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Data Bibliography: Full Citations for Data Used in Figures and Tables

Published online by Cambridge University Press:  05 August 2014

John L. Brooke
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Ohio State University
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Print publication year: 2014

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References

Allen, Robert C. “Prices and Wages in London & Southern England, 1259–1914,” Consumer price indices, nominal / real wages and welfare ratios of building craftsmen and labourers, 1260–1913, International Institute of Social History data files, available at , accessed August 8, 2012.
Angel, J. Lawrence. “Health as a Crucial Factor in the Changes from Hunting to Developed Farming in the Eastern Mediterranean,” in Cohen, Mark N. and Armelagos, George J., eds., Paleopathology at the Origins of Agriculture (New York, 1984), 51–73; 137–67.Google Scholar
Bar-Matthews, M., Ayalon, A., Gilmour, M., Matthews, A., and Hawkesworth, C. J.. “Sea-Land Oxygen Isotopic Relationships from Planktonic Foraminifera and Speleothems in the Eastern Mediterranean Region and Their Implication for Paleorainfall during Interglacial Intervals,” Geochimica et Cosmochimica Acta 67/17 (2003), 3181–99.CrossRefGoogle Scholar
Belfer-Cohen, A., Schepartz, L. A., and Arensburg, B.. “New Biological Data for the Natufian Populations of Israel,” in Bar-Yosef, Ofer and Valla, Francois R., eds., The Natufian Culture in the Levant (Ann Arbor, MI, 1991), 411–24, at 413 and 421–2.Google Scholar
Berger, A. and Loutre, M. F.. “Insolation Values for the Climate of the Last 100 Million Years,” QSR 10 (1991), 297–317.CrossRefGoogle Scholar
Bergman, Noam M., Lenton, Timothy M., and Watson, Andrew J.. “COPSE: A New Model of Biogeochemical Cycling over Phanerozoic Time,” American Journal of Science 304 (2004), 421. COPSE **fig 1.2.CrossRefGoogle Scholar
Binford, Lewis L.Constructing Frames of Reference: An Analytical Method for Archaeological Theory Building Using Hunter-Gatherer and Environmental Data Sets (Berkeley, CA, 2001), 142–4.Google Scholar
Biraben, Jean-Nöel. “Essai sur l-Évolution du Nombre des Hommes,” Population 34 (1979), 13–24.CrossRefGoogle Scholar
Bird, Broxton W., Abbott, M. B., Vuille, M., Rodbell, D. T., Stansell, N. D., and Rosenmeier, M. F.. “A 2,300-Year-Long Annually Revolved Record of the South American Summer Monsoon from the Peruvian Andes,” PNAS 108 (2011), 8583–8.CrossRefGoogle Scholar
Bocquet-Appel, Jean-Pierre. “Paleoanthropological Traces of a Neolithic Demographic Transition,” Current Anthropology 43 (2002), 637–50.CrossRefGoogle Scholar
Bocquet-Appel, Jean-PierreEstimates of Upper Paleolithic Meta-Population Size in Europe from archaeological data,” JArchS 32 (2005), 1656–68.Google Scholar
Bocquet-Appel, Jean-Pierre, and Naji, Stephan. “Testing the Hypothesis of a Worldwide Neolithic Demographic Transition: Corroboration from American Cemeteries,” Current Anthropology 47 (2006), 341–65.CrossRefGoogle Scholar
Boden, Tom, Marland, Gregg, and Andres, Bob. “Global CO2 Emissions from Fossil-Fuel Burning, Cement Manufacture, and Gas Flaring: 1751–2008” (June 10, 2011), Carbon Dioxide Information Analysis Center, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831–6290, data file at , accessed August 8, 2012.
Bond, Gerard, Kromer, Bernd, Beer, Juerg, Muscheler, Raimund, Evans, Michael N., Showers, William, Hoffmann, Sharon, Lotti-Bond, Rusty, Hajdas, Irka, and Bonani, Georges. “Persistent Solar Influence on North Atlantic Climate during the Holocene,” Science, New Series, 294 (2001), 2130–6.CrossRefGoogle ScholarPubMed
Bottema, Sytze. “The Use of Palynology in Tracing Early Agriculture,” in Cappers, R. T. J. and Bottema, S., eds., The Dawn of Farming in the Near East (Berlin, 2002), 27–38 (Huleh Oak sequence).Google Scholar
BP Statistical Review of World Energy. June 2011, available at , accessed August 8, 2012.
Brooks, E. J., et al., “Rapid variation in atmospheric methane concentration during the past 110,000 years,” Science 273 (1996), 1087–91.CrossRefGoogle Scholar
Casting, James F.When Methane Made Climate,” Scientific American 291 (July 2004), 78–85.CrossRefGoogle Scholar
Chalié, Françoise and Gasse, Françoise. “Late-Glacial-Holocene Diatom Record of Water Chemistry and Lake Level Change from the Tropical East African Rift Lake Abiyata (Ethiopia),” PPP 187 (2002), 259–83.Google Scholar
Chen, F. H., Chen, J. H., Holmes, J., Boomer, I., Austin, P., Gates, J. B., Wang, N. L., Brooks, S. J., and Zhang, J. W.. “Moisture Changes over the Last Millennium in Arid Central Asia: A Review, Synthesis and Comparison with Monsoon Region,” QSR 29 (2010), 1055–68.CrossRefGoogle Scholar
Chesnais, Jean-Claude. The Demographic Transition: Stages, Patterns, and Economic Implications (Oxford, 1992), 58–60 (infant mortality), 118–19 (crude birth rate).Google Scholar
Chu, G., Sun, Q., Wang, X., and Sun, J.. “Snow Anomaly Events from Historical Documents in Eastern China during the Past Two Millennia and Implication for Low-Frequency Variability of AO/NAO and PDO,” GRL 25 (2008), L14806, doi:.CrossRefGoogle Scholar
Cinnirella, Francesco. “Optimists or Pessimists? A Reconsideration of Nutritional Status in Britain, 1740–1865,” EREconHist 12 (2008), 339.Google Scholar
Clark, Gregory. “The Long March of History: Farm Wages, Population, and Economic Growth, England 1209–1869,” EconHistR 60 (2007), 97–135, at 99–100 (wages), 120 (population).Google Scholar
Cook, Edward R. et al., “Megadroughts in North America: Placing IPCC Projections of Hydroclimatic Change in a Long-Term Palaeoclimate Context,” JQS 25 (2010), 48–61.CrossRefGoogle Scholar
Crafts, N. F. R. and Harley, C. K.. “Output Growth and the British Industrial Revolution: A Restatement of the Crafts-Harley View,” EconHistR 45 (1992), 703–30 (“revised best guess,” 725–7).Google Scholar
Cullen, H. M.Climate Change and the Collapse of the Akkadian Empire: Evidence from the Deep Sea,” Geology 28 (2000), 379–82.2.0.CO;2>CrossRefGoogle Scholar
de Vries, Jan. European Urbanization, 1500–1800 (Cambridge, MA, 1984), 30 (urban population).Google Scholar
deMenocal, Peter B.Abrupt Onset and Termination of the African Humid Period: Rapid Climate Responses to Gradual Insolation Forcing,” QSR 19 (2000), 347–61.CrossRefGoogle Scholar
deMenocal, Peter B.African Climate Change and Faunal Evolution during the Pliocene-Pleistocene,” EPSL 220 (2004), 3–24 (Figure 11).CrossRefGoogle Scholar
Dykoski, Carolyn A., Edwards, R. Lawrence, Cheng, Hai, Yuan, Daoxian, Cai, Yanjun, Zhang, Meiliang, Lin, Yushi, Qing, Jaiming, An, Zhisheng, and Revenaugh, Justin. “A High-Resolution, Absolute-Dated Holocene and Deglacial Asia Monsoon Record from Dongge Cave, China,” EPSL 233 (2005), 71–86.CrossRefGoogle Scholar
Earth Impact Database, University of New Brunswick, at (all craters from 40 km in diameter), accessed August 8, 2012.
Ellenblum, Ronnie. The Collapse of the Eastern Mediterranean: Climate Change and the Decline of the East, 950–1072 (Cambridge, 2012) (Nile drought list at p. 31).CrossRefGoogle Scholar
Ellison, Rosemary. “Diet in Mesopotamia: The Evidence of the Barley Ration Tests (c. 3000–1400 BC),” Iraq 45 (1981), 35–45.Google Scholar
content=“Ellison, Rosemary” “Some Thoughts on the Diet of Mesopotamia from c. 3000–600BC,” Iraq 45 (1983), 146–50.CrossRefGoogle Scholar
Etheridge, D. M., Steele, L. P., Francey, R. J., and Langenfelds, R. L.. “Atmospheric Methane between 1000 A.D. and Present: Evidence of Anthropogenic Emissions and Climatic Variability,” JGR 103 (1998), D13, pp. 15, 979 (98JD00923).CrossRefGoogle Scholar
Etheridge, D. M., Steele, L. P., Langenfelds, R. L., Francey, R. J., Barnola, J.-M., and Morgan, V. I.. “Natural and Anthropogenic Changes in Atmospheric CO2 over the Last 1000 Years from Air in Antarctic Ice and Firn,” JGR 101 (1996), 4115–28.CrossRefGoogle Scholar
Fleitman, Dominik, Burns, Stephen J., Mangini, Augusto, Mudelsee, Manfred, Kramers, Jan, Villa, Igor, Neff, Ulrich, Al-Subbary, Abdulkarim A., Buettner, Annett, Hippler, Dorothea, and Matter, Albert. “Holocene ITCZ and Indian Monsoon Dynamics Recorded in Stalagmites from Oman and Yemen (Socotra),” QSR 26 (2007), 170–88.CrossRefGoogle Scholar
Flinn, Michael W.History of the British Coal Industry, Vol. 2, 1700–1830: The Industrial Revolution (Oxford, 1984), 26.Google Scholar
Floud, Roderick, Wacher, Kenneth, and Gregory, Annabel. Height, Health and History: Nutritional Status in the United Kingdom, 1750–1880 (Cambridge, 1990), 240.CrossRefGoogle Scholar
Ford, David and Golonka, Jan. “Phanerozoic Paleography, Paleoenvironment and Lithofacies Maps of the Circum-Atlantic Margins,” Marine and Petroleum Geology 20 (2003), 249–85.CrossRefGoogle Scholar
Formicola, Vincenzo and Giannecchini, Monica. “Evolutionary Trends of Stature in Upper Paleolithic and Mesolithic Europe,” JHumEv 36 (1999), 319–33.Google ScholarPubMed
Garnsey, Peter. Food and Society in Classical Antiquity (Cambridge, 1999), 57–9.CrossRefGoogle Scholar
Gerhards, Guntis. “Secular Variations in the Body Stature of the Inhabitants of Latvia (7th millennium BC – 20th c. AD),” Acta Medica Lituanica 12 (2005), 33–9.Google Scholar
Glikson, Andrew. “Asteroid/Comet Impact Clusters, Flood Basalts and Mass Extinctions: Significance of Isotopic Age Overlaps,” EPSL 236 (2005), 933–7.CrossRefGoogle Scholar
Greene, Kevin. The Archaeology of the Roman Economy (London, 1986), 60–1.Google Scholar
Grootes, P. M. and Stuiver, M.. “Oxygen 18/16 Variability in Greenland Snow and Ice with 10^3 to 10^5-Year Time Resolution,” JGR 102 (1997), 26455–70.CrossRefGoogle Scholar
Guerrero, Emma, Naji, Stephen, and Bocquet-Appel, Jean-Pierre. “The Signal of the Neolithic Demographic Transition in the Levant,” in Bocquet-Appel, Jean-Pierre and Bar-Yosef, Ofer, eds., The Neolithic Demographic Transition and Its Consequences (New York, 2008), 57–80.CrossRefGoogle Scholar
Gupta, Anil K., Anderson, David M., and Overpeck, Jonathan T.. “Abrupt Changes in the Asian Southwest Monsoon during the Holocene and Their Links to the North Atlantic Ocean,” Nature 421 (2003), 354–7.CrossRefGoogle Scholar
Hassan, Fekri A.Extreme Nile Floods and Famines in Medieval Egypt (A.D. 930–1500) and Their Climatic Implications,” QuatInt 173–4 (2007), 101–12.Google Scholar
Hatcher, John. The History of the British Coal Industry, Vol. I, Before 1700: Towards the Age of Coal (Oxford, 1993), 68.CrossRefGoogle Scholar
Haug, G. H., Hughen, K. A., Peterson, L. C., Sigman, D. M., and Röhl, U.. “Southward Migration of the Intertropical Convergence Zone through the Holocene,” Science 293 (2001), 1304–8.CrossRefGoogle ScholarPubMed
Henry, Donald O. “Models of Agricultural Origins and Proxy Measures of Prehistoric Demographics,” in Cappers, R. T. J. and Bottema, S., eds., The Dawn of Farming in the Near East (Berlin, 2002), 15–25.Google Scholar
Hershkovitz, Israel and Gopher, Avi. “Demographic, Biological, and Cultural Aspects of the Neolithic Revolution: A View from the Southern Levant,” in Bocquet-Appel, Jean-Pierre and Bar-Yosef, Ofer, eds., The Neolithic Demographic Transition and its Consequences (New York, 2008), 441–75.CrossRefGoogle Scholar
Hillson, Simon W., Larsen, Clark Spencer, Boz, Başak, Pilloud, A., Sadvari, Joshua W., Agarwal, Sabrina C., Glencross, Bonnie, Beauchesne, Patrick, Pearson, Jessica, Ruff, Christopher B., Garofalo, Evan M., Hager, Lori, and Haddow, Scott D.. “The Human Remains I: Interpreting Community Structure, Health, and Diet in Neolithic Çatalhöyük,” in Hodder, Ian, ed., Humans and Landscapes of Çatalhöyük (Los Angeles, CA, 2013).Google Scholar
Hist. Stat.: Carter, Susan B., Gartner, Scott Sigmund, Haines, Michael R., Olmstead, Alan L., Sutch, Richard, and Wright, Gavin, eds., Historical Statistics of the United States: Millennium Edition Online (New York, 2012).Google Scholar
Hist. Stat.: Table Aa 699–715 Urban and rural territory – population, by size of place: 1790–1990. Contributor: Michael Haines.
Hist. Stat.: Table Bd 653–87. Selected anthropometric measurements – height, weight, and body mass index: 1710–1989. Contributor: Richard Steckel.
Hist. Stat.: Table Aa 9–14 – National population and the demographic components of change: 1790–2000 (annual estimates) Contributors: Michael R. Haines and Richard Sutch.
Hist. Stat.: Table Db 164–71 – Energy consumption, by energy source: 1850–2001. Contributor: Gavin Wright.
Hist. Stat.: Table Db 218–27 – Electric utilities power generation and fossil fuel consumption, by energy source: 1920–2000. Contributor: Gavin Wright.
Hodell, D. A., Brenner, M., and Curtis, J. H.. “Terminal Classic Drought in the Northern Maya Lowlands Inferred from Multiple Sediment Cores in Lake Chichancanab (Mexico),” QSR 24 (2005), 1413–27.CrossRefGoogle Scholar
Hole, Frank. “Burial Patterns in the Fifth Millennium,” in Henrickson, Elizabeth F. and Thuesen, Ingolf, eds., Upon This Foundation: The ‘Ubaid Reconsidered (Copenhagen, 1989), 149–80.Google Scholar
Hong, Y. T., Hong, B., Lin, Q. H., Shibata, Y., Hirota, M., Zhu, Y. X., Leng, X. T., Wang, Y., Wang, H., and Yi, L.. “Inverse Phase Oscillations between the East Asian and Indian Ocean Summer Monsoons during the Last 12000 Years and Paleo-El Niño,” EPSL 231 (2005), 337–46.CrossRefGoogle Scholar
Houghton, R. A. “Carbon Flux to the Atmosphere from Land-Use Changes: 1850–2005,” (2008), in TRENDS: A Compendium of Data on Global Change. Carbon Dioxide Information Analysis Center, Oak Ridge National Laboratory, available at: , accessed August 8, 2012.
Indermühle, A., Stocker, T. F., Joos, F., Fischer, H., Smith, H. J., Wahlen, M., Deck, B., Mastroianni, D., Tschumi, J., Blunier, T., Meyer, R., and Stauffer, B.. “Holocene Carbon-Cycle Dynamics Based on CO2 Trapped in Ice at Taylor Dome, Antarctica,” Nature 398 (1999), 121–6.CrossRefGoogle Scholar
IPCC Box 6.4: Regional temperature proxies (c. 800–present) developed by Timothy Osborn and Keith Briffa for Box 6.4, Ch. 6, Paleoclimate, in Susan Solomon et al., eds., Climate Change 2007 – The Physical Science Basis: Working Group I Contribution to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (Cambridge and New York, 2007), available at and , accessed August 8, 2012. See also Timothy A. Osborn and Keith R. Briffa, “The Special Extent of 20th-Century Warmth in the Context of the Past 1200 Years,” Science 311 (2006), 841–4.
JISAO/ENSO: “Global-SST ENSO index, 1817 – February 2011,” Joint Institute for the Study of the Atmosphere and Ocean, University of Washington, available at , accessed August 8, 2012.
Jones, P. D., Osborn, T. J., and Briffa, K. R.. “The Evolution of Climate over the Last Millennium,” Science 292 (2001), 662–7 (NAO index).CrossRefGoogle ScholarPubMed
Jones, P. D., Lister, D. H., Osborn, T. J., Harpham, C., Salmon, M., and Morice, C. P.. “Hemispheric and Large-Scale Land-Surface Air Temperature Variations: An Extensive Revision and an Update to 2010,” JGR, 117 (2012), D05127.CrossRefGoogle Scholar
Khalil, M. A. K., Shearer, M. J., and Rasmussen, R. A.. “Methane Sources in China: Historical Current Emissions,” Chemosphere 26 (1993), 127–42, at 142. Data before 1900 is extrapolated from the ratio of Chinese population in 1900 and Chinese methane emissions estimated for 1900.CrossRefGoogle Scholar
Khalil, M. Aslam Kahn, Butenhoff, Christopher L., and Rasmussen, Reinhold A.. “Atmospheric Methane: Trends and Cycles of Sources and Sinks,” Environmental Science and Technology 41 (2007), 2131–7.CrossRefGoogle ScholarPubMed
King, Anthony. “Diet in the Roman World: A Regional Inter-Site Comparison of the Mammal Bones,” JRomArch 12 (1999), 168–202.Google Scholar
Koepke, Nikola and Baten, Joerg. “The Biological Standard of Living in Europe during the Last Two Millennia,” EREconHist 9 (2005), 61–95.Google Scholar
Kuijt, Ian. “People and Space in Early Agricultural Villages: Exploring Daily Lives, Community Size, and Architecture in the Late Pre-Pottery Neolithic,” JAnthArch 19 (2000), 75–102.Google Scholar
Kuzucuoğlu, Catherine et al., “Mid- to Late-Holocene Climate Change in Central Turkey: The Tecer Lake Record,” Holocene 21 (2011), 173–88.CrossRefGoogle Scholar
Law, C. M.The Growth of Population in England and Wales, 1801–1911,” Transactions of the Institute of British Geographers 41 (1967), 142 (urban population).Google Scholar
Lindsay, J. F. and Brazier, D. M.. “Evolution of the Precambrian Atmosphere: Carbon Isotopic Evidence from the Australian Continent,” in Eriksson, Patrick G. et al., eds., The Precambrian Earth: Tempo and Events (Amsterdam, 2004), 400; Eriksson, Patrick G. et al., “Patterns of Sedimentation in the Precambrian,” SedGeol 176 (2005), 23.Google Scholar
Ljungqvist, Frederik C.A New Reconstruction of Temperature Variability in the Extra-Tropical Northern Hemisphere during the Last Two Millennia,” Geografiska Annaler: Series A 92 (2010), 339–51.CrossRefGoogle Scholar
Loulergue, L., Schilt, A., Spahni, R., Masson-Delmotte, V., Blunier, T., Lemieux, B., Barnola, J.-M., Raynaud, D., Stocker, T. F., and Chappellaz, J.. “Orbital and Millennial-Scale Features of Atmospheric CH4 over the Past 800,000 Years,” Nature 453 (2008), 383–6.CrossRefGoogle ScholarPubMed
Lukacs, John R. and Pal, J. N.. “Skeletal Variation among Mesolithic People of the Ganga Plains: New Evidence of Habitual Activity and Adaptation to Climate,” Asian Perspective 42 (2003), 329–51.CrossRefGoogle Scholar
Lüthi, D., Floch, M. Le, Bereiter, B., Blunier, T., Barnola, J.-M., Siegenthaler, U., Raynaud, D., Jouzel, J., Fischer, H., Kawamura, K., and Stocker, T. F.. “High-Resolution Carbon Dioxide Concentration Record 650,000–800,000 Years before Present,” Nature 453 (2008), 379–82.CrossRefGoogle ScholarPubMed
Maddison, Angus. “Historical Statistics of the World Economy: 1–2008 AD,” March 2010 data file at , accessed August 8, 2012 (population since 1870; GDP).
Maddison, AngusThe World Economy: A Millennial Perspective (Paris, 2001), 29–30 (life expectancy).CrossRefGoogle Scholar
Mauna Loa CO2 Annual Mean Data, 1959–2011. Dr. Pieter Tans, NOAA/ESRL and Dr. Ralph Keeling, Scripps Institution of Oceanography. Dataset at , accessed August 8, 2012.
Mayewski, P. A., Meeker, L. D., Twickler, M. S., Whitlow, S. I., Yang, Q., Lyons, W. B., and Prentice, M.. “Major Features and Forcing of High-Latitude Northern Hemisphere Atmospheric Circulation Using a 110,000-Year-Long Glaciochemical Series,” JGR 102 (1997), 26345–66.CrossRefGoogle Scholar
McEvedy, Colin and Jones, Richard. Atlas of World Population History (New York, 1978).Google Scholar
Meadows, John. “The Younger Dryas Episode and the Radiocarbon Chronologies of the Lake Huleh and Ghab Valley Pollen Diagrams, Israel and Syria,” The Holocene 15 (2005), 631–6.CrossRefGoogle Scholar
Mitchell, B. R., with Deane, Phyllis. Abstract of British Historical Statistics (Cambridge, 1971), 225–6.Google Scholar
Mitchell, B. R.British Historical Statistics (Cambridge, 1988), 258 (coal), 370, 373, 375 (horsepower).Google Scholar
Mitchell, B. R.International Historical Statistics: Europe, 1750–1993, fourth edition (New York, 1998), 79–85, 87 (UK population), 426, 428, 431–2, 477, 480, 482, 484 (coal), 562–3 (electrical generation).Google Scholar
Monnin, Eric, Indermühle, Andreas, Dällenbach, André, Flückiger, Jacqueline, Stauffer, Bernhard, Stocker, Thomas F., Raynaud, Dominique, and Barnola, Jean-Marc. “Atmospheric CO2 Concentrations over the Last Glacial Termination,” Science 291 (2001), 112–14.CrossRefGoogle ScholarPubMed
Moy, Christopher M.Variability of El Niño-Southern Oscillation Activity at Millennial Timescales during the Holocene Epoch,” Nature 420 (2002), 162–5.CrossRefGoogle ScholarPubMed
Munoz, Samuel E., Gajewski, Konrad, and Peros, Matthew C.. “Synchronous Environmental and Cultural Change in the Prehistory of the Northeastern United States,” PNAS 107 (2010), 22008–13.CrossRefGoogle ScholarPubMed
Museum of London Center for Bioarchaeology Web site: , accessed August 8, 2012.
Musson, A. E.Industrial Motive Power in the United Kingdom, 1800–70,” Economic History Review NS 29 (1976), 415–39, at 423.Google Scholar
Nef, Joseph U.The Rise of the British Coal Industry (London, 1932), 1:19–20.Google Scholar
Oppo, Delia W., Rosenthal, Yair, and Linsley, Braddock K.. “2,000-Year-Long Temperature and Hydrology Reconstruction from the Indo-Pacific Warm Pool,” Nature 460 (2009), 1113–16.CrossRefGoogle ScholarPubMed
Parker, A. J.Ancient Shipwrecks of the Mediterranean and the Roman Provinces (London, 1992), 10ff.Google Scholar
Parker, Geoffrey. The Global Crisis: War, Climate and Catastrophe in the Seventeenth-Century World (New Haven, CT, 2013) (Nile droughts at 193, 470).Google Scholar
Rein, Bert et al., “El Niño Variability off Peru during the Last 20,000 Years,” Paleoceanography 20 (2005), PA403, 1–17.CrossRefGoogle Scholar
Robb, J., Bigazzi, R., Lazzarini, L., Scarsini, C., and Sonego, F.. “Social ‘Status’ and Biological ‘Status’: A Comparison of Grave Goods and Skeletal Indicators from Pontecagnano,” AJPA 115 (2001), 213–22.CrossRefGoogle ScholarPubMed
Roberts, Charlotte and Cox, Margaret. “The Impact of Economic Intensification and Social Complexity on Human Health in Britain from 6000 BP (Neolithic) and the Introduction of Farming to the Mid-Nineteenth Century AD,” in Cohen, Mark Nathan and Crane-Kramer, Gillian M. M., eds., Ancient Health: Skeletal Indicators of Agricultural and Economic Intensification (Gainesville, FL, 2007), 149–63.Google Scholar
Rohling, E. J., Braun, K., Grant, K., Kucera, M., Roberts, A. P., Siddall, M., and Trommer, G.. “Comparison between Holocene and Marine Isotope Stage-11 Sea-Level Histories,” EPSL 291 (2010) 97–105.CrossRefGoogle Scholar
Rohling, E. J., Mayewski, P. A., Abu-Zied, R. H., Casford, J. S. L., and Hayes, A.. “Holocene Atmosphere-Ocean Interactions: Records from Greenland and the Aegean Sea,” ClimDyn 18 (2002), 587–93 (Gisp2k+).Google Scholar
Royer, Dana L., Berner, Robert A., Montañez, Isabel P., Tabor, Neil J., and Beerling, David J.. “CO2 as a Primary Driver of Phanerozoic Climate,” GSA Today 14/3 (March 2004), 4–10.2.0.CO;2>CrossRefGoogle Scholar
Ruff, Christopher B., Holt, Brigitte M., Sládek, Vladimir, Berner, Margit, Murphy, William A. Jr., zur Nedden, Dieter, Seidler, Horst, and Recheis, Wolfgang. “Body Size, Body Proportions, and Mobility in the Tyrolean ‘Iceman’,” JHumEv 51 (2006), 91–101.Google Scholar
Russell, J. M., Johnson, T. C., and Talbot, M. R.. “725 yr Cycle in the Climate of Central Africa during the Late Holocene,” Geology 31 (2003), 677–80.CrossRefGoogle Scholar
Shanahan, T. M., Overpeck, J. T., Anchukaitis, K. J., Beck, J. W., Cole, J. E., Dettman, D. L., Peck, J. A., Scholz, C. A., and King, J. W.. “Atlantic Forcing of Persistent Drought in West Africa,” Science 324 (2009), 377–80.CrossRefGoogle ScholarPubMed
Shapiro, A. I., Schmutz, W., Roazanov, E., Schoall, M., Haberreiter, M., Shapiro, A. V., and Nyeki, S.. “A New Approach to Long-Term Reconstruction of the Solar Irradiance Leads to Large Historical Forcing,” Astronomy and Astrophysics 529 (2011), A67.CrossRefGoogle Scholar
Siegenthaler, U., Monnin, E., Kawamura, K., Spahni, R., Schwander, J., Stauffer, B., Stocker, T. F., Barnola, J.-M., and Fischer, H.. “Supporting Evidence from the EPICA Dronning Maud Land Ice Core for Atmospheric CO2 Changes during the Past Millennium,” Tellus 57B (2005), 51–7.CrossRefGoogle Scholar
Sinha, Ashish, Berkelhammer, Max, Stott, Lowell, Mudelsee, Manfred, and Chang, Hai. “The Leading Mode of Indian Summer Monsoon Precipitation Variability during the Last Millennium,” GRL 38 (2011), L15703.CrossRefGoogle Scholar
Smith, S. J., van Aardenne, J., Klimont, Z., Andres, R. J., Volke, A., and Arias, S. Delgado. “Anthropogenic Sulfur Dioxide Emissions: 1850–2005,” Atmospheric Chemistry and Physics 11 (2011), 1101–16.CrossRefGoogle Scholar
Staubwasser, M., Sirocko, F., Grootes, P. M., and Erlenkeuser, H.. “South Asian Monsoon Climate Change and Radiocarbon in the Arabian Sea during Early and Middle Holocene,” Paleoceanography 17 (2002), 1063, doi:.CrossRefGoogle Scholar
Steckel, Richard H.New Light on the ‘Dark Ages’: The Remarkably Tall Stature of Northern European Men during the Medieval Era,” Social Science History 28 (2004), 211–29.Google Scholar
Stock, J. T., Pfeiffer, S. K., Chazan, M., and Janetski, J.. “F-81 Skeleton from Wadi Mataha, Jordan, and Its Bearing on Human Variability in the Epipaleolithic of the Levant,” AJPA 128 (2005), 453–65.CrossRefGoogle ScholarPubMed
Stott, L. D., Cannariato, K., Thunell, R., Haug, G. H., Koutavas, A., and Lund, S.. “Decline of Surface Temperature and Salinity in the Western Tropical Pacific Ocean in the Holocene Epoch,” Nature 431 (2004), 56–9.CrossRefGoogle ScholarPubMed
Szreter, Simon and Mooney, Graham. “Urbanization, Mortality, and the Standard of Living Debate: New Estimates of the Expectation of Life at Birth in Nineteenth-Century British Cities,” EconHistR 51 (1998), 84–112, at 104 (life expectancy).Google Scholar
Tan, L. et al., “Climate Patterns in North Central China during the Last 1800 y and Their Possible Driving Forces,” Climates of the Past 7 (2011), 685–92.CrossRefGoogle Scholar
Tett, Simon F. B., Betts, Richard, Crowley, Thomas J., Gregory, Jonathan, Johns, Timothy C., Jones, Andy, Osborn, Timothy J., Öström, Elisabeth, Roberts, David L., and Woodage, Margaret J.. “The Impact of Natural and Anthropogenic Forcings on Climate and Hydrology since 1550,” ClimDyn 28 (2007), 25, 27.Google Scholar
Thompson, L. G., Mosley-Thompson, E., Davis, M. E., Henderson, K. A., Brecher, H. H., Zagorodnov, V. S., Mashiotta, T. A., and Lin, P. N. et al., “Kilimanjaro Ice Core Records: Evidence of Holocene Climate Change in Tropical Africa,” Science 298 (2002): 589–93.CrossRefGoogle ScholarPubMed
Thompson, L. G., 1992, Quelccaya Ice Core Database. IGBP PAGES/World Data Center-A for Paleoclimatology Data Contribution Series # 92–008. NOAA/NGDC Paleoclimatology Program, Boulder CO, USA.
Thompson, L. G., Mosley-Thompson, E., Davis, M. E., Lin, P-N., Henderson, K. A., Cole-Dai, J., Bolzan, J. F., and Liu, K-b.. “Late Glacial Stage and Holocene Tropical Ice Core Records from Huascaran, Peru,” Science 269 (1995), 46–50.CrossRefGoogle ScholarPubMed
UN: World Population Prospects: The 2010 Revision. File 1: Total population (both sexes combined) by major area, region and country, annually for 1950–2100 (thousands) United Nations Population Division Department of Economic and Social Affairs, April 2011 (POP/DB/WPP/Rev.2010/02/F01) available at , accessed August 8, 2012.
von Rad, Ulrich, Schaaf, Michael, Michels, Klaus H., Schulz, Hartmut, Berger, Wolfgang H., and Sirocko, Frank. “A 5000-Yr Record of Climate Change in Varved Sediments from the Oxygen Minimum Zone off Pakistan, Northeastern Arabian Sea,” QuatRes 51 (1999), 39–53.Google Scholar
Weber, Adna F.The Growth of Cities in the Nineteenth Century: A Study in Statistics (New York, 1899), 144–5 (European urban population in 1890).Google Scholar
Whitmore, Thomas M., Turner, B. L., Johnson, Douglas L., Kates, Robert W., and Gottschang, Thomas R.. “Long Term Population Change,” in Turner, B. L. et al., The Earth as Transformed by Human Action: Global and Regional Changes in the Biosphere over the Past 300 Years (Cambridge, 1990), 27–30.Google Scholar
Wick, Lucia, Lencke, Genry, and Sturm, Michael. “Evidence of Lateglacial and Holocene Climatic Change and Human Impact in Eastern Anatolia: High-Resolution Pollen, Charcoal, Isotopic and Geochemical Records from the Laminated Sediments of Lake Van, Turkey,” Holocene 13 (2003), 665–75.CrossRefGoogle Scholar
Wignall, Paul B.Large Igneous Provinces and Mass Extinctions,” Earth-Science Reviews 53 (2001), 1–33, esp. 18–20, 24–6.CrossRefGoogle Scholar
Wrigley, E. A., Davies, R. S., Oeppen, J. E., and Schofield, R. S.. English Population History from Family Reconstitution, 1580–1837 (Cambridge, 1997), 614.CrossRefGoogle Scholar
Yancheva, G., Nowaczyk, N. R., Mingram, J., Dulski, P., Schettler, G., Negendank, J. F., Liu, J., Sigman, D. M., Peterson, L. C., and Haug, G. H.. “Influence of the Intertropical Convergence Zone on the East Asian Monsoon,” Nature 445 (2007), 74–7.CrossRefGoogle ScholarPubMed
Zachos, James, Pagani, Mark, Sloan, Lisa, Thomas, Ellen, and Billups, Katherina. “Trends, Rhythms, and Aberrations in Global Climate 65 Ma to Present,” Science 292 (2001), 686–93 (figure 2).CrossRefGoogle ScholarPubMed
Zakrzewski, Sonia R.Variations in Ancient Egyptian Stature and Body Proportions,” AJPA 121 (2003), 219–29.CrossRefGoogle Scholar
Zielinski, G. A., Mayewski, P. A., Meeker, L. D., Whitlow, S., Twickler, M. S., Morrison, M., Meese, D. A., Gow, A. J., and Alley, R. B.. “Record of Volcanism since 7000 B.C. from the GISP2 Greenland Ice Core and Implications for the Volcano-Climate System,” Science 264 (1994), 948–52.CrossRefGoogle ScholarPubMed

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