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Welfare Trends among the Yoruba in the Early Nineteenth Century: The Anthropometric Evidence
Published online by Cambridge University Press: 03 March 2009
Abstract
Analysis indicates that the Yoruba were taller than other West African peoples in the early nineteenth century. Disease, workloads, and environmental or genetic factors explain little of this differential. Rather, it appears due to a superior nutritional status made possible by Yoruba social structures, in particular, Yoruba towns. Yoruba stature declined both absolutely and relatively over the forty years corresponding to the collapse of the Oyo Empire. Regression analysis suggests a systematic relationship between these two events.
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References
1 See, for example, Fogel, Robert William, “Nutrition and the Decline in Mortality since 1700: Some Preliminary Findings,” in Engerman, Stanley L. and Gallman, Robert E., eds., Long-Term Factors in American Economic Growth (Chicago, 1986), pp. 439–527.Google Scholar The basic reference work on the physiology of this issue is Eveleth, P. B. and Tanner, J. M., Worldwide Variation in Human Growth (Cambridge, 1976).Google Scholar
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21 A second-degree polynomial significant at the I percent level suggests a 2.3-centimeter decline between 1801 and 1821.Google Scholar
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37 Urbanization might increase the incidence of diseases spread by congestion, such as intestinal complaints, though presumably nothing like the conditions in the slave trade that produced enormous mortality rates from dysentery existed in cities or indeed anywhere else in Africa under normal conditions. The major diseases in West Africa tend, in any event, to be endemic rather than epidemic, and it is hard to see how urbanization would reduce their impact. Johnston, Staple Food Economies, pp. 55–90, 200–1;Google ScholarNicol, B. M., “Nutrition of Nigerian Peasant Farmers, with Special Reference to the Effects of Vitamin A and Riboflavin Deficiency,” British Journal of Nutrition, 3 (1949), pp. 25–43CrossRefGoogle ScholarPubMed; idem, “The Nutrition of Nigerian Peasants, with Special Reference to the Effects of the vitamin B complex, Vitamin A, and Annual Protein,” British Journal of Nutrition, 6 (1952), pp. 34–55; U.S. Department of Health, Education, and Welfare, Republic of Nigeria: Nutrition Survey: February-April 1965 (Washington, 1967).Google Scholar Regarding specialized food production, see Talbot, , The Peoples of Southern Nigeria, vol. 3, p. 699.Google Scholar
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41 A similar case could be made for a nutritional component in the height advantage of West Africans as a whole compared to those from west-central Africa. Specialization in the production of both food and nonfood items seems to have been greater in most West African societies compared to most west-central African groups. Genetic variation was probably greater in the latter region than the former, but it would be difficult to argue that the humidity and heat combinations discussed by Hiernaux explain stature differences between these two broad nineteenth-century slave provenance zones.Google Scholar
42 The following is based on Smith, Robert S., Kingdoms of the Yoruba (3rd edn., Madison, 1988), pp. 109–24;Google ScholarMabogunje and Omer-Cooper, Owu in Yoruba History, pp. 19–82; and especially Law, The Oyo Empire, pp. 245–77.Google Scholar
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44 The only other active slave traders at this time were the British and the Americans. In the 1790s and early 1800s neither group traded heavily in the Bight of Benin. See Richardson, “Slave Exports from West and West-Central Africa.” For slave departures from the Bight of Benin after 1810, see Eltis, Economic Growth, p. 250.Google Scholar
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46 The omission of the dummy variable from the equation does nothing to impair the systematic relationship between final heights and slave departures. A simple regression of mean annual stature on slave exports yielded a reduced R2 of 0.34, but a slave export coefficient significant at the 0.001 level.Google Scholar
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48 A third possible interpretation is that as the volume of slave exports increased, slave traders were forced to take shorter slaves. Given the fact that the final heights here are grouped into year of birth cohorts, this is very unlikely. If this tendency was in fact a feature of the trade, we would expect final heights grouped by year of export (rather than year of birth) to vary inversely with annual slave departures. To test for this, an ordinary least squares regression equation was estimated with mean heights in year of departure as the dependent variable, and annual slave departures from the Bight of Benin as the independent variable. The sign of the coefficient was negative, but the result was nonsignificant and the R2 less than 0.02. Rerunning the regression with lagged values did not improve the result, It should also be noted that the distribution of slaves from all regions was normal, whereas a predisposition for taller slaves would have made the distribution of recaptives skewed. See Eltis, “Nutritional Trends in Africa and the Americas,” for a discussion of this last point.Google Scholar
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