Article contents
Productivity Growth without Technical Change in European Agriculture before 1850
Published online by Cambridge University Press: 03 March 2009
Abstract
Output per farm worker in the northern United States and Britain in the early nineteenth century was many times that inEastern Europe or in medieval England and wages were correspondingly higher. Technical progress explains little of the high American and British productivity in the early nineteenth century, nor, in the American case, does abundant land per worker. Instead, most of the difference derived from more intense labor in America and Britain.
- Type
- Papers Presented at the Forty-Sixth Annual Meeting of the Economic History Association
- Information
- Copyright
- Copyright © The Economic History Association 1987
References
Paul David and Peter Lindert made extensive, and very useful, comments on earlier versions of this article. Martha Shiells and Robert Evanson, the discussants of the paper at the Economic History Association meetings, also made valuable criticisms. I am grateful for helpful suggestions on earlier drafts from Ester Boserup, Lance Davis, Akhil Gupta, Stanley Engerman, Robert Gailman, Joan Hannon, Larry Neal, Bill Parker, Paul Rhode, Peter Solar, Bill Sundstrom, Ben Ward, and Gavin Wright.Google Scholar
1 See Bairoch, Paul, “Agriculture and the Industrial Revolution, 1700–1914,” in Cipolla, Carlo, ed. The Fontana Economic History of Europe (New York, 1976), vol. 3, p. 472.Google Scholar
2 Jacob, William, Tracts Relating to the Corn Trade and Corn Laws: including the Second Report (London, 1828), First Report, pp. 96–99.Google Scholar
3 Blum, Jerome, Noble Landowners and Agriculture in Austria, 1815–1848 (Baltimore, 1948), pp.167–70.Google Scholar
4 U.S. Bureau of the Census, Historical Statistics of the United States (Washington, D.C., 1976), Part 1, pp. 24–37, 460. The Northeast comprises New England, New York, New Jersey, and Pennsylvania.Google Scholar
5 The wheat yield per acre in the northeastern United States in the 1840s was about 16 bushelsper acre, and the oats yield about 28 bushels per acre. See Parker, William N. and Klein, Judith L. V., “Productivity in Grain Production in the United States 1840–60 and 1900–10,” in National Bureau of Economic Research, Output, Employment and Productivity in the United States After 1800, Studies in Income and Wealth, 30 (New York, 1966), pp. 548–52.Google Scholar
6 See Clark, Gregory, “The Agricultural Revolution in Britain, 1661–1841: Changes in People versus Changes in Technique” (unpublished manuscript, Stanford University, 1987).Google Scholar
7 Kosminsky, E. A., Studies in the Agrarian Histoiy of England in the 13th Century (New York, 1956) pp. 100, 216, 223.Google Scholar
8 Hallam, H. E., “Population Densities in Medieval Fenland,” Economic History Review, 2nd ser., 14 (1961).CrossRefGoogle Scholar
9 Such yields are given in Titow, J. Z., Winchester Yields: A Study in Medieval Agriculture Productivity (Cambridge, 1972).Google Scholar
10 Bidwell, Percy W. and Falconer, John I., History of Agriculture in the Northern United States,1620–1860 (Washington, D.C., 1925), pp. 205–6;Google ScholarU.S. Department of Labor, Thirteenth Annual Repor of the Commissioner of Labor (Washington, D.C., 1899), vol. 2, pp. 433–73.Google Scholar
11 Gardener's Chronicle and Agricultural Gazette, 27 Apr. 1850, pp. 266–67.Google Scholar
12 Jacob, Tracts, First Report, pp. 19, 96–99, 132–35.Google Scholar
13 The annual wages of ploughmen on a number of manors can be calculated from Rogers, James E. Thorold, A History of Agriculture and Prices in England (Oxford, 1866), vol. 1, pp. 245, 288–89, vol. 2, pp. 329–34.Google Scholar
14 Bidwell and Falconer, History of Agriculture, p. 33.Google Scholar
15 Jacob, Tracts, First Report, pp. 32, 37. Jacob reports that the crown lands had about 8 million acres of mainly arabIc farmland, and one-quarter of the population of the kingdom.Google Scholar
16 Ibid., pp. 14, 20, 32–33, 36, 97, 133–37.
17 The total burden on the land in Poland in the 1820s consisted of three elements; about $0.24 of rent per acre, $0.06 of taxes, and the tithe of one-tenth or less of gross output (Jacob, Tracts, First Report, pp. 32–36, 99). Output per acre of tillage land in one large lordship in Poland was about $2.68 of grain, plus an unspecified value of fodder in the straw and fallow grazing. Assuming conservatively that the fodder was worth a quarter of the grain, the value of output per acre was $3.35 (Jacob, Tracts, First Report, pp. 97–99). Thus the total burden on the land was only about $0.64.Google Scholar
18 The rental value for the United States is derived by taking 4 percent of the value per acre recorded in the 1850 census (U.S. Bureau of the Census, Historical Statistics, pp. 460–62).Google Scholar
19 If Polish rents were reduced to American levels, the residual per acre left to pay wages would increase by about 27 percent. Combining this with 22 percent more acres of land tilled per worker gives the maximum possible increase in wages with greater land availability as 54 percent.Google Scholar
20 Papadakis, J., Soils of the World (Amsterdam, 1969), classifies most of the soils in the northeastern United States as naturally acid and infertile podsols. British soils are also principally infertile podsols.Google Scholar
21 I am grateful to Ester Boserup for this important observation.Google Scholar
22 Hall, A. D., The Book of the Rothamsted Experiments (London, 1919), pp. 35, 55, 63, 72, 84,93.Google Scholar
23 Hall, Rothamsted Experiments, p. 55.Google Scholar
24 Stephens, Henry, The Book of the Farm (Edinburgh, 1844), vol. 2, p. 116.Google Scholar
25 Thaer, Albert, The Principles of Agriculture (London, 1844), vol. 2, p. 407;Google ScholarMcCulloch, J. R., A Statistical Account of the British Empire (2nd edn., London, 1839), p. 466.Google Scholar
26 This figure assumes the reaper cuts a three-foot-wide swath through the grain.Google Scholar
27 Jacob, Tracts, Second Report, p. 89.Google Scholar
28 Washington, George, Letters to Arthur Young and John Sinclair (Alexandria, 1803), p. 75.Google Scholar
29 Markham, Gervase, Markham's Farewel to Husbandry (14th edn., London, 1683), p. 113.Google Scholar
30 Kershaw, Ian, Boiron Priory: The Economy of a Northern Monastery, 1286–1325 (Oxford,1973), pp. 38, 50.Google Scholar
31 Morton, J. C., A Cyclopedia of Agriculture (Edinburgh, 1855), vol. 2, p. 1144.Google Scholar
32 Stephens, Book of the Farm, vol. 2, pp. 335–37; Morton, Cyclopedia, vol. 2, p. 1145.Google Scholar
33 Thaer, Principles, vol. 1, p. 102.Google Scholar
34 Private communication from Aktil Gupta.Google Scholar
35 Howlett, John, “The Different Quantity and Expense of Agricultural Labour in Different Years,” Annals of Agriculture, 18 (1792), p. 570.Google Scholar
36 Jacob, Tracts, Second Report, p. 29.Google Scholar
37 Jacob, Tracts, First Report, p. 28. It is not entirely clear whether Jacob is discussing free or serf labor.Google Scholar
38 Jacob, Tracts, Second Report, p. 18.Google Scholar
39 Boys, John, A General View of the Agriculture of the County of Kent (London, 1796), p. 59.Google Scholar
40 Thaer, Principles, vol. 2, p. 386.Google Scholar
41 This figure is for manors whose labor accounts are recorded in Rogers, James E. Thorold, A History of Agriculture and Prices in England (Oxford, 1866), vol. 1, pp. 245, 288–89; vol. 2, pp. 273–310, 329–34.Google Scholar Similar data for Ramsey Abbey and Crowland Abbey show threshing rates of 2.37 bushels, and 2.74 bushels per day, prior to 1349. See Page, Frances M., The Estates of Crowland Abbey (Cambridge, 1934);Google Scholar and Raftis, J. Ambrose, The Estates of Ramsey Abbey (Toronto, 1957).Google Scholar
42 I use the reaping rate for Podolia as a proxy for that in Poland.Google Scholar
43 Great Britain, Parliamentary Papers, Sixth Report of the Medical Officer of the Privy Council, Appendix 6: Food of die Lowest Fed Classes, vol. 27, 1864, pp. 216–329.Google Scholar
44 Gardener's Chronicle and Agricultural Gazette, 27 Apr. 1850, pp. 266–67, and 30 Apr. 1860, pp. 392–93.Google Scholar
45 Elsewhere I calculate that while productivity rose by over 50 percent in British agriculture between 1661 and 1841, the amount of increase that was attributable to technical progress was only about 15 percent, the rest coming from more labor inputs per worker and more intense work. See Clark, “The Agricultural Revolution in Britain.”Google Scholar
46 See Clark, Gregory, “Why Isn't the Whole World Developed? Lessons from the Cotton Mills,” this JOURNAL, 45 (Mar. 1987), pp. 141–74.Google Scholar
- 21
- Cited by