Macroeconomic Consequences of the Demographic Transition: Data and Trends
This article presents data and trends from various sources on the demographic transition and its impact on macroeconomic factors such as dependency ratios, support ratios, savings rates, and capital intensification. It includes a classic illustration of the demographic transition, the transition in India from 1890 to 2100, and simulation-based projections based on fitted variations with time.
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PowerPoint presentation about 'Macroeconomic Consequences of the Demographic Transition: Data and Trends'. This presentation describes the topic on This article presents data and trends from various sources on the demographic transition and its impact on macroeconomic factors such as dependency ratios, support ratios, savings rates, and capital intensification. It includes a classic illustration of the demographic transition, the transition in India from 1890 to 2100, and simulation-based projections based on fitted variations with time.. The key topics included in this slideshow are demographic transition, dependency ratios, support ratios, savings rates, capital intensification, human capital, India, simulations, macroeconomics, projections,. Download this presentation absolutely free.
1. Data from Macroeconomic Consequences of the Demographic Transition Ronald Lee UC Berkeley July 9, 2008 Talk prepared for Rand Summer Institute Research supported by NIA R37 AG025247 Thanks to Andy mason and NTA country teams
2. Data from Plan Demographic transition Dependency ratios and support ratios Savings rates and capital intensification Human capital
3. Data from I. The Demographic Transition A classic illustration: The transition in India, 1890-2100. Mixture of historical estimates, UN projections, and simulation based on fitted variations with time.
4. Data from
5. Data from Pre fertility decline; child dependency ratio rises During fertility decline, child dependency ratio declines Population aging: old age dep ratio rises
6. Data from The total dep ratio rises, falls, then rises again, ending up where it started. The changes in the total dependency ratio are transitory.
7. Data from But there is a big permanent change: At start, many children and few elderly. At end, few children and Many elderly.
8. Data from Comments on simulation Assumed TFR stabilized at 2.1; but often has declined below replacement. Assumed e 0 stopped rising at 80, but many countries already above this. Some countries experienced important baby booms and busts which distort this classic shape. Many countries now have declining populations and declining working age pops.
9. Data from II. The economic life cycle: Age profiles of consumption and labor income Use estimates from the National Transfer Accounts project, or NTA. Consumption patterns are quite similar for Third World countries in Asia and Latin America. Consumption in Industrial populations looks different.
10. Data from An-Chi Tung Includes both private expends and in-kind public transfers (health, education, long term care) Includes self employment, wages,unpaid family labor, & fringe benefits. Averages 0s and both male and female.
11. Data from An-Chi Tung Flat cons age profile in adult years reflects extended family sharing. Quite different than most industrial nations.
12. Data from An-Chi Tung Large deficits at young and old ages.
13. Data from An-Chi Tung Reallocations from surplus to deficit ages required.
14. Data from An-Chi Tung Other income comes from assets, foreign loans, and remittances from abroadits not all labor income.
15. Data from An-Chi Tung Asset income is partic Impt for old age
16. Data from Components of US Consumption, 2003 Later I will measure HK investment As sum of pub and priv spending on hlth and educ as shown here. Unlike Taiwan and other Third World, in US cons rises strongly with age. True in other industrial too.
17. Levels of age profiles change fast with economic development. Shapes of age profiles change slowly, Are broadly similar across countries at very different levels of development.
18. III. Dependency and Support Concern about pop aging is mostly about old age dependency. Sharpest concerns for age-sensitive public sector programs pensions health care Long term care But should place these in broader context Full range of public programs Private consumption Use shape of estimated profile I just showed.
19. Support Ratios Effective labor is weighted sum of pop using labor income age profile. Effective consumers is similar. Ratio of effective labor to effective consumers is the Support Ratio. Other things equal, consumption per effective consumer is proportional to the support ratio.
20. Population aging First Dividend
25. Proportionate Changes in the Support Ratio from 2007 to 2050 for Selected MDC and LDC
26. Not written in stone. Many policy possibilities: Change the age profile of labor income Later retirement Earlier entry into labor force Higher female labor force participation Reform seniority system Change the age profile of consumption In many industrial nations, the elderly consume much more than younger adults. Makes population aging more costly Role of public transfer policy: pensions, health care, long term care Change the demographic trends: immig, fert
27. IV. Further on Interage Flows of Income Comparison of Japan and Indonesia
28. Data from Maliki (Indonesia) and H. Ogawa (Japan) Per capita consumption and labor income by age for Indonesia and Japan Indonesia, 2002 Japan, 2004 Differences in consumption Education in Japan Rising consumption in old age in Japan
29. Data from Maliki (Indonesia) and H. Ogawa (Japan) Per Capita Life Cycle Deficit: c(x)-y l (x) Because these are per capita, they dont convey the macro patterns of flows. To appreciate the full implications, we must take the population age distributions into account. Indonesia Japan
30. Data from Maliki (Indonesia) and H. Ogawa (Japan)
31. Data from Maliki (Indonesia) and H. Ogawa (Japan) Green arrows show transfers from surplus of prime working years. Red arrows show asset income consumed by elderly out of earlier savings.
32. Data from Maliki (Indonesia) and H. Ogawa (Japan) Indonesia, 2002 Japan, 2004 In Indonesia, average unit of income is earned at 39 and consumed at 30 Travels 9 years down the age scale. In Japan, it is earned and consumed at nearly the same age. A c =30 A yl =39 A c =45 A yl =45 Population weighted average age
33. Data from NTA Country Teams Average Consumption-Earning Gap by Average Age of Population 13 yrs
34. Data from NTA Country Teams How much of the difference in age gaps is due to the shapes of the age profiles?
35. Data from NTA Country Teams Average Age of Labor Income and Consumption with Population Held Constant (stationary, e0=75)
36. Data from NTA Country Teams Average Age of Labor Income and Consumption with Population Age Distr. Constant (stationary, e0=75) Low age of cons due to heavy spending on education. High cons (health care) and work when old. Generous old age support. Very young A yl due to early start, early retirement . Low age of cons due to heavy spending on education. Low age of cons due to heavy spending on education. Low age of cons due to heavy spending on education. Low age of cons due to heavy spending on education. Low age of cons due to heavy spending on education.
37. Data from NTA Country Teams Average Age of Labor Income and Consumption with Population Held Constant (stationary, e0=75) Difference in average ages is the distance above (-) or below (+) the diagonal.
38. Data from NTA Country Teams Average Age of Labor Income and Consumption with Population Held Constant (stationary, e0=75) Indonesia -3.3 yrs Austria +2.2 yrs
39. total range in age gap was 13 years range due to differences in profiles is 5.5 years. So both population age distribution and shapes of age profiles help determine gap.
40. V. Wealth and the age gap: the golden rule case Demographic and economic steady state Saving and capital such as to maximize per capita consumption. r=n+g
41. Now suppose babies had to go into debt to feed themselves. At the start of life, c(x)>y l (x); dependency. Suppose we keep a notional account of debt and credit over the life cycle, discounted to age 0. Credit gained (or lost) at age x is: e -rx l(x) [y l (x)-c(x)] where r is interest rate, l(x) is survival from 0 to age x. Cumulated up to age x, we get W(x):
42. The average wealth per capita in the population may be pos or neg Now find the average level of per capita in the whole population, call it W W = pop(x)*W(x)/totpop
43. The Willis result W = c(A c A y ) , where c = per capita cons If A c >A y then indivs need to hold onto some output for later consumption, so wealth, W, is on average positive in the population. If A c
44. Given comparative analysis of A c -A yl , suggests that demand for wealth rises over the demographic transition. Why? Older people hold more wealth; in old population, there are more of them. Longer life means workers need to accumulate more wealth for longer old age. Lower fertility means adults consume more and need to save more to maintain in old age.
45. VI. The role of intergenerational transfers We just considered the wealth needed to achieve consumption targets. Wealth can be held in two forms: Transfer wealth (expected future transfers received minus expected future transfers made) Assets or Capital
46. NTA data on shares of old age support from different sources Asset income (land, equities, interest, etc.) Family transfers (not including bequests at death) Public transfers (Pay As You Go pensions, health care, and long term care) Triangle graph shows shares, not levels, so must add to 100%. Bequests not included; just old age cons.
47. Diagram from Andy Mason Familial transfers equally important in Thailand, Korea, and Taiwan (36-40%). Net familial transfers near zero in US, CR, and J. Large public transfers in CR and J Net public transfers to elderly are zero in Thailand; about 25% in Taiwan and Korea.
48. Diagram from Andy Mason Public transfers: Thailand none, Japan and Costa Rica around 70% US, Korea, Taiwan, middling
49. Diagram from Andy Mason Reliance on assets : Japan, Taiwan, C.R. are low; Thailand high; US middling
50. VII. Demographic Transition and Capital Accumulation Changing dependency gets most attention for ec dev and pop aging. Changes in capital accumulation may be more important.
51. Calculating the demand for wealth and capital over the demographic transition Based on different theoretical models, approaches. Model with Social Planner maximizing discounted social welfare function with full foresight. Model with individuals saving and consuming over their life cycles to maximize their life time utility.
52. Here take a different approach no optimization--emphasizes institutional setting Assume share of old age consumption supported by asset income stays constant over time. altruistic sharing maintains the shape of the cross sectional consumption age profile. Demography is known in advance. Can solve recursively for unique growth path and asset holdings.
53. Two scenarios: high level of transfers to elderly (65%); or low level (35%) Other assumptions Productivity growth raises income age profile by 2% per year. Open economy; rate of return on assets is 3%. Aggregate saving is calculated to maintain asset share of old age consumption support. Results will be shown relative to a 2% growth trajectory from prod gr.
54. From Mason, Lee and Lee (2008) Simulated Saving Rate, ASEAN (S.E. Asian countries), 1950-2050
55. From Mason, Lee and Lee (2008) Simulated Assets/Labor Income, ASEAN Ratio of assets to labor income rises greatly in any case, but 3 or 4 times as much with low IG transfers.
56. From Mason, Lee and Lee (2008) Simulated Consumption, ASEAN With low IG transfers, saving is higher from 1990 to 2020, reducing consumption. Thereafter, it is higher.
57. These sorts of results are qualitatively like those from optimization approaches Timing of swings differs Level of savings rates differs Capital/labor income ratios differ Big picture is the same: 1. The demographic transition leads to a major increase in capital per worker. 2. The greater the role of transfers to the elderly, the smaller is the increase in capital intensity. 3. Eventually consumption rises with lower transfers, but initially it is lower. 4. Population aging leads to a decline in savings rates but an increase in capital intensity.
58. VIII. Human capital and the demographic transition Measure public and private expenditures on health and education at each age. Sum these for health ages 0-18 Sum for education ages 0-26 Gives synthetic cohort HK investment per child Construct ratio of HK to average y l (x), ages 30-49. Plot log of HK/w against log of TFR.
59. A different measure than usual Includes both public and private Synthetic cohort measure Does not include opportunity cost of students time Look at it in relation to the period TFR a synthetic cohort measure of fertility.
60. Data from NTA country teams
61. Data from NTA country teams
62. Data from NTA country teams y = -1.05*x + 1.92 R2 = 0.62
63. Now calculate total HK spending on all children Multiply TFR times HK per child, and plot its log against log(TFR).
64. Data from NTA country teams Roughly a horizontal cloud, perhaps slightly negative. 6.8 years of labor income are invested in total HK on average. 1/12 of lifetime labor income for a couple.
65. Association is non-causal We dont know whether fertility decline causes rising HK investments per child. Desire to make bigger HK investments causes fertility decline. Some other factor like rising income causes both fertility and HK changes. Here is one theory about a causal path from income growth to other changes. In some models the HK growth causes income growth.
66. The standard Quantity-Quality model Assume that the share of total labor income spent on HK is fixed, consistent with scatter plot. Draw budget constraints for differing levels of income. Quantity and quality interact multiplicatively in the budget constraint, both with positive income elasticities for constant price.
68. With same data, plot ln(HK/w) instead of HK, against ln(TFR) instead of n. The budget lines collapse onto a single straight line.
69. Slope (elasticity) = -1 d is HK expenditure expressed in years of work at rate w Quite similar to empirical scatter Intercept of scatter indicates years of work expended on HK is 6.8. Share of lifetime labor income is 1/12.
70. So our scatter plot shows a common transformed budget constraint with different fertility-HK choices. Differing incomes is one possible cause. Many others.
71. Production and Human capital Human capital (HK) Portion of wage, W(t), workers invest in their children is inversely related to their fertility, F(t) Human capital of workers one period later is HK(t+1) = h(F(t)) W(t) Wage (W) Wage is increasing in human capital W(t) = g(HK(t)) Baseline Specifications
72. Other sources of variation in fertility/HK choice Pref for HK : Rate of return to HK; survival rates; consumption value of HK. Price of HK due to medical technology, transportation improvements, etc. Price of number : family allowances, fines for second child, changing access to effective contraceptives Cultural influences on varying share of income allocated to total HK expenditures and on number.
73. Modelbasic structure Take fertility variations as given, trace out consequences for HK, w, consumption. 3 generations: children, workers, retirees; usual accounting identities. No saving or physical capital. HK drives wage growth; wage growth drives HK growth. (Lee and Mason 2008)
74. From Lee and Mason (2008) Boom (demoraphic dividend) Fertility bust, but consumption remains high Fertility recovers: modest effect on C/EA Bottom line: Low fertility leads to higher consumption. Human capital investment has moderated the impact of fertility swings on standards of living.
75. From Lee and Mason (2008) During first dividend phase, consumption does not rise as much as support ratio. The difference is invested in HK. That is why ih later periods, consumption is proportionately higher than the support ratio.
76. Conclusions for changes over the transition Support ratios change over demographic transition; ending where started, roughly. Importance in long view may be exaggerated. In shorter view, we are in painful payback phase. Bigger effect is on capital intensity These raise productivity per worker Raise wealth and asset income Increased human capital results from low fertilityso closely related to aging: same cause for both. Raises productivity. However, increased demand for wealth can be met either by increased asset holdings or through increased transfer wealth. Major role for policy and institutions at every point; nothing inevitable.