A Bioeconomic Foundation of the Malthusian Equilibrium: Body Size and Population Size in the Long Run

Publikation: Working paperForskning

Standard

A Bioeconomic Foundation of the Malthusian Equilibrium : Body Size and Population Size in the Long Run. / Dalgaard, Carl-Johan Lars; Strulik, Holger.

Hanover Leibniz University, School of Economics and Management, 2007.

Publikation: Working paperForskning

Harvard

Dalgaard, C-JL & Strulik, H 2007 'A Bioeconomic Foundation of the Malthusian Equilibrium: Body Size and Population Size in the Long Run' Hanover Leibniz University, School of Economics and Management.

APA

Dalgaard, C-J. L., & Strulik, H. (2007). A Bioeconomic Foundation of the Malthusian Equilibrium: Body Size and Population Size in the Long Run. Hanover Leibniz University, School of Economics and Management.

Vancouver

Dalgaard C-JL, Strulik H. A Bioeconomic Foundation of the Malthusian Equilibrium: Body Size and Population Size in the Long Run. Hanover Leibniz University, School of Economics and Management. 2007.

Author

Dalgaard, Carl-Johan Lars ; Strulik, Holger. / A Bioeconomic Foundation of the Malthusian Equilibrium : Body Size and Population Size in the Long Run. Hanover Leibniz University, School of Economics and Management, 2007.

Bibtex

@techreport{c6e9e0a0675911de8bc9000ea68e967b,
title = "A Bioeconomic Foundation of the Malthusian Equilibrium: Body Size and Population Size in the Long Run",
abstract = "This paper develops a bioeconomic Malthusian growth model. By integrating recent research on allometric scaling, energy consumption and ontogenetic growth, we provide a model where subsistence consumption is endogenously linked to body size and fertility. The theory admits a unique Malthusian equilibrium in a two-dimensional state space characterized by population density and body size (metabolic rate) of the representative adult. As a result, the analysis allows us to examine the link between human biology, economic productivity, body size, and population size. Off the steady-state we investigate the possibility of cyclical behavior of the size of a population and the size of its representative member over the very long-run. We also demonstrate that a take-off into sustained growth should be associated with increasing income, population size and body size. The increase in the latter is, however, bounded and can be viewed as convergence to a biologically determined upper limit.",
author = "Dalgaard, {Carl-Johan Lars} and Holger Strulik",
note = "JEL Classification: O11, I12, J13",
year = "2007",
language = "English",
publisher = "Hanover Leibniz University, School of Economics and Management",
type = "WorkingPaper",
institution = "Hanover Leibniz University, School of Economics and Management",

}

RIS

TY - UNPB

T1 - A Bioeconomic Foundation of the Malthusian Equilibrium

T2 - Body Size and Population Size in the Long Run

AU - Dalgaard, Carl-Johan Lars

AU - Strulik, Holger

N1 - JEL Classification: O11, I12, J13

PY - 2007

Y1 - 2007

N2 - This paper develops a bioeconomic Malthusian growth model. By integrating recent research on allometric scaling, energy consumption and ontogenetic growth, we provide a model where subsistence consumption is endogenously linked to body size and fertility. The theory admits a unique Malthusian equilibrium in a two-dimensional state space characterized by population density and body size (metabolic rate) of the representative adult. As a result, the analysis allows us to examine the link between human biology, economic productivity, body size, and population size. Off the steady-state we investigate the possibility of cyclical behavior of the size of a population and the size of its representative member over the very long-run. We also demonstrate that a take-off into sustained growth should be associated with increasing income, population size and body size. The increase in the latter is, however, bounded and can be viewed as convergence to a biologically determined upper limit.

AB - This paper develops a bioeconomic Malthusian growth model. By integrating recent research on allometric scaling, energy consumption and ontogenetic growth, we provide a model where subsistence consumption is endogenously linked to body size and fertility. The theory admits a unique Malthusian equilibrium in a two-dimensional state space characterized by population density and body size (metabolic rate) of the representative adult. As a result, the analysis allows us to examine the link between human biology, economic productivity, body size, and population size. Off the steady-state we investigate the possibility of cyclical behavior of the size of a population and the size of its representative member over the very long-run. We also demonstrate that a take-off into sustained growth should be associated with increasing income, population size and body size. The increase in the latter is, however, bounded and can be viewed as convergence to a biologically determined upper limit.

M3 - Working paper

BT - A Bioeconomic Foundation of the Malthusian Equilibrium

PB - Hanover Leibniz University, School of Economics and Management

ER -

ID: 12923545