Public policy and youth smokeless tobacco use.
Grossman, Michael
1. Introduction
Tobacco use has gone through many stages in the U.S. Prior to 1900,
over 60% of all tobacco consumed in the U.S. took the form of smokeless
tobacco (U.S. Department of Health and Human Services [USDHHS] 1993).
Cigarette smoking gained popularity in the early 1900s and, by 1935,
more tobacco was being consumed in the form of cigarettes than all other
tobacco products combined (USDHHS 1993). As the popularity of cigarettes
increased, the consumption of smokeless tobacco declined. This decline
continued until the 1970s, when smokeless tobacco consumption
experienced a resurgence. This resurgence may have initially been
spurred by the 1964 Surgeon General's report identifying smoking as
a major cause of lung cancer. With the public's heightened
awareness of the hazards of smoking, many people began consuming
increased quantities of smokeless tobacco. The resurgence of smokeless
tobacco consumption was further spurred by the tobacco industry's
aggressive marketing of new smokeless tobacco products.
Smokeless tobacco consumption continued to increase at a rate of
10-11% per year (USDHHS 1993) until 1986, when two significant events
occurred: the Surgeon General's report entitled The Health
Consequences of Using Smokeless Tobacco (USDHHS 1986) was released, and
Congress passed the Comprehensive Smokeless Tobacco Act of 1986. The
Surgeon General's report stated that smokeless tobacco use is not a
safe substitute for cigarette smoking and represents a significant
health risk. It also emphasized that smokeless tobacco can cause
cancerous and noncancerous oral conditions and can lead to nicotine
addiction and dependence. The Comprehensive Smokeless Tobacco Act of
1986 banned advertising of smokeless tobacco products on television and
radio and required three health warnings be placed on smokeless tobacco
packages.
Despite the actions taken in 1986, which were followed by a
three-year decline in sales for smokeless tobacco products, the
prevalence of smokeless tobacco use in the U.S. has been increasing in
recent years, particularly among young adult and adolescent males
(USDHHS 1993). From 1972 to 1991, total U.S. consumption of smokeless
tobacco has risen from 99 million pounds per year to 125 million pounds
per year (USDHHS 1993). Almost 90% of all adolescent smokeless tobacco
use is done by male youths (USDHHS 1994). From 1970 to 1985, the
percentage of males aged 16-19 years using smokeless tobacco products
increased by 321%, from 1.4% to 5.9% (Marcus et al. 1989). After
declining from 1986 through 1989, however, some recent surveys indicate
that smokeless tobacco use among young males is again on the rise
(USDHHS 1994). These trends, coupled with the growing evidence on the
addictive nature of smokeless tobacco (USDHHS 1986), have led to an
increased emphasis on policies aimed at discouraging the use of
smokeless tobacco among adolescents.
This paper examines the effectiveness of several tobacco control
policies in discouraging smokeless tobacco use among male adolescents.
These policies include increased smokeless tobacco taxes (which result
in higher smokeless tobacco prices) and limits on the availability of
tobacco products to youths. The data used in this research are taken
from the 1992, 1993, and 1994 surveys of 8th-, 10th-, and 12th-grade
students conducted by the University of Michigan's Institute for
Social Research as part of the Monitoring the Future Project. This is a
particularly interesting age group to study since addictive behaviors are most likely to become established during adolescence. As the recent
Surgeon General's report concludes, nearly all first use of tobacco
occurs before high school graduation (USDHHS 1994), suggesting that, if
adolescents can be kept free of tobacco, most will never start using
tobacco. Therefore, tobacco control policies aimed at this age group may
be the most effective way of achieving and sustaining long-run
reductions in smokeless tobacco consumption in all segments of the
population.
2. Selected Review of Econometric Studies of Tobacco Demand
Numerous econometric studies of cigarette demand have been published
over the past several decades.(1) Most of these have used diverse data
and methods to estimate the effects of cigarette prices and taxes on
smoking participation and cigarette consumption in the overall
population and have concluded that higher cigarette prices reduce
cigarette smoking. Relatively few of these econometric studies have
focused on the price responsiveness of youth, with the majority of these
concluding that cigarette demand among youths and young adults is more
sensitive to price than cigarette demand among adults.(2)
Unlike the numerous econometric studies published pertaining to
cigarette demand, only two studies have examined the impact of price and
tobacco control policies on smokeless tobacco use (Ohsfeldt and Boyle
1994; Ohsfeldt, Boyle, and Capilouto 1995). In the only published study,
Ohsfeldt and Boyle (1994) estimated smokeless tobacco participation
equations for adults (ages 16 and older) using state-level aggregates
constructed from the 1985 Current Population Survey. They estimated an
own-tax elasticity of demand for adults of -0.55, which is at the higher
end of the range when compared to the elasticities obtained from studies
of adult cigarette smoking. In addition, they estimated that the
cross-tax elasticity of any smokeless tobacco use with respect to
cigarettes was 0.49. Given that cigarette taxes were increasing relative
to smokeless tobacco taxes throughout the early 1980s, Ohsfeldt and
Boyle concluded that the increase in smokeless tobacco use during this
period was, in part, the result of substitution away from cigarettes
towards smokeless tobacco products.
Expanding on their original study, Ohsfeldt, Boyle, and Capilouto
(1995) used the individual level data from the September 1985 Current
Population Survey to estimate cigarette smoking and smokeless tobacco
participation equations for males aged 16 years and older. In addition,
for males, they estimated separate participation equations for the
16-24-year-old and 25 and older samples. They found a negative and
significant effect of smokeless tobacco taxes on smokeless tobacco use
among males, with an estimated own-tax elasticity of any smokeless
tobacco use of -0.15. However, they find that restrictive laws on
cigarette smoking have no impact on smokeless tobacco use. In addition,
they estimated cross-tax elasticities of any smokeless tobacco use with
respect to cigarettes of 0.10 and with respect to beer of 0.04. Finally,
they generally estimated larger own- and cross-tax elasticities for
younger males relative to older males.
While the recent study by Ohsfeldt, Boyle, and Capilouto (1995)
examines the impact of smokeless tobacco taxes on smokeless tobacco use
among young males, it uses data from 1985. As they note, these data
predate the Comprehensive Smokeless Tobacco Act of 1986, which they
suggest may lead to different conclusions about the impact of smokeless
tobacco taxes on smokeless tobacco use. Similarly, it predates the
widespread passage of legislation at the state level resulting from the
Synar amendment, which restricts youth access to all tobacco products.
Thus, this study is the first to examine the impact of smokeless tobacco
taxes on young males' smokeless tobacco use after the Comprehensive
Smokeless Tobacco Act of 1986, as well as the first to examine the
effects of policies restricting youth access to tobacco products.
3. Data and Methods
The data for this study are taken from the 1992, 1993, and 1994
surveys of 8th-, 10th-, and 12th-grade students conducted by the
Institute for Social Research (ISR) at the University of Michigan as
part of the Monitoring the Future Project. ISR has collected a
nationally representative sample of 15,000 to 19,000 high school seniors
each year since 1975. In 1991, ISR began conducting an annual survey of
similar numbers of 8th- and 10th-grade students. These surveys focus on
the use of alcohol, tobacco, and illicit drugs among youths. Given the
nature of the data being collected, extensive efforts are made by ISR to
ensure that the data collected are informative. For example, parents are
not present during the completion of the surveys and are not informed
about their child's responses. By special agreement, ISR provided a
restricted data set containing variables reflecting youth tobacco use
and identifiers for each respondent's county of residence. Data on
a variety of socioeconomic and demographic information were also
provided.
In each year, approximately half of the 8th- and 10th-grade samples
and about one sixth of the 12th-grade sample were asked about their
current and past smokeless tobacco use. These data were used to
construct three alternative dependent variables: frequency of smokeless
tobacco consumption, participation in smokeless tobacco use, and average
monthly smokeless tobacco consumption. The first measure, constructed
from the categorical data collected in the survey, is an ordered level
of smokeless tobacco use variable, reflecting the number of times the
youth consumed smokeless tobacco in the previous 30 days. This variable
takes on a value of 0 for youths who did not use smokeless tobacco in
the 30 days prior to the survey, 1 for light users (used once or twice
in the previous 30 days), 2 for moderate users (used 1 to 5 times per
week in the previous 30 days), and 3 for heavy users (used once or more
per day for the previous 30 days). The second variable (participation in
smokeless tobacco use) is a dichotomous indicator equal to 1 for youths
who indicate that they used smokeless tobacco in the 30 days prior to
the survey and is equal to 0 otherwise. The final dependent variable is
a continuous measure of monthly smokeless tobacco consumption based on
the midpoints of the categorical responses reflecting smokeless tobacco
use in the 30 days before the survey. This variable takes on values of
0, 1.5, 6, 16, and 30, corresponding to the 5 categorical responses from
the survey. While not ideal, this continuous measure will be helpful in
estimating the tax elasticity of smokeless tobacco demand among
adolescent male users.
Based on the survey data, a variety of independent variables was
constructed to control for other factors affecting smokeless tobacco
demand. These include the age of the respondent, in years; average
weekly income from all sources, in 1982-1984 dollars (employment,
allowances, etc.); separate indicators for youths surveyed in 1993 and
1994; an indicator for youths surveyed in the 8th/10th-grade survey;
indicators of race/ethnicity (white-omitted, black, and others);
indicators of parental education (less than high school graduate, high
school graduate-omitted, and more than high school graduate for mother
and father separately); indicators of family structure (live alone,
mother only parent present, father only parent present, both parents
present-omitted, no parents present - live with other relative, and
other); indicators of mother's work status while youth was growing
up (mother worked part-time, mother worked full-time, and mother did not
work-omitted); an indicator for youths with siblings; average number of
hours worked weekly; an indicator for youths living in rural areas; and
an indicator for frequency of participation in religious services
(none-omitted, infrequent participation, and frequent participation).
Based on each respondent's county of residence, smokeless
tobacco tax and tobacco control policy data were added to the survey
data. Measures of state level taxes on smokeless tobacco were obtained
from the Tobacco Institute's (1995) annual Tax Burden on Tobacco.
These tax rates are expressed as a percentage of the wholesale price of
the product.(3)
As numerous studies of cigarette demand have described, differences
in taxes and prices among states may lead smokers in high tax and price
states to purchase cigarettes in nearby low tax and price states (e.g.,
Lewit and Coate 1982; Chaloupka 1991; Wasserman et al. 1991; Becker,
Grossman, and Murphy 1994; Coats 1995). As these studies note, failing
to account for this possibility will result in biased estimates of the
effect of price on demand. Several strategies have been used to account
for this potential cross-border purchasing in cigarette demand studies
using survey data, including limiting the sample to those who do not
live near the border of a state with lower cigarette taxes and prices,
using an average price variable for persons residing near states with
lower taxes and prices, and including a dichotomous indicator for
persons living near the border of states with lower taxes and prices.
The same potential exists for cross-border purchases of smokeless
tobacco products in response to interstate differences in smokeless
tobacco taxes. However, as Wasserman et al. (1991) note, this may be
less problematic when looking at demand by teenagers, given that many
are unable to drive and are likely to have fewer other opportunities to
engage in cross-border purchasing. Indeed, Wasserman et al. (1991) found
no significant differences between their estimates for their full sample
and their estimates for a sample excluding those living near
lower-priced states, although the estimates for the full sample were
more precise.
Two variables are defined to control for possible cross-border
purchases of smokeless tobacco in response to interstate tax
differentials. The first is a dichotomous indicator equal to 1 for
youths living in counties that are within 25 miles of a state with a
lower smokeless tobacco tax and is equal to 0 otherwise. The second is a
dichotomous indicator for youths living within 25 miles of Alabama,
since a comparable smokeless tobacco tax rate cannot be defined for
Alabama.(3)
The tobacco control policy variables include the state minimum legal
purchase age for smokeless tobacco(4); a dichotomous indicator for
states with restrictions on the distribution of free samples of tobacco
products to youths; a dichotomous indicator for states that have tobacco
licensing provisions that penalize tobacco vendors for furnishing
tobacco products to minors, with additional penalties of license
revocation for subsequent offenses; and a dichotomous indicator for
states that require a sign indicating the minimum purchase age for
tobacco products be posted where those products are sold.
Given that few young women consume smokeless tobacco products, the
sample was restricted to young males? After eliminating respondents with
missing or inconsistent data, a sample of 19,581 young males was
obtained. Table 1 contains brief definitions and the descriptive
statistics for the dependent and independent variables employed.
Given the limited nature of the dependent variables, ordinary least
squares techniques are not appropriate. Instead, two alternative
approaches are used. For the ordered frequency of smokeless tobacco use
variable, ordered probit methods are employed. These methods will
provide a general sense of the relationship between smokeless tobacco
taxes and limits on youth access to tobacco products and youth smokeless
tobacco consumption. To more clearly examine these relationships, a
two-part model of smokeless tobacco demand is estimated based on the
model developed by Cragg (1971). In the first step, probit methods are
used to estimate a smokeless tobacco use participation equation. In the
second step, ordinary least squares methods are used to estimate average
monthly smokeless tobacco consumption by users, where the dependent
variable is the natural logarithm of the continuous monthly consumption
measure. The same set of independent variables is included in both
equations.
Table 1. Variable Definitions and Descriptive Statistics
Variable Definition, Mean (m), and Standard
Deviation (SD)
Frequency of Smokeless Ordered variable equal to 0 for nonusers, 1
Tobacco Use for light users (1 or 2 times in past
month), 2 for moderate users (1 to 5 times
per week), and 3 for heavy users (once a
day or more); m = 0.28, SD = 0.73
Smokeless Tobacco Dichotomous indicator equal to 1 if male
Participation youth reports consuming smokeless tobacco
in the past 30 days, equal to 0 otherwise;
m = 0.15, SD = 0.36
Smokeless Tobacco Natural logarithm of number of times
Consumption by Users smokeless tobacco was used in the month
prior to the survey (users only); m = 0.73,
SD = 1.47
Smokeless Tobacco Tax State level tax on smokeless tobacco,
expressed as a percentage of wholesale
price of the product; m = 11.26, SD = 10.90
Lower Border Tax Dichotomous indicator for young males
living in counties within 25 miles of a
state with a lower smokeless tobacco tax;
m = 0.177, SD = 0.381
Borders on Alabama Dichotomous indicator for young males
living in counties within 25 miles of
Alabama; m = 0.027, SD = 0.163
Minimum Purchase Age State minimum legal purchase age, in years,
for tobacco products; m = 17.99, SD = 0.11
Restriction on Dichotomous indicator for states
Distribution of Free restricting the distribution of free
Samples samples of tobacco products to youths;
m = 0.58, SD = 0.49
Tobacco Licensing Dichotomous indicator for states that have
Provisions tobacco licensing provisions that penalize
tobacco vendors for furnishing tobacco
products to minors; m = 0.92, SD = 0.28
Minimum Purchase Age Dichotomous indicator for states that
Signs require a sign indicating the minimum
purchase age for tobacco products be
posted where those products are sold;
m = 0.79, SD = 0.41
Black Dichotomous indicator equal to 1 for blacks
and 0 otherwise; m = 0.10, SD = 0.30
Other Race Dichotomous indicator equal to 1 for
individuals who are not black or white and
0 otherwise; m = 0.19, SD = 0.39
Age Age, in years; m = 15.61, SD = 1.59
Infrequent Religious Dichotomous indicator equal to 1 for male
Attendance youths who attend religious services
infrequently and 0 otherwise; m = 0.47,
SD = 0.50
Frequent Religious Dichotomous indicator equal to 1 for male
Attendance youths who attend religious services
frequently and 0 otherwise; m = 0.38,
SD = 0.48
Rural Dichotomous indicator equal to 1 for male
youths residing in rural communities and 0
otherwise; m = 0.24, SD = 0.43
Live Alone Dichotomous indicator equal to 1 for male
youths who live alone and 0 otherwise;
m = 0.004, SD = 0.06
Father Only Dichotomous indicator equal to 1 for male
youths in families with the father the only
parent present and 0 otherwise; m = 0.04,
SD = 0.19
Mother Only Dichotomous indicator equal to 1 for male
youths in families with the mother the only
parent present and 0 otherwise; m = 0.14,
SD = 0.34
Other Family Structure Dichotomous indicator equal to 1 for male
youths in families with neither parent
present and 0 otherwise; m = 0.03,
SD = 0.16
Siblings Dichotomous indicator equal to 1 for male
youths with at least one sibling and 0
otherwise; m = 0.77, SD = 0.42
Father Less Than High Dichotomous indicator equal to 1 for male
School Graduate youths with fathers who did not graduate
from high school and 0 otherwise m = 0.12,
SD = 0.32
Father More Than Dichotomous indicator equal to 1 for male
High School Graduate youths with fathers who have more than a
high school education and 0 otherwise;
m = 0.60, SD = 0.49
Mother Less Than High Dichotomous indicator equal to 1 for male
School Graduate youths with mothers who did not graduate
from high school and 0 otherwise; m = 0.10,
SD = 0.30
Mother More Than High Dichotomous indicator equal to 1 for male
School Graduate youth with mothers who have more than a
high school education and 0 otherwise;
m = 0.58, SD = 0.49
Not Single Dichotomous indicator equal to 1 for male
youths who are either married or engaged
and 0 otherwise; m = 0.01, SD = 0.09
Mother Worked Dichotomous indicator equal to 1 for male
Part-Time youths whose mothers worked part-time while
they were growing up and 0 otherwise;
m = 0.21, SD = 0.41
Mother Worked Dichotomous indicator equal to 1 for male
Full-Time youths whose mothers worked full-time while
they were growing up and 0 otherwise;
m = 0.59, SD = 0.49
Average Hours Worked Average hours worked weekly for pay;
m = 6.15, SD = 9.16
Real Weekly Income Average weekly income, in dollars, from
employment and other sources, deflated by
the national Consumer Price Index,
(1982-1984) = 1; m = 31.4, SD = 36.5
Grade 8 or 10 Dichotomous indicator equal to 1 for male
youths surveyed in the 8th/10th-grade
survey and 0 otherwise; m = 0.87, SD = 0.34
Year = 1993 Dichotomous indicator equal to 1 for male
youths surveyed in 1993 and 0 otherwise;
m = 0.33, SD = 0.47
Year = 1994 Dichotomous indicator equal to 1 for male
youths surveyed in 1994 and 0 otherwise;
m = 0.35, SD = 0.48
4. Results
The estimates from the ordered probit models for frequency of
smokeless tobacco use and the two-part models of smokeless tobacco
demand by young males are presented in Table 2. Two alternative models
are estimated for each measure of smokeless tobacco use, given the
potential correlation among the various tobacco control policies and the
smokeless tobacco tax. Model 1 contains the estimates from a limited
specification that includes the smokeless tobacco tax, the two
cross-border indicators, and the various socioeconomic and demographic
variables. Model 2 adds the four variables reflecting the limits on
youth access to tobacco products to the variables included in Model 1.
Including only the smokeless tobacco tax minimizes the multicollinearity
resulting from the inclusion of a group of correlated measures of
tobacco control policy. Omitting these variables, however, may lead to
biased estimates of the effects of smokeless tobacco taxes and other
factors on smokeless tobacco use by young males.
The smokeless tobacco tax has a negative and statistically
significant impact in all equations estimated for the frequency of
smokeless tobacco consumption and for participation in smokeless tobacco
use. In addition, the smokeless tobacco tax has a negative, albeit
statistically insignificant, impact on smokeless tobacco use by users.
These estimates clearly show that increases in smokeless tobacco taxes
would reduce the frequency of smokeless tobacco use by adolescent males
and would reduce the probability that a male youth consumes smokeless
tobacco products. However, the estimates do not provide strong evidence
that higher smokeless tobacco taxes would have a significant impact on
the consumption of smokeless tobacco by young male users.(6)
Table 3 contains the estimated tax elasticities from the two-part
models of smokeless tobacco use by young males. The estimates of the
overall tax elasticity of male youth smokeless tobacco demand range from
-0.057 to -0.097. Over two-thirds of the effect of the tax on young
males' smokeless tobacco use is on the decision to use smokeless
tobacco products (the average participation elasticity is -0.056). The
remainder of the effect is on the average smokeless tobacco consumption
among users (average elasticity of -0.021), although this estimate is
based on statistically insignificant estimates of the effect of the tax
on demand. These estimates are somewhat below Ohsfeldt, Boyle, and
Capilouto's (1995) estimates for young males aged 16 through 24
years obtained using 1985 data. This suggests that the price
responsiveness of smokeless tobacco use by young males may be falling
over time. This could be the result of the stronger limits on youth
access to tobacco products in place during the 1992 through 1994 period
covered by this study; that is, a comparable increase in the smokeless
tobacco tax in the more recent period results in a smaller increase in
the full price of smokeless tobacco for underage youths than it did in
1985 when there were relatively fewer limits on youth access.(7)
Estimated price elasticities of smokeless tobacco demand by young
males are also presented in Table 3. Two assumptions are made in
converting the tax elasticities to price elasticities. The first is that
a one-cent increase in smokeless tobacco taxes will result in a one-cent
increase in smokeless tobacco prices. This is consistent with much of
the evidence on the effects of cigarette taxes on cigarette prices. For
example, Barnett, Keeler, and Hu (1995) conclude that a one-cent
increase in the federal cigarette tax would raise cigarette prices by
1.04 cents. The second assumption is that smokeless tobacco taxes are
approximately 13% of the retail prices of smokeless tobacco products
(Connolly 1994). Given these assumptions, the average overall price
elasticity of young males' smokeless tobacco demand is -0.592. This
suggests that increases in the prices of smokeless tobacco products
would significantly reduce the consumption of these products by young
males. For example, a 10% increase in price would reduce male youth
smokeless tobacco consumption by about 5.9%. Larger increases in price
would lead to even larger reductions in male youth consumption. This
estimated price elasticity of young males' smokeless tobacco demand
is about half the -1.31 Chaloupka and Grossman (1996) estimate for
cigarette demand by all youth. Nevertheless, it is well above the
consensus estimate of the price elasticity of cigarette demand by
adults.
Some additional support for the hypothesis that higher smokeless
tobacco taxes and prices reduce smokeless tobacco use by young males is
provided by the positive and weakly significant estimates for the
indicator for young men living in counties within 25 miles of a state
with a lower smokeless tobacco tax in the smokeless tobacco
participation equations. These estimates suggest that young men living
near states with lower smokeless tobacco taxes are more likely to use
smokeless tobacco than those without the opportunity for cross-border
purchases at lower prices. However, the magnitude of this effect is
relatively small. The estimates imply that eliminating existing
tax-induced opportunities for cross-border purchases would lower the
probability of smokeless tobacco use by about 1%.
In general, the variables capturing limits on youth access to tobacco
products indicate that strong limits reduce smokeless tobacco use among
young males. The minimum legal purchase age for smokeless tobacco
products and the dichotomous indicator of strong tobacco licensing
provisions are both found to have a negative and statistically
significant impact on each of the three measures of smokeless tobacco
consumption. Restrictions on the distribution of free samples and
requiring signs indicating the minimum legal purchase age also have a
negative and statistically significant impact on the frequency of
smokeless tobacco use and participation in smokeless tobacco use, but
have a statistically insignificant impact on smokeless tobacco use by
users. These estimates clearly show that policies aimed at limiting
youth access to tobacco products significantly reduce smokeless tobacco
use among young males.
The estimates obtained from Model 2 of the two-part model were used
to simulate the effects of changes in limits on youth access to tobacco
products. The estimates imply, for example, that raising a uniform
minimum legal purchase age for smokeless tobacco products from 18 years
to 19 years would reduce the probability that a young male would use
smokeless tobacco by approximately 3.5 percentage points, a reduction of
nearly 25%. Likewise, if all states that did not have limits on the
distribution of free samples of tobacco products to youth, strong
tobacco licensing provisions, and requirements that signs indicating the
minimum purchase age be posted where tobacco products are sold had
enacted these policies during the time period covered by the sample, the
probability of smokeless tobacco use by young males would have been
reduced by nearly 9%.
Young males with higher real weekly incomes, either from employment
or from other sources, are significantly more likely to use smokeless
tobacco products and to consume more often than young males with lower
incomes. This positive relationship between income and smokeless tobacco
consumption contrasts with much of the recent empirical evidence for
cigarette [TABULAR DATA FOR TABLE 2 OMITTED] [TABULAR DATA FOR TABLE 3
OMITTED] demand that suggests that cigarette smoking is an economically
inferior behavior for adults (e.g., Wasserman et al. 1991). However, it
is consistent with Chaloupka and Grossman's (1996) estimates for
youth cigarette smoking. The average estimated overall income elasticity
of young males' smokeless tobacco demand is 0.21, with
approximately two thirds of the impact of income on demand coming from
the effect of income on the decision to use smokeless tobacco.
With respect to race and ethnicity, young black males are about one
sixth as likely to use smokeless tobacco products as young whites, while
other nonwhite young males are approximately two thirds as likely to
use. Similarly among users, young black males consume nearly 45% less
frequently than do other young male users.
Older male youths are more likely to use smokeless tobacco products
and consume more often than younger male youths. Holding age constant,
youths in both 8th and 10th grades were more likely to use smokeless
tobacco products and to consume smokeless tobacco more frequently than
high school seniors. Young males with a stronger attachment to religion,
as measured by attendance at religious services, are nearly 16% less
likely to use smokeless tobacco products than those with little or no
attachment. Young males living in rural areas were two thirds more
likely to consume smokeless tobacco products and consumed nearly 40%
more frequently than those living in urban and suburban areas.
With respect to family structure, young males who live alone are most
likely to use smokeless tobacco products and to consume more often,
while those who live with both parents are least likely to use and
consume least often. Those living alone are 85% more likely to consume
smokeless tobacco than those living with both parents. Similarly, young
males living with their father only (mother only) are approximately 38%
(15%) more likely to use than those living with both parents. Male
youths whose mothers worked full-time when they were younger are 20%
more likely to use smokeless tobacco and consume approximately 12% more
often than youths whose mothers stayed home. The probability of
smokeless tobacco use for engaged or married male youths is not
significantly different from that for unattached youths, but they do
consume significantly more often.
Finally, male youth smokeless tobacco consumption is inversely related to paternal education. Young males who have fathers with less
than a high school education are nearly 25% more likely to be smokeless
tobacco users than those who have fathers with a high school education,
while those having fathers with more than a high school education are
nearly 10% less likely to consume. No clear relationship was observed
between maternal education and young males' smokeless tobacco use.
5. Discussion
The results described above indicate that tobacco control policies,
including higher smokeless tobacco taxes, higher minimum legal purchase
ages for tobacco products, strong tobacco licensing provisions,
restrictions on the distribution of free samples of tobacco products,
and the posting of minimum purchase age signs are effective in reducing
adolescent male smokeless tobacco use. The average overall estimated
price elasticity of smokeless tobacco demand for male youths was -0.59.
This implies that large increases in smokeless tobacco excise taxes, by
significantly raising price, would lead to sharp reductions in smokeless
tobacco use among young males, with much of the reduction coming from a
drop in the number of young male smokeless tobacco users. Recently,
substantial increases in federal smokeless tobacco excise tax rates were
discussed as a source of revenues to finance U.S. health care reform.
Increases in federal smokeless tobacco taxes were proposed in the
Clinton Administration's Health Security Act of 1993. Had these
increases been enacted, the federal tax on snuff, for example, would
have risen from the 1994 level of 2.7 cents per tin of snuff to 96 cents
per tin. This would have been an increase in the federal snuff tax of
nearly 3500%. Comparable federal tax increases were proposed for other
smokeless tobacco products. Given the relatively small share of the
federal tax in the price of smokeless tobacco products (Connolly [1994]
estimates this to be approximately 1%) and assuming that tax increases
are fully passed on, federal tax increases of this magnitude on all
smokeless tobacco products would raise the prices of these products by
about 135%. Assuming that the price elasticity of demand is constant as
price rises, based on the estimates presented above, this would lead to
a 47-70% reduction in the number of young males using smokeless tobacco.
Support for this research was provided by the Robert Wood Johnson
Foundation and the Centers for Disease Control and Prevention. We are
indebted to Patrick O'Malley and Timothy Perry for providing the
restricted Monitoring the Future data and to Robert L. Ohsfeldt and an
anonymous referee for their helpful comments.
1 For comprehensive reviews of these studies, see the 1989, 1994, and
forthcoming Surgeon General's reports (USDHHS 1989, 1994, in
press).
2 The first studies of youth and young adult cigarette smoking
concluded that demand was up to three times more sensitive to price than
adult cigarette demand (Lewit, Coate, and Grossman 1981; Lewit and Coate
1982). Two recent studies, by Wasserman et al. (1991) for youths and by
Chaloupka (1991) for young adults, found little or no differences in the
price responsiveness of demand. Unpublished recent studies, however,
confirm that youth and young adult cigarette demand is more responsive
to price than demand among adults (Chaloupka and Grossman 1996; Evans and Farrelly 1996; Chaloupka and Wechsler in press).
3 Alabama and Alaska impose excise taxes on smokeless tobacco
products. None of the youths surveyed resided in Alaska. Due to the lack
of information on wholesale or retail smokeless tobacco prices, an
estimate of the tax as a percentage of wholesale price could not be
constructed for Alabama. Consequently, youths residing in Alabama were
dropped from the sample.
4 Given the very limited variation in the minimum legal purchase age
for smokeless tobacco products (18 for nearly every state), the
potential for cross-border purchases in response to interstate
differences in minimum legal purchase ages is not controlled.
5 In the 1992-1994 MTF data, smokeless tobacco use participation
rates for young females were approximately 2%, compared to over 15% for
young males.
6 In an effort to estimate the potential
substitutability/complementarity of smokeless tobacco products and
cigarettes, models including the real price of cigarettes were also
estimated. Unfortunately, very unstable estimates resulted. Belsley, Ku,
and Welsch (1980) collinearity diagnostics indicated that the estimates
for the smokeless tobacco tax, cigarette price, and time dummy variables were confounded by the presence of multicollinearity in these models.
7 Using data from the 1982 and 1989 Monitoring the Future Surveys of
High School seniors, Laixuthai and Chaloupka (1993) made a similar
argument with respect to the price elasticity of youth alcohol demand
after the change to a uniform minimum legal drinking age of 21 years.
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