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Published online by Cambridge University Press:  30 March 2023

Piers D. Mitchell
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University of Cambridge
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References

Aali, A., Abar, A., Boenke, N., et al. (2012) Ancient mining and salt men: the interdisciplinary Chehrabad Douzlakh project in north-western Iran. Antiquity 86(333), http://antiquity.ac.uk/projgall/aali333/Google Scholar
Adamson, P.B. (1976) Schistosomiasis in antiquity. Medical History 20: 176188.Google Scholar
Agudelo Higuita, N.I.A., Brunetti, E., McLoskey, C. (2016) Cystic echinococcosis. Journal of Clinical Microbiology 54: 518523.Google Scholar
Ailes, M., Barber, M. (Eds.) (2003) The History of the Holy War: Ambroise’s Estoire de la Guerre Sainte. Woodbridge: Boydell Press.Google Scholar
Alarcos, A.J., Suby, J.A. (2020) Potential parasitic infections transmitted by seafood in ancient populations of Patagonia. Quarternary International 568: 4354.Google Scholar
Albarella, U., Serjeantson, D. (2002) A passion for pork: meat consumption at the British Late Neolithic site of Durrington Walls, in: Miracle, P., Milner, N. (Eds.), Consuming Passions and Patterns of Consumption. Cambridge: Cambridge University Press, pp. 3349.Google Scholar
Al-Khafif, G.D., El-Banna, R., Khattab, N., et al. (2018) The immunodetection of non-falciparum malaria in ancient Egyptian bones (Giza Necropolis). BioMed Research International article ID PMC9058108.Google Scholar
Allen, R.C. (1997) Agriculture and the origins of the state in ancient Egypt. Explorations in Economic History 34: 135154.Google Scholar
Allison, M.J., Pezzia, A., Hasegawa, I., et al. (1974) A case of hookworm infestation in a pre-Columbian American. American Journal of Physical Anthropology 41: 103106.CrossRefGoogle Scholar
Altamirano Enciso, A.J., Soares Moreira, J., Marzochi, M.C.A. (2001) Lesion litica craniana por leishmaniasis en Makat-Tampu durante el imperio Inca: Siglos XV–XVI, Valle del Bajo Rimac, Peru. Revista do Museu de Archeologia e Etnologia, São Paulo 11: 227242.Google Scholar
Amanzougaghene, N., Fenollar, F., Raoult, D., et al. (2020) Where are we with human lice? A review of the current state of knowledge. Frontiers in Cellular and Infection Microbiology 9: 474.Google Scholar
Amihay, A. (2017) Theory and Practice in Essene Law. New York: Oxford University Press.CrossRefGoogle Scholar
Anastasiou, E., Lorentz, K.O., Stein, G.J., et al. (2014) Prehistoric schistosomiasis parasite found in the Middle East. Lancet Infectious Diseases 14: 553554.CrossRefGoogle ScholarPubMed
Anastasiou, E., Mitchell, P.D. (2013a) Simplifying the process for extracting parasitic worm eggs from cesspool and latrine sediments: a trial comparing the efficacy of widely used techniques for disaggregation. International Journal of Paleopathology 3: 204207.Google Scholar
Anastasiou, E., Mitchell, P.D. (2013b) Paleopathology and genes: investigating the genetics of infectious diseases in excavated human skeletal remains and mummies from past populations. Gene 528(1): 3340.Google Scholar
Anastasiou, E., Mitchell, P.D. (2013c) Human intestinal parasites from a latrine in the 12th century Frankish castle of Saranda Kolones in Cyprus. International Journal of Paleopathology 3: 218223.CrossRefGoogle ScholarPubMed
Anastasiou, E., Mitchell, P.D. (2015) Human intestinal parasites and dysentery in Africa and the Middle East prior to 1500, in: Mitchell, P.D. (Ed.) Sanitation, Latrines and Intestinal Parasites in Past Populations. Farnham: Ashgate, pp. 121147.Google Scholar
Anastasiou, E., Papathanasiou, A., Schepartz, L.A., et al. (2018) Infectious disease in the ancient Aegean: intestinal parasitic worms in the neolithic to Roman period inhabitants of Kea, Greece. Journal of Archaeological Science Reports 17: 860864.Google Scholar
Anderson, E.N. (2014) Food and Environment in Early and Medieval China. Philadelphia: University of Pennsylvania Press.Google Scholar
Antolín, F., Buxó, R., Jacomet, E., et al. (2014) An integrated perspective on farming in the early Neolithic lakeshore site of La Draga (Banyoles, Spain). Environmental Archaeology 19(3): 241255.Google Scholar
Antoniou, G.P., Angelakis, A.N. (2015) Latrines and wastewater sanitation technologies in ancient Greece, in: Mitchell, P.D. (Ed.) Sanitation, Latrines and Intestinal Parasites in Past Populations. Farnham: Ashgate, pp. 4168.Google Scholar
Araújo, A., Ferreira, L.F., Confalonieri, U., et al. (1985) The finding of Enterobius vermicularis eggs in pre-Columbian human coprolites. Memórias do Instituto Oswaldo Cruz 80: 141143.CrossRefGoogle ScholarPubMed
Araújo, A., Jansen, A.M., Reinhard, K., et al. (2009) Paleoparasitology of Chagas disease: a review. Memorias do Instituto Oswaldo Cruz 104(Suppl 1): 916.Google Scholar
Araújo, A., Reinhard, K.J., Ferreira, L.F., et al. (2008) Parasites as probes for prehistoric human migrations? Trends in Parasitology 24(3): 112115.Google Scholar
Armelagos, G.J. (1969) Disease in Ancient Nubia: changes in disease patterns from 350 B.C. to A.D. 1400 demonstrate the interaction of biology and culture. Science 163(3864): 255259.CrossRefGoogle Scholar
Arriaza, B.T., Reinhard, K., Araújo, A., et al. (2010) Possible influence of the ENSO phenomenon on the pathoecology of diphyllobothriasis and anisakiasis in ancient Chinchorro populations, Memórias do Instituto Oswaldo Cruz 105: 6672.Google Scholar
Arriaza, B.T., Standen, V.G., Cassman, V., et al. (2008) Chinchorro culture: pioneers of the coast of the Atacama Desert, in: Silverman, H., Isbell, W.H. (Eds.) Handbook of South American Archaeology. New York: Springer, pp. 4558.Google Scholar
Arriaza, B.T., Standen, V., Reinhard, K., et al. (2013) On head lice and social interaction in archaic Andean coastal populations. International Journal of Paleopathology 3: 257268.CrossRefGoogle ScholarPubMed
Asenso-Okyere, K., Asante, F.A., Tarekegn, J., et al. (2009) The Linkages Between Agriculture and Malaria: Issues for Policy, Research and Capacity Strengthening. Washington, DC: International Food Policy Research Institute.Google Scholar
Ashby, S.P. (2009) Combs, contact and chronology: reconstructing hair combs in early-historic and Viking-age Atlantic Scotland. Medieval Archaeology 53(1): 133.CrossRefGoogle Scholar
Aspöck, H., Auer, H., Picher, P. (1996) Trichuris trichiura eggs in the Neolithic glacier mummy from the Alps. Parasitology Today 12(7): 255256.Google Scholar
Aspöck, H., Auer, H., Picher, O. (1999) Parasites and parasitic diseases in prehistoric human populations in central Europe. Helminthologia 36(3): 139145.Google Scholar
Aspöck, H., Feuereis, I., Radbauer, S. (2011) Case study: detection of eggs of the intestinal parasite Ascaris lumbricoides in samples from the Roman sewers of Carnuntum, in: Jansen, G.C.M., Koloski-Ostrow, A.O., Moormann, E.M. (Eds.), Roman Toilets: Their Archaeology and Cultural History. Leuven: Peeters, pp. 163164.Google Scholar
Aspöck, H., Flamm, H., Picher, O. (1973) Darmparasiten in menschlichen exkrementen aus prähistorischen salzbergwerken der Hallstatt-Kultur (800–350 v. Chr). Zentrallblatt für Bakteriologic und Hygiene Abt Originale A 223: 549558.Google Scholar
Astill, G., Langdon, J. (Eds.) (1997) Medieval Farming and Technology: The Impact of Agricultural Change in Northwest Europe. Leiden: Brill.Google Scholar
Aufderheide, A.C., Salo, W., Madden, M., et al. (2004) A 9,000-year record of Chagas’s disease. Proceedings of the National Academy of Sciences 101(7): 20342039.Google Scholar
Backman, C.R. (2003) The Worlds of Medieval Europe. Oxford: Oxford University Press.Google Scholar
Bailey, F., Eaton, J., Jidda, M., et al. (2019) Neglected tropical diseases and mental health: progress, partnerships, and integration. Trends in Parasitology 35(1): 2331.Google Scholar
Bain, A. (2004) Irritating intimates: the archaeoentomology of lice, fleas and bedbugs. Northeast Historical Archaeology 33(1): 8.Google Scholar
Barbieri, R., Drancourt, M., Raoult, D. (2021) The role of louse-transmitted diseases in historical plague pandemics. The Lancet Infectious Diseases 21(2): E17E25.Google Scholar
Baron, J.M., Higgins, J.M., Dzik, W.H. (2011) A revised timeline for the origin of Plasmodium falciparum as a human pathogen. Journal of Molecular Evolution 73: 297304.Google Scholar
Bartlett, W. B. (2007) The Last Crusade: the Seventh Crusade and the Final Battle for the Holy Land. Stroud: Tempus Books.Google Scholar
Bartošová, L., Ditrich, O., Beneš, J., et al. (2011) Paleoparasitological findings in Medieval and Early Modern archaeological deposits from Hradbni street, Chrudim, Czech Republic. Interdisciplinaria Archaeologica 2: 2738.CrossRefGoogle Scholar
Bathrellou, E., Vlassopoulos, K. (2022) Greek and Roman Slaveries. Oxford: Wiley-Blackwell.Google Scholar
Bathurst, R.R. (2005) Archaeological evidence of intestinal parasites from coastal shell middens. Journal of Archaeological Science 32: 115123.Google Scholar
Bell, B. (1975) Climate and the history of Egypt: the Middle Kingdom. American Journal of Archaeology 79(3): 223269.CrossRefGoogle Scholar
Benedictow, O.J. (2021) The Complete History of the Black Death. Martlesham: Boydell Press.Google Scholar
Benjak, A., Avanzi, C., Singh, P., et al. (2018) Phylogenomics and antimicrobial resistance of the leprosy bacillus Mycobacterium leprae. Nature Communications 9: 352.Google Scholar
Bennett, J.M., Bardsley, S. (2021) Medieval Europe: A Short History. 12th ed. Oxford: Oxford University Press.Google Scholar
Bennis, I., De Brouwere, V., Belrhiti, Z., et al. (2018) Psychosocial burden of localised cutaneous leishmaniasis: A scoping review. BMC Public Health 18(1): 358.Google Scholar
Bergman, J. (2018) Stone age disease in the north – human intestinal parasites from a Mesolithic burial in Motala, Sweden. Journal of Archaeological Science 96: 2632.Google Scholar
Bergquist, R., Kloos, H., Adugna, A. (2017) Schistosomiasis: paleopathological perspectives and historical notes, in: Jamison, B. (Ed.), Schistosoma: Biology, Pathology and Control. Baton Rouge: CRC Press, pp. 833.Google Scholar
Best, J.W. (2006) A History of the Early Korean Kingdom of Paekche. Cambridge, MA: Harvard University Press.Google Scholar
Bever, M.R. (2012) Environmental change and archaeological transitions in early post-glacial Alaska, in: Bousman, C.B., Vierra, B.J. (Eds.) From the Pleistocene to the Holocene: Human Organization and Cultural Transformations in Prehistoric North America. College Station: Texas A & M University Press, pp. 4799.Google Scholar
Bianucci, R., Araujo, A., Pusch, C.M., et al. (2015) The identification of malaria in paleopathology: an in-depth assessment of the strategies to detect malaria in ancient remains. Acta Tropica 152: 176180.Google Scholar
Bianucci, R., Mattutino, G., Lallo, R., et al. (2008) Immunological evidence of Plasmodium falciparum infection in a child mummy from the Early Dynastic Period. Journal of Archaeological Science 35: 18801885.Google Scholar
Bobrov, A.G., Kirillina, O., Vadyvaloo, V., et al. (2015) The Yersinia pestis HmsCDE regulatory system is essential for blockage of the oriental rat flea (Xenopsylla cheopis), a classic plague vector. Environmental Microbiology 17(4): 947959.Google Scholar
Boersma, J.H., Jansen, J. (1975) Helminth infections in Medieval Utrecht. Tropical and Geographical Medicine 27: 441.Google Scholar
Bogaard, A., Charles, M., Livarda, A., et al. (2013) The archaeobotany of mid–later Neolithic occupation levels at Çatalhöyük, in: Hodder, I. (Ed.), Humans and Landscapes of Çatalhöyük: Reports from the 20002008 Seasons. Los Angeles/London: Cotsen Institute of Archaeology Press/British Institute at Ankara, pp. 93128.Google Scholar
Bogaard, A., Filipovic, D., Fairburn, A., et al. (2017) Agricultural innovation and resilience in a long-lived early farming community: the 1,500-year sequence at Neolithic to early Chalcolithic Çatalhöyük, central Anatolia. Anatolian Studies 67: 128.Google Scholar
Bonavia, J., Lindesay, W., Qi, W. (2004) The Silk Road from Xi’an to Kashgar. 7th ed. Hong Kong: Odyssey.Google Scholar
Bos, K.I, DeWitte, S. (2022) Human resistance and the evolution of plague in medieval Europe, in: Plomp, K., Roberts, C., Elton, S., et al. (Eds.), Paleopathology and Evolutionary Medicine: An Integrated Approach. Oxford: Oxford University Press, pp. 138154.Google Scholar
Bos, K.I., Schuenemann, V.J., Golding, G.B., et al. (2011) A draft genome of Yersinia pestis from victims of the Black Death. Nature 478(7370): 506510.Google Scholar
Bouchet, F. (1995) Recovery of helminth eggs from archaeological excavation of the Grand Louvre (Paris, France). Journal of Parasitology 81: 785787.Google Scholar
Bouchet, F. (1997) Intestinal capillariasis in Neolithic inhabitants of Chalain (Jura, France), The Lancet 349: 256.Google Scholar
Bouchet, F., Audoin, F., Leger, N., et al. (1989) Étude parasitologique des coprolithes et des sédiments de trois ensembles clos Médiévaux de la rue de Lutèce (île de la Cité) à Paris. Revue Archéométrie 13: 1321.Google Scholar
Bouchet, F., Baffier, D., Girard, M., et al. (1996) Paléoparasitologie en context pléistocène: premières observations à la Grande Grotte d’Arcy-sur-Cure (Yonne), France. Comptes Rendus de l’Academie des Sciences. Série III, Sciences de la Vie 319: 147151.Google Scholar
Bouchet, F., Harter, S., Paicheler, J.C., et al. (2002) First recovery of Schistosoma mansoni eggs from a latrine in Europe (15th–16th centuries). Journal of Parasitology 88(2): 404405.Google Scholar
Bouchet, F., Lefèvre, C., West, D., et al. (1999) First paleoparasitological analysis of a midden in the Aleutian Islands (Alaska): results and limits. Journal of Parasitology 85: 369372.CrossRefGoogle ScholarPubMed
Bouchet, F., Paicheler, J. C. (1995) Paleoparasitologie: présomption d’un cas de bilharziose au XVe siècle à Montbéliard (Doubs, France). Comptes Rendus de l’Academie des Sciences 318: 811814.Google Scholar
Bouchet, F., Pétrequin, P., Paicheler, J.C., et al. (1995) Première approche paléoparasitologique du site néolithique de Chalain (Jura, France), Bulletin de la Société de Pathologie Exotique 88: 265268.Google Scholar
Bouchet, F., West, D., Lefèvre, C., et al. (2001) Identification of parasitoses in a child burial from Adak Island (Central Aleutian Islands, Alaska). Comtes Rendu de l’Academie des Sciences de Paris, Sciences de la Vie 324: 123127.Google Scholar
Boulnois, L., Mayhew, B. (2005) Silk Road: Monks, Warriors and Merchants on the Silk Road. Hong Kong: Odyssey.Google Scholar
Bourke, S. (2018) The Middle East: The Cradle of Civilization. London: Thames and Hudson.Google Scholar
Boyer, P. (1999) The parasites, in: Connor, A., Buckley, R. (Eds.), Roman and Medieval Occupation in Causeway Lane, Leicester: Excavations 1980 and 1991. Leicester Archaeology Monographs no. 5. Leicester: University of Leicester, pp. 344346.Google Scholar
Bradley, R. (2019) The Prehistory of Britain and Ireland. 2nd ed. Cambridge: Cambridge University Press.Google Scholar
Brahm, F., Rosenhaft, E. (Eds.) (2016) Slavery Hinterland: Transatlantic Slavery and Continental Europe, 1680–1850. Martelsham: Boydell Press.Google Scholar
Briant, P. (2002) From Cyrus to Alexander: A History of the Persian Empire. Trans. P.T. Daniels. Winona Lake: Eisenbrauns.Google Scholar
Brooker, S. (2010) Estimating the global distribution and disease burden of intestinal nematode infections: adding up the numbers: a review. International Journal for Parasitology 40(10): 11371144.Google Scholar
Browning, D.C. (2021) All roads lead to risk: malaria threat to travellers in the Roman world. Cartographica 56(1): 6486.Google Scholar
Brownworth, L. (2009) Lost to the West: the Forgotten Byzantine Empire That Rescued Western Civilization. New York: Crown Publishers.Google Scholar
Bruschi, F., Masetti, M., Locci, M.T., et al. (2006) Cysticercosis in an Egyptian mummy of the late Ptolemaic Period. American Journal of Tropical Medicine and Hygiene 74: 598599.Google Scholar
Bryant, V.M., Dean, G.W. (2006) Archaeological coprolite science: the legacy of Eric O. Callen (1912–1970). Palaeogeography Palaeoclimatology Palaeoecology 237: 5166.Google Scholar
Buck, M.E. (2020) The Amorite Dynasty of Ugarit: Historical Implications of Linguistic and Archaeological Parallels. Leiden: Brill.Google Scholar
Bunbury, J. (2019) The Nile and Ancient Egypt: Changing Land and Waterscapes, from the Neolithic to the Roman Era. Cambridge: Cambridge University Press.Google Scholar
Burza, S., Croft, S.L., Boelaert, M. (2018) Leishmaniasis. The Lancet 392(10151): 951970.Google Scholar
Buxton, M. (1998) Fish-eating in medieval England, in: Walker, H. (Ed.), Fish: Food from the Waters. Totnes: Prospect Books, pp. 5159.Google Scholar
Cahill, J.M., Reinhard, K., Tarler, D., et al. (1991) It had to happen: scientists examine remains of ancient bathroom. Biblical Archaeology Review 17(3): 6469.Google Scholar
Cairncross, S., Muller, R., Nevio, Z. (2002) Dracunculiasis (Guinea Worm Disease) and the eradication initiative. Clinical Microbiology Reviews 15(2): 223246.Google Scholar
Camacho, M., Reinhard, K.J. (2020) Pinworm research in the Southwest USA: five decades of methodological and theoretical development and the epidemiological approach. Archaeological and Anthropological Sciences 12: 63.Google Scholar
Campbell, R. (2018) Violence, Kinship and the Early Chinese State: The Shang and their World. Cambridge: Cambridge University Press.Google Scholar
Capasso, L., Di Tota, G. (1998) Lice buried under the ashes at Herculaneum. The Lancet 351: 992.CrossRefGoogle ScholarPubMed
Cappellini, B.M.D., Fiorelli, G. (2008) Glucose-6-phosphate dehydrogenase deficiency. The Lancet 371: 6474.Google Scholar
Carmichael, A.G. (2014) Plague persistence in western Europe: a hypothesis. The Medieval Globe 1: 157191.Google Scholar
Carrott, J., Kenward, H. (2001) Species association among insect remains from urban archaeological deposits and their significance reconstructing the past human environment Journal of Archaeological Science 28: 887905.Google Scholar
Cascardo, P., Pucu, E., Leles, D. (2017) The history of evolution of life on earth told by paleoparasitology. Global Journal of Archaeology and Anthropology 1(2): 55560.Google Scholar
Castillo Butters, L.J., Uceda Castillo, S. (2008) The Mochicas, in: Silverman, H., Isbell, W.H. (Eds.), Handbook of South American Archaeology. New York: Springer, pp. 707729.Google Scholar
Cavanagh, W., Mee, C., Renard, J. (2007) Excavations at Kouphovouno, Laconia: results from 2001 and 2002 seasons. Annual of the British School at Athens 102: 11101.CrossRefGoogle Scholar
Chami, G.F., Fenwick, A., Bulte, E., et al. (2015) Influence of Schistosoma mansoni and hookworm infection intensities on anaemia in Ugandan villages. PLoS Neglected Tropical Diseases 9(10): e0004287.Google Scholar
Chaparro, C.M., Suchdev, P.S. (2019) Anemia epidemiology, pathophysiology, and etiology in low- and middle-income countries. Annals of the New York Academy of Sciences 1450(1): 1531.Google Scholar
Chapman, J. (2020) Forging Identities in the Prehistory of Old Europe: Dividuals, Individuals and Communities, 7000–3000 BC. Leiden: Sidestone Press.Google Scholar
Charlier, P., Bouchet, F., Weil, R., et al. (2016) Schistosomiasis in the mummified viscera of Saint-Louis (1270 AD) Forensic Science Medicine and Pathology 12: 113114.Google Scholar
Chatterjee, I., Eaton, R.M. (Eds.) (2007) Slavery and South Asian History. Bloomington: Indiana University Press.Google Scholar
Chatters, J.C., Hackenberger, S., Prentiss, A.M., et al. (2012) The Paleoindian to archaic transition in the Pacific Northwest: in situ development or ethnic replacement? in: Bousman, C.B., Vierra, B.J. (Eds.), From the Pleistocene to the Holocene: Human Organization and Cultural Transformations in Prehistoric North America. College Station: Texas A & M University Press, pp. 100173.Google Scholar
Choe, C.P., Bale, M.T. (2002) Current perspectives on settlement, subsistence, and cultivation in prehistoric Korea. Arctic Anthropology 39(1–2): 95121.Google Scholar
Choi, M.-H., Park, S.K., Li, Z., et al. (2010) Effect of control strategies on prevalence, incidence and re-infection of clonorchiasis in endemic areas of China. PLoS Neglected Tropical Diseases 4: e601.Google Scholar
Chouikha, I., Hinnebusch, B.J. (2012) Yersinia–flea interactions and the evolution of the arthropod-borne transmission route of plague. Current Opinion in Microbiology 15(3): 239246.Google Scholar
Choyke, A.M., Kováts, I. (2010) Tracing the personal through generations: late medieval and Ottoman combs, in: Pluskowski, A., Kunst, G., Kucera, M., et al. (Eds.), Bestial Mirrors: Using Animals to Construct Human Identities in Medieval Europe. Vienna: Universität Wien, pp. 115127.Google Scholar
Cockburn, A., Barraco, R.A., Reyman, T.A., et al. (1975) Autopsy of an Egyptian mummy. Science 187(4182): 11551160.Google Scholar
Cohn, S.K. (2008) Epidemiology of the Black Death and successive waves of plague. Medical History 52(Suppl. 27): 74100.Google Scholar
Contis, G., David, A.R. (1996) The epidemiology of Bilharzia in ancient Egypt: 5000 years of schistosomiasis. Parasitology Today 12(7): 253255.Google Scholar
Cool, H.E.M. (2006) Eating and Drinking in Roman Britain. Cambridge: Cambridge University Press.Google Scholar
Corson, T. (2008) The Story of Sushi: An Unlikely Saga of Raw Fish and Rice. New York: Harper Perennial.Google Scholar
Costa, M.A., Matheson, C., Lachetta, L., et al. (2009) Ancient leishmaniasis in a highland desert of northern Chile. PLoS ONE 4(9): e6983.Google Scholar
Costambeys, M., Innes, M., MacLean, S. (2011) The Carolingian World. Cambridge: Cambridge University Press.Google Scholar
Côté, N.M.L., Daligault, J., Pruvost, M., et al. (2016) A new high-throughput approach to genotype ancient human gastrointestinal parasites. PLoS ONE 11(1): e0146230.CrossRefGoogle ScholarPubMed
Côté, N.M.L., Le Bailly, M. (2018) Paleoparasitology and paleogenetics: review and perspectives of the study for the study of ancient human parasites. Parasitology 145: 656664.Google Scholar
Courtenay, W.J., Miethke, J. (2000) Universities and Schooling in Medieval Society. Leiden: Brill.Google Scholar
Covey, R.A. (2008) The Inca Empire, in: Silverman, H., Isbell, W.H. (Eds.), Handbook of South American Archaeology. New York: Springer, pp. 809830.Google Scholar
Crellen, T., Allan, F., David, S., et al. (2016) Whole genome resequencing of the human parasite Schistosoma mansoni reveals population history and effects of selection. Scientific Reports 6: 20954.Google Scholar
Crompton, D.W.T., Nesheim, M.C. (2002) Nutritional impact of intestinal helminthiasis during the human life cycle. Annual Review of Nutrition 22: 3559.Google Scholar
Cui, Y., Yu, C., Yan, Y., et al. (2013) Historical variations in mutation rate in an epidemic pathogen, Yersinia pestis. Proceedings of the National Academy of Science 110(2): 577582.CrossRefGoogle Scholar
Cunha, D., Santos, A., Matias, A., et al. (2017) A novel approach: combining dental enamel hypoplasia and paleoparasitological analysis in Medieval Islamic individuals buried in Santarém (Portugal). Antropologia Portuguesa 34: 113135.Google Scholar
Curtis, R.I. (1983) In defense of Garum. The Classical Journal 78: 232240.Google Scholar
Curtis, R.I. (1988) Spanish trade in salted fish products in the 1st and 2nd centuries AD. International Journal of Nautical Archaeology and Underwater Exploration 17(3): 205210.Google Scholar
D’Altroy, T.N. (2015) The Incas. 2nd ed. Chichester: Wiley-Blackwell.Google Scholar
Dark, P. (2004) New evidence of the antiquity of the intestinal parasite Trichuris (whipworm) in Europe. Antiquity 78(301): 676681.Google Scholar
Da Rocha, G.C., Harter, S., Le Bailly, M., et al. (2006) Paleoparasitological remains revealed by seven historic contexts from ‘Place d’Armes’, Namur, Belgium. Memórias do Instituto Oswaldo Cruz 101(Suppl. 2): 4352.Google Scholar
David, A.R., Tapp, E. (Eds.) (1984) Evidence Embalmed: Modern Medicine and the Mummies of Ancient Egypt. Manchester: Manchester University Press.Google Scholar
Davies, P.R. (2015) In Search of ‘Ancient Israel’: A Study in Biblical Origins. London: Bloomsbury.Google Scholar
Davoli, P. (2012) The Archaeology of Fayum, in: Riggs, C. (Ed.), The Oxford Handbook of Roman Egypt. Oxford: Oxford University Press, pp. 153169.Google Scholar
Dean, K.R., Krauer, F., Walløe, L., et al. (2018) Human ectoparasites and the spread of plague in Europe during the second pandemic. Proceedings of the National Academy of Sciences 115(6): 13041309.Google Scholar
De Clercq, W., Caluwé, D., Cooremans, B., et al. (2007) Living in times of war: waste of c.1600 from two garderobe chutes in the castle of Middelburg-in-Flanders (Belgium) Post-Medieval Archaeology 41(1): 163.Google Scholar
Deelder, A.M., Miller, R.L., de Jonge, N., et al. (1990) Detection of schistosome antigen in mummies, The Lancet 335: 724725.Google Scholar
Defgnée, A., Henrotay, D., Collette, O. (2008) Un atelier de foulons gallo-romains à Arlon (province du Luxembourg, Belgique). Analyses chimiques et archaéobotaniques du contenu de cuves. Les Nouvelles de l’Archéologie 114: 4752.Google Scholar
Deforce, K. (2017) The interpretation of pollen assembalages from medieval and post-medieval cesspits: new results from northern Belgium. Quarternary International 460: 124134.Google Scholar
Deforce, K., Ledger, M.L., Derreumaux, M., et al. (2021) Diet, hygiene and health in Roman period northern Gaul: a multidisciplinary study of a latrine from an artisan household in the vicus Orolaunum (Arlon, southern Belgium, c.250–280 CE). Journal of Archaeological Science: Reports 35: 102761.Google Scholar
Demaitre, L. (2013) Medieval Medicine: The Art of Healing from Head to Toe. Santa Barbara: ABC Clio.Google Scholar
De Martel, C., Ferlay, J., Franceschi, S., et al. (2012) Global burden of cancers attributable to infections in 2008: a review and synthetic analysis. The Lancet Oncology 13(6): 607615.Google Scholar
Dennell, R., Petraglia, M.D. (2012) The dispersal of Homo sapiens across southern Asia: how early, how often, how complex? Quarternary Science Reviews 47: 1522.Google Scholar
Derks, T., Vos, W. (2010) Wooden combs from the Roman fort at Vechten: the bodily appearance of soldiers. Journal of Archaeology in the Low Countries 2(2): 5377.Google Scholar
De Rouffignac, C. (1985) Parasite egg survival and identification from Hibernia Warf, Southwark. London Archaeologist 5: 103105.Google Scholar
De Sanctis, V., Kattamis, C., Canatan, D., et al. (2017) β-Thalassaemia distribution in the Old World: an ancient disease seen from a historical standpoint. Mediterranean Journal of Haematology and Infectious Diseases 9: e2017018.Google Scholar
Dheilly, N.M., Ewald, P.W., Brindley, P.J., et al. (2019) Parasite–microbe–host interactions and cancer risk. PLoS Pathogens 15(8): e1007912.Google Scholar
Di Bella, S., Riccardi, N., Giacobbe, D.R., et al. (2018) History of schistosomiasis (bilharziasis) in humans: from Egyptian medical papyri to molecular biology on mummies. Pathogens and Global Health 112(5): 268273.Google Scholar
Dickason, O.P., McNab, D.T. (2009) Canada’s First Nations: A History of Founding Peoples from Earliest Times. 4th ed. Oxford: Oxford University Press.Google Scholar
Dickson, J.H., Oeggl, K., Holden, T.G., et al. (2000) The omnivorous Tyrolean Iceman: colon contents (meat, cereals, pollen, moss and whipworm) and stable isotope analyses. Philosophical Transactions of the Royal Society of London B 355: 18431849.Google Scholar
Dien, A.E. (2007) Six Dynasties Civilization. New Haven: Yale University Press.Google Scholar
Dietrich, R. (Ed.) (2019) Handbook of Ancient Nubia. 2 vols. Boston: Walter de Gruyter.Google Scholar
Dillehay, T.D. (2000) The Settlement of the Americas: A New Prehistory. New York: Basic Books.Google Scholar
Dommelier, S., Bentrad, S., Paicheler, J.-C., et al. (1998) Parasitoses liées à l’ alimentation chez les populations néolithiques du lac de Chalain (Jura, France). Anthropozoologica 27: 4149.Google Scholar
Dufour, B., Le Bailly, M. (2013) Testing new parasite egg extraction methods in paleoparasitology and an attempt at quantification. International Journal of Paleopathology 3: 199203.Google Scholar
Dufour, B., Segard, M., Le Bailly, M. (2016) A first case of human trichuriasis from a Roman lead coffin in France. Korean Journal of Parasitology 54(5): 625629.Google Scholar
Dunleavy, M. (1988) A classification of early Irish combs. Proceedings of the Royal Irish Academy: Archaeology, Culture, History, Literature 88C: 341422.Google Scholar
Düring, B.S. (2020) The Imperialisation of Assyria: An Archaeological Approach. Cambridge: Cambridge University Press.Google Scholar
Echenberg, M. (2002) Pestis redux: the initial years of the third bubonic plague pandemic, 1894–1901. Journal of World History 13(2): 429449.Google Scholar
El-Najjar, M., Mulinski, T., Reinhard, K. (1998) Mummies and mummification practices in southern and southwestern United States, in: Cockburn, A., Cockburn, E., Reyman, T. (Eds.), Mummies, Disease and Ancient Culture. Cambridge: Cambridge University Press, pp. 121137.Google Scholar
Emberling, G., Williams, B.B. (Ed.) (2020) The Oxford Handbook of Ancient Nubia. New York: Oxford University Press.Google Scholar
Eshel, H. (2015) Exploring the Dead Sea Scrolls: Archaeology and Literature of the Qumran Caves. Vandenhoeck & Ruprecht: Gottingen.Google Scholar
Fagan, G.G. (2000) Hygiene conditions in Roman public baths, in: Jansen, G.C.M. (Ed.), Cura Aquarum in Sicilia: Proceedings of the Tenth International Congress on the History of Water Management and Hydraulic Engineering in the Mediterranean Region. Leiden: Peeters: pp. 281286.Google Scholar
Faith, R. (2010) Farms and families in ninth-century Provence. Early Medieval Europe 18(2): 175201.Google Scholar
Farris, W.W. (2006) Japan’s Medieval Population: Famine, Fertility and Warfare in a Transformative Age. Honolulu: University of Hawai’i Press.Google Scholar
Faulkner, C.T. (1991) Prehistoric diet and parasitic infection in Tennessee: evidence from the analysis of desiccated human paleofeces. American Antiquity 56: 687700.Google Scholar
Faulkner, C.T., Patton, S., Strawbridge Johnson, S. (1989) Prehistoric parasitism in Tennessee: evidence from the analysis of desiccated fecal material collected from Big Bone Cave, Van Buren County, Tennessee. Journal of Parasitology 75(3): 461463.Google Scholar
Fenby, J. (2007) China’s Imperial Dynasties, 1600 BC–AD 1912. New York: Metro Books.Google Scholar
Feng, L. (2013) Early China: A Social and Cultural History. Cambridge: Cambridge University Press.Google Scholar
Ferreira, L.F., Araújo, A.J.G., Confalonieri, U.E.C. (1980) Finding of helminth eggs in human coprolites from Unai, Minas Gerais, Brazil. Transactions of the Royal Society of Tropical Medicine and Hygiene 74(6): 798800.Google Scholar
Ferreira, L.F., Araújo, A.J.G, Confalonieri, U.E.C. (1983) The finding of helminth eggs in a Brazilian mummy. Transactions of the Royal Society of Tropical Medicine and Hygiene 77(1): 6567.Google Scholar
Ferreira, L.F., Araújo, A., Confalonieri, U., et al. (1984) The finding of Diphyllobothrioum pacificum in human coprolites (4100–1950 BC) from northern Chile. Memórias do Instituto Oswaldo Cruz 79: 175180.Google Scholar
Ferreria, L.F., Araújo, A.J.G., Confalonieri, W., et al. (1987) Encontro de ovos de ancilostomideos em coprólitos humanos datados de 7.230 ± 80 anos, Piauí, Brasil. Anais da Academia Brasileira Ciencias 59: 280281.Google Scholar
Ferreira, L.F., Araújo, A.J.G., Confalonieri, U.E.C., et al. (1989a) Trichuris trichiura eggs in human coprolites from the archaeological site of Furna do Estrago, Brejo da Madre de Deus, Pernambuco, Brazil. Memórias do Instituto Oswaldo Cruz 84(4): 581.Google Scholar
Ferreira, L.F., Araújo, A., Confalonieri, U., et al. (1989b) Infecção por Enterobius vermicularis em populações agro-pastoris pré-colombianas de San Pedro de Atacama, Chile. Memórias do Instituto Oswaldo Cruz 84 (Suppl. 4): 197199.Google Scholar
Ferreira, L.F., Britto, C., Cardoso, M.A., et al. (2000) Paleoparasitology of Chagas disease revealed by infected tissues from Chilean mummies. Acta Tropica 75: 7984.Google Scholar
Ferreira, L.F., Reinhard, K.J., Araújo, A. (Eds.) (2014) Foundations of Paleoparasitology. Rio de Janeiro: SciELO Books – Editora Fiocruz.Google Scholar
Fisher, G. (2020) Rome, Persia and Arabia: Shaping the Middle East from Pompey to Muhammad. Abingdon: Routledge.Google Scholar
Flammer, P.G., Dellicour, S., Preston, S.G., et al. (2018) Molecular archaeoparasitology identifies cultural changes in the medieval Hanseatic trading centre of Lübeck. Proceedings of the Royal Society Part B 285: 20180991.Google Scholar
Flammer, P.G., Ryan, H., Preston, S.G., et al. (2020) Epidemiological insights from a large-scale investigation of intestinal helminths in medieval Europe. PLoS Neglected Tropical Diseases 14(8): e0008600.Google Scholar
Florenzano, A., Mercuri, A.M., Pederzoli, A., et al. (2012) The significance of intestinal parasite remains in pollen samples from Medieval pits in the Piazza Garibaldi of Parma, Emilia Romagna, Northern Italy. Geoarchaeology 27(1): 3447.Google Scholar
Forbes, V., Dussault, F., Bain, A. (2013) Contributions of ectoparasite studies in archaeology with two examples from the North Atlantic region. International Journal of Paleopathology 3(3): 158164.Google Scholar
Fornaciari, G., Castagna, M., Viacava, P., et al. (1992) Chagas’ disease in Peruvian Inca mummy. Lancet 339(8785): 128129.Google Scholar
Fornaciari, G., Giuffra, V., Marinozzi, S., et al. (2009) ‘Royal’ pediculosis in Renaissance Italy: lice in the mummy of the King of Naples Ferdinand II of Aragon (1467–1496). Memorias do Instituto de Oswaldo Cruz 104: 671672.Google Scholar
Fornaciari, G., Marinozzi, S., Gazzaniga, V., et al. (2011) The use of mercury against pediculosis in the Renaissance: the case of Ferdinand II of Aragon, King of Naples, 1467–91. Medical History 55: 109115.Google Scholar
Fowler, C., Harding, J., Hofmann, D. (Eds.) (2015) The Oxford Handbook of Neolithic Europe. Oxford: Oxford University Press.Google Scholar
Friday, K.F. (2004) Samurai, Warfare and the State in Early Medieval Japan. London: Routledge.Google Scholar
Fry, G.F. (1974) Ovum and parasite examination of salts cave human paleofeces, in: Watson, P.J. (Ed.), Archaeology of the Mammoth Cave Area. New York: Academic Press, p. 61.Google Scholar
Fry, G.F., Moore, J.G. (1969) Enterobius vermicularis: 10,000-year-old human infection. Science 166(3913): 1620.Google Scholar
Fugassa, M.H., Araújo, A., Guichón, R.A., (2006) Quantitative paleoparasitology applied to archaeological sediments. Memorias do Instituto Oswaldo Cruz 101 (Suppl. 2), 2933.Google Scholar
Fugassa, M.H., Barberena, R. (2006) Cuevas y zoonosisantiguas: paleoparasitologiadel sitio Orejas de Burro 1 (Santa Cruz, Argentina). Magallania (Punta Arenas) 34: 5762.Google Scholar
Fugassa, M.H., Beltrame, M.O., Sardella, N.H., et al. (2010) Paleoparasitological results from coprolites dated at the Pleistocene–Holocene transition as a source of paleoecological evidences in Patagonia. Journal of Archaeological Science 37: 880884.Google Scholar
Fugassa, M.H., Favier Dubois, C.M. (2009) Primer registro paleoparasitológico de Trichuris sp. (Nematoda, Capilariidae) en muestras asociadas a restos humanos del Holoceno tardio de Patagonia septentrional. Revista Argentina de Antropologia Biológica 11(1): 6172.Google Scholar
Garcia, H.H., Gonzalez, A.E., Evans, C.A.W., et al. (2003) Taenia solium cysticercosis. The Lancet 362(9383): 547556.Google Scholar
Garcia, L.S. (2016) Diagnostic Medical Parasitology. 6th ed. Washington: ASM Press.Google Scholar
Gardiner, M.A. (1990) Survival of Anisakis in cold smoked salmon. Canadian Institute of Food Science and Technology Journal 23(2/3): 143144.Google Scholar
GBD 2013 DALYS and HALE Collaborators. (2015) Global, regional and national disability-adjusted life years (DALYs) for 306 diseases and injuries and healthy life expectancy (HALE) for 188 countries, 1990–2013: quantifying the epidemiological transition. The Lancet 386(10009): 21452191.Google Scholar
Geltner, G. (2019) The path to Pistoia: urban hygiene before the Black Death. Past and Present 246(1): 333.Google Scholar
Ghosh, K., Ghosh, K. (2007) Pathogenesis of anemia in malaria: a concise review. Parasitology Research 101: 14631469.Google Scholar
Gilchrist, R. (1995) Contemplation and Action: The Other Monasticism. Leicester: Leicester University Press.Google Scholar
Golánová, P., Hajnalová, M., Lisá, L., et al. (2020) Investigating the complex story of one ditch: a multidisciplinary study of ditch infill provides insight into the spatial organisation within the oppidum of Bibracte (Burgundy, France). PLoS ONE 15(4): e0231790.Google Scholar
Gonçalves, M.L.C, Araújo, A., Duarte, R., et al. (2002) Detection of Giardia duodenalis antigen in coprolites using a commercially available enzyme-linked immunosorbent assay. Transactions of the Royal Society of Tropical Medicine and Hygiene 96: 640643.Google Scholar
Gonçalves, M.L.C., Araújo, A., Ferreira, L.F. (2003) Human intestinal parasites in the past: new findings and a review. Memórias do Instituto Oswaldo Cruz 98 (Suppl. 1): 103118.Google Scholar
Gonçalves, M.L.C., Da Silva, V.L., de Andrade, C.M., et al. (2004) Amoebiasis distribution in the past: first steps using an immunoassay technique. Transactions of the Royal Society of Tropical Medicine and Hygiene 98: 8891.Google Scholar
Graff, A., Jones, A., Bennion-Peddley, E., et al. (2020) A comparative study of parasites in three latrines from Medieval and Renaissance Brussels, Belgium (14th–17th centuries). Parasitology 147(13): 14431451.Google Scholar
Gray, D.J., Ross, A.G., Li, Y.-S., et al. (2011) Diagnosis and management of schistosomiasis. BMJ 342: d2651.Google Scholar
Green, M.H. (2014) Taking ‘pandemic’ seriously: making the Black Death global. The Medieval Globe 1: 2761.Google Scholar
Greig, J. (1981) The investigation of a medieval barrel-latrine from Worcester. Journal of Archaeological Science 8(3): 265282.Google Scholar
Gryseels, B. (2012) Schistosomiasis. Infectious Disease Clinics of North America 26(2): 383397.Google Scholar
Gunn, A., Pitt, S.J. (2012) Parasitology: An Integrated Approach. Chichester: Wiley-Blackwell.Google Scholar
Habu, J. (2004) Ancient Jomon of Japan. Cambridge: Cambridge University Press.Google Scholar
Hagen, A. (2006) Anglo-Saxon Food and Drink: Production, Processing, Distribution and Consumption. Hockwold cum Wilton: Anglo-Saxon Books, pp. 275276.Google Scholar
Hague, R. (Ed.) (1955) The Life of Saint Louis, by John of Joinville. London: Sheed and Ward.Google Scholar
Haley, E.W. (1990) The fish sauce trader L. Iunius Puteolanus. Zeitschrift für Papyrologie und Epigraphik 80: 7278.Google Scholar
Hall, A.R., Kenward, H.K. (2015) Sewers, cesspits and middens: a survey of the evidence for 2000 years of waste disposal in York, UK, in: Mitchell, P.D. (Ed.), Sanitation, Latrines and Intestinal Parasites in Past Populations, Farnham: Ashgate, pp. 99119.Google Scholar
Hall, H.J. (1977) A Paleoscataological Study of Diet and Disease at Dirty Shame Rock Shelter, Southeast Oregon. Tebiwa series no. 8. Pocatello: Idaho State University Museum of Natural History.Google Scholar
Hall, R.A. (2007) Exploring the World of the Vikings. London: Thames and Hudson.Google Scholar
Halpenny, C.M., Koski, K.G., Valdés, V.E., et al. (2012) Prediction of child health by household density and asset-based indices in impoverished indigenous villages in rural Panamá. American Journal of Tropical Medicine and Hygene 86: 280291.Google Scholar
Han, E.T., Guk, S.M., Kim, J.L., et al. (2003) Detection of parasite eggs from archaeological excavations in the Republic of Korea. Memórias do Instituto Oswaldo Cruz 98: 123126.Google Scholar
Handley, M.A. (2011) Dying on Foreign Shores: Travel and Mobility in the Late-Antique West. Portsmouth, USA: Journal of Roman Archaeology.Google Scholar
Hänggi, R., Zumstein, A., Endriss, Y. (1989) Augusta Rauricorum, Insula 22: Grabungs- und Dokumentationsstand 1988. Jahresberichte aus Augst und Kaiseraugst 10: 2972.Google Scholar
Hankinson, R.J. (2008) The Cambridge Companion to Galen. Cambridge: Cambridge University Press.Google Scholar
Hansen, J. (1986) Les momies du Groenland. La Recherche 183: 14901498.Google Scholar
Hansen, V. (2012) The Silk Road: A New History. Oxford: Oxford University Press.Google Scholar
Harbeck, M., Seifert, L., Hänsch, S., et al. (2013) Yersinia pestis DNA from skeletal remains from the 6th century AD reveals insights into Justinianic Plague, PLoS Pathogens 9(5): e1003349.Google Scholar
Harding, A.H. (2021) Bronze Age Lives. Berlin: De Gruyter.Google Scholar
Harington, J. (Ed.) (1953) Regimen Sanitatis Salerni: The School of Salernum. Salerno: Ente Provinciale Per Il Tourismo.Google Scholar
Harris, W.V. (2019) Scatological Asklepios: the use of excrement in Graeco-Roman Healthcare. Journal of the History of Medicine and Allied Sciences 75(1): 123.Google Scholar
Hart, G.D., Millet, N.B., Rideout, D.F., et al. (1977) Autopsy of an Egyptian mummy (Nakht-R.O.M.-1), Canadian Medical Association Journal 117: 461476.Google Scholar
Harter, S. (2003) Implication de la Paléoparasitologie dans l’Etude des Populations Anciennes de la Vallée du Nil et du Proche-Orient: Etudes de Cas. PhD Thesis, Universite de Reims Champagne-Ardenne.Google Scholar
Harter, S., Bouchet, F., Mumcuoglu, K.Y., et al. (2004) Toilet practices among members of the Dead Sea scrolls sect at Qumran (100 BCE–68 CE) Revue de Qumran 21(4): 579584.Google Scholar
Harter, S., Le Bailly, M., Janot, F., et al. (2003) First paleoparasitological study of embalming rejects jar found in Saqqara, Egypt. Memorias do Instituto Oswaldo Cruz 98(Suppl. 1): 119121.Google Scholar
Harter-Lailheugue, S., Le Mort, F., Vigne, J.-D., et al. (2005) Premières données parasitologiques sur les populations humaines précéramiques Chypriotes (VIIIe et VIIe millénaires av. J.-C.). Paleorient 31(2): 4354.Google Scholar
Haselgrove, C., Rebay-Salisbury, K., Wells, P.S. (Eds.) (2018) The Oxford Handbook of the European Iron Age. Oxford: Oxford University Press.Google Scholar
Hawass, Z., Gad, Y., Ismail, S., et al. (2010) Ancestry and pathology in King Tuthankhamun’s family. Journal of the American Medical Association 303: 638647.Google Scholar
Haynes, G. (2002) The Early Settlement of North America: The Clovis Era. Cambridge: Cambridge University Press.Google Scholar
Haywood, J. (2014) The Celts: Bronze Age to New Age. Oxford: Routledge.Google Scholar
He, S. (2000) Gansu Dunhuang HanDai Xuanquanzhi yizhi fajue jianbao 甘肃敦煌汉代悬泉置 遗址发掘简报 (Excavation of Xuanquanzhi site of the Han dynasty at Dunhuang in Gansu). Wenwu 文物 [Cultural Relics] 528: 420.Google Scholar
Hedrick, P.W. (2012) Resistance to malaria in humans: the impact of strong, recent selection. Malaria Journal 11: 349.Google Scholar
Heinonen-Tanski, H., van Wijk-Sebesma, C. (2005) Human excreta for plant production. Bioresource Technology 96: 403411.Google Scholar
Heirbaut, E., Jones, A.K.G., Wheeler, W. (2011) Archaeometry: methods and analysis, in: Jansen, G.C.M., Koloski-Ostrow, A.O., Moormann, E.M. (Eds.), Roman Toilets: Their Archaeology and Cultural History. Leuven: Peeters, pp. 720.Google Scholar
Helbaek, H. (1972) Samarran irrigation agriculture at Choga Mami in Iraq. Iraq 34: 2548.Google Scholar
Hermann, B. (1988). Parasite remains from medieval latrine deposits: an epidemiological and ecologic approach. Actes des Troisièmes Journées Anthropologiques, Notes et Monographies Techniques 24: 135142.Google Scholar
Heuman, G., Burnard, T. (Eds.) (2011) The Routledge History of Slavery. London: Routledge.Google Scholar
Hibbs, A.C., Secor, W.E., Van Gerven, D., et al. (2011) Irrigation and infection: the immunoepidemiology of schistosomiasis in Ancient Nubia. American Journal of Physical Anthropology 145: 290298.Google Scholar
Hidalgo-Argüello, M.R., Díez Baños, N., Fregeneda Grandes, J., et al. (2003) Parasitological analysis of Leonese royalty from Collegiate-Basilica of St. Isidoro, León (Spain): helminths, protozoa, and mites. Journal of Parasitology 89(4): 738743.Google Scholar
Higham, T., Compton, T., Stringer, C., et al. (2011) The earliest evidence for anatomically modern humans in northwestern Europe. Nature 49: 521524.Google Scholar
Hindley, A., Langley, F.W., Levy, B.J. (2000) Old French–English Dictionary. Cambridge: Cambridge University Press.Google Scholar
Hirschfeld, Y. (2004) Qumran in Context: Reassessing the Archaeological Evidence. Peabody, MA: Hendrickson.Google Scholar
Hobson, B. (2009) Latrinae et Foricae: Toilets in the Roman World. London: Duckworth.Google Scholar
Hoeppli, R.J.C. (1959) Parasites and Parasitic Infections in Early Medicine and Science. Singapore: University of Malaya Press.Google Scholar
Hoffman, R.C. (2003) A brief history of aquatic resource use in medieval Europe. Helgoland Marine Research 59(1): 2230.Google Scholar
Holliday, D.M., Guillen, S., Richardson, D.J. (2003) Diphyllobothriasis of the Chiribaya culture (700–1476 AD) of southern Peru. Comparative Parasitology 70(2): 167171.Google Scholar
Hong, J.H., Oh, C.S., Seo, M., et al. (2017) Ancient Ascaris DNA sequences of cytochrome b, cytochrome c oxidase subunit 1, NADH dehydrogenase subunit 1, and internal transcribed spacer 1 genes from Korean Joseon mummy feces. Journal of Parasitology 103(6): 795800.Google Scholar
Horden, P., Hsu, E. (Eds.) (2013) The Body in Balance: Humoral Medicines in Practice. New York: Berghahn.Google Scholar
Horne, P.D. (2002) First evidence of Enterobiasis in ancient Egypt. Journal of Parasitology 88: 10191021.Google Scholar
Horne, P., Redford, S. (1995) Aspergillosis and dracunculiasis in mummies from the tomb of Parennefer. Paleopathology Newsletter 92: 1012.Google Scholar
Horrox, R. (1994) The Black Death. Manchester: Manchester University Press.Google Scholar
Hoskins, W.G. (1955) Sheep Farming in Saxon and Medieval England. London: Department of Education of the International Wool Secretariat.Google Scholar
Houhamdi, L., Lepidi, H., Drancourt, M., et al. (2006) Experimental model to evaluate the human body louse as a vector of plague. Journal of Infectious Diseases 194(11): 158911596.Google Scholar
Hu, S.Y. (1984) Study on the parasite eggs in an ancient corpse from Zhangguo Chu Tomb No. 1 in Mashan brick-field of Jiangling County, Hubei. Chinese Journal of Parasitology and Parasitic Disease 2: 8.Google Scholar
Hufthammer, A.K., Walløe, L. (2013) Rats cannot have been intermediate hosts for Yersinia pestis during medieval plague epidemics in northern Europe. Journal of Archaeological Science 40: 17521759.Google Scholar
Hughes, J.D. (1992) Sustainable agriculture in ancient Egypt. Agricultural History 66(2): 1222.Google Scholar
Hulse, E.V. (1971) Joshua’s curse and the abandonment of ancient Jericho: schistosomiasis as a possible medical explanation. Medical History 15: 376386.Google Scholar
Hunan Provincial Museum. (1973) Changsha Mawangdui Yihao Han Mu 长沙马王堆二、三号汉墓发掘简报 (No. 1 Tomb of Mawangdui at Changsha, Han Dynasty). Beijing: Wenwu Chubanshe [Cultural Relics Press].Google Scholar
Hunan Provincial Museum. (1974) Mawangdui Er, San Hao Han Mu Fajue Jianbao (Excavation of No. 2 and No. 3 tombs of Mawangdui, Han dynasty). Wenwu 文物 [Cultural Relics] 7, 3948, 63, 95111.Google Scholar
Hundt, H.-J. (1960) Vorgeschichtliche Gewebe aus dem Hallstätter Salzberg. Jahrbuch des Römisch-Germanischen Zentralmuseums Mainz 7: 126150.Google Scholar
Hurst, D. (2005) Sheep in the Cotswolds: the Medieval Wool Trade. Stroud: Tempus Books.Google Scholar
Hwang, K.M. (2010) A History of Korea: An Episodic Narrative. Basingstoke: Palgrave McMillan.Google Scholar
Ikram, S. (2010) Ancient Egypt: An Introduction. Cambridge: Cambridge University Press.Google Scholar
Iñiguez, A.M., Reinhard, K.J., Araújo, A., et al. (2003) Enterobius vermicularis: ancient DNA from North and South American human coprolites. Memorias do Instituto Oswaldo Cruz 98: 6769.Google Scholar
Iñiguez, A.M., Reinhard, K.J., Gonçalves, M.L.C., et al. (2006) SL1 RNA gene recovery from Enterobius vermicularis ancient DNA in pre-Columbian human coprolites. International Journal for Parasitology 36: 14191425.Google Scholar
Isbell, W.H. (2008) Wari and Tiwanaku: international identities in the central Andean middle horizon, in: Silverman, H., Isbell, W.H. (Eds.), Handbook of South American Archaeology. New York: Springer, pp. 731759.Google Scholar
Isherwood, I., Jarvis, H., Fawcitt, R.A. (1984) Radiology of the Manchester mummies, in: David, A.R., Tapp, E. (Eds.), Evidence Embalmed: Modern Medicine and the Mummies of Ancient Egypt. Manchester: Manchester University Press, pp. 2564.Google Scholar
Jackson, P. (2007) The Seventh Crusade, 1244–1254: Sources and Documents. Aldershot: Ashgate.Google Scholar
Jaeger, L.H., Iñiguez, A. (2014) Molecular paleoparasitological hybridization approach as effective tool for diagnosing human intestinal parasites from scarce archaeological remains. PLoS ONE 9: e105910.Google Scholar
Jaeger, L.H., Taglioretti, V., Fugassa, M.H., et al. (2013) Paleoparasitological results from XVIII century human remains from Rio de Janeiro, Brazil. Acta Tropica 125: 282286.Google Scholar
Jansen, G.C.M., Koloski-Ostrow, A.O., Moorman, E.M. (Eds.) (2011) Roman Toilets: Their Archaeology and Cultural History. Leuven: Peeters Press.Google Scholar
Jansen, J., Over, H.J. (1962) Het voorkomen van parasieten in terpmateriaal uit Noordwest Duitsland. Tijdschr Diergeneesk 87: 13771379.Google Scholar
Jedwab, R., Johnson, N.D., Koyama, M. (2022) The economic impact of the Black Death. Journal of Economic Literature 60(1): 132178.Google Scholar
Jensen, P.K., Phuc, P.D., Knudsen, L.G., et al. (2008) Hygiene versus fertiliser: the use of human excreta in agriculture – a Vietnamese example. International Journal of Hygiene and Environmental Health 211: 432439.Google Scholar
Jeon, H. (2008) Goguryeo: In Search of its Culture and History. Elizabeth: Hollym.Google Scholar
Jirsa, F., Winiwarter, V. (2010) Eingeweidewürmer in Galens Schriften [Intestinal helminths in the works of Galen]. Wiener Klinische Wochenschrift 122(Suppl. 3): 1418.Google Scholar
Johnston, I. (2006) Galen on Diseases and Symptoms. Cambridge: Cambridge University Press.Google Scholar
Jones, A.K.G. (1983) A coprolite from 6–8 Pavement, in: Hall, A.R., Kenward, H.K., Williams, D., et al. (Eds.), Environment and Living Conditions at Two Anglo-Scandinavian Sites. The Archaeology of York series 14(4). London: Council for British Archaeology, pp. 225229.Google Scholar
Jones, A.K.G. (1988) Parasitological investigations, in: Schia, E., Griffin, K. (Eds.), De Arkeologiske Utgravninger I Gamlebyen, Oslo, Series no. 5. Oslo: Alheim and Eide, pp. 134137.Google Scholar
Jones, A.K.G. (1990) Coprolites and faecal concretions, in: Bell, M. (Ed.), Brean Down: Excavations 1983–1987. London: English Heritage, pp. 242245.Google Scholar
Jones, R. (Ed.) (2012) Manure Matters: Historical, Archaeological and Ethnographic Perspectives. Farnham: Ashgate.Google Scholar
Joseph, S.A., Casapia, M., Blouin, B., et al. (2014) Risk factors associated with malnutrition in one-year-old children living in the Peruvian Amazon. PLoS Neglected Tropical Diseases 8(12): e3369.Google Scholar
Josephus, Flavius. (1976) The Jewish War Books I–III, ed. St. John, H.. Loeb Classical Library. Cambridge, MA: Harvard University Press.Google Scholar
Karuka, M. (2019) Empire’s Tracks: Indigenous Nations, Chinese Workers, and the Transcontinental Railroad. Oakland: University of California Press.Google Scholar
Keiser, J.M., De Castro, C., Maltese, M.F., et al. (2005) Effects of irrigation and large dams in the burden of malaria on a global and regional scale. American Journal of Tropical Medicine and Hygiene 72(4): 392406.Google Scholar
Kelly, F. (1997) Early Irish Farming: a Study Based Mainly on the Law Texts of the 7th and 8th Century. Dublin: Dublin Institute for Advanced Studies.Google Scholar
Kennedy, H. (1996) Muslim Spain and Portugal: A Political History. Harlow: Longman.Google Scholar
Kenward, H.K. (1988) Insect remains, in: Schia, E. (Ed.), De Arkeologiske Utgravninger i Gamlebyen, Oslo. Volume 5. 5 Mindets Tomt – Sondrefelt. Øvre Ervik: Alvheim and Eide, pp. 115140.Google Scholar
Kenward, H.K. (1999) Pubic lice (Pthirus pubis L.) were present in Roman and Medieval Britain. Antiquity 73: 911915.Google Scholar
Kenward, H. (2002) Technical Report: Insect and Other Invertebrate Remains from an Early 11th century Settlement at Viborg Søndersø, Denmark. Report 2005/04 from the Centre for Human Palaeoecology. York: University of York.Google Scholar
Kenward, H., Allison, E. (1994) Rural origins of the urban insect fauna, in: Hall, A.R., Kenward, H.K. (Eds.), Urban–Rural Connexions: Perspectives from Environmental Archaeology. Oxford: Oxbow, pp. 5577.Google Scholar
Kenward, H.K., Hall, A.R. (1995) Biological Evidence from 16–22 Coppergate. Archaeology of York series no. 14/7. York: Council for British Archaeology.Google Scholar
Kenward, H.K., Hall, A.R., Allison, E.P., et al. (2011) Environment, activity and living conditions at Deer Park Farms: evidence from plant and invertebrate remains, in: Lynn, C.J., McDowell, J.A. (Eds.), Deer Park Farms: The Excavation of a Raised Rath in the Glenarm Valley, Co. Antrim. Belfast: Stationery Office, pp. 497548.Google Scholar
Kenyon, J.R. (2010) The Medieval Castles of Wales. Cardiff: University of Wales Press.Google Scholar
Kershaw, S. (2013) A Brief History of the Roman Empire. London: Robinson.Google Scholar
Khairat, R., Ball, M., Chang, C.-C.H., et al. (2013) First insights into the metagenome of Egyptian mummies using next-generation sequencing. Journal of Applied Genetics 54: 309325.Google Scholar
Khalil, L.F. (1969) Larval nematodes in the herring (Clupea harengus) from British coastal waters and adjacent territories. Journal of the Marine Biological Association of the United Kingdom 49: 641659.Google Scholar
Killebrew, A.E. (2005) Biblical Peoples and Ethnicity: An Archaeological Study of Egyptians, Canaanites, Philistines, and Early Israel, 1300–1100 BCE. Brill: Leiden.Google Scholar
Kim, M.J., Seo, M., Oh, C.S., et al. (2016) Paleoparasitological study on the soil sediment samples from archaeological sites of ancient Silla Kingdom in Korean peninsular. Quaternary International 405: 8086.Google Scholar
King, C.H. (2015) Health metrics for helminth infections. Acta Tropica 141: 150160.Google Scholar
Klicks, M.M. (1990) Helminths as heirlooms and souvenirs: a review of New World paleoparasitology. Parasitology Today 6(4): 92100.Google Scholar
Knapp, A.B., van Dommelen, P. (Eds.) (2015) The Cambridge Prehistory of the Bronze and Iron Age Mediterranean. Cambridge: Cambridge University Press.Google Scholar
Knight, M., Ballantyne, R.M., Robinson Zeki, I., et al. (2019) The Must Farm pile-dwelling settlement. Antiquity 93: 645663.Google Scholar
Knorr, D., Smith, W., Ledger, M., et al. (2019) Intestinal parasites in six Islamic period latrines from 10th–11th century Córdoba (Spain) and 12th–13th century Mértola (Portugal). International Journal of Paleopathology 26: 7583.Google Scholar
Kobayashi, T. (2004) Jomon Reflections: Forager Life and Culture in the Prehistoric Japanese Archipelago. Oxford: Oxbow.Google Scholar
Koloski-Ostrow, A.O. (2015). The Archaeology of Sanitation in Roman Italy: Toilets, Sewers, and Water Systems. Chapel Hill: University of North Carolina Press.Google Scholar
Koukounari, A., Estambale, B.B.A., Njagi, J.K., et al. (2008) Relationship between anaemia and parasitic infections in Kenyan schoolchildren: a Bayesian hierarchical modelling approach. International Journal for Parasitology 38: 16631671.Google Scholar
Kristjánsdóttir, S., Collins, C. (2011) Cases of hydatid disease in medieval Iceland. International Journal of Osteoarchaeology 21: 479486.Google Scholar
Kuijper, W.J., Turner, H. (1992) Diet of a Roman centurion at Alphen aan den Rijn, The Netherlands, in the first century AD. Review of Palaeobotany and Palynology 73(1–4): 187204.Google Scholar
Lalremruata, A., Ball, M., Bianucci, R., et al. (2013) Molecular identification of falciparum malaria and human tuberculosis co-infections in mummies from the Fayum depression (Lower Egypt). PLoS ONE 8(4): e60307.Google Scholar
Langgut, D. (2022) Mid-7th century BC human parasite remains from Jerusalem. International Journal of Paleopathology 36: 16.Google Scholar
Lazzarini, I. (Ed.) (2021) The Later Middle Ages. Oxford: Oxford University Press.Google Scholar
Le Bailly, M., Bouchet, F. (2006) Paléoparasitologie et immunologie: L’exemple d’Entamoeba histolytica. Archéosciences 30: 129135.Google Scholar
Le Bailly, M., Bouchet, F. (2010) Ancient dicrocoeliosis: occurrence, distribution and migration. Acta Tropica 115: 175180.Google Scholar
Le Bailly, M., Bouchet, F. (2013) Diphyllobothrium in the past: review and new records. International Journal of Paleopathology 3: 182187.Google Scholar
Le Bailly, M., Bouchet, F. (2015) A first attempt to retrace the history of dysentery caused by Entamoeba histolytica, in: Mitchell, P.D. (Ed.), Sanitation, Latrines and Intestinal Parasites in Past Populations. Farnham: Ashgate, pp. 219228.Google Scholar
Le Bailly, M., Gonçalves, M.L.C., Harter-Lailheugue, S., et al. (2008) New finding of Giardia intestinalis (Eukaryote, Metamonad) in old world archaeological site using immunofluorescence and enzyme-linked immunosorbent assays. Memorias do Instituto Oswaldo Cruz 103(3): 298300.Google Scholar
Le Bailly, M., Gonçalves, M.L.C., Lefèvre, C., et al. (2006) Parasitism in Kansas in the 1800s: a glimpse to the past through the analysis of grave sediments from Meadowlark cemetery. Memorias do Instituto Oswaldo Cruz 101(Suppl. II): 5356.Google Scholar
Le Bailly, M., Leuzinger, U., Bouchet, F. (2003) Dioctophymidae eggs in coprolites from neolithic site of Arbon-Bleiche 3 (Switzerland). Journal of Parasitology 89(5): 10731075.Google Scholar
Le Bailly, M., Leuzinger, U., Schlichtherie, H., et al. (2005) Diphyllobothrium: neolithic parasite? Journal of Parasitology 91(4): 957959.Google Scholar
Le Bailly, M., Maicher, C., Dufour, B. (2016) Archaeological occurrences and historical review of the human amoeba Entamoeba histolytica over the past 6000 years. Infection, Genetics and Evolution 42: 3440.Google Scholar
Le Bailly, M., Mouze, S., Rocha, G.C.D., et al. (2010) Identification of Taenia sp. in a mummy from a Christian necropolis in El-Deir, oasis of Kharga, ancient Egypt. Journal of Parasitology, 96: 213215.Google Scholar
Ledger, M.L., Anastasiou, E., Shillito, L.-M., et al. (2019a) Parasite infection at the early farming community of Çatalhöyük, Turkey (7100–6150 BC). Antiquity 93(369): 573587.Google Scholar
Ledger, M.L., Grimshaw, E., Fairey, M., et al. (2019b) Intestinal parasites at the Bronze Age settlement of Must Farm, in the fens of East Anglia, UK (9th century B.C.E.). Parasitology 146(12): 15831594.Google Scholar
Ledger, M.L., Micarelli, I., Ward, D., et al. (2021) Gastrointestinal infection in Italy during the Roman Imperial and Longobard periods: a paleoparasitological analysis of sediment from skeletal remains and sewer drains. International Journal of Paleopathology 33: 6171.Google Scholar
Ledger, M.L., Mitchell, P.D. (2022a) Tracing zoonotic parasite infections throughout human evolution. International Journal of Osteoarchaeology 32(3): 553564.Google Scholar
Ledger, M.L., Mitchell, P.D. (2022b) Evolutionary perspectives on human parasitic infection, from ancient parasites to modern medicine, in: Plomp, K., Roberts, C., Elton, S., et al. (Eds.), Paleopathology and Evolutionary Medicine: An Integrated Approach. Oxford: Oxford University Press, pp. 204221.Google Scholar
Ledger, M.L., Rowan, E., Gallart-Marques, F., et al. (2020) Intestinal parasitic infection in the eastern Roman Empire during the Imperial Period and Late Antiquity. American Journal of Archaeology 124(4): 631657.Google Scholar
Ledger, M.L., Stock, F., Schwaiger, H., et al. (2018) Intestinal parasites from public and private latrines and the harbor canal in Roman period Ephesus, Turkey (1st c. BCE to 6th c. CE). Journal of Archaeological Science Reports 21: 289297.Google Scholar
Lei, S., Hu, S.Y. (1984) The discovery of parasite eggs in an ancient corpse from Zhangguo Chu Tomb No. 1 in the Mashan brick-field of Jiangling County, Hubei. Chinese Journal of Parasitology and Parasitic Diseases 1: 8 (in Chinese).Google Scholar
Leles, D., Araújo, A., Ferreira, L.F., et al. (2008) Molecular paleoparasitological diagnosis of Ascaris sp. from coprolites: new scenery of ascariasis in pre-Columbian South America times. Memórias do Instituto Oswaldo Cruz 103: 106108.Google Scholar
Leulmi, H., Socolovschi, C., Laudisoit, A., et al. (2014) Detection of Rikkettsia felis, Rikkettsia typhi, Bartonella species and Yersinia pestis in fleas (Siphonaptera) from Africa. PLoS Neglected Tropical Diseases 8(10): e3152.Google Scholar
Li, H. (1997) Han Tang Yinshi Wenhua Shi 汉唐饮食文化史 [Food Cultural History of the Han and Tang Dynasties]. Beijing: Beijing Normal University Publishing Group.Google Scholar
Li, Y. (1984) Summary of parasitic research on corpses in China. Acta Anthropologica Sinica 3: 407411 (in Chinese)Google Scholar
Lien, Y.E. (2015) Reconstructing the postal relay system of the Han Period, in: Richter, A. (Ed.), A History of Chinese Letters and Epistolary Culture. Leiden: Brill, pp. 1752.Google Scholar
Lindblade, K., Walker, E.D., Onapa, A.W., et al. (2000) Land use change alters malaria transmission parameters by modifying temperature in a highland of Uganda. Tropical Medicine and International Health 5(4): 263274.Google Scholar
Lino, M., Leles, D., Peña, A.P., et al. (2018) First description of Enterobius vermicularis egg in a coprolite dated to pre-contact in Brazil. Journal of Archaeological Science: Reports 17: 16.Google Scholar
Lintott, A. (2000) The Roman Republic. Stroud: Sutton.Google Scholar
Little, L.K. (Ed.) (2006) Plague and the End of Antiquity: The Pandemic of 541–750. Cambridge: Cambridge University Press.Google Scholar
Little, L.K. (2011) Plague historians in lab coats. Past and Present 213: 267290.Google Scholar
Liu, W., Li, V., Learn, G.H., et al. (2010) Origin of the human malaria parasite Plasmodium falciparum in gorillas. Nature 467:420425.Google Scholar
Liu, W.-Q., Liu, J., Zhang, J.-H., et al. (2007) Comparison of ancient and modern Clonorchis sinensis based on ITS1 and ITS2 sequences. Acta Tropica 101: 9194.Google Scholar
Liu, X. (2010) The Silk Road in World History. Oxford: Oxford University Press.Google Scholar
Liu, Z., Wang, C., Wei, K., et al. (2021) Investigation of genetic relatedness of Brucella strains in countries along the Silk Road. Frontiers in Veterinary Science 7: 539444.Google Scholar
Lloyd, A.B. (Ed.) (2014) A Companion to Ancient Egypt. Chichester: Wiley Blackwell.Google Scholar
Locker, A. (2007) In piscibus diversis; the bone evidence for fish consumption in Roman Britain. Britannia 38: 141–80.Google Scholar
López, S., van Dorp, L., Hellenthal., G. (2015) Human dispersal out of Africa: a lasting debate. Evolutionary Bioinformatics 11(S2): 5768.Google Scholar
Lorge, P. (2005) War, Politics and Society in Early Modern China, 900–1795. London: Routledge.Google Scholar
Loufouma-Mbouaka, A., Binder, M., Noedl, H., et al. (2020) Evaluation of rapid diagnostic tests and Enzyme Linked Immunoassay in the detection of malaria in ancient human remains. Journal of Archaeological Science 116: 105118.Google Scholar
Loufouma-Mbouaka, A., Gamble, M., Wurst, C., et al. (2021) The elusive parasite: comparing macroscopic, immunological, and genomic approaches to identifying malaria in human skeletal remains from Sayala, Egypt (third to sixth centuries AD). Archaeological and Anthropological Sciences 13: 115.Google Scholar
Loy, D.E., Liu, W., Li, Y., et al. (2017) Out of Africa: origins and evolution of the human malaria parasites Plasmodium falciparum and Plasmodium vivax. International Journal for Parasitology 47: 8797.Google Scholar
Lozada, M.C., Buikstra, J.E., Rakita, G., et al. (2009) Camelid herders: the forgotten specialists in the coastal Señorí of Chiribaya, Southern Peru, in: Marcus, J., Williams, P.R. (Eds.), Andean Civilization. Los Angeles: University of California, pp. 351364.Google Scholar
Lucas, A.T. (1989) Cattle in Ancient Ireland. Kilkenny: Boethius Press.Google Scholar
Lynnerup, N. (2007) Mummies. Yearbook of Physical Anthropology 50: 162190.Google Scholar
Madigan, K. (2015) Medieval Christianity: A New History. New Haven: Yale University Press.Google Scholar
Magness, J. (2002) The Archaeology of Qumran and the Dead Sea Scrolls. Grand Rapids: Eerdmans.Google Scholar
Magnusson, R.J. (2013) Medieval urban environmental history. History Compass 11(3): 189200.Google Scholar
Mahmud, R., Lim, Y.A.L., Amir, A. (2017) Medical Parasitology: A Textbook. Cham: Springer.Google Scholar
Maicher, C., Bleichner, N., Le Bailly, M. (2019) Spatializing data in paleoparasitology: application to the study of the Neolithic lakeside settlement of Zürich-Parkhaus-Opéra, Switzerland. The Holocene 29(7): 11981205.Google Scholar
Maicher, C., Hoffmann, A., Côte, N.M.L., et al. (2017) Paleoparasitological investigations on the Neolithic lakeside settlement of La Draga (Lake Banyoles, Spain). The Holocene 27(11): 16591668.Google Scholar
Major, J.S., Cook, C.A. (2017) Ancient China: A History. Abingdon: Routledge.Google Scholar
Makki, M., Dupouy-Camet, J., Seyed Sajjadi, S.M., et al. (2017) Human spiruridiasis due to Physaloptera spp. (Nematoda: Physalopteridae) in a grave of the Shahr-e Sukhteh archaeological site of the Bronze Age (2800–2500 BC) in Iran. Parasite 24: 18.Google Scholar
Marciniak, S., Herring, D.A., Sperduti, A., et al. (2018) A multi-faceted anthropological and genomic approach to framing Plasmodium falciparum malaria in Imperial period central-southern Italy (1st–4th c. CE). Journal of Anthropological Archaeology 49: 210224.Google Scholar
Marciniak, S., Prowse, T.L., Herring, D.A., et al. (2016) Plasmodium falciparum malaria in 1st–2nd century CE southern Italy. Current Biology 26(23): R1205R1225.Google Scholar
Marsteller, S.J., Torres-Rouff, C., Knudson, K.J. (2011) Pre-Columbian Andean sickness ideology and social experience of leishmaniasis: a contextualised analysis of bioarchaeological and paleopathological data from San Pedro de Atacama, Chile. International Journal of Paleopathology 1: 2434.Google Scholar
Martinson, E., Reinhard, K.J., Buikstra, J.E., et al. (2003) Pathoecology of Chiribaya parasitism. Memórias do Instituto Oswaldo Cruz 98(Suppl. 1): 195205.Google Scholar
Mathers, C. (2017) WHO Methods and Data Sources for Global Burden of Disease Estimates 2000–2015. Geneva: WHO.Google Scholar
Matheson, C.D., David, R., Spigelman, M., et al. (2014) Molecular confirmation of Schistosoma and familial relationship in two ancient Egyptian mummies. Yearbook of Mummy Studies 2: 3947.Google Scholar
Matsui, A., Kenehara, M., Kenehara, M. (2003) Paleoparasitology in Japan – discovery of toilet features. Memórias do Instituto Oswaldo Cruz 98(Suppl. 1): 127136.Google Scholar
Mattern, S.P. (2013) The Prince of Medicine: Galen in the Roman Empire. Oxford: Oxford University Press.Google Scholar
Matthews, V.H. (2018) The History of Bronze and Iron Age Israel. New York: Oxford University Press.Google Scholar
Matthews, W. (2005) Life-cycle and life-course of buildings, in: Hodder, I. (Ed.), Catalhoyuk Perspectives: Themes from the 1995–9 Seasons. Cambridge: McDonald Institute for Archaeological Research and British Institute of Archaeology at Ankara, pp. 125151.Google Scholar
Matthews, W., Shillito, L.-M. Elliot, S., et al. (2014) Neolithic lifeways: microstratigraphic traces within houses, animal pens and settlements, in: Whittle, A., Bickle, P. (Ed.), Early Farmers: The View from Archaeology and Science. British Academy and Oxford University Press: Oxford, pp. 251279.Google Scholar
McClary, A. (1972) Notes on some Late Middle Woodland coprolites, in: Fitting, J.E. (Ed.), The Shulz Site at Green Point: A Stratified Occupation Area in the Saginaw Valley of Michigan. Anthropology Memoire no. 4. Ann Arbor: University of Michigan Museum, pp. 131136.Google Scholar
McMahon, A. (2015) Waste management in early urban southern Mesopotamia, in: Mitchell, P.D. (Ed.), Sanitation, Latrines and Intestinal Parasites in Past Populations. Farnham: Ashgate, pp. 1939.Google Scholar
Meltzer, M. (1993) Slavery: A World History. New York: De Capo Press.Google Scholar
Miller, R.L., Armelagos, G.J., Ikram, S., et al. (1992) Paleoepidemiology of Schistosoma infection in mummies. British Medical Journal 304: 555556.Google Scholar
Miller, R.L., Ikram, S., Armelagos, G.J., et al. (1994) Diagnosis of Plasmodium falciparum infection in mummies using the rapid manual ParaSight-F test. Transactions of the Royal Society for Tropical Medicine and Hygiene 88: 3132.Google Scholar
Milner, G.R. (2004) The Moundbuilders: Ancient Peoples of Eastern North America. London: Thames and Hudson.Google Scholar
Mitchell, P.D. (2011a) Retrospective diagnosis and the use of historical texts for investigating disease in the past. International Journal of Paleopathology 1: 8188.Google Scholar
Mitchell, P.D. (2011b) The spread of disease with the crusades, in: Nance, B., Glaze, E.F. (Eds.), Between Text and Patient: The Medical Enterprise in Medieval and Early Modern Europe. Florence: Sismel, pp. 309330.Google Scholar
Mitchell, P.D. (2013) The origins of human parasites: exploring the evidence for endoparasitism throughout human evolution. International Journal of Paleopathology 3: 191198.Google Scholar
Mitchell, P.D. (2014) Bloodletting: when, where and how, in: Dourish, E. (Ed.), Early Printed Treasures from Cambridge University Library. Cambridge: Cambridge University Press, p. 142.Google Scholar
Mitchell, P.D. (Ed.) (2015a) Sanitation, Latrines and Intestinal Parasites in Past Populations. Farnham: Ashgate.Google Scholar
Mitchell, P.D. (2015b) Human parasites in medieval Europe: lifestyle, sanitation and medical treatment. Advances in Parasitology 90: 389420.Google Scholar
Mitchell, P.D. (2015c) Intestinal parasites in the crusades: evidence for disease, diet, and migration, in: Boas, A. (Ed.), The Crusader World. New York: Routledge, pp. 593606.Google Scholar
Mitchell, P.D. (2017a) Human parasites in the Roman world: health consequences of conquering an empire. Parasitology 144: 4858.Google Scholar
Mitchell, P.D. (2017b) Improving the use of historical written sources in paleopathology. International Journal of Paleopathology 19: 8895.Google Scholar
Mitchell, P.D. (2017c) Sampling human remains for evidence of intestinal parasites, in: Mitchell, P.D., Brickley, M. (Eds.), Updated Guidelines to the Standards for Recording Human Remains. Reading: Chartered Institute for Archaeologists/British Association for Biological Anthropology and Osteoarchaeology, pp. 5456.Google Scholar
Mitchell, P.D., Anastasiou, E., Syon, D. (2011) Human intestinal parasites in crusader Acre: evidence for migration with disease in the Medieval Period. International Journal of Paleopathology 1: 132137.Google Scholar
Mitchell, P.D., Anastasiou, E., Whelton, H., et al. (2022) Intestinal parasites in the neolithic population who built Stonehenge (Durrington Walls, 2500 BCE). Parasitology 149: 10271033.Google Scholar
Mitchell, P.D., Stern, E., Tepper, Y. (2008) Dysentery in the crusader kingdom of Jerusalem: an ELISA analysis of two medieval latrines in the city of Acre (Israel). Journal of Archaeological Science 35(7): 18491853.Google Scholar
Mitchell, P.D., Tepper, Y. (2007) Intestinal parasitic worm eggs from a crusader period cesspool in the city of Acre (Israel). Levant 39: 9195.Google Scholar
Mitchell, P.D., Yeh, H.-Y. (in press). Intestinal parasites at the Xuanquanzhi Relay Station on the Silk Road 2,000 years ago: insights into linking the Silk Road to disease spread and the potential to track migrations, in: Melhorn, H., Wu, X., Wu, Z. (Eds.), Infectious Diseases Along the Silk Roads. Springer.Google Scholar
Mitchell, P. D., Yeh, H.-Y., Appleby, J., et al. (2013). The intestinal parasites of King Richard III. The Lancet 382: 888.Google Scholar
Monge Callega, A.M., Sarkic, N., López, J.H., et al. (2017) A possible Echinococcus granulosus calcified cyst found in a medieval adult female from the churchyard of Santo Domingo de Silos (Prádena del Rincón, Madrid, Spain). International Journal of Paleopathology 16: 513.Google Scholar
Monot, M., Honoré, N., Gernier, T., et al. (2009) Comparative genomic and phylogeographic analysis of Mycobacterium leprae. Nature Genetics 41: 12821289.Google Scholar
Montenegro, A., Araújo, A., Eby, M., et al. (2006) Parasites, paleoclimate, and the peopling of the Americas: using hookworm to time the Clovis migration. Current Anthropology 47(1): 193200.Google Scholar
Moore, J.G., Fry, G.F., Englert, E. (1969) Thorny-headed worm infection in north American prehistoric man. Science 163(3873): 13241325.Google Scholar
Morelli, G., Song, Y., Mazzoni, C.J., et al. (2010) Yersinia pestis genome sequencing identifies patterns of global phylogenetic diversity. Nature Genetics 42: 11401143.Google Scholar
Morgan, J.A.T., Dejong, R.J., Snyder, S.D., et al. (2001) Schistosoma mansoni and Biomphalaria: past history and future trends. Parasitology 123(7): 211228.Google Scholar
Morgan, K. (2016) A Short History of Transatlantic Slavery. London: I.B. Tauris.Google Scholar
Morrow, J.J., Newby, J., Piombino-Mascali, D., et al. (2016) Taphonomic considerations for the analysis of parasites in archaeological materials. International Journal of Paleopathology 13: 5664.Google Scholar
Moulinier, L., Jacquart, D., Paravicini Bagliani, A. (2007) Le science des urines de Maurus de Salerne et les Sinthomata Magistri Mauri inedits, in: Jacquart, D., Paravicini Bagliani, A. (Eds.), La Scuola Medica Salernitana. Florence: Sismel, pp. 261282.Google Scholar
Mowlavi, G., Kacki, S., Dupouy-Camet, J., et al. (2014) Probable hepatic capillariosis and hydatidosis in an adolescent from the late Roman period buried in Amiens (France). Parasite 21: 9.Google Scholar
Mumcuoglu, K.Y., Hadas, G. (2011) Head louse (Pediculus humans capitis) remains in a louse comb from the Roman Period excavated in the Dead Sea region. Israel Exploration Journal 61(2): 223229.Google Scholar
Mumcuoglu, K.Y., Zias, J. (1988) Head lice, Pediculus humanus capitis (Anoplura: Pediculidae) from hair combs excavated in Israel and dated from the first century B.C. to the eighth century A.D. Journal of Medical Entomology 25: 545547.Google Scholar
Mumcuoglu, K.Y., Zias, J. (1989) How the ancients de-loused themselves. Biblical Archaeology Review 15: 6669.Google Scholar
Mumcuoglu, K.J., Zias, J., Tarshis, M., et al. (2003) Body louse remains in textiles excavated at Massada, Israel. Journal of Medical Entomology 40: 585587.Google Scholar
Murray, A.V. (Ed.) (2006) The Crusades: an Encyclopaedia. Santa Barbara: ABC Clio.Google Scholar
Nansen, P., Jorgensen, R.J. (1977) Fund af parasitæg i arkæologisk material fra det vikingetidige Ribe. Nordisk Veterinaer Medicin 29: 263266.Google Scholar
Nerlich, A.G., Schraut, B., Dittrich, S., et al. (2008) Plasmodium falciparum in Ancient Egypt. Emerging Infectious Diseases 14(8): 13171319.Google Scholar
Nezamabadi, M., Aali, A., Stöllner, Th., et al. (2013a) Paleoparasitological analysis of samples from the Chehrabad salt mine (Northwestern Iran). International Journal of Paleopathology 3(3): 229233.Google Scholar
Nezamabadi, M., Harter-Lailheugue, S., Le Bailly, M. (2011) Paleoparasitology in the Middle East: state of the research and potential. Tüba-Ar 14: 205213.Google Scholar
Nezamabadi, M., Mashkour, M., Aali, A., et al. (2013b) Identification of Taenia sp. in a natural human mummy (third century BC) from the Chehrabad salt mine in Iran. Journal of Parasitology 99(3): 570572.Google Scholar
Ngui, R., Lim, Y.A.L., Chong Kin, L., et al. (2012) Association between anaemia, iron deficiency anaemia, neglected parasitic infections and socioeconomic factors in rural children of West Malaysia. PLoS Neglected Tropical Diseases 6(3): e1550.Google Scholar
Nutton, V. (1971) Velia and the School of Salerno. Medical History 15(1): 111.Google Scholar
Nutton, V. (2013) Ancient Medicine. London: Routledge.Google Scholar
Nutton, V. (2020) Galen: A Thinking Doctor in Imperial Rome. London: Routledge.Google Scholar
Oates, J. (1973) The background and development of early farming communities in Mesopotamia and the Zagros. Proceedings of the Prehistoric Society 39: 147181.Google Scholar
O’Connor, T.P. (2008) Pets and pests in Roman and medieval Britain. Mammal Review 22(2): 107113.Google Scholar
Oh, C.S., Seo, M., Chai, J.Y., et al. (2010a) Amplification and sequencing of Trichuris trichiura ancient DNA extracted from archaeological sediments. Journal of Archaeological Science 37: 12691273.Google Scholar
Oh, C.S., Seo, M., Hong, J.H., et al. (2015) Ancient mitochondrial DNA analyses of Ascaris eggs discovered in coprolites from Joseon Tomb. Korean Journal of Parasitology 53(2): 237242.Google Scholar
Oh, C.S., Seo, M., Lim, N.J., et al. (2010b) Paleoparasitological report on Ascaris aDNA from an ancient East Asian sample. Memórias do Instituto Oswaldo Cruz 105: 225228.Google Scholar
Ojha, S.C., Jaide, C., Jinawath, N., et al. (2014) Geohelminths: public health significance. Journal of Infection in Developing Countries 8(1): 516.Google Scholar
Oliveira, D., Ferreira, F.S., Atouguia, J., et al. (2015) Infection by intestinal parasites, stunting and anaemia in school-aged children from southern Angola. PLoS ONE 10(9): e0137327.Google Scholar
Osborne, P.J. (1971) An insect fauna from the Roman site at Alcester, Warwickshire. Britannia 2: 156165.Google Scholar
Oxenham, M., Cavill, I. (2010) Porotic hyperostosis and cribra orbitalia: the erythropoietic response to iron-deficiency anaemia. Anthropological Science 118(3): 199200.Google Scholar
Palma, R.L. (1991) Ancient head lice on a wooden comb from Antinoe, Egypt. Journal of Egyptian Archaeology 77: 194.Google Scholar
Panagiotakopulu, E., Buckland, P.C. (2017) A thousand bites: insect introductions and late Holocene environments. Quarternary Science Reviews 156: 2335.Google Scholar
Parker Pearson, M., Pollard, J., Richards, C., et al. (2015) Stonehenge: Making Sense of a Prehistoric Mystery. York: Council for British Archaeology.Google Scholar
Paseka, R.E., Heitman, C.C., Reinhard, K.J. (2018) New evidence of ancient parasitism among Late Archaic and Ancestral Puebloan residents of Chaco Canyon. Journal of Archaeological Science: Reports 18: 5158.Google Scholar
Patrucco, R., Tello, R., Bopnavia, D. (1983) Parasitological studies of coprolites of pre-Hispanic Peruvian populations. Current Anthropology 24: 393394.Google Scholar
Payne, R.J.H., Turner, L., Morgan, E.R. (2009) Inappropriate measures of population health for parasitic disease? Trends in Parasitology 25(9): 393395.Google Scholar
Perri, A.R., Power, R.C., Stuijts, I., et al. (2018) Detecting hidden diets and disease: zoonotic parasites and fish consumption in Mesolithic Ireland. Journal of Archaeological Science 97: 137146.Google Scholar
Peterson, M., Margulies, P. (2010) A Brief History of Korea. New York: Infobase Publishing.Google Scholar
Petznek, B. (2018) A Roman cesspit from the mid-2nd century with lead price tags in the civil town of Carnuntum (Schloss Petronell/Austria), in: Hoss, S. (Ed.), Latrinae: Roman Toilets in the Northwestern Provinces of the Roman Empire. Oxford: Archaeopress, pp. 119126.Google Scholar
Phuc, P.D., Konradsen, F., Phuong, P.T., et al. (2006) Practice of using human excreta as fertilizer and implications for health in Nghean Province, Vietnam. Southeast Asian Journal of Tropical Medicine and Public Health 37: 222229.Google Scholar
Pike, A.W. (1967) The recovery of parasite eggs from ancient cesspit and latrine deposits: an approach to the study of early parasite infections, in: Brothwell, D., Sandison, A.T. (Eds.), Diseases in Antiquity. Springfield: C.C. Thomas, pp. 184188.Google Scholar
Pike, A.W. (1968) Recovery of helminth eggs from archaeological excavations, and their possible usefulness in providing evidence for the purpose of an occupation. Nature 219: 303304.Google Scholar
Pitts, M., Versluys, M. J. (2015) Globalisation and the Roman World: World History, Connectivity and Material Culture. New York: Cambridge University Press.Google Scholar
Plog, S. (1997) Ancient Peoples of the American Southwest. London: Thames and Hudson.Google Scholar
Polo-Cerdá, M., Miquel-Feucht, M., Villalaín-Blanco, J.D. (2000) Experimental cribra orbitalia in wistar rats: an etiopathogenic model of porotic hyperostosis and other porotic phenomena, in: La Verghetta, M., Capasso, L. (Eds.), Proceedings of the XIIIth European Meeting of the Paleopathology Association, Chieti, Italy. Teramo: Edigrafital S.p.A., pp. 253259.Google Scholar
Price, J.L. (1975) The radiology of excavated saxon and medieval human remains from Winchester. Clinical Radiology 26: 363370.Google Scholar
Qian, M.-B., Utzinger, J., Keiser, J., et al. (2016) Clonorchiasis. Lancet 387: 800810.Google Scholar
Rabino Massa, E., Cerutti, N., Savoia, A.M.D. (2000) Malaria in ancient Egypt: paleoimmunological investigations in predynastic mummified remains. Chungara 32: 79.Google Scholar
Rabinow, S., Wang, T., Wilson, R.J.A., et al. (2022) Using parasite analysis to identify ancient chamber pots: an example of the fifth century CE from Gerace, Sicily, Italy. Journal of Archaeological Science: Reports 42: 103349.Google Scholar
Raoult, D., Dutour, O., Houhamdi, L., et al. (2006) Evidence for louse-transmitted diseases in soldiers of Napoleon’s Grand Army in Vilnius. Journal of Infectious Diseases 193: 112e120.Google Scholar
Rawcliffe, C. (2013) Urban Bodies: Communal Health in Late Medieval English Towns and Cities. Woodbridge: Boydell.Google Scholar
Rayner, J.C., Liu, W., Peeters, M., et al. (2011) A plethora of Plasmodium species in wild apes: a source of human infection? Trends in Parasitology 27: 222229.Google Scholar
Redford, D.B. (2004) From Slave to Pharaoh: The Black Experience of Ancient Egypt. Baltimore: John Hopkins University Press.Google Scholar
Reed, D.L., Smith, V.S., Hammond, S.L., et al. (2003) Genetic analysis of lice supports direct contact between modern and archaic humans PLoS Biology 2(11): e340.Google Scholar
Reinhard, K.J., Araújo, A., Sianto, L., et al. (2008) Chinese liver flukes in latrine sediments from Wong Nim’s property, San Bernardino, California: archaeoparasitology of the Caltrans District Headquarters. Journal of Parasitology 94(1): 300303.Google Scholar
Reinhard, K.J., Buikstra, J. (2003) Louse infestation of the Chiribaya culture, southern Peru: variation in prevalence by age and sex. Memórias do Instituto Oswaldo Cruz 98(Suppl. 1), 173179.Google Scholar
Reinhard, K.J., Camacho, M. (2019) Pinworm infection at Salmon Ruins and Aztec Ruins: relation to Pueblo III regional violence. Korean Journal of Parasitology 57(6): 627633.Google Scholar
Reinhard, K.J., Camacho, M., Geyer, B., et al. (2019) Imaging coprolite taphonomy and preservation. Archaeological and Anthropological Sciences 11: 60176035.Google Scholar
Reinhard, K.J., Ferreira, L.F., Bouchet, F., et al. (2013) Food, parasites and epidemiological transitions: a broad perspective. International Journal of Paleopathology 3(3): 150157.Google Scholar
Reinhard, K.J., Geib, P.R., Callahan, M.M., et al. (1992) Discovery of colon contents in a skeletonised burial: soil sampling for dietary remains. Journal of Archaeological Science 19: 697705.Google Scholar
Reinhard, K.J., Hevly, R.H., Anderson, G.A. (1987) Helminth remains from prehistoric Indian coprolites on the Colorado Plateau. Journal of Parasitology 73(3): 630639.Google Scholar
Reinhard, K.J., Urban, O. (2003) Diagnosing ancient diphyllobothriasis from Chinchorro mummies. Memórias do Instituto Oswaldo Cruz 98: 181183.Google Scholar
Riddler, I. (1988) Late Saxon or late Roman? A comb from Pudding Lane. London Archaeologist 5(14): 372374.Google Scholar
Riley-Smith, J. (2002) The Oxford History of the Crusades. New York: Oxford University Press.Google Scholar
Rivera-Guerrero, M.I., Sánchez-Rueda, L., Rodríguez-Bataz, E., et al.(2004) Efecto de algunos agentes fisicos y quimicos sobre el metacestodo de Taenia solium presente en carne adobada y chorizo. Salud Publica de Mexico 46: 425429.Google Scholar
Robb, J., Cessford, C., Dittmar, J.M., et al. (2021) The greatest health problem of the Middle Ages? Estimating the burden of disease in Medieval England. International Journal of Paleopathology 34: 101112.Google Scholar
Roberts, R.R. (2002) Head lice. New England Journal of Medicine 346(21): 16451650.Google Scholar
Roche, K., Pacciani, E., Bianucci, R., et al. (2019) Assessing the parasitic burden in a Late Antique Florentine emergency burial site. Korean Journal of Parasitology 57(6): 587593.Google Scholar
Rose, C., Kennedy, J.R. (2020) Chinese Diaspora Archaeology in North America. Gainesville: University Press of Florida.Google Scholar
Rothhammer, F., Allison, M.J., Nuñez, L., et al. (1985) Chagas disease in pre-Columbian South America. American Journal of Physical Anthropology 68: 495498.Google Scholar
Rousset, J.J., Heron, C., Metrot, P. (1996) Helminthoses humaines chez les Gaulois. Histoire des Sciences Medicales 30: 4146.Google Scholar
Ruffer, M.A. (1910) Note on the presence of Bilharzia haematobia in Egyptian mummies of the Twentieth Dynasty [1250–1000 B.C.]. The British Medical Journal 1: 16.Google Scholar
Russell, N., Twiss, K.C., Orton, D.C., et al. (2013) More on the Çatalhöyük mammal remains, in: Hodder, I. (Ed.), Humans and Landscapes of Çatalhöyük: Reports from the 2000–2008 Seasons. Los Angeles/London: Cotsen Institute of Archaeology Press/British Institute at Ankara, pp. 213258.Google Scholar
Ryan, H., Flammer, P.G., Nicholson, R., et al. (2022) Reconstructing the history of helminth prevalence in the UK. PLoS Neglected Tropical Diseases 16(4): e0010312.Google Scholar
Ryan, P. (2008) Plant exploitation from household and landscape perspectives: the phytolith evidence, in: Hodder, I. (Ed.), Humans and Landscapes of Çatalhöyük: Reports from the 2000–2008 Seasons. Los Angeles/London: Cotsen Institute of Archaeology Press/British Institute at Ankara, pp. 163190.Google Scholar
Sabin, S., Yeh, H.Y., Pluskowski, A.G., et al. (2020) Estimating molecular preservation of the intestinal microbiome via metagenomic analyses of latrine sediments from two medieval cities. Philosophical Transactions of the Royal Society B 375: 20190576.Google Scholar
Saffron, M.H. (1972) Maurus of Salerno: a twelfth century ‘optimus physicus’ with his commentary on the Prognostics of Hippocrates. Transactions of the American Philosophical Society 62: 5104.Google Scholar
Sallares, R. (2002) Malaria and Rome: A History of Malaria in Ancient Italy. Oxford: Oxford University Press.Google Scholar
Sallares, R., Bouwman, A., Anderung, C. (2004) The spread of malaria to southern Europe in Antiquity: new approaches to old problems. Medical History 48: 311328.Google Scholar
Sallares, R., Gomzi, S. (2001) Biomolecular archaeology of malaria. Ancient Biomolecules 3: 195213.Google Scholar
Samuels, R. (1965) Parasitological study of long dried fecal samples. American Antiquity 31: 175179.Google Scholar
Santoro, C., Vinton, S.D., Reinhard, K.J. (2003) Inca expansion and parasitism in the Lluta Valley: preliminary data. Memórias do Instituto Oswaldo Cruz 98(Suppl. 1): 161163.Google Scholar
Sarris, P. (2021) New approaches to the ‘Plague of Justinian’. Past & Present 254(1): 315346.Google Scholar
Schelvis, J. (1994) Caught between the teeth: a review of Dutch finds of archaeological remains of ectoparasites in combs. Proceedings of Experimental and Applied Entomology 5: 131132.Google Scholar
Schelvis, J. (1999) Remains of sheep ectoparasites as indicators of wool processing in the past, in: Dewilde, M., Ervynck, A., Wielemans, A. (Eds.), Ypres and the Medieval Cloth Industry in Flanders: Archaeological and Historical Contributions. Zellik: Institut voor het Archeologisch Patrimonium, pp. 8998.Google Scholar
Schipper, B.U. (2019) A Concise History of Ancient Israel, From the Beginnings Through the Hellenistic Era. Trans. M. Lesley. University Park: Penn State University Press.Google Scholar
Schirokauer, C., Lurie, D., Gay, S. (2013) A Brief History of Japanese Civilization. 4th ed. Boston: Wadsworth.Google Scholar
Schmid, B.V., Büntgen, U., Easterday, W.R., et al. (2015) Climate-driven introduction of the Black Death and successive plague reintroductions into Europe. Proceedings of the National Academy of Sciences 112: 30203025.Google Scholar
Schotthoefer, A.M., Bearden, S.W., Holmes, J.L., et al. (2011) Effects of temperature on the transmission of Yersinia pestis by the flea, Xenopsylla cheopis, in the late phase period. Parasites and Vectors 4: 191.Google Scholar
Searcey, N., Reinhard, K.J., Egarter-Vigl, E., et al. (2013) Parasitism of the Zweeloo woman: dicrocoeliasis evidenced in a Roman period bog mummy. International Journal of Paleopathology 3: 224228.Google Scholar
Šebela, L., Vojtková, L., Vojtek, J. (1990) Intestinal parasites in man of old Bronze Age. Anthropologie 28(1): 105107.Google Scholar
Seo, M., Chai, J.-Y., Kim, M.J., et al. (2016) Detection trend of helminth eggs in the strata soil samples from ancient historic places of Korea. Korean Journal of Parasitology 54(5): 555563.Google Scholar
Seo, M., Guk, S.M., Kim, J.L., et al. (2007) Paleoparasitological report on the stool from a medieval child mummy in Yangju, Korea. Journal for Parasitology 93: 589592.Google Scholar
Seo, M., Oh, C.S., Chai, J.Y., et al. (2010) The influence of differential burial preservation on the recovery of parasite eggs in soil samples from Korean medieval tombs. Journal for Parasitology 96: 366370.Google Scholar
Seo, M., Oh, C.S., Hong, J.H., et al. (2017) Estimation of parasite infection prevalence of Joseon people by paleoparasitological data updates from the ancient feces of pre-modern Korean mummies. Anthropological Science 125(1): 914.Google Scholar
Seo, M., Oh, C.S., Hong, J.H., et al. (2018) Ancient soil-transmitted parasite eggs from the sixth century Three Kingdom Period Silla tomb. Journal of Korean Medical Science 33(6): e53.Google Scholar
Seo, M., Shin, D.H. (2015) Parasitism, cesspits and sanitation on East Asian countries prior to modernisation, in: Mitchell, P.D. (Ed.), Sanitation, Latrines and Intestinal Parasites in Past Populations. Farnham: Ashgate, pp. 149164.Google Scholar
Seo, M., Shin, D.H., Guk, S.M., et al. (2008) Gymnophalloides seoi eggs from the stool of a 17th century female mummy found in Hadong, Republic of Korea. Journal for Parasitology 94: 467472.Google Scholar
Setzer, T.J. (2014) Malaria detection in the field of paleopathology: a meta-analysis of the state of the art. Acta Tropica 140: 97104.Google Scholar
Shaw, I. (2003) Exploring Ancient Egypt. Oxford: Oxford University Press.Google Scholar
Shennan, S. (2018) The First Farmers of Europe: An Evolutionary Perspective. Cambridge: Cambridge University Press.Google Scholar
Shillito, L.-M., Blong, J.C., Green, E.J., et al. (2020) The what, how and why of archaeological coprolite analysis. Earth Science Reviews 207: 103196.Google Scholar
Shin, D.H., Chai, J.-Y., Hong, J.H., et al. (2017a) Historical details about the meat consumption and taeniasis in Joseon Period of Korea. Korean Journal of Parasitology 55(4): 457460.Google Scholar
Shin, D.H., Chai, J.Y., Park, E.A., et al. (2009a) Finding ancient parasite larvae in the sample from a male living in the late 17th century Korea. Journal for Parasitology 95: 768771.Google Scholar
Shin, D.H., Kim, Y.-S., Yoo, D.S., et al. (2017b) A case of ectopic paragonimiasis in a 17th century Korean mummy. Journal of Parasitology 103(4): 399403.Google Scholar
Shin, D.H., Lim, D.S., Choi, K.J., et al. (2009b) Scanning electron microscope study of ancient parasite eggs recovered from Korean mummies of the Joseon dynasty. Journal for Parasitology 95: 137145.Google Scholar
Shin, D.H., Oh, C.S., Chung, T.C., et al. (2009c) Detection of parasite eggs from a moat encircling the royal palace of Silla, the ancient Korean Kingdom. Journal of Archaeological Science 36: 25342539.Google Scholar
Shin, D.H., Oh, C.S., Shin, Y.M., et al. (2013) The pattern of ancient parasite egg contamination in the private residence, alley, ditch and streambed soils of Old Seoul City, the Capital of the Joseon dynasty. International Journal of Paleopathology 3: 208213.Google Scholar
Shin, D.H., Shim, S.-Y., Jeong, H.J., et al. (2015) A paleoparasitological study on the capital area of the ancient Korean kingdom. Journal of Parasitology 101(4): 458461.Google Scholar
Shin, M.D., Park, E. (Eds.) (2014) Everyday Life in Joseon-Era Korea: Economy and Society. Leiden: Global Oriental.Google Scholar
Sianto, L., Chame, M., Silva, C.S.P., et al. (2009) Animal helminths in human archaeological remains: a review of zoonoses in the past. Revista do Instituto de Medicina Tropical de São Paulo 51(3): 119130.Google Scholar
Sianto, L., Reinhard, K.J., Chame, M., et al. (2005) The finding of Echinostoma (Trematoda: Digenea) and hookworm eggs in coprolites collected from a Brazilian mummified body dated 600–1200 years before present. Journal of Parasitology 91(4): 972975.Google Scholar
Simonson, T.S., Okinaka, R.T., Wang, B., et al. (2009) Bacillus anthracis in China and its relationship to worldwide lineages. BMC Microbiology 9: 71.Google Scholar
Simoons, F. (1991) Food in China: A Cultural and Historical Inquiry. Boca Raton: CRC Press.Google Scholar
Sireix, C. (2008) La Cité Judiciaire: Un Quartier Suburbain de Bordeaux Antique. Supplement 15. Bordeaux: Aquitania.Google Scholar
Siuda, F., Sunde, U. (2021) Disease and demographic development: the legacy of the plague. Journal of Economic Growth 26: 130.Google Scholar
Slack, P. (1989) The Black Death past and present. 2. Some historical problems. Transactions of the Royal Society of Tropical Medicine and Hygiene 83(4): 461463.Google Scholar
Slepchenko, S.M. (2020) Opisthorchis felineus as the basis for the reconstruction of migrations using archaeoparasitological materials. Journal of Archaeological Science: Reports 33: 102548.Google Scholar
Slepchenko, S.M., Lobanovam, T.V., Vizgalov, G.P., et al. (2022) New contribution of archaeoparasitology in the far north of eastern Siberia: first data about the parasitological spectrum of Stadukhinsky Fort in the 17th–18th centuries. Journal of Archaeological Science: Reports 41: 103304.Google Scholar
Smith, A., Graham, P.J., Stein, G. (2015) Ubaid plant use at Tell Zeidan, Syria. Paléorient 41(2): 5169.Google Scholar
Smith, D.N. (2013) Defining an indicator package to allow identification of ‘cesspits’ in the archaeological record. Journal of Archaeological Science 40: 526543.Google Scholar
Smith-Guzmán, N.E. (2015) Cribra orbitalia in the ancient Nile valley and its connection to malaria. International Journal of Paleopathology 10: 112.Google Scholar
Søe, M.J., Nejsum, P., Seersholm, F.V., et al. (2018) Ancient DNA From latrines in northern Europe and the Middle East (500 BC–1700 AD) reveals past parasites and diet. PLoS ONE 13, e0195481.Google Scholar
Spyrou, M.A., Bos, K.I., Herbig, A., et al. (2019) Ancient pathogen genomics as an emerging tool for infectious disease research. Nature Reviews Genetics 20(6): 323340.Google Scholar
Spyrou, M.A., Tukhbatova, R.I., Wang, C.-C., et al. (2018) Analysis of 3800-year-old Yersinia pestis genomes suggests Bronze Age origin for bubonic plague. Nature Communications 9: 2234.Google Scholar
Stanish, C. (2003) Ancient Titicaca: The Evolution of Complex Society in Southern Peru and Northern Bolivia. Berkeley: University of California Press.Google Scholar
Stathakopoulos, D.C. (2014) A Short History of the Byzantine Empire. London: I.B. Tauris.Google Scholar
Stein, G.J. (2011) Tell Zeidan, 2010, in: Oriental Institute 2010–2011 Annual Report. Chicago: University of Chicago, pp. 122139.Google Scholar
Su, T.C. (1987) A scanning electron microscopic study on the parasite eggs in an ancient corpse from a tomb of Chu dynasty, the Warring State, in Jiangling County, Hubei Province. Journal of Tongji Medical University 7: 6364.Google Scholar
Susat, J., Lübke, H., Immel, A., et al. (2021) A 5,000-year-old hunter-gatherer already plagued by Yersinia pestis. Cell Reports 35: 109278.Google Scholar
Szidat, L. (1944) Über die erhaltungsfähigkeit von helmintheneiern in vor- und frühgeschichtlichen moorleichen, Zeitschrift für Parasitenkunde 13: 265274.Google Scholar
Taher, A.T., Weatherall, D.J., Capellini, M.D. (2017) Thalassaemia. The Lancet 391(10116): 155167.Google Scholar
Tanga, C., Remigio, M., Viciano, J. (2022) Transmission of zoonotic disease in the daily life of ancient Pompeii and Herculaneum (79 CE, Italy): a review of animal–human–environment interactions through biological, historical and archaeological sources. Animals 12: 213.Google Scholar
Tapp, E. (1984a) Disease and the Manchester mummies – the pathologist’s role, in: David, A.R., Tapp, E. (Eds.), Evidence Embalmed: Modern Medicine and the Mummies of Ancient Egypt. Manchester: Manchester University Press, pp. 7895.Google Scholar
Tapp, E. (1984b) Disease in the Manchester mummies, in: David, A.R., Tapp, E. (Eds.), Evidence Embalmed: Modern Medicine and the Mummies of Ancient Egypt. Manchester: Manchester University Press, pp. 95102.Google Scholar
Tapp, E., Wildsmith, K. (1992) The autopsy and endoscopy of the Leeds mummy, in: David, A.R., Tapp, E. (Eds.), The Mummy’s Tale: The Scientific and Medical Investigation of Natsef-Amun, Priest in the Temple at Karnack. London: Michael O’Mara, pp. 132153.Google Scholar
Taylor, C. (2015) A tale of two cities: the efficacy of ancient and medieval sanitation methods, in: Mitchell, P.D. (Ed.), Sanitation, Latrines and Intestinal Parasites in Past Populations. Farnham: Ashgate, pp. 6997.Google Scholar
Taylor, J.E. (2012) The Essenes, the Scrolls, and the Dead Sea. Oxford: Oxford University Press.Google Scholar
Taylor, M.A., Coop, R.L., Wall, R.L. (2015) Veterinary Parasitology. Wiley Blackwell: Chichester.Google Scholar
Tibbles, A. (2005) Transatlantic Slavery: Against Human Dignity. Liverpool: Liverpool University Press.Google Scholar
Thiem, V.D., Schmidt, W.P., Suziki, M., et al. (2012) Animal livestock and the risk of hospitalised diarrhoea in children under 5 years in Vietnam. Tropical Medicine and International Health 17: 613621.Google Scholar
Thomson, M.C., Elnaiem, D.A., Ashford, R.W., et al. (1999) Towards a kala azar risk map for Sudan: mapping the potential distribution of Phlebotomus orientalis using digital data of environmental variables. Tropical Medicine and International Health 4(2): 105113.Google Scholar
Thongsripong, P., Hyman, J.M., Kapan, D.D., et al. (2021) Human–mosquito contact: a missing link in our understanding of mosquito-borne disease transmission dynamics. Annals of the Entomological Society of America 114(4): 397414.Google Scholar
Torgerson, P.R., Devleesschauwer, B., Praet, N., et al. (2015) World Health Organization estimates of the global and regional disease burden of 11 foodbourne parasitic diseases, 2010: a data synthesis. PLoS Medicine 12(12): e1001920.Google Scholar
Török, B.L. (2009) Between Two Worlds: The Frontier Region between Ancient Nubia and Egypt, 3700 BC–AD 500. Leiden: Brill.Google Scholar
Totman, C. (2000) A History of Japan. Oxford: Blackwell.Google Scholar
Tran, T.-N.-N., Forestier, C.L., Drancourt, D., et al. (2011a) Co-detection of Bartonella Quintana and Yersinia pestis in an 11th–15th century burial site in Bondy, France. American Journal of Physical Anthropology 145(3): 489494.Google Scholar
Tran, T.-N.-N., Signoli, L., Fozzati, G., et al. (2011b) High throughput, multiplexed pathogen detection authenticates plague waves in medieval Venice, Italy. PLoS ONE 6(3): e16735.Google Scholar
Trigger, B. (2003) Understanding Early Civilizations: A Comparative Study. Cambridge: Cambridge University Press.Google Scholar
Trigger, B.G., Kemp, B.J., O’Connor, D., et al. (2012) Ancient Egypt: A Social History. Cambridge: Cambridge University Press.Google Scholar
Tuon, F.F., Neto, V.A., Amato, V.S. (2008) Leishmania: origin, evolution and future since the Precambrian. FEMS Immunology and Medical Microbiology 54: 158166.Google Scholar
Tyerman, C.T. (2019) The World of the Crusades: An Illustrated History. New Haven: Yale University Press.Google Scholar
Uga, S., Hoa, N.T., Noda, S., et al. (2009) Parasite egg contamination of vegetables from a suburban market in Hanoi, Vietnam. Nepal Medical College Journal 11: 7578.Google Scholar
Ulrich, E. (2015) The Dead Sea Scrolls and the Developmental Composition of the Bible. Brill: Leiden.Google Scholar
Urteaga-Ballon, O. (1991) Medical ceramic representation of nasal leishmaniasis and surgical amputation in ancient Peruvian civilization, in: Ortner, D.J., Aufderheide, A.C. (Eds.), Human Paleopathology: Current Syntheses and Future Options. Washington: Smithsonian Institution Press, pp. 95101.Google Scholar
Utzinger, J., Zhou, X.-N., Chen, M.-G., et al. (2005) Conquering schistosomiasis in China: the long march. Acta Tropica 96: 6996.Google Scholar
Valtueña, A.A., Neumann, G.U., Spyrou, M.A., et al. (2022) Stone Age Yersinia pestis genomes shed light on the early evolution, diversity and ecology of plague. Proceedings of the National Academy of Sciences 119(17): e2116722119.Google Scholar
Van Dam, P.J.E.M. (2009) Fish for feast and fast: fish consumption in the Netherlands in the late Middle Ages, in: Sicking, L., Abreu-Ferreira, D. (Eds.), Beyond the Catch: Fisheries of the North Atlantic, the North Sea and the Baltic, 900–1850. Leiden: Brill, pp. 309336.Google Scholar
Van der Mieroop, M. (2016) A History of the Ancient Near East ca. 3000–323 BC. 3rd ed. Chichester: Wiley-Blackwell.Google Scholar
Van Neer, W., Gravendeel, R., Wouters, W., et al. (2013) The exploitation of fish at Çatalhöyük, in: Hodder, I. (Ed.), Humans and Landscapes of Çatalhöyük: Reports from the 2000–2008 Seasons. Los Angeles/London: Cotsen Institute of Archaeology Press/British Institute at Ankara, pp. 317327.Google Scholar
Van Neer, W., Wouters, W., Ervynck, A., et al. (2005) New evidence from a Roman context in Belgium for fish sauce locally produced in northern Gaul. Archaeofauna 14: 171182.Google Scholar
Van Seventer, J.M., Hochberg, N.S. (2017) Principles of infectious diseases: transmission, diagnosis, prevention and control, in: Quah, S.R. (Ed.), International Encyclopedia of Public Health. 2nd ed. San Diego: Elsevier, pp. 2239.Google Scholar
Vaz, F.C., Martín-Seijo, M., Carneiro, S., et al. (2016) Waterlogged plant remains from the Roman healing spa of Aquae Flaviae (Chaves, Portugal): utilitarian objects, timber, fruits and seeds. Quarternary International 404: 86103.Google Scholar
Vermes, G. (1997) The Complete Dead Sea Scrolls in English. 4th ed. Penguin Books: New York, vol. 46, pp. 1316.Google Scholar
Vieira de Souza, M., Ribeiro da Silva, L.G., Silva-Pinto, V., et al. (2018) New paleoparasitological investigations from the pre-Inca to hispanic contact period in northern Chile. Acta Tropica 178: 290296.Google Scholar
Viganó, C., Haas, C., Rühli, F.J., et al. (2017) 2,000 year old β-thalassaemia case in Sardinia suggest malaria was endemic by the Roman period. American Journal of Physical Anthropology 164(2): 362370.Google Scholar
Vlassoff, C., Weiss, M., Ovuga, E.B., et al. (2000) Gender and the stigma of onchocercal disease in Africa. Social Science and Medicine 50(10): 13531368.Google Scholar
Wagner, D.M., Klunk, J., Harbeck, M., et al. (2014) Yersinia pestis and the Plague of Justinian 541–543 AD: a genomic analysis. The Lancet Infectious Diseases 14: 319326.Google Scholar
Wagner, T.G., Mitchell, P.D. (2011) The illnesses of King Richard and King Philippe on the Third Crusade: an understanding of arnaldia and leonardie. Crusades 10: 2344.Google Scholar
Walker, P.L., Bathurst, R.R., Richman, R., et al. (2009) The causes of porotic hyperostosis and cribra orbitalia: a reappraisal of the iron-deficiency-anemia hypothesis. American Journal of Physical Anthropology 139: 109125.Google Scholar
Walløe, L. (2008) Medieval and modern bubonic plague: some clinical continuities. Medical History 52(Suppl. 27): 5973.Google Scholar
Wang, T., Cessford, C., Dittmar, J.M., et al. (2022) Intestinal parasite infection in the Augustinian friars and general population of medieval Cambridge, UK. International Journal of Paleopathology 39: 115121.Google Scholar
Wang, T., Mitchell, P.D. (2022) Liver fluke infection throughout human evolution. GastroHep Advances 1(4): 500507.Google Scholar
Ware, R.E., de Montalembert, M., Tshilolo, L., et al. (2017) Sickle cell disease. The Lancet 390: 311323.Google Scholar
Warnock, P.J., Reinhard, K.J., (1992) Methods for extracting pollen and parasite eggs from latrine soils. Journal of Archaeological Science 19: 261264.Google Scholar
Watson, P.J. (1974) Prehistoric horticulturalists, in: Watson, P.J. (Ed.), Archaeology of the Mammoth Cave Area. New York: Academic Press, pp. 233238.Google Scholar
Wei, D.X., Yang, W.Y., Huang, S.Q., et al. (1981) Parasitological investigation on the ancient corpse of the Western Han dynasty unearthed from tomb No. 168 on Phoenix Hill in Jiangling County. Acta Academiae Medicinae Wuhan 1: 1623.Google Scholar
Wei, O. (1973) Internal organs of a 2100-year-old female corpse. The Lancet 24: 1198.Google Scholar
Wei, Y.Y., Weng, Y., Zhang, J.Z., et al. (2012) Archaeoparasitological report on abdominal burial soil from the Zhengzhou Jinshui and Xinzheng Lihe cemeteries. Acta Anthropologica Sinica 31: 415423 (in Chinese).Google Scholar
Weiss, D.L., Møller-Christensen, V. (1971) Leprosy, echinococcosis, and amulets: a study of a medieval Danish inhumation. Journal of Medical History 15: 260267.Google Scholar
Weiss, R.A. (2009) Apes, lice and prehistory. Journal of Biology 8: 20.Google Scholar
Welc, F., Marks, L. (2014) Climate change at the end of the Old Kingdom in Egypt around 4200 BP. New geoarchaeological evidence. Quarternary International 324: 124133.Google Scholar
Wells, C., Dallas, C. (1976) Romano-British pathology. Antiquity 50: 5355, and plate 6.Google Scholar
Wen, H., Vuitton, L., Tuxun, T., et al. (2019) Echinococcosis: advances in the 21st century. Clinical Microbiology Reviews 32: e00075.Google Scholar
Wengrow, D. (2010). What Makes Civilization? The Ancient Near East and the Future of the West. Oxford: Oxford University Press.Google Scholar
White, N.J. (2018) Anaemia and malaria. Malaria Journal 17: 371.Google Scholar
Wilkinson, T. (2010) The Rise and Fall of Ancient Egypt: The History of a Civilisation from 3000 BC to Cleopatra. London: Bloomsbury.Google Scholar
Wilkinson, T.J. (1998) Water and human settlement in the Balikh Valley, Syria: investigations from 1992–1995. Journal of Field Archaeology 25: 6387.Google Scholar
Williams, F., Arnold-Foster, T., Yeh, H.-Y., et al. (2017) Intestinal parasites from the 2nd–5th century AD latrine in the Roman baths at Sagalassos (Turkey). International Journal of Paleopathology 19: 3742.Google Scholar
Wilson, A., Rackham, D.J. (1976) Parasite eggs, in: Buckland, P.C. (Ed.), The Environmental Evidence from the Church Street Roman Sewer System. York: Council for British Archaeology, pp. 3233.Google Scholar
Witenberg, G. (1961) Human parasites in archaeological findings. Bulletin of the Israel Exploration Society 25: 86.Google Scholar
Wood, B. (2010) Reconstructing human evolution: achievements, challenges, and opportunities. Proceedings of the National Academy of Sciences 107(S2): 89028909.Google Scholar
Wood, J.R. (2018) DNA barcoding of ancient parasites. Parasitology 145: 646655.Google Scholar
World Health Organization. (2010) Working to Overcome the Global Impact of Neglected Tropical Diseases: First WHO Report on Neglected Tropical Diseases. Geneva: World Health Organization.Google Scholar
World Health Organization. (2020) Basic Documents: Constitution. 49th ed. Geneva: World Health Organization.Google Scholar
World Health Organization. (2021) World Health Statistics: Monitoring Health for the SDGs, Sustainable Development Goals. Geneva: World Health Organization.Google Scholar
World Health Organization. Factsheet: Plague. www.who.int/news-room/fact-sheets/detail/plague (accessed 27 May 2022).Google Scholar
Wright, E., Viner-Daniels, S., Parker Pearson, M., et al. (2014) Age and season of pig slaughter at Late Neolithic Durrington Walls (Wiltshire, UK) as detected through a new system for recording tooth wear. Journal of Archaeological Science 52: 497514.Google Scholar
Wright, L.E. (1997) Biological perspectives on the collapse of the Pasión Maya. Ancient Mesoamerica 8: 267273.Google Scholar
Wu, R.C., Liu, H.Z. (2013) 新譯漢書 (New Translation of the Book of Han). Taipei: San Min Book Co.Google Scholar
Wu, Z.B., Guan, Y., Zhou, Z.B. (1995) Study of an ancient corpse of the Warring States period unearthed from Tomb No. 1 at Guojiagang in Jingmen, Hubei: a comprehensive study. Journal of the Chinese Electron Microscopy Society 4: 312316 (in Chinese).Google Scholar
Wu, Z., Guan, Y., Zhou, Z. (1996) Study of an ancient corpse of the Warring States period unearthed from Tomb No. 1 at Guo-Jia Gang in Jingmen City (a comprehensive study). Journal of Tongji Medical University 16: 15, 10.Google Scholar
Xu, J., Steinman, P., Maybe, D., et al. (2016) Evolution of the national schistosomiasis control programmes in the People’s Republic of China. Advances in Parasitology 92: 138.Google Scholar
Yalcindag, E., Elguero, E., Arnathau, C., et al. (2012) Multiple independent introductions of Plasmodium falciparum in South America. Proceedings of the National Academy of Sciences 109(2), 511516.Google Scholar
Yang, L., Zhang, X., Zhao, X., et al. (2022) The technological advance and application of coprolite analysis. Frontiers in Ecology and Evolution 9: 797370.Google Scholar
Yang, W.Y., Wei, D.X., Song, G.F., et al. (1984) Parasitologic investigations on the ancient corpse of Chu dynasty the warring states unearthed from the Ma-zhuan tomb No. 1, Jiangling County. Acta Academiae Medicinae Wuhan 14: 4345.Google Scholar
Yegül, F.K. (2010) Bathing in the Roman World. Cambridge: Cambridge University Press.Google Scholar
Yeh, H.-Y., Mao, R., Wang, H., et al. (2016) Early evidence for travel with infectious diseases along the Silk Road: intestinal parasites from 2,000 year old personal hygiene sticks in a latrine at Xuanquanzhi relay station in China. Journal Archaeological Science: Reports 9: 758764.Google Scholar
Yeh, H.-Y., Mitchell, P.D. (2016) Ancient human parasites in ethnic Chinese populations. Korean Journal of Parasitology 54(5): 565572.Google Scholar
Yeh, H.Y., Pluskowski, A., Kalējs, U., et al. (2014) Intestinal parasites in a mid-14th century latrine from Riga, Latvia: fish tapeworm and the consumption of uncooked fish in the Medieval eastern Baltic region. Journal of Archaeological Science 49: 8389.Google Scholar
Yeh, H.-Y., Prag, K., Clamer, C., et al. (2015) Human intestinal parasites from a Mamluk Period cesspool in the Christian Quarter of Jerusalem: potential indicators for long distance travel in the 15th century AD. International Journal of Paleopathology 9: 6975.Google Scholar
Yeh, H.-Y., Zhan, X., Qi, W. (2019) A comparison of ancient parasites as seen from archaeological contexts and early medical texts in China. International Journal of Paleopathology 25: 3038.Google Scholar
Yi, Y. (2005) Dao Gudai Zhongguo Qu Luxing: Gudai Zhongguo Fengqing Tuji 到古代中国去旅行: 古代中国风情图记 (Travel to Ancient China: Ancient Chinese Customs with Graphs). Beijing: Zhonghua Book Company.Google Scholar
York, W.H. (2012) Health and Wellness in Antiquity through the Middle Ages. Santa Barbara: Greenwood Publishing.Google Scholar
Yu, B. (2010) Shengshi huayan – Mawangdui wenwu yu HanDai yinshi 盛世华宴—马 王堆文物与汉代饮食 [The golden age of Chinese feasting: antiques from Mawangdui tomb and dietary culture of the Han dynasty]. Shoucangjia 收藏家 [Collectors] 17: 3542.Google Scholar
Yu, S.H., Xu, L.Q., Jiang, Z.X., et al. (1994) First report of a national survey of the distribution of human parasites I: geographical distribution of parasites. Chinese Journal of Parasitology and Parasitic Diseases 12: 241247 (in Chinese).Google Scholar
Yvinec, J.-H., Ponel, P., Beaucournu, J.-C. (2000) Premiers apports archéoentomologiques de l’étude des Puces: aspects historiques et anthropologiques (Siphonaptera). Bulletin de la Société Entomologique de France 105(4): 419425.Google Scholar
Zhan, X., Yeh, H.-Y., Shin, D.H., et al. (2019) Differential change in the prevalence of Ascaris, Trichuris and Clonorchis infection among past East Asian populations. Korean Journal of Parasitology 57(6): 601605.Google Scholar
Zhang, Q., Huang, F., Geng, Y., et al. (2009) Relationship between propagation of Clonorchis sinensis and ecology cultivation. China Tropical Medicine 9: 10121125 (in Chinese).Google Scholar
Zhang, X., Pei, F., Zhang, Q., et al. (2010) Current status of environmental sanitation and Clonorchis sinensis intermediate host infection of freshwater aquaculture in partial areas of Guangdong Province. South China Journal of Preventative Medicine 36: 913 (in Chinese).Google Scholar
Zhou, X.-N., Wang, L.-Y., Chen, M.-G., et al. (2005) The public health significance and control of schistosomiasis in China – then and now. Acta Tropica 96: 97105.Google Scholar
Zias, J., Mumcuoglu, K.Y. (1991a) Pre-pottery Neolithic B head lice from Nahal Hemar Cave. ‘Atiqot 20: 167168.Google Scholar
Zias, J., Mumcuoglu, K.Y. (1991b) Case reports on paleopathology: calcified hydatid cysts. Paleopathology Newsletter 73: 78.Google Scholar
Zias, J.E., Tabor, J.D., Harter-Leilheugue, S. (2006) Toilets at Qumran, the Essenes, and the scrolls: new anthropological data and old theories. Revue de Qumran 22(4): 631640.Google Scholar
Ziegelbauer, K., Speich, B., Mäusezahl, D., et al. (2012) Effect of sanitation on soil-transmitted helminth infection: systematic review and meta-analysis. PLoS Medicine 9, e1001162.Google Scholar
Zink, A., Spigelman, M., Schraut, B., et al. (2006) Leishmaniasis in ancient Egypt and Upper Nubia. Emerging Infectious Diseases 12: 16161617.Google Scholar

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  • Bibliography
  • Piers D. Mitchell, University of Cambridge
  • Book: Parasites in Past Civilizations and Their Impact upon Health
  • Online publication: 30 March 2023
  • Chapter DOI: https://doi.org/10.1017/9780511732386.012
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  • Bibliography
  • Piers D. Mitchell, University of Cambridge
  • Book: Parasites in Past Civilizations and Their Impact upon Health
  • Online publication: 30 March 2023
  • Chapter DOI: https://doi.org/10.1017/9780511732386.012
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  • Bibliography
  • Piers D. Mitchell, University of Cambridge
  • Book: Parasites in Past Civilizations and Their Impact upon Health
  • Online publication: 30 March 2023
  • Chapter DOI: https://doi.org/10.1017/9780511732386.012
Available formats
×