A new chronological framework and site formation history for Cova del Gegant (Barcelona): Implications for Neanderthal and Anatomically Modern Human occupation of NE Iberian Peninsula
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D. Hoffmann | L. Arnold | M. Demuro | J. Fullola | J. Moreno | D. Cabanes | M. Sanz | J. Daura | Natalia Égüez | A. Costa | V. Lopes | Alexa Benson | Maria da Conceição Freitas | Joan García-Targa | Joan Daura
[1] D. D. Rosenstein. Thermoluminescence Dating , 2021, The Encyclopedia of Ancient History.
[2] J. Zilhão,et al. A revised, Last Interglacial chronology for the Middle Palaeolithic sequence of Gruta da Oliveira (Almonda karst system, Torres Novas, Portugal) , 2021, Quaternary Science Reviews.
[3] Dates… , 1973, The Social World of the Abbey of Cava, c. 1020-1300.
[4] Montserrat Sanz Borràs,et al. La fauna del Pleistoceno superior asociada a los restos humanos neandertales de la galería Lateral 1 de la Cola del Gegant (Sitges, Barcelona) , 2020 .
[5] F. Pérez-López,et al. Boletín de la Real Sociedad Española de Historia Natural , 2020, Boletín de la Real Sociedad Española de Historia Natural.
[6] Georges Stoops,et al. Guidelines for Analysis and Description of Soil and Regolith Thin Sections , 2020, ASA, CSSA, and SSSA Books.
[7] L. Straus. Neanderthal last stand? Thoughts on Iberian refugia in late MIS 3 , 2020, Journal of Quaternary Science.
[8] M. Benedetti,et al. The early Aurignacian dispersal of modern humans into westernmost Eurasia , 2020, Proceedings of the National Academy of Sciences.
[9] F. d’Errico,et al. Fire and grass-bedding construction 200 thousand years ago at Border Cave, South Africa , 2020, Science.
[10] K. Hughen,et al. Updated Cariaco Basin 14C Calibration Dataset from 0–60 cal kyr BP , 2020, Radiocarbon.
[11] E. Bard,et al. Marine20—The Marine Radiocarbon Age Calibration Curve (0–55,000 cal BP) , 2020, Radiocarbon.
[12] E. Scott,et al. The IntCal20 Northern Hemisphere Radiocarbon Age Calibration Curve (0–55 cal kBP) , 2020, Radiocarbon.
[13] William E. Banks. Puzzling out the Middle-to-Upper Palaeolithic transition , 2020, Nature Ecology & Evolution.
[14] M. Meyer,et al. Initial Upper Palaeolithic Homo sapiens from Bacho Kiro Cave, Bulgaria , 2020, Nature.
[15] A. Rodríguez-Hidalgo,et al. Taphonomic criteria for identifying Iberian lynx dens in quaternary deposits , 2020, Scientific Reports.
[16] F. d’Errico,et al. Last Interglacial Iberian Neandertals as fisher-hunter-gatherers , 2020, Science.
[17] L. Arnold,et al. Refining the chronology of Acheulean deposits at Porto Maior in the River Miño basin (Galicia, Spain) using a comparative luminescence and ESR dating approach , 2020 .
[18] T. Higham,et al. Challenges in sample processing within radiocarbon dating and their impact in 14C-dates-as-data studies , 2020 .
[19] B. Benito,et al. A multi-dating approach to age-modelling long continental records: The 135 ka El Cañizar de Villarquemado sequence (NE Spain) , 2019, Quaternary Geochronology.
[20] C. Zollikofer,et al. The sequence at Carihuela Cave and its potential for research into Neanderthal ecology and the Mousterian in southern Spain , 2019, Quaternary Science Reviews.
[21] Annamaria Ronchitelli,et al. Neanderthal activity and resting areas from stratigraphic unit 13 at the Middle Palaeolithic site of Oscurusciuto (Ginosa - Taranto, Southern Italy) , 2019, Quaternary Science Reviews.
[22] J. Arsuaga,et al. New bracketing luminescence ages constrain the Sima de los Huesos hominin fossils (Atapuerca, Spain) to MIS 12. , 2019, Journal of human evolution.
[23] S. Talamo,et al. The Middle-to-Upper Paleolithic transition occupations from Cova Foradada (Calafell, NE Iberia) , 2019, PloS one.
[24] J. Arsuaga,et al. Single-grain OSL dating of the Middle Palaeolithic site of Galería de las Estatuas, Atapuerca (Burgos, Spain) , 2019, Quaternary Geochronology.
[25] P. Guillem,et al. ESR/U-series chronology of early Neanderthal occupations at Cova Negra (Valencia, Spain) , 2019, Quaternary Geochronology.
[26] C. Stringer,et al. An early Aurignacian arrival in southwestern Europe , 2019, Nature Ecology & Evolution.
[27] E. Carbonell,et al. Single-grain TT-OSL bleaching characteristics: Insights from modern analogues and OSL dating comparisons , 2018, Quaternary Geochronology.
[28] R. Albert,et al. The early Upper Palaeolithic of Cova de les Cendres (Alicante, Spain) , 2017, Quaternary International.
[29] A. Benito‐Calvo,et al. A bunch of refits: 497D blade knapping assemblage of the Early Upper Paleolithic in Cova Gran (Northeast Iberia) , 2018, Archaeological and Anthropological Sciences.
[30] M. de la Rasilla,et al. Chronological reassessment of the Middle to Upper Paleolithic transition and Early Upper Paleolithic cultures in Cantabrian Spain , 2018, PloS one.
[31] Gilliane F. Monnier,et al. A review of infrared spectroscopy in microarchaeology: Methods, applications, and recent trends , 2018 .
[32] J. Zilhão,et al. U-Th dating of carbonate crusts reveals Neandertal origin of Iberian cave art , 2018, Science.
[33] D. Hoffmann,et al. Palaeoenvironments of the last Neanderthals in SW Europe (MIS 3): Cova del Coll Verdaguer (Barcelona, NE of Iberian Peninsula , 2017 .
[34] G. Stoops,et al. Archaeological soil and sediment micromorphology , 2017 .
[35] S. Miko,et al. Late Quaternary sea-level changes and early human societies in the central and eastern Mediterranean Basin: An interdisciplinary review , 2017 .
[36] J. Alcolea-González,et al. A context for the last Neandertals of interior Iberia: Los Casares cave revisited , 2017, PloS one.
[37] K. Harvati,et al. Hunted or Scavenged Neanderthals? Taphonomic Approach to Hominin Fossils with Carnivore Damage , 2017 .
[38] D. Cabanes,et al. On the track of anthropogenic activity in carnivore dens: Altered combustion structures in Cova del Gegant (NE Iberian Peninsula) , 2017 .
[39] J. Zilhão,et al. U-series dating of Palaeolithic rock art at Fuente del Trucho (Aragón, Spain) , 2017 .
[40] J. Zilhão,et al. Precise dating of the Middle-to-Upper Paleolithic transition in Murcia (Spain) supports late Neandertal persistence in Iberia , 2017, Heliyon.
[41] R. Blasco,et al. Site formation dynamics and human occupations at Bolomor Cave (Valencia, Spain): An archaeostratigraphic analysis of levels I to XII (100–200 ka) , 2016 .
[42] J. Zilhão,et al. Methods for U-series dating of CaCO3 crusts associated with Palaeolithic cave art and application to Iberian sites , 2016 .
[43] Nigel A. Spooner,et al. OSL dating of individual quartz ‘supergrains’ from the Ancient Middle Palaeolithic site of Cuesta de la Bajada, Spain , 2016 .
[44] M. Stein,et al. Eastern Mediterranean sea levels through the last interglacial from a coastal-marine sequence in northern Israel , 2016 .
[45] M. Méndez,et al. Latitudinal gradients and indicator species in ungulate paleoassemblages during the MIS 3 in W Europe , 2016 .
[46] T. Higham,et al. El Castillo (Cantabria, northern Iberia) and the Transitional Aurignacian: Using radiocarbon dating to assess site taphonomy , 2016 .
[47] Janet Kelso,et al. Nuclear DNA sequences from the Middle Pleistocene Sima de los Huesos hominins , 2016, Nature.
[48] R. Sala,et al. Extended-range luminescence chronologies suggest potentially complex bone accumulation histories at the Early-to-Middle Pleistocene palaeontological site of Huéscar-1 (Guadix-Baza basin, Spain) , 2015 .
[49] M. de la Rasilla,et al. Possible Further Evidence of Low Genetic Diversity in the El Sidrón (Asturias, Spain) Neandertal Group: Congenital Clefts of the Atlas , 2015, PloS one.
[50] C. Ramsey,et al. Improved age estimates for key Late Quaternary European tephra horizons in the RESET lattice , 2015 .
[51] Swapan Mallick,et al. An early modern human from Romania with a recent Neanderthal ancestor , 2015, Nature.
[52] S. Sawyer,et al. The makers of the Protoaurignacian and implications for Neandertal extinction , 2015, Science.
[53] J. Zilhão,et al. The Neandertals of northeastern Iberia: new remains from the Cova del Gegant (Sitges, Barcelona). , 2015, Journal of human evolution.
[54] H. Fischer,et al. A stratigraphic framework for abrupt climatic changes during the Last Glacial period based on three synchronized Greenland ice-core records: refining and extending the INTIMATE event stratigraphy , 2014 .
[55] C. Ramsey,et al. The timing and spatiotemporal patterning of Neanderthal disappearance , 2014, Nature.
[56] E. Carbonell,et al. Neandertal roots: Cranial and chronological evidence from Sima de los Huesos , 2014, Science.
[57] M. de la Rasilla,et al. The chronology of the earliest Upper Palaeolithic in northern Iberia: New insights from L'Arbreda, Labeko Koba and La Viña. , 2014, Journal of human evolution.
[58] J. Vergès,et al. Climate and landscape during Heinrich Event 3 in south‐western Europe: the small‐vertebrate association from Galls Carboners cave (Mont‐ral, Tarragona, north‐eastern Iberia) , 2014 .
[59] E. Carbonell,et al. Luminescence dating and palaeomagnetic age constraint on hominins from Sima de los Huesos, Atapuerca, Spain. , 2014, Journal of human evolution.
[60] Joan Daura Luján,et al. La Cova del Gegant: (Sitges, Barcelona) , 2014 .
[61] J. Zilhão,et al. Heated flint TL-dating for Gruta da Oliveira (Portugal): dosimetric challenges and comparison of chronometric data , 2014 .
[62] J. Bocquet-Appel,et al. Neanderthal Demographic Estimates , 2013, Current Anthropology.
[63] Montserrat Sanz Borràs. Patrons d’acumulació de restes de fauna del Plistocè superior al nord-est peninsular (àrea del Massís del Garraf-Ordal) , 2013 .
[64] Martin Kehl,et al. Late Neanderthals at Jarama VI (central Iberia)? , 2013, Quaternary Research.
[65] F. Iacoviello,et al. Clay minerals in cave sediments and terra rossa soils in the Montagnola Senese karst massif (Italy) , 2013 .
[66] L. Arnold,et al. OSL dating of the Middle Palaeolithic Hotel California site, Sierra de Atapuerca, north‐central Spain , 2013 .
[67] T. Higham,et al. Radiocarbon dating casts doubt on the late chronology of the Middle to Upper Palaeolithic transition in southern Iberia , 2013, Proceedings of the National Academy of Sciences.
[68] E. Bard,et al. U-series, ESR and 14C studies of the fossil remains from the Mousterian levels of Zafarraya Cave (Spain): A revised chronology of Neandertal presence , 2013 .
[69] D. Froese,et al. OSL dating of loess deposits bracketing Sheep Creek tephra beds, northwest Canada: dim and problematic single-grain OSL characteristics and their effect on multi-grain age estimates , 2013 .
[70] J. Zilhão,et al. Terrasses de la Riera dels Canyars (Gavà, Barcelona): the landscape of Heinrich Stadial 4 north of the “Ebro frontier” and implications for modern human dispersal into Iberia , 2013 .
[71] Jean-Philip Brugal,et al. First occurrence of the extinct deer Haploidoceros in the Iberian Peninsula in the Upper Pleistocene of the Cova del Rinoceront (Castelldefels, Barcelona) , 2013 .
[72] William E. Banks,et al. Human-climate interaction during the Early Upper Paleolithic: testing the hypothesis of an adaptive shift between the Proto-Aurignacian and the Early Aurignacian. , 2013, Journal of human evolution.
[73] E. Carbonell,et al. Some clarifications on the Middle-Upper Paleolithic transition in Abric Romaní: reply to Camps and Higham (2012). , 2012, Journal of human evolution.
[74] J. Arsuaga,et al. Understanding the ancient habitats of the last-interglacial (late MIS 5) Neanderthals of Central Iberia: paleoenvironmental and taphonomic evidence from the Cueva del Camino (Spain) site , 2012 .
[75] G. Schmiedl,et al. A taxonomic guide to modern benthic shelf foraminifera of the western Mediterranean Sea , 2012 .
[76] D. Froese,et al. Single-grain OSL dating of glaciofluvial quartz constrains Reid glaciation in NW Canada to MIS 6 , 2012, Quaternary Research.
[77] H. Fluck,et al. A chronicle of crisis: The Late Mousterian in north Iberia (Cueva del Esquilleu, Cantabria, Spain) , 2012 .
[78] J. Plicht,et al. Current issues in late Middle Palaeolithic chronology: New assessments from Northern Iberia , 2012 .
[79] H. Blain,et al. A coastal reservoir of terrestrial resources for neanderthal populations in north‐eastern Iberia: palaeoenvironmental data inferred from the small‐vertebrate assemblage of Cova del Gegant, Sitges, Barcelona , 2012 .
[80] Valentín Villaverde Bonilla,et al. El Gravetiense de la vertiente mediterránea ibérica: estado de la cuestión y perspectivas , 2012 .
[81] Ó. Ferreira,et al. DISTRIBUTION OF LIVING BENTHIC FORAMINIFERA ON THE NORTHERN GULF OF CADIZ CONTINENTAL SHELF , 2012 .
[82] Marco de la Rasilla Vives,et al. Pensando el Gravetiense: nuevos datos para la región cantábrica en su contexto peninsular y pirenaico , 2012 .
[83] L. Arnold,et al. Portable gamma spectrometry with cerium-doped lanthanum bromide scintillators: Suitability assessments for luminescence and electron spin resonance dating applications , 2012 .
[84] F. Iacoviello,et al. Provenance and geological significance of red mud and other clastic sediments of the Mugnano Cave (Montagnola Senese, Italy) , 2012 .
[85] T. Higham,et al. Chronology of the Middle to Upper Palaeolithic transition at Abric Romaní, Catalunya. , 2012, Journal of human evolution.
[86] Jennifer C. French,et al. Tenfold Population Increase in Western Europe at the Neandertal–to–Modern Human Transition , 2011, Science.
[87] L. Arnold,et al. Paper I – Optically stimulated luminescence (OSL) dating of perennially frozen deposits in north‐central Siberia: OSL characteristics of quartz grains and methodological considerations regarding their suitability for dating , 2011 .
[88] S. Weiner,et al. Decoupling Local Disorder and Optical Effects in Infrared Spectra: Differentiating Between Calcites with Different Origins , 2011, Advanced materials.
[89] Joan Daura Luján,et al. Procedencia estratigráfica de los restos humanos neandertales de la Cova del Gegant (Sitges, Barcelona) , 2011 .
[90] J. Bao,et al. Level 14 of Bajondillo Cave and the End of the Middle Paleolithic in the South of the Iberian Peninsula , 2011 .
[91] B. Vandermeersch,et al. Neanderthal Geographical and Chronological Variation , 2011 .
[92] J. Arsuaga,et al. Neandertal mtDNA from a Late Pleistocene Human Mandible from the Cova del Gegant (Spain) , 2011 .
[93] J. Arsuaga,et al. A Neanderthal Lower Incisor from Cova del Gegant (Sitges, Barcelona, Spain) , 2011 .
[94] S. Weiner,et al. Distinguishing between calcites formed by different mechanisms using infrared spectrometry: archaeological applications , 2010 .
[95] P. Pettitt. The Palaeolithic Origins of Human Burial , 2010 .
[96] T. Otto,et al. A new approach to study the fuel used in hearths by hunter-gatherers at the Upper Palaeolithic site of Abri Pataud (Dordogne, France) , 2010 .
[97] C. Mallol,et al. Phytolith evidence for hearths and beds in the late Mousterian occupations of Esquilleu cave (Cantabria, Spain) , 2010 .
[98] B. Valero-Garcés,et al. Steppes, savannahs, forests and phytodiversity reservoirs during the Pleistocene in the Iberian Peninsula , 2010 .
[99] J. Zilhão,et al. Stratigraphic context and direct dating of the Neandertal mandible from Cova del Gegant (Sitges, Barcelona). , 2010, Journal of human evolution.
[100] E. Carbonell,et al. A stop along the way: the role of Neanderthal groups at level III of Teixoneres Cave (Moià, Barcelona, Spain) , 2010 .
[101] S. Weiner. Microarchaeology: Beyond the Visible Archaeological Record , 2010 .
[102] P. Tuccimei,et al. Sea-Level Highstand 81,000 Years Ago in Mallorca , 2010, Science.
[103] J. Zilhão,et al. Pego do Diabo (Loures, Portugal): Dating the Emergence of Anatomical Modernity in Westernmost Eurasia , 2010, PloS one.
[104] Georges Stoops,et al. Interpretation of micromorphological features of soils and regoliths , 2010 .
[105] Jorge Martínez Moreno,et al. Restos de neandertales y hiénidos en la Península Ibérica , 2010 .
[106] Peter J. Bradbury,et al. The Last Glacial Maximum , 2009, Science.
[107] R. Galbraith,et al. A revised burial dose estimation procedure for optical dating of young and modern-age sediments , 2009 .
[108] L. Arnold,et al. Stochastic modelling of multi-grain equivalent dose (De) distributions: implications for OSL dating of sediment mixtures , 2009 .
[109] Marco Peresani,et al. Problems with radiocarbon dating the Middle to Upper Palaeolithic transition in Italy , 2009 .
[110] Christopher E. Miller,et al. Bedding, hearths, and site maintenance in the Middle Stone Age of Sibudu Cave, KwaZulu-Natal, South Africa , 2009 .
[111] S. Condemi,et al. Genetic Evidence of Geographical Groups among Neanderthals , 2009, PloS one.
[112] 吕一旭 Yixu Lu. 引言 (Introduction) , 2009, Provincial China.
[113] Christopher Bronk Ramsey,et al. BAYESIAN ANALYSIS OF RADIOCARBON DATES , 2009 .
[114] C. Bronk Ramsey. Dealing with Outliers and Offsets in Radiocarbon Dating , 2009, Radiocarbon.
[115] José‐Manuel Maíllo‐Fernández,et al. The Transitional Aurignacian and the Middle-Upper Palaeolithic Transition Model in Cantabrian Iberia , 2009 .
[116] G. Bailey,et al. The coastal shelf of the Mediterranean and beyond: Corridor and refugium for human populations in the Pleistocene , 2008 .
[117] C. Ramsey,et al. Optically stimulated luminescence dating of single and multiple grains of quartz from perennially frozen loess in western Yukon Territory, Canada: Comparison with radiocarbon chronologies for the late Pleistocene Dawson tephra , 2008 .
[118] M. Taviani,et al. The 100‐ka and rapid sea level changes recorded by prograding shelf sand bodies in the Gulf of Lions (western Mediterranean Sea) , 2008 .
[119] Jean-Philip Brugal,et al. Systematic revision of the endemic deerHaploidoceros n. gen.mediterraneus (Bonifay, 1967) (Mammalia, Cervidae) from the Middle Pleistocene of Southern France , 2008 .
[120] D. Hoffmann. 230Th isotope measurements of femtogram quantities for U-series dating using multi ion counting (MIC) MC-ICPMS , 2008 .
[121] J. Duprat,et al. Contrasting impacts of Dansgaard-Oeschger events over a western European latitudinal transect modulated by orbital parameters , 2008 .
[122] E. Willerslev,et al. Optical dating of perennially frozen deposits associated with preserved ancient plant and animal DNA in north-central Siberia , 2008 .
[123] Joan Daura Luján. Caracteritzacio arqueologica i paleontologica dels jaciments plistocens: massis del garraf ordal i curs baix del riu Llobregat , 2008 .
[124] Eelco J. Rohling,et al. High rates of sea-level rise during the last interglacial period , 2008 .
[125] D. Richards,et al. Procedures for accurate U and Th isotope measurements by high precision MC-ICPMS , 2007 .
[126] Geoff Bailey,et al. Time perspectives, palimpsests and the archaeology of time , 2007 .
[127] D. Ford,et al. Karst Hydrogeology and Geomorphology , 2007 .
[128] M. Soressi,et al. The Pech-de-l'Azé I Neandertal child: ESR, uranium-series, and AMS 14C dating of its MTA type B context. , 2007, Journal of human evolution.
[129] D. Ford,et al. Karst Hydrogeology and Geomorphology: Ford/Karst Hydrogeology and Geomorphology , 2007 .
[130] S. Weiner,et al. Sediments exposed to high temperatures: reconstructing pyrotechnological processes in Late Bronze and Iron Age Strata at Tel Dor (Israel) , 2007 .
[131] I. Martínez,et al. New Neandertal remains from Cova Negra (Valencia, Spain). , 2007, Journal of human evolution.
[132] G. Tucker,et al. Statistical treatment of fluvial dose distributions from southern Colorado arroyo deposits , 2007 .
[133] J. Zilhão. Chronostratigraphy of the middle-to-upper paleolithic transition in the Iberian peninsula , 2014 .
[134] M. Taviani,et al. Shoreface migrations at the shelf edge and sea-level changes around the Last Glacial Maximum (Gulf of Lions, NW Mediterranean) , 2006 .
[135] M. Rabineau,et al. Paleo sea levels reconsidered from direct observation of paleoshoreline position during glacial maxima (for the last 500,000 yr) , 2006 .
[136] L. Arnold,et al. Statistical modelling of single grain quartz De distributions and an assessment of procedures for estimating burial dose , 2006 .
[137] P. Tuccimei,et al. Last interglacial sea level changes in Mallorca island (Western Mediterranean). High precision U-series data from phreatic overgrowths on speleothems , 2006 .
[138] John W. Murray,et al. Ecology and applications of benthic foraminifera , 2006 .
[139] J. Arsuaga,et al. A Neandertal mandible from the Cova del Gegant (Sitges, Barcelona, Spain). , 2005, Journal of human evolution.
[140] L. Straus. A mosaic of change : the Middle-Upper Paleolithic transition as viewed from New Mexico and Iberia , 2005 .
[141] María Dolores Garralda Benajes. Los Neandertales en la Península Ibércia , 2005 .
[142] M. Vaquero,et al. Problemática cronológica del final del Paleolítico Medio en el Norte Peninsular , 2005 .
[143] J Schwander,et al. High-resolution record of Northern Hemisphere climate extending into the last interglacial period , 2004, Nature.
[144] M. Rabenhorst. Guidelines for Analysis and Description of Soil and Regolith Thin Sections , 2004 .
[145] J. Dias,et al. Factors influencing recent benthic foraminifera distribution on the Guadiana shelf (Southwestern Iberia) , 2004 .
[146] A. Rosen,et al. Human Behavioral Organization in the Middle Paleolithic: Were Neanderthals Different? , 2004 .
[147] M. Canals,et al. The role of dust in abrupt climate change: insights from offshore Northwest Africa and Alboran Sea sediment records , 2004 .
[148] L. Barillé,et al. Correction for particulate organic matter as estimated by loss on ignition in estuarine ecosystems , 2003 .
[149] A. Murray,et al. Environmental dose rate heterogeneity of beta radiation and its implications for luminescence dating: Monte Carlo modelling and experimental validation , 2003 .
[150] S. Huot,et al. Measurement of anomalous fading for feldspar IRSL using SAR , 2003 .
[151] J. Grimalt,et al. Saharan Dust Transport and High-Latitude Glacial Climatic Variability: The Alboran Sea Record , 2002, Quaternary Research.
[152] P. Pettitt. The Neanderthal dead: exploring mortuary variability in Middle Palaeolithic Eurasia , 2002 .
[153] S. Weiner,et al. Site formation processes at Zhoukoudian, China. , 2001, Journal of human evolution.
[154] M. Lamothe,et al. Ubiquity of anomalous fading in K-feldspars and the measurement and correction for it in optical dating , 2001 .
[155] S. Weiner,et al. Diagenesis in Prehistoric Caves: the Use of Minerals that Form In Situ to Assess the Completeness of the Archaeological Record , 2000 .
[156] Hai Cheng,et al. The half-lives of uranium-234 and thorium-230 , 2000 .
[157] B. Flemming. A revised textural classification of gravel-free muddy sediments on the basis of ternary diagrams , 2000 .
[158] H. Prosper. Bayesian Analysis , 2000, hep-ph/0006356.
[159] G. Laslett,et al. OPTICAL DATING OF SINGLE AND MULTIPLE GRAINS OF QUARTZ FROM JINMIUM ROCK SHELTER, NORTHERN AUSTRALIA: PART I, EXPERIMENTAL DESIGN AND STATISTICAL MODELS* , 1999 .
[160] G. Caitcheon,et al. The origin of dose distributions in fluvial sediments, and the prospect of dating single grains from fluvial deposits using optically stimulated luminescence , 1999 .
[161] M. Aitken,et al. An Introduction to Optical Dating: The Dating of Quaternary Sediments by the Use of Photon-Stimulated Luminescence , 1998 .
[162] F. d’Errico,et al. Neanderthal Acculturation in Western Europe? A Critical Review of the Evidence and Its Interpretation1 , 1998, Current Anthropology.
[163] J. Arsuaga,et al. The carnivore remains from the Sima de los Huesos Middle Pleistocene site (Sierra de Atapuerca, Spain). , 1997, Journal of human evolution.
[164] E. Carbonell,et al. Dating of the basal aurignacian sandwich at Abric Romaní (Catalunya, Spain) by radiocarbon and Uranium-Series , 1994 .
[165] M. Antunes,et al. Neanderthalian remains fromFigueira Brava cave, Portugal , 1992 .
[166] K. Hawkes,et al. Distribution of Refuse-Producing Activities at Hadza Residential Base Camps , 1991 .
[167] Richard I. Macphail,et al. Soils and Micromorphology in Archaeology , 1990 .
[168] E. Kristensen. Characterization of biogenic organic matter by stepwise thermogravimetry (STG) , 1990 .
[169] S. Weiner,et al. States of preservation of bones from prehistoric sites in the Near East: A survey , 1990 .
[170] N. Holden. Total half-lives for selected nuclides , 1990 .
[171] R. Chester. The atmospheric transport of clay minerals to the world ocean , 1990 .
[172] C. Gomes,et al. Argilas: O Que São e Para Que Servem , 1988 .
[173] A. Jongerius,et al. Handbook for Soil Thin Section Description , 1987 .
[174] R. Laane,et al. A comparison of wet oxidation and loss on ignition of organic material in suspended matter , 1983 .
[175] D. Mook,et al. Organic determinations by ignition: Caution advised , 1982 .
[176] Gerald M. Friedman,et al. Principles of sedimentology , 1978 .
[177] A. Wintle,et al. Anomalous Fading of Thermo-luminescence in Mineral Samples , 1973, Nature.
[178] P. Broughton. Origin and distribution of mineral species in limestone caves , 1971 .
[179] A. H. Jaffey,et al. Precision Measurement of Half-Lives and Specific Activities of U-235 and U238 , 1971 .
[180] J. Hayes,et al. Late Roman Pottery , 1970, Papers of the British School at Rome.
[181] R. Bandinelli,et al. Enciclopedia dell'arte antica, classica e orientale , 1958 .
[182] R. Folk,et al. Brazos River bar [Texas]; a study in the significance of grain size parameters , 1957 .