Bibliography for ARC2130 / ARCM130 BETA

1.

Ambrose, S. H. & Krigbaum, J. Bone chemistry and bioarchaeology. Journal of Anthropological Archaeology 22, 193–199 (2003).

2.

Bentley, R. A. Strontium Isotopes from the Earth to the Archaeological Skeleton: A Review. Journal of Archaeological Method and Theory 13, 135–187 (2006).

3.

World Archaeology: Stable Isotopes. 45, (2013).

4.

Evershed, R. P. Organic residue analysis in archaeology: the archaeological biomarker revolution. Archaeometry 50, 895–924 (2008).

5.

The Encyclopedia of Archaeological Sciences. (Wiley-Blackwell, 2019).

6.

MacHugh, D. E., Larson, G. & Orlando, L. Taming the Past: Ancient DNA and the Study of Animal Domestication. Annual Review Of Animal Biosciences 5, 329–351 (2017).

7.

Matisoo-Smith, L. & Horsburgh, K. A. DNA for Archaeologists. (Left Coast Press, 2012).

8.

Pollard, A. M., Batt, C. M., Stern, B. & Young, S. M. M. Analytical Chemistry in Archaeology. (Cambridge University Press, 2007).

9.

Brothwell, D. R. & Pollard, A. M. Handbook of archaeological sciences. (Wiley, 2001).

10.

Brown, T. A. & Brown, K. Biomolecular archaeology: an introduction. (Wiley-Blackwell, 2011).

11.

Eriksson, G. Chapter: The Nature of the Evidence - Stable Isotope Analysis of Humans. in The Oxford Handbook of the Archaeology of Death and Burial 123–146 (2013).

12.

Kohn, M. J. & Cerling, T. E. Stable Isotope Compositions of Biological Apatite. Reviews in Mineralogy and Geochemistry 48, 455–488 (2002).

13.

Lee-Thorp, J. A. On Isotopes and Old Bones. Archaeometry 50, 925–950 (2008).

14.

Leng, M. J. Isotopes in palaeoenvironmental research. vol. 10 (Springer, 2006).

15.

Orlando, L., Gilbert, M. T. & Willerslev, E. Reconstructing Ancient Genomes and Epigenomes. Nature Reviews. Genetics 16, 395–408 (2015).

16.

Pearson, M. P. et al. Beaker People in Britain: Migration, Mobility and Diet. Antiquity 90, 620–637 (2016).

17.

Price, T. D., Arcini, C., Gustin, I., Drenzel, L. & Kalmring, S. Isotopes and Human Burials at Viking Age Birka and the Malaren Region, East Central Sweden. Journal of Anthropological Archaeology 49, 19–38 (2018).

18.

Schoeninger, M. J. Stable Isotope Analyses and the Evolution of Human Diets. Annual Review of Anthropology 43, 413–430 (2014).

19.

English Heritage. Organic Residue Analysis and Archaeology | English Heritage.

20.

Janet Montgomery - Isotope Analysis of Skeletons - YouTube.

21.

Ambrose, S. H. & Krigbaum, J. Bone chemistry and bioarchaeology [in] Journal of Anthropological Archaeology. Journal of Anthropological Archaeology 22, 193–199 (2003).

22.

Evershed, R. P. Organic residue analysis in archaeology: the archaeological biomarker revolution. Archaeometry 50, 895–924 (2008).

23.

Kendall, C., Eriksen, A. M., Kontopoulos, I., Collins, M. & Turner-Walker, G. Diagenesis of Archaeological Bone and Tooth. Palaeogeography, Palaeoclimatology, Palaeoecology 491, 21–37 (2018).

24.

Lamb, A. L. Stable Isotope Analysis of Soft Tissues From Mummified Human Remains. Environmental Archaeology 21, 271–284 (2016).

25.

Ramsey, C. B. Radiocarbon Dating: Revolutions in Understanding. Archaeometry 50, 249–275 (2008).

26.

Muccio, Z. & Jackson, G. P. Isotope Ratio Mass Spectrometry. Analyst 134, 213–222 (2009).

27.

Peterson, B. J. & Fry, B. Stable Isotopes in Ecosystem Studies. Annual Review of Ecology and Systematics 18, 293–320 (1987).

28.

Stern, B., Pollard, A. M., Batt, C. M. & Young, S. M. M. Analytical Chemistry in Archaeology. (2007).

29.

Pollard, M., Batt, C., Stern, B. & Young, S. M. M. Chapter 10: Atoms, Isotopes, Electron Orbitals and the Periodic Table. in Analytical chemistry in archaeology (Cambridge University Press, 2007).

30.

Schoeninger, M. J. Stable Isotope Studies in Human Evolution. Evolutionary Anthropology: Issues, News and Reviews 4, 83–98 (1995).

31.

Michener, R. H. & Lajtha, K. Stable Isotopes in Ecology and Environmental Science. (Blackwell, 2007).

32.

Richards, M. P., Hedges, R. E. M. & Stevens, R. E. Bone as a Stable Isotope Archive for Local Climatic Information. Quaternary Science Reviews 23, 959–965 (2004).

33.

Hedges, R. E. M., Stevens, R. E. & Koch, P. L. Isotopes in Bones and Teeth. in Isotopes in Palaeoenvironmental Research vol. 10 117–145 (Springer, 2006).

34.

Lee-Thorp, J. A. On Isotopes and Old Bones. Archaeometry 50, 925–950 (2008).

35.

Nehlich, O. The Application of Sulphur Isotope Analyses in Archaeological Research: A Review. Earth-Science Reviews 142, 1–17 (2015).

36.

Barrett, J. H. et al. Interpreting the expansion of sea fishing in medieval Europe using stable isotope analysis of archaeological cod bones. Journal of Archaeological Science 38, 1516–1524 (2011).

37.

Cook, G. T. et al. A Freshwater Diet-Derived 14C Reservoir Effect at the Stone Age Sites in the Iron Gates Gorge. Radiocarbon 43, 453–460 (2001).

38.

Clementz, M. T., Fox-Dobbs, K., Wheatley, P. V., Koch, P. L. & Doak, D. F. Revisiting old bones: coupled carbon isotope analysis of bioapatite and collagen as an ecological and palaeoecological tool. Geological Journal 44, 605–620 (2009).

39.

Drucker, D. G. et al. Isotopic analyses suggest mammoth and plant in the diet of the oldest anatomically modern humans from far southeast Europe. Scientific Reports 7, (2017).

40.

Farquhar, G. D., Ehleringer, J. R. & Hubick, K. T. Carbon Isotope Discrimination and Photosynthesis. Annual Review of Plant Physiology and Plant Molecular Biology 40, 503–537 (1989).

41.

Haydock, H., Clarke, L., Craig-Atkins, E., Howcroft, R. & Buckberry, J. Weaning at Anglo-Saxon raunds: Implications for changing breastfeeding practice in britain over two millennia. American Journal of Physical Anthropology 151, 604–612 (2013).

42.

Heaton, T. H. E. Spatial, Species, and Temporal Variations in the13C/12C Ratios of C3Plants: Implications for Palaeodiet Studies. Journal of Archaeological Science 26, 637–649 (1999).

43.

Iacumin, P., Davanzo, S. & Nikolaev, V. Spatial and temporal variations in the 13C/12C and 15N/14N ratios of mammoth hairs: Palaeodiet and palaeoclimatic implications. Chemical Geology 231, 16–25 (2006).

44.

Jaouen, K., Beasley, M., Schoeninger, M., Hublin, J. & Richards, M. P. Zinc isotope ratios of bones and teeth as new dietary indicators: results from a modern food web (Koobi Fora, Kenya). Scientific Reports 6, (2016).

45.

Kohn, M. J. & Cerling, T. E. Stable Isotope Compositions of Biological Apatite. Reviews in Mineralogy and Geochemistry 48, 455–488 (2002).

46.

Naito, Y. I. et al. Ecological niche of Neanderthals from Spy Cave revealed by nitrogen isotopes of individual amino acids in collagen. Journal of Human Evolution 93, 82–90 (2016).

47.

Muldner, G. & Richards, M. Diet and Diversity at Later Medieval Fishergate: The Isotopic Evidence. American Journal of Physical Anthropology 134, 162–174 (2007).

48.

Richards, M. & Muidner, G. Stable Isotope Evidence for 1500 Years of Human Diet at the City of York, UK. American Journal of Physical Anthropology 133, 682–697 (2007).

49.

Pearson, J. A. et al. Stable carbon and nitrogen isotope analysis at Neolithic Çatalhöyük: evidence for human and animal diet and their relationship to households. Journal of Archaeological Science 57, 69–79 (2015).

50.

Tieszen, L. L. Natural variations in the carbon isotope values of plants: Implications for archaeology, ecology, and paleoecology. Journal of Archaeological Science 18, 227–248 (1991).

51.

White, C. D. Isotopic Determination of Seasonality in Diet and Death from Nubian Mummy Hair. Journal of Archaeological Science 20, 657–666 (1993).

52.

Blog | Stable Isotopes in Zooarchaeology | A Working Group of the International Council for Archaeozoology. https://sizwg.wordpress.com/blog/.

53.

Centre for Innovation - Leiden University. 3.2 Paleodiet: Principles of Stable Isotope Analysis - YouTube. (2017).

54.

Darling, W. G. Hydrological Factors in the Interpretation of Stable Isotopic Proxy Data Present and Past: A European Perspective. Quaternary Science Reviews 23, 743–770 (2004).

55.

Darling, W. G., Bath, A. H., Gibson, J. J. & Rozanski, K. Chapter 6: Isotopes in Water. in Isotopes in Palaeoenvironmental Research vol. 10 1–66 (Springer, 2006).

56.

Leng, M. J. & Lewis, J. P. Oxygen isotopes in Molluscan shell: Applications in environmental archaeology. Environmental Archaeology 21, 295–306 (2016).

57.

McDermott, F. Palaeo-Climate Reconstruction From Stable Isotope Variations in Speleothems: A Review. Quaternary Science Reviews 23, 901–918 (2004).

58.

Blumenthal, S. A. et al. Stable Isotope Time-Series in Mammalian Teeth: In Situ δ18O From the Innermost Enamel Layer. Geochimica et Cosmochimica Acta 124, 223–236 (2014).

59.

Dansgaard, W. Stable Isotopes in Precipitation. Tellus 16, 436–468 (1964).

60.

Gourcy, L. L., Groening, M. & Aggarwal, P. K. Chapter 4: Stable Oxygen and Hydrogen Isotopes in Precipitation. in Isotopes in the Water Cycle: Past, Present and Future of a Developing Science 39–51 (International Atomic Energy Agency (IAEA), 2005).

61.

Lee-Thorp, J. A. & Ecker, M. Holocene Environmental Change at Wonderwerk Cave, South Africa: Insights from Stable Light Isotopes in Ostrich Eggshell. African Archaeological Review 32, 793–811 (2015).

62.

McDermott, F. Palaeo-climate reconstruction from stable isotope variations in speleothems: a review. Quaternary Science Reviews 23, 901–918 (2004).

63.

Müller, U. C. et al. The Role of Climate in the Spread of Modern Humans into Europe. Quaternary Science Reviews 30, 273–279 (2011).

64.

Pryor, A. J. E., O’Connell, T. C., Wojtal, P., Krzemińska, A. & Stevens, R. E. Investigating Climate at the Upper Palaeolithic Site of Kraków Spadzista Street (B) Poland, Using Oxygen Isotopes. Quaternary International 294, 108–119 (2013).

65.

Pryor, A. J. E., Stevens, R. E., O’Connell, T. C. & Lister, J. R. Quantification and Propagation of Errors When Converting Vertebrate Biomineral Oxygen Isotope Data to Temperature for Palaeoclimate Reconstruction. Palaeogeography, Palaeoclimatology, Palaeoecology 412, 99–107 (2014).

66.

Rozanski, D., Araguas-Araguas, L. & Gonfiantini, R. Isotopic patterns in modern global precipitation. (1993).

67.

Tütken, T., Furrer, H. & Walter Vennemann, T. Stable Isotope Compositions of Mammoth Teeth From Niederweningen, Switzerland: Implications for the Late Pleistocene Climate, Environment and Diet. Quaternary International 164–165, 139–150 (2007).

68.

O’Connell, T. C., Kneale, C. J., Tasevska, N. & Kuhnle, G. G. C. The Diet-Body Offset in Human Nitrogen Isotopic Values: A Controlled Dietary Study. American Journal of Physical Anthropology 149, 426–434 (2012).

69.

O’Connell, T. C. & Hedges, R. E. M. Investigations into the Effect of Diet on Modern Human Hair Isotopic Values. American Journal of Physical Anthropology 108, 409–425 (1999).

70.

O’Connell, T. C. & Hedges, R. E. M. Isotopic Comparison of Hair and Bone: Archaeological Analyses. Journal of Archaeological Science 26, 661–665 (1999).

71.

O’Connell, T. C., Hedges, R. E. M., Healey, M. A. & Simpson, A. H. R. W. Isotopic Comparison of Hair, Nail and Bone: Modern Analyses. Journal of Archaeological Science 28, 1247–1255 (2001).

72.

Bentley, R. A. Strontium Isotopes from the Earth to the Archaeological Skeleton: A Review. Journal of Archaeological Method and Theory 13, 135–187 (2006).

73.

Evans, J. A., Chenery, C. A. & Montgomery, J. A Summary of Strontium and Oxygen Isotope Variation in Archaeological Human Tooth Enamel Excavated From Britain. JAAS (Journal of Analytical Atomic Spectrometry) 27, 754–764 (2012).

74.

Bentley, R. A. et al. Community Differentiation and Kinship Among Europe’s First Farmers. Proceedings of the National Academy of Sciences 109, 9326–9330 (2012).

75.

Britton, K. et al. Strontium isotope evidence for migration in late Pleistocene Rangifer: Implications for Neanderthal hunting strategies at the Middle Palaeolithic site of Jonzac, France. Journal of Human Evolution 61, 176–185 (2011).

76.

Hoppe, K. A., Koch, P. L. & Furutani, T. T. Assessing the Preservation of Biogenic Strontium in Fossil Bones and Tooth Enamel. International Journal of Osteoarchaeology 13, 20–28 (2003).

77.

Jay, M., Montgomery, J., Nehlich, O., Towers, J. & Evans, J. British Iron Age chariot burials of the Arras culture: a multi-isotope approach to investigating mobility levels and subsistence practices. World Archaeology 45, 473–491 (2013).

78.

Kutschera, W. & Müller, W. "Isotope language” of the Alpine Iceman investigated with AMS and MS. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 204, 705–719 (2003).

79.

Meier-Augenstein, W. & Fraser, I. Forensic isotope analysis leads to identification of a mutilated murder victim. Science & Justice 48, 153–159 (2008).

80.

Müller et al., W. & Fricke, H. Origin and Migration of the Alpine Iceman. Science 302, 862–866 (5646).

81.

Pearson et al., M. Beaker People in Britain: Migration, Mobility and Diet. Antiquity 90, 620–637 (2016).

82.

Pellegrini, M., Pouncett, J., Jay, M., Pearson, M. P. & Richards, M. P. Tooth enamel oxygen ‘isoscapes’ show a high degree of human mobility in prehistoric Britain. Scientific Reports 6, (2016).

83.

Price, T. D., Knipper, C., Grupe, G. & Smrcka, V. Strontium Isotopes and Prehistoric Human Migration: The Bell Beaker Period in Central Europe. European Journal of Archaeology 7, 9–40 (2004).

84.

Price, T. D., Meiggs, D., Weber, M.-J. & Pike-Tay, A. The migration of Late Pleistocene reindeer: isotopic evidence from northern Europe. Archaeological and Anthropological Sciences 9, 371–394 (2017).

85.

Linderholm, A. Ancient DNA: The Next Generation - Chapter and Verse. Biological Journal of the Linnean Society 117, 150–160 (2016).

86.

MacHugh, D. E., Larson, G. & Orlando, L. Taming the Past: Ancient DNA and the Study of Animal Domestication. Annual Review Of Animal Biosciences 5, 329–351 (2017).

87.

Matisoo-Smith, L. & Horsburgh, K. A. DNA for Archaeologists. (Left Coast Press, 2012).

88.

Orlando, L., Gilbert, M. T. P. & Willerslev, E. Reconstructing Ancient Genomes and Epigenomes. Nature Reviews: Genetics 16, 395–408 (2015).

89.

Allentoft et al., M. E. Population genomics of Bronze Age Eurasia. Nature 522, 167–172 (2015).

90.

Ermini, L., Der Sarkissian, C., Willerslev, E. & Orlando, L. Major transitions in human evolution revisited: A tribute to ancient DNA. Journal of Human Evolution 79, 4–20 (2015).

91.

Frantz et al., L. A. Genomic and Archaeological Evidence Suggest a Dual Origin of Domestic Dogs. Science 352, 1228–1231 (2016).

92.

Llamas, B., Willerslev, E. & Orlando, L. Human evolution: a tale from ancient genomes. Philosophical Transactions Of The Royal Society Of London. Series B, Biological Sciences 372, 1–24 (2017).

93.

Loog et al., L. Inferring Allele Frequency Trajectories from Ancient DNA Indicates That Selection on a Chicken Gene Coincided with Changes in Medieval Husbandry Practices. Molecular Biology & Evolution 34, 1981–1990 (2017).

94.

Marciniak, S., Klunk, J., Devault, A., Enk, J. & Poinar, H. N. Ancient Human Genomics: The Methodology Behind Reconstructing Evolutionary Pathways. Journal of Human Evolution 79, 21–34 (2015).

95.

Nielsen et al., R. Tracing the peopling of the world through genomics. Nature 541, 302–310 (2017).

96.

Ottoni et al., C. Pig Domestication and Human-Mediated Dispersal in Western Eurasia Revealed through Ancient DNA and Geometric Morphometrics. Molecular Biology and Evolution 30, 824–832 (2013).

97.

Pääbo, S. The Human Condition—A Molecular Approach. Cell 157, 216–226 (2014).

98.

Barnard, H., Dooley, A. N. & Faull, K. F. Chapter 5: An introduction to archaeological lipid analysis by GC/MS. in Theory and practice of archaeological residue analysis vol. 1650 42–60 (Archaeopress, 2007).

99.

Evershed, R. P. Organic residue analysis in archaeology: the archaeological biomarker revolution. Archaeometry 50, 895–924 (2008).

100.

Roffet-Salque et al., M. From the inside out: Upscaling organic residue analyses of archaeological ceramics. Journal of Archaeological Science: Reports 16 (Supplement C), 627–640 (2017).

101.

Historic England Guide: Organic Residue Analysis and Archaeology.

102.

Brown, T. A. & Brown, K. Biomolecular archaeology: an introduction. (Wiley-Blackwell, 2011).

103.

Craig et al., O. E. Feeding Stonehenge: Cuisine and Consumption at the Late Neolithic Site of Durrington Walls. Antiquity 89, 1096–1109 (2015).

104.

Evershed et al., R. P. Earliest date for milk use in the Near East and southeastern Europe linked to cattle herding. Nature 455, 528–531 (2008).

105.

Heron et al., C. First Molecular and Isotopic Evidence of Millet Processing in Prehistoric Pottery Vessels. Scientific Reports 6, (2016).

106.

Pollard, A. M. Analytical Chemistry in Archaeology. (Cambridge University Press, 2007).

107.

Roffet-Salque et al., M. Widespread Exploitation of the Honeybee by Early Neolithic Farmers. Nature 527, 226–230 (2015).