Abstract
Geophagy or geophagia can be defined as the deliberate ingestion of soil. This is a practice that is common among members of the animal kingdom, including people. Any person who studies geophagy undertaken by humans will invariably confront a problem during their research. Few people will believe them. This is perhaps understandable for members of a developed urban society that is educated, has ready access to modern pharmaceuticals, and which has increasingly, in both a physical and mental sense, become more remote from soils. Yet many of these people will readily accept that wild animals deliberately eat soil. For example, television programs which feature wildlife may show animals consuming soil, with the presenter commonly stating that the soils are being eaten for their mineral nutrient content (although, as will be seen in the following sections, there are a variety of reasons why animals consume soil). But many people find it more difficult to accept that humans can deliberately eat soil. This ignorance of geophagy is not restricted to the layperson, because academic writers have used adjectives such as curious, odd, perverted, and strange when commenting on human geophagy. The use of such words demonstrates a misunderstanding of geophagy. The practice is common in certain human societies and can be readily found in many countries provided one has appropriate knowledge of the subject. An understanding of geophagy also allows an appreciation of the practice. There are perfectly sensible reasons as to why certain people deliberately eat soil, and the consumer can benefit from indulging in geophagy in a number of ways. It has been suggested that the practice should be considered within the normal range of human behavior (Vermeer 1986), an enlightened viewpoint that I personally support. However, before the reader hurries away to indulge in geophagy, a word of warning is necessary. Aside from the benefits that eaten soils can impart to the consumer, very serious health problems may also result. These benefits and banes of soil consumption are considered in more detail later in Sect. 18.6 of this chapter, along with other aspects of geophagy undertaken by humans. This information follows a discussion about geophagy that is practiced by members of the animal kingdom other than humans. In addition to geophagy, many animals (including humans) also accidentally ingest soil. In order to appreciate geophagy in its proper context, this involuntary ingestion of soil is considered first (see also Chap. 15, this volume).
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Further Reading
Abbey LM, Lombard JA (1973) The etiological factors and clinical implications of pica: report of case. J Am Dent Assoc 87:885–887
Abrahams PW (1999) The chemistry and mineralogy of three savanna lick soils. J Chem Ecol 25:2215–2228
Abrahams PW, Parsons JA (1996) Geophagy in the tropics: a literature review. Geogr J 162:63–72
Abrahams PW, Steigmajer J (2003) Soil ingestion by sheep grazing the metal enriched floodplain soils of mid-Wales. Environ Geochem Health 25:17–24
Abrahams PW, Thornton I (1994) The contamination of agricultural land in the metalliferous province of southwest England: implications to livestock. Agric Ecosys Environ 48:125–137
Anonymous (1897) The clay eaters. Sci Am 76:150
Aufreiter S, Hancock RGV, Mahaney WC, Stambolic-Robb A, Sanmugadas K (1997) Geochemistry and mineralogy of soils eaten by humans. Int J Food Sci Nutr 48:293–305
Barltrop D, Strehlow CD, Thornton I, Webb JS (1974) Significance of high soil lead concentrations for childhood lead burdens. Environ Health Perspect 7:75–82
Beresford NA, Howard BJ (1991) The importance of soil adhered to vegetation as a source of radionuclides ingested by grazing animals. Sci Total Environ 107:237–254
Berger OG, Hornstein MD (1980) Eosinophilia and pica: lead or parasites? Lancet 1:553
Binder S, Sokal D, Maughan D (1986) Estimating soil ingestion: the use of tracer elements in estimating the amount of soil ingested by young children. Arch Environ Health 41:341–345
Brebner J, Suttle NF, Thornton I (1987) Assessing the availability of ingested soil cobalt for the synthesis of vitamin B12 in the ovine rumen. Proc Nutr Soc 46:66A
Calabrese EJ, Stanek EJ (1995) Resolving intertracer inconsistencies in soil ingestion estimation. Environ Health Perspect 103:454–457
Calabrese EJ, Stanek EJ, Gilbert CE, Barnes R (1990) Preliminary adult soil ingestion estimates: results of a pilot study. Regul Toxicol Pharmacol 12:88–95
Canfield RL, Henderson CR, Cory-Slechta DA, Cox C, Jusco TA, Lanphear BP (2003) Intellectual impairment in children with blood lead concentrations below 10 μg per deciliter. N Engl J Med 348:1517–1526
Çavdar AO, Arcasoy A, Cin S, Gümüs H (1980) Zinc deficiency in geophagia in Turkish children and response to treatment with zinc sulphate. Haematologica 65:403–408
Cheek DB, Smith RM, Spargo RM, Francis N (1981) Zinc, copper and environmental factors in the aboriginal peoples of the North West. Aust N Z J Med 11:508–512
Cotter-Howells J, Thornton I (1991) Sources and pathways of environmental lead to children in a Derbyshire mining village. Environ Geochem Health 13:127–135
Cragin FW (1836) Observations on cachexia Africana or dirt-eating. Am J Med Sci 17:356–364
Danford DE, Smith JC, Huber AM (1982) Pica and mineral status in the mentally retarded. Am J Clin Nutr 35:958–967
Davies AG, Baillie IC (1988) Soil eating by red leaf monkeys (Presbytis rubicunda) in Sabah, northern Borneo. Biotropica 20:252–258
Denton DA (1969) Salt appetite. Nutr Abstr Rev 39:1043–1049
Diamond JM (1999) Dirty eating for healthy living. Nature 400:120–121
Diamond J, Bishop KD, Gilardi JD (1999) Geophagy in New Guinea birds. Ibis 141:181–193
Dickens G, Trethowan WH (1971) Cravings and aversions during pregnancy. J Psychosom Res 15:259–268
Dickins D, Ford RN (1942) Geophagy (dirt eating) among Mississippi Negro school children. Am Sociol Rev 7:59–65
Edwards CH, McDonald S, Mitchell JR, Jones L, Mason L, Kemp AM, Laing D, Trigg L (1959) Clay- and cornstarch-eating women. J Am Diet Assoc 35:810–815
Feldman MD (1986) Pica: current perspectives. Psychosomatics 27:519–523
Ferguson JH, Keaton AG (1950) Studies of the diets of pregnant women in Mississippi: I. The ingestion of clay and laundry starch. New Orleans Med Surg J 102:460–463
Ferguson C, Marsh J (1993) Assessing human health risks from ingestion of contaminated soil. Land Contam Reclam 1:177–185
Fisher JR, Sievers ML, Takeshita RT, Caldwell H (1981) Skeletal fluorosis from eating soil. Ariz Med 38:833–835
Flegr J, Havlícek J, Kodym P, Maly M, Smahel Z (2002) Increased risk of traffic accidents in subjects with latent toxoplasmosis. BMC Infect Dis 2:11, www. biomedcentral. com/1471–2334/2/11
Foster JW (1927) Pica. Kenya East Afr Med J 4:68–76
Frate DA (1984) Last of the earth eaters. Sciences 24:34–38
Geissler PW (2000) The significance of earth-eating: social and cultural aspects of geophagy among Luo children. Africa 70:653–682
Geissler PW, Mwaniki DL, Thiong’o F, Friis H (1997) Geophagy among school children in western Kenya. Trop Med Int Health 2:624–630
Geissler PW, Shulman CE, Prince RJ, Mutemi W, Mnazi C, Friis H, Lowe B (1998) Geophagy, iron status and anaemia among pregnant women on the coast of Kenya. Trans R Soc Trop Med Hyg 92:549–553
Gelfand MC, Zarate A, Knepshield JH (1975) Geophagia: a cause of life-threatening hyperkalemia in patients with chronic renal failure. JAMA 234:738–740
Gilardi JD, Duffey SS, Munn CA, Tell LA (1999) Biochemical functions of geophagy in parrots: detoxification of dietary toxins and cytoprotective effects. J Chem Ecol 25:897–922
Green N, Johnson D, Wilkins BT (1996) Factors affecting the transfer of radionuclides to sheep grazing on pastures reclaimed from the sea. J Environ Radioact 30:173–183
Hallberg L, Björn-Rasmussen E (1981) Measurement of iron absorption from meals contaminated with iron. Am J Clin Nutr 34:2808–2815
Haller JS (1972) The Negro and the southern physician: a study of medical and racial attitudes 1800–1860. Med Hist 16:238–253
Halsted JA (1968) Geophagia in man: its nature and nutritional effects. Am J Clin Nutr 21:1384–1393
Hamilton G (1998) Let them eat dirt. New Sci 159(2143):26–31
Harrison DL, Mol JCM, Healy WB (1970) DDT residues in sheep from the ingestion of soil. N Z J Agric Res 13:664–672
Hawass ND, Alnozha MM, Kolawole T (1987) Adult geophagia–report of three cases with review of the literature. Trop Geogr Med 39:191–195
Healy WB (1968) Ingestion of soil by dairy cows. N Z J Agric Res 11:487–499
Healy WB (1973) Nutritional aspects of soil ingestion by grazing animals. In: Butler GW, Bailey RW (eds) Chemistry and biochemistry of herbage. Academic, London, pp 567–588
Healy WB, Ludwig TG (1965) Wear of sheep’s teeth. I. The role of ingested soil. N Z J Agric Res 8:737–752
Healy WB, Crouchley G, Gillett RL, Rankin PC, Watts HM (1972) Ingested soil and iodine deficiency in lambs. N Z J Agric Res 15:778–782
Henshaw J, Ayeni JSO (1971) Some aspects of big-game utilization of mineral licks in Yankari game reserve, Nigeria. East Afr Wildl J 9:73–82
Heymann EW, Hartmann G (1991) Geophagy in moustached tamarins, Saguinus mystax (Platyrrhini: Callitrichidae), at the Río Blanco, Peruvian Amazonia. Primates 32:533–537
Horner RD, Lackey CJ, Kolasa K, Warren K (1991) Pica practices of pregnant women. J Am Diet Assoc 91:34–38
Hunter JM (1973) Geophagy in Africa and the United States: a culture-nutrition hypothesis. Geogr Rev 63:170–195
Hunter JM (1984) Insect clay geophagy in Sierra Leone. J Cultur Geogr 4:2–13
Hunter JM (1993) Macroterme geophagy and pregnancy clays in southern Africa. J Cultur Geogr 14:69–92
Hunter JM, Horst OH, Thomas RN (1989) Religious geophagy as a cottage industry: the holy clay tablet of Esquipulas, Guatemala. Natl Geogr Res 5:281–295
Johns T (1986) Detoxification function of geophagy and domestication of the potato. J Chem Ecol 12:635–646
Key TC, Horger EO, Miller JM (1982) Geophagia as a cause of maternal death. Obstet Gynecol 60:525–526
Klaus G, Schmid B (1998) Geophagy at natural licks and mammal ecology: a review. Mammalia 62:481–497
Klaus G, Klaus-Hügi C, Schmid B (1998) Geophagy by large mammals at natural licks in the rain forest of the Dzanga National Park, Central African Republic. J Trop Ecol 14:829–839
Kreulen DA (1985) Lick use by large herbivores: a review of benefits and banes of soil consumption. Mamm Rev 15:107–123
Kreulen DA, Jager T (1984) The significance of soil ingestion in the utilization of arid rangelands by large herbivores with special reference to natural licks on the Kalahari pans. In: Gilchrist FMC, Mackie RI (eds) Herbivore nutrition in the subtropics. The Science Press, Johannesburg, pp 204–221
Krishnamani R, Mahaney WC (2000) Geophagy among primates: adaptive significance and ecological consequences. Anim Behav 59:899–915
Laufer B (1930) Geophagy. Anthropology series. Field Museum of Natural History, Chicago, Publication 280, vol 18, pp 97–198
Lee J, Rounce JR, Mackay AD, Grace ND (1996) Accumulation of cadmium with time in Romney sheep grazing ryegrass-white clover pasture: effect of cadmium from pasture and soil intake. Aust J Agric Res 47:877–894
Loveland CJ, Furst TH, Lauritzen GC (1989) Geophagia in human populations. Food Foodways 3:333–356
Mahaney WC, Hancock RGV (1990) Geochemical analysis of African buffalo geophagic sites and dung on Mount Kenya, East Africa. Mammalia 54:25–32
Mahaney WC, Watts DP, Hancock RGV (1990) Geophagia by mountain gorillas (Gorilla gorilla beringei) in the Virunga Mountains, Rwanda. Primates 31:113–120
Mahaney WC, Hancock RGV, Aufreiter S, Huffman MA (1996) Geochemistry and clay mineralogy of termite mound soil and the role of geophagy in chimpanzees of the Mahale Mountains, Tanzania. Primates 37:121–134
Mahaney WC, Milner MW, Mulyono H, Hancock RGV, Aufreiter S, Reich M, Wink M (2000) Mineral and chemical analyses of soils eaten by humans in Indonesia. Int J Environ Health Res 10:93–109
Marlow RW, Tollestrup K (1982) Mining and exploitation of natural mineral deposits by the desert tortoise, Gopherus agassizii. Anim Behav 30:475–478
Mayland HF, Florence AR, Rosenau RC, Lazar VA, Turner HA (1975) Soil ingestion by cattle on semiarid range as reflected by titanium analysis of feces. J Range Manag 28:448–452
Mielke HW, Gonzales CR, Smith MK, Mielke PW (1999) The urban environment and children’s health: soils as an integrator of lead, zinc, and cadmium in New Orleans, Louisiana, U. S. A. Environ Res 81:117–129
Miller JK, Madsen FC, Hansard SL (1976) Absorption, excretion, and tissue deposition of titanium in sheep. J Dairy Sci 59:2008–2010
Minnich V, Okçuoğlu A, Tarcon Y, Arcasoy A, Cin S, Yörükoğlu O, Renda F, Demirağ B (1968) Pica in Turkey. II. Effect of clay upon iron absorption. Am J Clin Nutr 21:78–86
Oomen AG, Hack A, Minekus M, Zeijdner E, Cornelis C, Verstraete W, van de Wiele T, Wragg J, Rompelberg CJM, Sips AJAM, van Wijnen JH (2002) Comparison of five in vitro digestion models to study the bioaccessibility of soil contaminants. Environ Sci Technol 36:3326–3334
Pownall DB, Lucas RJ, Ross AD (1980) Effects of soil-contaminated feed on dry matter and water intake in sheep. Proc N Z Soc Anim Produc 40:106–110
Randerson J (2002) All in the mind? New Sci 176(2366):40–43
Reid RM (1992) Cultural and medical perspectives on geophagia. Med Anthropol 13:337–351
Root-Bernstein RS, Root-Bernstein MR (2000) Honey, mud, maggots, and other medical marvels. Pan, London
Ross T (trans) (1895) Personal narrative of travels to the equinoctial regions of America during the years 1799–1804 by Alexander von Humboldt and Aime Bonpland (eds), vol 2. Routledge, London
Severance HW, Holt T, Patrone NA, Chapman L (1988) Profound muscle weakness and hypokalemia due to clay ingestion. South Med J 81:272–274
Simon SL (1998) Soil ingestion by humans: a review of history, data, and etiology with application to risk assessment of radioactively contaminated soil. Health Phys 74:647–672
Smith B, Rawlins BG, Cordeiro MJAR, Hutchins MG, Tiberindwa JV, Sserunjogi L, Tomkins AM (2000) The bioaccessibility of essential and potentially toxic trace elements in tropical soils from Mukono district, Uganda. J Geol Soc 157:885–891
Stanek EJ, Calabrese EJ (1991) A guide to interpreting soil ingestion studies. 1. Development of a model to estimate the soil ingestion detection level of soil ingestion studies. Regul Toxicol Pharmacol 13:263–277
Stanek EJ, Calabrese EJ, Barnes R, Pekow P (1997) Soil ingestion in adults – results of a second pilot study. Ecotoxicol Environ Saf 36:249–257
Statham M, Bray AC (1975) Congenital goitre in sheep in southern Tasmania. Aust J Agric Res 26:751–768
Suttle NF, Alloway BJ, Thornton I (1975) An effect of soil ingestion on the utilization of dietary copper by sheep. J Agric Sci, Cambridge 84:249–254
Suttle NF, Abrahams P, Thornton I (1984) The role of a soil x dietary sulphur interaction in the impairment of copper absorption by ingested soil in sheep. J Agric Sci, Cambridge 103:81–86
Thompson CJS (1913) Terra sigillata, a famous medicament of ancient times. In Proceedings of the 17th international congress of medical sciences (Section 23, History of medicine), London, pp 433–444
Thomson J (1997) Anaemia in pregnant women in eastern Caprivi, Namibia. S Afr Med J 87:1544–1547
Thornton I (1974) Biochemical and soil ingestion studies in relation to the trace element nutrition of livestock. In: Hoekstra WG, Suttie JW, Ganther HE, Mertz W (eds) Trace element metabolism in animals 2. University Press, Baltimore, pp 451–454
van Wijnen JH, Clausing P, Brunekreef B (1990) Estimated soil ingestion by children. Environ Res 51:147–162
Vermeer DE (1986) Geophagy in the American South. Bull Shreveport Med Soc 37:38
Vermeer DE (1987) Geophagy in Africa. Bull Shreveport Med Soc 38:13–14
Vermeer DE, Ferrell RE (1985) Nigerian geophagical clay: a traditional antidiarrheal pharmaceutical. Science 227:634–636
Wedeen RP, Mallik DK, Batuman V, Bogden JD (1978) Geophagic lead nephropathy: case report. Environ Res 17:409–415
Wiley AS, Katz SH (1998) Geophagy in pregnancy: a test of a hypothesis. Curr Anthropol 39:532–545
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Abrahams, P.W. (2013). Geophagy and the Involuntary Ingestion of Soil. In: Selinus, O. (eds) Essentials of Medical Geology. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-4375-5_18
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