# | Title | Journal | Year | Citations |
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1 | Consilience of genetics and archaeobotany in the entangled history of rice | Archaeological and Anthropological Sciences | 2010 | 319 |
2 | Bedding, hearths, and site maintenance in the Middle Stone Age of Sibudu Cave, KwaZulu-Natal, South Africa | Archaeological and Anthropological Sciences | 2009 | 259 |
3 | Macronutrient-based model for dietary carbon routing in bone collagen and bioapatite | Archaeological and Anthropological Sciences | 2012 | 241 |
4 | Establishing collagen quality criteria for sulphur isotope analysis of archaeological bone collagen | Archaeological and Anthropological Sciences | 2009 | 206 |
5 | Metal provenancing using isotopes and the Oxford archaeological lead isotope database (OXALID) | Archaeological and Anthropological Sciences | 2009 | 187 |
6 | A study of dimensional differences of tooth marks (pits and scores) on bones modified by small and large carnivores | Archaeological and Anthropological Sciences | 2012 | 146 |
7 | Moving agriculture onto the Tibetan plateau: the archaeobotanical evidence | Archaeological and Anthropological Sciences | 2014 | 140 |
8 | Archaeological collagen: Why worry about collagen diagenesis? | Archaeological and Anthropological Sciences | 2009 | 125 |
9 | Rice or millets: early farming strategies in prehistoric central Thailand | Archaeological and Anthropological Sciences | 2010 | 125 |
10 | Continent-wide or region-specific? A geometric morphometrics-based assessment of variation in Clovis point shape | Archaeological and Anthropological Sciences | 2014 | 107 |
11 | Collagen fingerprinting of archaeological bone and teeth remains from Domuztepe, South Eastern Turkey | Archaeological and Anthropological Sciences | 2011 | 100 |
12 | Strontium isotopes and human mobility in prehistoric Denmark | Archaeological and Anthropological Sciences | 2012 | 94 |
13 | New data and new issues for the study of origin of rice agriculture in China | Archaeological and Anthropological Sciences | 2010 | 93 |
14 | Archaeogenetic study of prehistoric rice remains from Thailand and India: evidence of early japonica in South and Southeast Asia | Archaeological and Anthropological Sciences | 2016 | 87 |
15 | Glass groups, glass supply and recycling in late Roman Carthage | Archaeological and Anthropological Sciences | 2017 | 83 |
16 | A novel and non-destructive approach for ZooMS analysis: ammonium bicarbonate buffer extraction | Archaeological and Anthropological Sciences | 2011 | 80 |
17 | The differential survival of native starch during cooking and implications for archaeological analyses: a review | Archaeological and Anthropological Sciences | 2012 | 74 |
18 | Prehistoric copper production and technological reproduction in the Khao Wong Prachan Valley of Central Thailand | Archaeological and Anthropological Sciences | 2010 | 73 |
19 | Experimental chemical degradation compared to natural diagenetic alteration of collagen: implications for collagen quality indicators for stable isotope analysis | Archaeological and Anthropological Sciences | 2009 | 72 |
20 | Millet microremains—an alternative approach to understand cultivation and use of critical crops in Prehistory | Archaeological and Anthropological Sciences | 2016 | 71 |
21 | Zanzibar and Indian Ocean trade in the first millennium CE: the glass bead evidence | Archaeological and Anthropological Sciences | 2017 | 71 |
22 | Investigating the role of food processing in human evolution: a niche construction approach | Archaeological and Anthropological Sciences | 2011 | 70 |
23 | The emergence of rice agriculture in Korea: archaeobotanical perspectives | Archaeological and Anthropological Sciences | 2010 | 69 |
24 | Ceramic technology. How to reconstruct the firing process | Archaeological and Anthropological Sciences | 2020 | 69 |
25 | Where are the roofs? A geo-ethnoarchaeological study of mud brick structures and their collapse processes, focusing on the identification of roofs | Archaeological and Anthropological Sciences | 2014 | 68 |
26 | Siberia and neighboring regions in the Last Glacial Maximum: did people occupy northern Eurasia at that time? | Archaeological and Anthropological Sciences | 2018 | 66 |
27 | Chemical composition and colouring agents of Roman mosaic and millefiori glass, studied by electron microprobe analysis and Raman microspectroscopy | Archaeological and Anthropological Sciences | 2009 | 63 |
28 | The use of reflectance values for the interpretation of natural and anthropogenic charcoal assemblages | Archaeological and Anthropological Sciences | 2009 | 63 |
29 | The composition of colourless glass: a review | Archaeological and Anthropological Sciences | 2017 | 60 |
30 | Ceramic technology: how to recognize clay processing | Archaeological and Anthropological Sciences | 2020 | 58 |
31 | Pig diet in medieval York: carbon and nitrogen stable isotopes | Archaeological and Anthropological Sciences | 2013 | 57 |
32 | Phytolith identification criteria for foxtail and broomcorn millets: a new approach to calculating crop ratios | Archaeological and Anthropological Sciences | 2016 | 57 |
33 | Applications of micromorphology to understanding activity areas and site formation processes in experimental hut floors | Archaeological and Anthropological Sciences | 2015 | 56 |
34 | Critical review of the MNI (minimum number of individuals) as a zooarchaeological unit of quantification | Archaeological and Anthropological Sciences | 2012 | 55 |
35 | Pigments—Lead-based whites, reds, yellows and oranges and their alteration phases | Archaeological and Anthropological Sciences | 2022 | 55 |
36 | The measurement of taxonomic evenness in zooarchaeology | Archaeological and Anthropological Sciences | 2018 | 53 |
37 | Ceramic technology. How to characterise ceramic glazes | Archaeological and Anthropological Sciences | 2020 | 51 |
38 | High-resolution radiocarbon dating of marine materials in archaeological contexts: radiocarbon marine reservoir variability between Anadara, Gafrarium, Batissa, Polymesoda spp. and Echinoidea at Caution Bay, Southern Coastal Papua New Guinea | Archaeological and Anthropological Sciences | 2013 | 50 |
39 | Tracing Roman lead sources using lead isotope analyses in conjunction with archaeological and epigraphic evidence—a case study from Augustan/Tiberian Germania | Archaeological and Anthropological Sciences | 2009 | 49 |
40 | Ceramic raw materials: how to recognize them and locate the supply basins: chemistry | Archaeological and Anthropological Sciences | 2020 | 49 |
41 | Small preys and plant exploitation by late pleistocene hunter–gatherers. A case study from the Northeast of the Iberian Peninsula | Archaeological and Anthropological Sciences | 2010 | 48 |
42 | What causes failure (overheating) during lithic heat treatment? | Archaeological and Anthropological Sciences | 2014 | 48 |
43 | Potential of non-traditional isotope studies for bioarchaeology | Archaeological and Anthropological Sciences | 2017 | 48 |
44 | Stratigraphic and spatial variability in shell middens: microfacies identification at the ethnohistoric site Tunel VII (Tierra del Fuego, Argentina) | Archaeological and Anthropological Sciences | 2011 | 46 |
45 | Phytolith analysis for the identification of barnyard millet (Echinochloa sp.) and its implications | Archaeological and Anthropological Sciences | 2018 | 46 |
46 | Mortars and plasters—how to characterise hydraulic mortars | Archaeological and Anthropological Sciences | 2021 | 46 |
47 | New insights into Neolithic milk consumption through proteomic analysis of dental calculus | Archaeological and Anthropological Sciences | 2019 | 45 |
48 | Millet, the late comer: on the tracks of Panicum miliaceum in prehistoric Greece | Archaeological and Anthropological Sciences | 2016 | 44 |
49 | Lead isotopic measurements in archeological objects | Archaeological and Anthropological Sciences | 2009 | 43 |
50 | Archaeometry meets archaeozoology: Viking Haithabu and medieval Schleswig reconsidered | Archaeological and Anthropological Sciences | 2012 | 43 |