GLOBAL POPULATION GROWTH, TECHNOLOGY, AND MALTHUSIAN CONSTRAINTS: A QUANTITATIVE GROWTH THEORETIC PERSPECTIVE

GLOBAL POPULATION GROWTH, TECHNOLOGY, AND MALTHUSIAN CONSTRAINTS: A QUANTITATIVE GROWTH THEORETIC PERSPECTIVE

We structurally estimate a two-sector Schumpeterian growth model with endogenous population and finite land reserves to study the long-run evolution of global population, technological progress, and the demand for food. The estimated model closely replicates trajectories for world population, GDP, s...

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Veröffentlicht in:International economic review (Philadelphia) 2017-08, Vol.58 (3), p.973-1006
Hauptverfasser: Lanz, Bruno, Dietz, Simon, Swanson, Timothy
Format: Artikel
Sprache:eng
Schlagworte:
Agricultural production
Capital investments
Economic models
Economic theory
Endogenous
Fertility
Food
Global economy
Growth models
Land
Population growth
Productivity
Projections
Technology
World population
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Zusammenfassung:We structurally estimate a two-sector Schumpeterian growth model with endogenous population and finite land reserves to study the long-run evolution of global population, technological progress, and the demand for food. The estimated model closely replicates trajectories for world population, GDP, sectoral productivity growth, and crop land area from 1960 to 2010. Projections from 2010 onward show a slowdown of technological progress, and, because it is a key determinant of fertility costs, significant population growth. By 2100, global population reaches 12.4 billion and agricultural production doubles, but the land constraint does not bind because of capital investment and technological progress.
ISSN:0020-6598
1468-2354
DOI:10.1111/iere.12242