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The plague, the skill-premium, and the road to modern economic growth

Published online by Cambridge University Press:  12 February 2024

Martin Kaae Jensen
Affiliation:
School of Economics, University of Nottingham, Nottingham, UK
Rui Luo*
Affiliation:
Nottingham University Business School China, University of Nottingham, Ningbo, China
*
Corresponding author: Rui Luo; Email: Rui.Luo@nottingham.edu.cn
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Abstract

When bubonic plague arrived in Britain in the mid-14th century, it caused dramatic economic and structural change. Within 50 years, the skill-premium was reduced by half, and another 50 years on, agriculture’s share of the labor force had declined by more than 20 percentage points. This paper develops a two-sector pre-industrial growth model and draws on recent data sources covering Late Medieval and Early Modern Britain to explain these and the ensuing developments. Our main findings are that the skill-premium’s decline was related to the guild and apprenticeship system and that it and the other post-Plague adjustments were crucial determinants of the British trajectory toward industrialization. In particular, prior sectoral transformation and the skill-premium’s determination were important when the Early Modern population boom (1525–1654) threatened to reverse the adjustments caused by the Plague.

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Articles
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2024. Published by Cambridge University Press
Figure 0

Figure 1. Skill-premium and income per capita in England. Notes: Skill-premium calculated from Allen (2001)’s data for construction workers. Depicted curve is the 30-year moving average. Income per capita is from Broadberry et al. (2015) [BoE (2017), Table A21]. Indexed to base year 1300, and depicted as a 3-year moving average.

Figure 1

Figure 2. Population and sectoral transformation in England. Notes: Population data are from Broadberry et al. (2015) [BoE (2017), Table A2]. The agricultural labor shares are from Clark (2013) and Wallis et al. (2018).

Figure 2

Figure 3. When $r_{t+1}/w^H_{t+1} \in (\gamma B \bar{e}^{\gamma -1}, B \bar{e}^{\gamma -1})$, a decline in physical-to-human capital price ratio shifts the supply curve from $S_a$ to $S_b$ and reduces the skill-premium from $SP_a$ to $SP_b$. For fixed skill-premium $SP_a$, human capital supply increases from $H_a$ to $\bar{e}L_t$. Demand curve is assumed to be fixed for simplicity.

Figure 3

Figure 4. Human capital investment and skill premium.

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Table 1. Model parameters

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Figure 5. Agricultural and non-agricultural sectors’ productivities.

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Figure 6. Wages and income per capita (indexed, 1300 = 100). Notes: The unskilled real wage is from Table A48 of BoE (2017) which is the annual male earnings from Humphries and Weisdorf (2019) deflated by the Allen CPI index.

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Figure 7. Capital-labor and physical-to-human capital ratios.

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Figure 8. Individuals’ human capital and the skilled labor share.

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Figure 9. Simulated vs. actual skill premium. Notes: Actual skill-premium data is the yearly skill-premium in construction from Allen (2001).

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Figure 10. Simulated vs. actual agricultural labor shares.

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Figure 11. Skill-premium counterfactual and Southern European skillpremium.

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Figure 12. Labor share and income per capita counterfactuals.

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Figure 13. Relative prices and human capital-to-labor ratio. Notes: The actual price index of the non-agricultural sector is calculated as a real output weighted average of industry and services from the data in Broadberry et al. (2015) [BoE (2017), Tables A6 and A7]. Both actual and simulated relative prices are indexed to $1$ in 1341.

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Figure 14. Structurally estimated agricultural productivities. R$^2$ is the $R$-squared of the linear regression of the actual data on the model predictions (blue curves).

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Figure 15. Land rents and unskilled wages (agricultural numeraire). R$^2$ is the $R$-squared of the linear regression of the actual data on model predictions (blue curves).

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Figure 16. Income per-capita match via non-agricultural productivities. R$^2$ is the $R$-squared of the linear regression of the actual data on model prediction (blue curves).

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Figure 17. Skill-premium and agricultural labor shares.