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The demographic evolution of human populations: The role of selection and environmental factors.

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Demetrius,  L.
Abteilung Biochemische Kinetik, MPI for biophysical chemistry, Max Planck Society;

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Demetrius, L. (1989). The demographic evolution of human populations: The role of selection and environmental factors. Demography, 26(3), 252-372. doi:10.2307/2061598.


Cite as: https://hdl.handle.net/11858/00-001M-0000-002C-3C37-7
Abstract
Selection (genetic and cultural) and environmental variation are the principal mechanisms determining patterns of demographic change in human populations. Conditions exist under which the nature and intensity of these forces can be inferred from temporal trends in the demographic variables. These conditions, which can be expressed in terms of relations between the Malthusian parameter and population entropy, provide a means for evaluating the effect of selective and nonselective factors on demographic trends in human populations. The distinction between the roles of selection and environmental factors is illustrated by a study of the demographic transition in Sweden (1778–1965). This study shows that demographic changes during the pre- and posttransitional phases are determined mainly by environmental factors, whereas the changes during the transitional phase are mainly due to cultural selection. This analysis provides, for all three phases of the demographic transition, quantitative measures of the intensity of the forces (selective and nonselective) acting on both mortality and fecundity distributions.