Title: Demography of Russia and the Former Soviet Union
1Demography of Russia and the Former Soviet Union
- Lecture 5
- Sociology SOCI 20182
2Fertility measures and patterns
3Fertility measures
- Crude Birth Rate, CBR
- General Fertility Rate, GFR
- Age-specific Fertility Rates, ASFR or
Age-specific Birth Rates, ASBR - Marital Fertility Rate, MFR
- Total Fertility Rate, TFR
(period and cohort) - Gross Reproduction Rate, GRR
- Net Reproduction Rate, NRR
- Parity Progression Ratios, PPR
4Crude Birth Rate, CBR
- Number of births in the studied year divided by
average size of the population during the year,
per 1,000 persons - CBR Births / Total Population on July 1, x
1,000 to get per 1,000 persons
5Crude Birth Rate, Pros and Cons
- Pros
- Easy to calculate
- Useful for calculation of the Rate of Natural
Increase, RNI - RNI CBR (crude birth rate) - CDR (crude
death rate) - and the Population Growth Rate, PGR
- PGR RNI (rate of natural increase) NMR (net
migration rate) - Cons
- Depends not only on individual-level childbearing
behavior, but also on age and sex distribution of
population.
6Crude Birth Rate, Cons
- In old societies (with many retirement
communities), and counties with male excess (e.g.
with military bases), Crude Birth Rate may be
exceptionally low, even if young women there have
a lot of children
Figure. CBR dynamics in Russia depends on
population structure
7General Fertility Rate, GFR
- Number of births in the studied year divided by
average size of the WOMEN of CHILDBEARING AGE (15
- 49 years ) during the year, per 1,000 persons - GFR Births / Midyear female population, aged
15-49 years, x 1,000 to get per 1,000
women
8General Fertility Rate, Pros and Cons
- Pros
- Characterizes fertility of women better than CBR
(crude birth rate) - Empirical observation in most countries the
reproductive female population (aged 15-49 years)
is close to 25 of the total population - Cons
- Too wide age range women have different birth
rates at specific ages within 15-49 year age
interval. - In older societies (with many women aged 40-49
years), General Fertility Rate may be
exceptionally low, even if younger women there
have a very high fertility.
9Age-specific Fertility Rates, ASFR or
Age-specific Birth Rates, ASBR
- Similar to crude birth rate but calculated for
specific age groups of women of childbearing age - Age groups Single-year age groups, or
five-year age groups (15-19, 20-24, .... 45-49) - Age range 15 - 49, or 15 - 44 years
10Age-specific Fertility Rates, Example
- Age-specific Fertility Rate, ASFR, for Age Group
20-24 years - Births to women, aged 20-24 / Number of women
aged 20-24 at midyear of the study period, - x 1,000 to get per 1,000 persons
- Rarely, Age-specific Fertility Rates, ASFR are
also calculated for men, when male fertility is
studied.
11Age-specific fertility (per 1000 women) in Russia
(red) and Greece (blue)
12Age-specific Fertility Rates, Pros and Cons
- Pros
- Basis for all subsequent detailed studies on
fertility - Cons
- Detailed data are required, which may be not
available for developing countries, war periods,
and historic studies. - These data are too detailed to be used to
calculate population growth rates, or natural
increase rates
13Marital Fertility Rates, MFR
- Fertility rates of married women, either at
specific ages (Age-specific Marital Fertility
Rates, ASMFR), or the full range of reproductive
ages (15 - 49, or 15 - 44 years) -- - General Marital Fertility Rate, GMFR.
- Example
- Marital Fertility Rate, MFR
- Births to married women, aged 15-49 /
Number of married women aged 15-49 at midyear of
the study period, - x 1,000 to get per 1,000 persons
14Marital Fertility Rates, Pros and Cons
- Pros
- Enables analysis of marital fertility and the
pace and timing of childbearing that occurs
within formal marriage. - Takes into account situations when many women
could not marry, because of lack of men (e.g.,
male losses in World War II) - Takes into account differences and changes in the
age at marriage, and marriage duration (effects
of divorces) - Cons
- Requires detailed data on marital status by age,
which may be not available for developing
countries, and historic studies. - Provides only partial picture for populations
with extensive non-marital fertility
(cohabitation)
15Total Fertility Rate, TFR
- Period total fertility rate, PTFR
- The average number of children a women would bear
in her life if she experiences the age-specific
fertility rates prevailing at the study period. - Total Fertility Rate, TFR, for a given year is
calculated by summing the age-specific fertility
rates for that year over the range of
reproductive ages.
16TFR changes over time, Russia
17TFR changes over time Russia, USA, Estonia
18TFR changes over time (some FSU countries)
19Regional differences in TFR, Russia
20Period total fertility rate, Pros and Cons
- Pros
- Helps to determine whether population will
decline (TFR lt 2.1), be close to stationary (near
zero or slow population growth at TFR 2.1 -
3.0), or rapidly growing (TFR gt 3). - Empirically, the relationship between the Total
Fertility Rate (TFR) and the Crude Birth Rate
(CBR) looks like - Crude Birth Rate (CBR) of 50 per 1,000
corresponds to Total Fertility Rate (TFR) of
about 7 children per women - Crude Birth Rate (CBR) of 15 per 1,000
corresponds to Total Fertility Rate (TFR) of
about 2 children per women - Cons
- Period Total Fertility Rate describes fertility
observed during a short study period (usually one
year period). Because fertility changes over
time, the period TFR is a poor measure of the
completed fertility of older women, and a poor
predictor of the anticipated completed fertility
of younger women (at early stages of their
reproductive "career").
21Cohort Total Fertility Rate, CTFR
- The average number of children a women bears in
her life, for women born in a specific time
period (specific year, or five-year birth period,
named a birth cohort). - Cohort Total Fertility Rate, CTFR, for a given
birth cohort is calculated by summing the actual
age-specific fertility rates over the range of
reproductive ages for women born in a specific
time period.
22Period TFR for hypothetical cohorts (red) and
Cohort TFR for real cohorts (blue) in Russia
23Cohort Total Fertility Rate, Pros and Cons
- Pros
- Allows a precise description of the actual
childbearing experience of specific birth cohorts
of women - Superior to census and survey questions on
"children ever born", because it does not omit
the childbearing experience of women who died
before the time of the census or survey. - Cons
- Requires detailed historical data on birth rates
by age of mothers born in specific years, which
may be not available for developing countries. - Can be calculated only at the conclusion of a
cohort's childbearing years (for women who have
passed the 50-year mark). Therefore it can not
be calculated for those women who were born after
year 1958. - Mostly historical significance, little relevance
to current fertility situation
24Gross Reproduction Rate, GRR (period)
- The average number of DAUGHTERS a women would
bear in her life if she experiences the
age-specific fertility rates (for daughters)
prevailing at the study period. - Gross Reproduction Rate, GRR, in most
circumstances equals roughly a half of the Total
Fertility Rate, TFR - (slightly less than a half, because boys are
somewhat more prevalent at birth than girls) - Exception
- China "One Child" policy leads to a
distortion of sex ratio at birth in favor of
boys, leading to a lower Gross Reproduction Rate,
GRR.
25Gross Reproduction Rate, Pros and Cons
- Pros
- Helps to aggregate age-specific fertility rates
into one simple measure mean number of
daughters expected per one woman. - Sensitive indicator on how future fertility could
be affected by a distortion of sex ratio at birth
(e.g., China). - Cons
- Adds little information to the Total Fertility
Rate, TFR - Could be misleading, because changes in the
timing of births do not necessarily change the
total number of life-time births per woman
26Net Reproduction Rate, NRR (period)
- The average number of DAUGHTERS a women would
bear in her life if she experiences the
age-specific fertility rates (for daughters)
prevailing at the study period, AND if her
daughters experienced the prevailing rates of
mortality. - If the age schedules of both fertility and
mortality remain constant, the Net Reproduction
Rate would be a measure of generational
REPLACEMENT. - Examples
- NRR 1.1 -- next generation will be 10 larger
than the present generation (growth) - NRR 1.0 -- next generation will be the same as
the present generation (replacement level) - NRR 0.9 -- next generation will be 10 smaller
than the present generation (depopulation)
27NRR for Armenia, Russia and Uzbekistan
28NRR for Russia, USA and Estonia
29Net Reproduction Rate, Pros and Cons
- Pros
- Taking into account both fertility and survival
in getting one indicator of reproductivity of a
population - Cons
- Requires detailed data on fertility and survival
of women, up to age 50 years - Does not take into account that women born in
different years may have different fertility and
survival
30Parity Progression Ratios, PPR (cohort)
- A proportion of women of a given "parity" (number
of live births), who go on to have at least one
ADDITIONAL child during the course of their
remaining childbearing years. - This is a probability of progressing from parity
X to all higher parities (X 1, X 2, etc).
PPR lt 1.0
31Parity Progression Ratio, formula
32Parity Progression Ratio, Pros and Cons
- Pros
- Useful for studies of reproduction in specific
birth cohorts of women - Helps to detect and estimate family planning and
birth control becoming more strict at specific
higher parities (in developed countries often at
parity 2) - Cons
- Could be studied only for older women (50 years)
who completed their childbearing years - Requires detailed data on children ever born from
a census or survey
33Demographic Transition
- A belief that all countries will eventually
follow the same scenario a transition from high
mortality and fertility rates to low mortality
and fertility rates (both with relatively slow
population growth rate). - A state of low mortality and high fertility (with
explosive population growth) is believed to be a
historically "short" transitional state, caused
by the time lag between mortality decline and a
subsequent fertility decline.
34Demographic Transition (schema)
High Fertility Low Mortality
Low Fertility Low Mortality
High Fertility High Mortality
35Why should fertility decline?
- Three preconditions should coexist "ready,
willing, able (A. Coale, 1973) - "Ready Fertility must be within the calculus of
conscious choice. The idea of fertility
regulation should become culturally acceptable - "Willing Reduced fertility must be
advantageous Perceived gains to motivate
couples to have fewer children - "Able Effective techniques of fertility
reduction must be available Dissemination of
knowledge and cheap/effective contraceptive
supplies
36Demographic transition in Russia
- At the beginning of the 20th century Russia had
very high but not very efficient fertility - many
children did not survive to adult ages because of
high child mortality - However difference between children born and
children survived to adult ages became small for
cohorts of mothers born after 1925 (result of
declining infant mortality)
37Number of children surviving to different ages
per woman, Russia
38Women were involved more in industrial labor
- Down with kitchen slavery!
39Rapid decline of fertility after bolshevik
revolution
Slogan Liberated woman Build Socialism! After
the revolution bolshevik government allowed
abortions Sex was considered a natural need
(compared to glass of water)
40Number of children per woman in Russia and
developed countries
Maternal birth cohort
41Stalin tried to improve situation with fertility
but it was too late
1936 Stalins government banned abortions this
measure provided a short-lived increase of
births Introduced a medal mother-hero
42The second demographic transition
- In the late 1980s and early 1990s fertility in
Russia and other FSU countries rapidly declined - This decline was accompanied by increase of
mortality (particularly at working ages) - These observations allowed some researchers to
talk about the second demographic transition
43Changes in fertility were partially caused by
structural changes
Number of births (million) Red number of
births Blue the same curve shifted by 26 years
earlier (superposition of mothers and daughters
generations)
44Existing explanations of fertility drop during
the 1990s
- Economic crisis (uncertainty about the future and
increasing the costs of child rearing) - Socio-cultural change (transition towards more
western practices of family formation and
childbearing) - Soviet pronatalist policies in the early 1980s
(benefits for women giving birth to the 3rd
child, 3-year paid maternity leave) accelerated
births which otherwise would happen later
45Recent Trends
- Proportion of non-marital births is increasing
general tendency (12 in 1985 vs 29 in 2001 in
Russia) - Maternal age is increasing general tendency
- However the age of birth for the first child
remains low no evidence of postponing births
46Proportion of non-marital births () in
Kyrgyzstan by age and year
47Growth of non-marital births () in Ukraine
Red All Black urban Green -rural
48Non-marital fertility in Russia (percent of
births)
49Mean age of mother
50Fertility for women of different ages
(age-specific birth rates)
51Number of children (per woman) needed for
replacement in Russia
Blue actual number Red needed after
accounting for mortality of mothers Pink needed
after accounting for mortality of daughters
Maternal birth cohort
52Population Momentum(Momentum of Population
Growth)
- A tendency for population growth rates to lag
behind changes in age-specific fertility and
mortality rates. Momentum operates through the
population age distribution.
53Population Momentum Examples
- Population that has been growing rapidly for a
long time, acquires a young age distribution
(with many people in reproductive ages) that will
result in positive population growth for many
decades, even if age-specific fertility and
mortality rates imply zero population growth or
even depopulation in the very long run. - Opposite example
- Too old societies with most people being at
post-reproductive ages will experience
depopulation, even if age-specific fertility and
mortality rates imply population growth in the
very long run.