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Research Article| November 01 2008

A decomposition method based on a model of continuous change

Shiro Horiuchi;

Shiro Horiuchi

Program in Urban Public Health, Hunter College, Box 816, 425 East 25th Street, New York, NY 10010-2590

CUNY Institute for Demographic Research, USA

shoriuch@hunter.cuny.edu

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John R. Wilmoth;

John R. Wilmoth

Department of Demography, University of California, Berkeley, USA

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Scott D. Pletcher

Scott D. Pletcher

Huffi ngton Center on Aging and Molecular and Human Genetics, Baylor College of Medicine, USA

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Demography (2008) 45 (4): 785–801.

https://doi.org/10.1353/dem.0.0033

Abstract

A demographic measure is often expressed as a deterministic or stochastic function of multiple variables (covariates), and a general problem (the decomposition problem) is to assess contributions of individual covariates to a difference in the demographic measure (dependent variable) between two populations. We propose a method of decomposition analysis based on an assumption that covariates change continuously along an actual or hypothetical dimension. This assumption leads to a general model that logically justifies the additivity of covariate effects and the elimination of interaction terms, even if the dependent variable itself is a nonadditive function. A comparison with earlier methods illustrates other practical advantages of the method: in addition to an absence of residuals or interaction terms, the method can easily handle a large number of covariates and does not require a logically meaningful ordering of covariates. Two empirical examples show that the method can be applied flexibly to a wide variety of decomposition problems. This study also suggests that when data are available at multiple time points over a long interval, it is more accurate to compute an aggregated decomposition based on multiple subintervals than to compute a single decomposition for the entire study period.

Life Table, Total Fertility Rate, Decomposition Analysis, Decomposition Result, Decomposition Problem

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© Population Association of America 2008

2008

Andreev, E.M., Shkolnikov, V.M., & Begun, A.Z. (

2002

).

Algorithm for Decomposition of Differences Between Aggregate Demographic Measures and Its Application to Life Expectancies, Healthy Life Expectancies, Parity-Progression Ratios and Total Fertility Rates

.

Demographic Research

,

7

,

499

–

522

. 10.4054/DemRes.2002.7.14

Arriaga, E.E. (

1984

).

Measuring and Explaining the Change in Life Expectancies

.

Demography

,

21

,

83

–

96

. 10.2307/2061029

Canudas Romo, V. (

2003

).

Decomposition Methods in Demography

.

Amsterdam

:

Rozenberg Publishers

.

Carlson, E. (

2006

).

Age of Origin and Destination for a Difference in Life Expectancy

.

Demographic Research

,

14

,

217

–

36

. 10.4054/DemRes.2006.14.11

Clogg, C.C. (

1978

).

Adjustment of Rates Using Multiplicative Models

.

Demography

,

15

,

523

–

39

. 10.2307/2061204

Das Gupta, P. (

1991

).

Decomposition of the Difference Between Two Rates When the Factors Are Nonmultiplicative With Applications to the U.S. Life Tables

.

Mathematical Population Studies

,

3

,

105

–

25

. 10.1080/08898489109525329

Das Gupta, P. (

1993

).

Standardization and Decomposition of Rates: A User’s Manual

(pp.

23

–

186

).

Washington, DC

:

U.S. Bureau of the Census

.

Das Gupta, P. (

1994

).

Standardization and Decomposition of Rates From Cross-Classified Data

.

Genus

,

50

,

171

–

96

.

Das Gupta, P. (

1999

).

Decomposing the Difference Between Rates When the Rate Is a Function of Factors That Are Not Cross-Classified

.

Genus

,

55

,

9

–

26

.

Divisia, F. (

1925

). L’Indice monétaire et la théorie de la monnaie.

Revue d’Economie Politique

,

39

,

980

–

1008

.

Glei, D., & Horiuchi, S. (

2007

).

The Narrowing Sex Gap in Life Expectancy: Effects of Sex Differences in the Age Pattern of Mortality

.

Population Studies

,

61

,

141

–

59

. 10.1080/00324720701331433

Human Mortality Database (HMD). 2007. University of California, Berkeley (USA), and Max Planck Institute for Demographic Research (Germany). Available online at http://www.mortality.org.

Keyfitz, N. (

1968

).

Introduction to the Mathematics of Population

.

Reading, MA

:

Addision-Wesley

.

Kitagawa, E.M. (

1955

).

Components of a Difference Between Two Rates

.

Journal of the American Statistical Association

,

50

,

1168

–

94

. 10.2307/2281213

Lee, R.D., & Carter, L.R. (

1992

).

Modeling and Forecasting U.S. Mortality

.

Journal of the American Statistical Association

,

87

,

659

–

71

. 10.2307/2290201

Liao, T.F. (

1989

).

Flexible Approach for the Decomposition of Rate Differences

.

Demography

,

26

,

717

–

26

. 10.2307/2061269

National Center for Health Statistics. 2007. Health Data for All Ages. Available online at http://www .cdc.gov/nchs/health_data_for_al_ages.htm.

Pletcher, S.D., Khazaeli, A.A., & Curtsinger, J.W. (

2000

).

Why Do Lifespans Differ? Partitioning Mean Longevity Differences in Terms of Age-Specifi c Mortality Parameters

.

Journal of Gerontology: Biological Sciences

,

55

,

B381

–

B389

.

Pollard, J.H. (

1982

).

The Expectation of Life and its Relationship to Mortality

.

Journal of the Institute of Actuaries

,

109

,

225

–

40

.

Pollard, J.H. (

1988

).

On the Decomposition of Changes in Expectation of Life and Differentials in Life Expectancy

.

Demography

,

25

,

265

–

76

. 10.2307/2061293

Ponnapalli, K.M. (

2005

).

A Comparison of Different Methods for Decomposition of Changes in Expectation of Life at Birth and Differentials in Life Expectancy at Birth

.

Demographic Research

,

12

,

141

–

72

. 10.4054/DemRes.2005.12.7

Pullum, T.W., Tedrow, L.M., & Herting, J.R. (

1989

).

Measuring Change and Continuity in Parity Distributions

.

Demography

,

26

,

485

–

98

. 10.2307/2061608

U.S. Census Bureau. 2007. 2005 American Community Survey. Available online at http://www.census .gov.acs/www.

Vaupel, J.W., & Canudas Romo, V. (

2002

).

Decomposing Demographic Change Into Direct vs. Compositional Components

.

Demographic Research

,

7

,

2

–

14

.

Vaupel, J.W. (

2003

).

Decomposing Change in Life Expectancy: A Bouquet of Formulas in Honor of Nathan Keyfitz’s 90th Birthday

.

Demography

,

40

,

201

–

16

. 10.1353/dem.2003.0018

Williamson, R.E., Crowell, R.H., & Trotter, H.F. (

1968

).

Calculus of Vector Functions

.

Englewood Cliffs, NJ

:

Prentice Hall

.

Wilmoth, J.R., Deegan, L. J., Lundström, H., & Horiuchi, S. (

2000

).

Increase in Maximum Life Span in Sweden, 1861–1999

.

Science

,

289

,

2366

–

68

. 10.1126/science.289.5488.2366

Wilmoth, J.R., & Horiuchi, S. (

1999

).

Rectangularization Revisited: Variability of Age at Death Within Human Populations

.

Demography

,

36

,

475

–

95

. 10.2307/2648085

Xie, Y. (

1989

).

An Alternative Purging Method: Controlling the Composition-Dependent Interaction in an Analysis of Rates

.

Demography

,

26

,

711

–

16

. 10.2307/2061268