution of microscopy and taphonomy to the problem of art origins. J. Hum. Evol.33, 1–31 (1997).
Google ScholarÂ
Liiv, I. Seriation and matrix reordering methods: an historical overview. Stat. Anal. Data Min.3, 70–91 (2010).
Google ScholarÂ
Hammer, Ø., Harper, D. A. & Ryan, P. D. PAST: paleontological statistics software package for education and data analysis. Palaeontol. Electronica4, 4 (2001).
Newman, M. E. Modularity and community structure in networks. Proc. Natl Acad. Sci. USA103, 8577–8582 (2006).
Google ScholarÂ
Anderson, M. J. Permutational Multivariate Analysis of Variance (Department of Statistics, Univ. Auckland, 2005).
McArdle, B. H. & Anderson, M. J. Fitting multivariate models to community data: a comment on distance-based redundancy analysis. Ecology82, 290–297 (2001).
Google ScholarÂ
Jaccard, P. Étude comparative de la distribution florale dans une portion des Alpes et des Jura. Bull. Soc. Vaud. Sci. Nat.37, 547–579 (1901).
Rogers, D. S. & Ehrlich, P. R. Natural selection and cultural rates of change. Proc. Natl Acad. Sci. USA105, 3416–3420 (2008).
Google ScholarÂ
Shennan, S. J. & Bentley, R. A. in Cultural Transmission and Archaeology: Issues and Case Studies (ed. O’Brien, M. J.) 164–177 (Society for American Archaeology, 2008).
Ricotta, C., Podani, J. & Pavoine, S. A family of functional dissimilarity measures for presence and absence data. Ecol. Evol.6, 5383–5389 (2016).
Google ScholarÂ
Bathke, A. C. et al. Testing mean differences among groups: multivariate and repeated measures analysis with minimal assumptions. Multivar. Behav. Res.53, 348–359 (2018).
Google ScholarÂ
Gower, J. C. Some distance properties of latent root and vector methods used in multivariate analysis. Biometrika53, 325–338 (1966).
Google ScholarÂ
Saitou, N. & Nei, M. The neighbor-joining method: a new method for reconstructing phylogenetic trees. Mol. Biol. Evol.4, 406–425 (1987).
Google ScholarÂ
Evans, J. D., Cann, J. R., Renfrew, A. C., Cornwall, I. W. & Western, A. C. Excavations in the Neolithic settlement of Knossos, 1957-60. Part I. Annu. Br. Sch. Athens59, 132–240 (1964).
Google ScholarÂ
Collard, M., Shennan, S. J., Buchanan, B. & Bentley, R. A. in Handbook of Archaeological Theories (eds Bentley, R. A. et al.) 203–223 (Altamira Press, 2008).
Gray, R. D., Greenhill, S. J. & Ross, R. M. The pleasures and perils of Darwinizing culture (with phylogenies). Biol. Theory2, 360–375 (2007).
Google ScholarÂ
Steele, J., Jordan, P. & Cochrane, E. Evolutionary approaches to cultural and linguistic diversity. Phil. Trans. R. Soc. B365, 3781–3785 (2010).
Google ScholarÂ
Gray, R. D., Bryant, D. & Greenhill, S. J. On the shape and fabric of human history. Phil. Trans. R. Soc. B365, 3923–3933 (2010).
Google ScholarÂ
Greenhill, S. J., Currie, T. E. & Gray, R. D. Does horizontal transmission invalidate cultural phylogenies? Proc. R. Soc. B276, 2299–2306 (2009).
Google ScholarÂ
Bryant, D. & Moulton, V. Neighbor-net: an agglomerative method for the construction of phylogenetic networks. Mol. Biol. Evol.21, 255–265 (2004).
Google ScholarÂ
Bryant, D., Filimon, F. & Gray, R. D. in The Evolution of Cultural Diversity (eds Mace, R. et al.) 77–93 (Routledge, 2016).
Huson, D. H. & Bryant, D. Application of phylogenetic networks in evolutionary studies. Mol. Biol. Evol.23, 254–267 (2006).
Google ScholarÂ
Holland, B. R., Huber, K. T., Dress, A. & Moulton, V. δ plots: a tool for analyzing phylogenetic distance data. Mol. Biol. Evol.19, 2051–2059 (2002).
Google ScholarÂ
Meirmans, P. G. The trouble with isolation by distance. Mol. Ecol.21, 2839–2846 (2012).
Google ScholarÂ
Mantel, N. The detection of disease clustering and a generalized regression approach. Cancer Res.27, 209–220 (1967).
Google ScholarÂ
Borcard, D. & Legendre, P. Is the Mantel correlogram powerful enough to be useful in ecological analysis? A simulation study. Ecology93, 1473–1481 (2012).
Google ScholarÂ
Hammer, Ø. Spectral analysis of a Plio-Pleistocene multispecies time series using the Mantel periodogram. Palaeogeogr. Palaeoclimatol. Palaeoecol.243, 373–377 (2007).
Google ScholarÂ
Legendre, P. & Fortin, M. J. Spatial pattern and ecological analysis. Vegetatio80, 107–138 (1989).
Google ScholarÂ
Gallardo-Cruz, J. A., Meave, J. A., Pérez-GarcÃa, E. A. & Hernández-Stefanoni, J. L. Spatial structure of plant communities in a complex tropical landscape: implications for β-diversity. Community Ecol.11, 202–210 (2010).
Google ScholarÂ
Baddeley, A., Rubak, E. & Turner, R. Spatial Point Patterns: Methodology and Applications with R (CRC Press, 2015).
Legendre, P. Comparison of permutation methods for the partial correlation and partial Mantel tests. J. Stat. Comput. Simul.67, 37–73 (2000).
Google ScholarÂ
Smouse, P., Long, J. & Sokal, R. Multiple regression and correlation extensions of the Mantel test of matrix correspondence. Syst. Zool.35, 627–632 (1986).
Google ScholarÂ
Baker, J., Rigaud, S., Vanhaeren, M. & d’Errico, F. Cro-Magnon personal ornaments revisited. PALEO32, 40–73 (2022).
Zilhão, J. et al. Revisiting the Middle and Upper Palaeolithic archaeology of Gruta do Caldeirão (Tomar, Portugal). PLoS ONE16, e0259089 (2021).
Google ScholarÂ
QGIS Geographic Information System (QGIS.org., 2020).
ETOPO 2022 15 Arc-Second Global Relief Model (NOAA National Centers for Environmental Information, accessed 25 August 2023); https://doi.org/10.25921/fd45-gt74
Lambeck, K. & Chappell, J. Sea level change through the last glacial cycle. Science292, 679–686 (2001).
Google ScholarÂ
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