1
C H A P T E R
International Monetary Fund | October 2010 93
3
CHAPTER
This chapter examines the effects of fiscal consolidation
—tax hikes and government spending cuts—on economic
activity. Based on a historical analysis of fiscal consolida-
tion in advanced economies, and on simulations of the
IMF’s Global Integrated Monetary and Fiscal Model
(GIMF), it finds that fiscal consolidation typically reduces
output and raises unemployment in the short term. At
the same time, interest rate cuts, a fall in the value of
the currency, and a rise in net exports usually soften the
contractionary impact. Consolidation is more painful
when it relies primarily on tax hikes; this occurs largely
because central banks typically provide less monetary
stimulus during such episodes, particularly when they
involve indirect tax hikes that raise inflation. Also, fiscal
consolidation is more costly when the perceived risk of
sovereign default is low. These findings suggest that budget
deficit cuts are likely to be more painful if they occur
simultaneously across many countries, and if monetary
policy is not in a position to offset them. Over the long
term, reducing government debt is likely to raise output,
as real interest rates decline and the lighter burden of
interest payments permits cuts to distortionary taxes.
Budget decits and government debt soared during
the Great Recession. In 2009, the budget decit
averaged about 9 percent of GDP in advanced
economies, up from only 1percent of GDP in
2007.
1
By the end of 2010, government debt is
expected to reach about 100 percent of GDP—its
highest level in 50 years. Looking ahead, population
aging could create even more serious problems for
public nances.
In response to these worrisome developments,
virtually all advanced economies will face the
challenge of scal consolidation. Indeed, many
governments are already undertaking or planning
e main authors of this chapter are Daniel Leigh (team
leader), Pete Devries, Charles Freedman, Jaime Guajardo, Doug-
las Laxton, and Andrea Pescatori, with support from Murad
Omoev, Min Kyu Song, and Jessie Yang.
1
Advanced economies are dened as the 33 economies so
designated based on the World Economic Outlook classication
described in the Statistical Appendix.
large spending cuts and tax hikes. An important
and timely question is, therefore, whether scal
retrenchment will hurt economic performance.
Although there is widespread agreement that
reducing debt has important long-term benets,
there is no consensus regarding the short-term
eects of scal austerity. On the one hand, the
conventional Keynesian view is that cutting spend-
ing or raising taxes reduces economic activity in the
short term. On the other hand, a number of studies
present evidence that cutting budget decits can
stimulate the economy even in the short term. e
notion that scal retrenchment stimulates growth
in the short term is often referred to as the expan-
sionary scal contractionshypothesis. A key factor
explaining such eects is an improvement in house-
hold and business condence.
2
e truth could be
a mixture. For example, it may be that the short-
term eects are usually contractionary, but that
expansionary eects can occur when government
solvency is in question, or when the consolidation is
structured in a way that increases condence.
is chapter oers new evidence regarding these
important issues by studying scal consolidation
in advanced economies over the past 30 years. It
examines budget policies to identify periods of
scal consolidation, and then uses simple statisti-
cal techniques to investigate the short-term growth
eects of consolidation and how those eects are
inuenced by such factors as monetary policy,
international trade, the form of the consolidation,
and perceived sovereign risk. To complement the
historical analysis, the chapter employs simulations
of the IMF’s GIMF to explore additional issues
such as the long-term eects of debt reduction. In
particular, the chapter attempts to answer the fol-
lowing questions:
2
For a summary of how such expansionary eects can arise
in the short term, see, for example, Alesina (2010). Under some
strict assumptions, Ricardian equivalence can imply that scal
consolidation has no impact on economic activity, as changes in
private demand exactly oset changes in government demand.
WILL IT HURT? MACROECONOMIC EFFECTS OF FISCAL
CONSOLIDATION
WORLD E CO NOMIC OUT LOOK: RE COVE RY, RI SK, AND R EBA LANCING
94 International Monetary Fund | October 2010
What are the short-term effects of fiscal retrench-
ment on economic activity? Does output
typically contract or expand in response to tax
hikes and spending cuts? What happens to
unemployment?
What factors dampen or exacerbate the short-
term effects? In particular, what are the roles of
monetary policy, the composition of the package
(taxes versus spending), and the perceived risk of
sovereign default in shaping the outcome? What
are the consequences of many countries cutting
deficits at the same time?
Does fiscal consolidation have different effects
when interest rates are near zero? Interest rates
have rarely been near zero in the past––with the
exception of Japan since the 1990s––but they are
near zero in many advanced economies today.
Would fiscal consolidation in this environment
be more or less painful than in the past?
What are the long-term effects on output of
reducing government debt? Do the long-term
effects depend on whether the savings from lower
interest payments are used to provide tax cuts or
to finance new spending?
Given the importance of these issues, this chapter
is not the rst to address them. In particular, previ-
ous work by Giavazzi and Pagano (1990, 1996),
Alesina and Perotti (1995,1997), and Alesina and
Ardagna (1998, 2010) has been extremely inu-
ential in the debate regarding the consequences of
scal adjustment.
3
A key conclusion of these studies
is that scal adjustments tend to be expansion-
ary when they rely primarily on spending cuts.
4
However, these studies often identify periods of
scal consolidation using a statistical concept––the
increase in the cyclically adjusted budget surplus––
that, as this chapter shows, is a highly imperfect
measure of actual policy actions. e chapter nds
that this way of selecting cases of consolidation
3
Note that the literature on scal consolidation is part of a
broader empirical literature on the eects of scal policy, which
includes, among others, the work of Blanchard and Perotti
(2002), Barro and Redlick (2009), Hall (2009), Ramey and
Shapiro (1998), Ramey (2009), and Romer and Romer (2010).
4
Many studies have followed the Alesina and Perotti (1995)
methodology, including Broadbent and Daly (2010), Tsibouris
and others (2006), and Von Hagen and Strauch (2001).
biases the analysis toward downplaying contraction-
ary eects and overstating expansionary ones.
To avoid the problems associated with these
existing studies, we use an alternative method
for identifying periods of scal consolidation. In
particular, our approach focuses on policy actions
intended to reduce the budget decit. As we
explain later, this approach helps us obtain more
accurate estimates of the eects of tax hikes and
spending cuts on economic activity. Methodologi-
cally, our approach is close to that of Romer and
Romer (1989, 2010), who examine the eects on
U.S. output of changes in monetary policy and tax
rates in the United States.
e main ndings of the chapter are as follows:
Fiscal consolidation typically has a contraction-
ary effect on output. A fiscal consolidation equal
to 1 percent of GDP typically reduces GDP by
about 0.5 percent within two years and raises
the unemployment rate by about 0.3 percentage
point. Domestic demand—consumption and
investment—falls by about 1 percent.
Reductions in interest rates usually support
output during episodes of fiscal consolidation.
Central banks offset some of the contractionary
pressures by cutting policy interest rates, and
longer-term rates also typically decline, cushion-
ing the impact on consumption and investment.
For each 1 percent of GDP of fiscal consolida-
tion, interest rates usually fall by about 20 basis
points after two years. The model simulations
also imply that, if interest rates are near zero, the
effects of fiscal consolidation are more costly in
terms of lost output.
5
A decline in the real value of the domestic cur-
rency typically plays an important cushioning
role by spurring net exports and is usually due
to nominal depreciation or currency devalu-
ation. For each 1 percent of GDP of fiscal
consolidation, the value of the currency usually
falls by about 1.1 percent, and the contribu-
5
For simplicity, the model simulations ignore the possibil-
ity that the central bank responds to scal consolidation using
unconventional monetary tools, such as quantitative and credit
easing. To the extent that such tools would be used to support
output, the simulations may overstate the impact of the zero
interest rate oor.
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 95
tion of net exports to GDP rises by about 0.5
percentage point. Because not all countries can
increase net exports at the same time, this find-
ing implies that fiscal contraction is likely to be
more painful when many countries adjust at the
same time.
Fiscal contraction that relies on spending cuts
tends to have smaller contractionary effects than
tax-based adjustments. This is partly because
central banks usually provide substantially more
stimulus following a spending-based contraction
than following a tax-based contraction. Monetary
stimulus is particularly weak following indirect
tax hikes (such as the value-added tax, VAT) that
raise prices.
Fiscal retrenchment in countries that face a
higher perceived sovereign default risk tends to
be less contractionary. However, even among
such high-risk countries, expansionary effects are
unusual.
Model simulations suggest that over the long
term, reducing debt is likely to be beneficial.
In particular, the GIMF simulations considered
here suggest that lower government debt lev-
els reduce real interest rates, which stimulates
private investment. Also, the lower burden of
interest payments creates fiscal room for cutting
distortionary taxes. Both of these effects raise
output in the long term. Overall, the simulations
imply that for every 10 percentage point fall in
the debt-to-GDP ratio, output rises by about
1.4percent in the long term.
e remainder of the chapter is organized as
follows. e rst section provides an empiri-
cal assessment of the short-term impact of scal
consolidation using a new database of historical
episodes of scal consolidation during 1980–2009.
e second section complements the histori-
cal analysis by conducting model simulations to
address additional issues, such as the consequences
of being near the zero bound on nominal inter-
est rates, the impact of having many countries
consolidating simultaneously, and the long-term
consequences of reducing debt levels. e conclud-
ing section draws lessons from the analysis for
countries considering scal consolidation in the
current environment.
Looking at History: What Is the Short-Term
Impact of Fiscal Consolidation?
In this section, we examine the history of scal
retrenchment in advanced economies over the past
30 years and evaluate the short-term eects on eco-
nomic activity. e section starts by explaining how
we identify periods of scal consolidation, and con-
trasts our approach to the standard approach used
in previous studies. It then reports the estimated
eects of scal consolidation, and compares our
results with those based on the standard approach.
Identifying Cases of Fiscal Consolidation
e usual approach to identifying historical
cases of scal retrenchment is to focus on swings
in the cyclically adjusted primary budget bal-
ance (CAPB). e CAPB is calculated by taking
the actual primary balance––non-interest revenue
minus non-interest spending––and subtracting the
estimated eect of business cycle uctuations on
the scal accounts. For example, Alesina and Perotti
(1995) and Alesina and Ardagna (2010) correct
the primary surplus for year-to-year changes in the
unemployment rate.
6
Cyclical adjustment oers an
intuitive way of dealing with the fact that tax rev-
enue and government spending move automatically
with the business cycle. e idea is that, once they
are cyclically adjusted, changes in scal variables
reect policymakersdecisions to change tax rates
and spending levels. A sharp increase in the CAPB
would therefore provide evidence of deliberate deep
decit cuts.
However, the conventional approach used to
identify cases of scal consolidation is far from
perfect and can bias the results toward nding
6
In particular, these studies use a method proposed by
Blanchard (1990) following which the cyclically adjusted value
of the change in a scal variable is the dierence between a
measure of the scal variable in period t computed as if the
unemployment rate were equal to the one in t 1 and the actual
value of the scal variable in year t 1” (Alesina and Ardagna,
2010, p. 7). Most studies also use a statistical threshold for iden-
tifying large increases in the CAPB. For example, Alesina and
Ardagna (2010) identify a period of scal adjustment as a year
in which the ratio of the CAPB to GDP improves by at least 1.5
percentage points.
WORLD E CO NOMIC OUT LOOK: RE COVE RY, RI SK, AND R EBA LANCING
96 International Monetary Fund | October 2010
expansionary eects.
7
Two key problems relate to
measurement errors and to policy motivation:
The first problem is that cyclical adjustment
methods suffer from measurement errors that are
likely to be correlated with economic develop-
ments. For example, standard cyclical-adjustment
methods fail to remove swings in government
tax revenue associated with asset price or com-
modity price movements from the fiscal data,
resulting in changes in the CAPB that are not
necessarily linked to actual policy changes.
8
Thus,
including episodes associated with asset price
booms––which tend to coincide with economic
expansions––and excluding episodes associated
with asset price busts from the sample introduces
an expansionary bias.
9
For example, in the case
of Ireland in 2009, the collapse in stock and
housing prices induced a sharp reduction in the
CAPB despite the implementation of tax hikes
and spending cuts totaling 4.5percent of GDP.
10
The second problem with the standard approach
is that it ignores the motivation behind fiscal
actions. Thus, it omits years during which actions
aimed at fiscal consolidation were followed by
an adverse shock and an offsetting discretion-
ary stimulus. For example, imagine that two
countries adopt identical consolidation policies,
but then one is hit by an adverse shock and so
adopts discretionary stimulus, while the other is
hit with a favorable shock. Here, the change in
the CAPB would show a smaller increase for the
7
Appendix 3.3 provides a number of specic examples
that illustrate the problems associated with the conventional
approach.
8
As Morris and Schuknecht (2007) explain, asset price
movements are a major factor behind unexplained changes in the
cyclically adjusted balance, which, if not accounted for, can lead
to erroneous conclusions regarding underlying scal develop-
ments(p. 4).
9
A similar problem occurs during sharp recessions. As
Wolswijk (2007) explains, standard cyclical adjustment methods
assume that the automatic response (elasticity) of scal variables
to the business cycle is constant over time. However, there is
evidence that sharp recessions have a stronger-than-average auto-
matic eect on scal variables. erefore, if a scal consolidation
coincides with a sharp recession, it is less likely to be picked up
by the standard approach, which searches for an increase in the
CAPB.
10
See 2009 OECD Economic Surveys: Ireland; EC (2008);
and 2009 IMF Sta Report for Ireland (Country Report No.
09/195).
first country than for the second country, despite
the presence of identical consolidation measures.
The standard approach would therefore tend to
miss cases of consolidation followed by adverse
shocks, because there may be little or no rise in
the CAPB despite the consolidation measures.
The case of Germany in 1982 provides a real-
world counterpart to this hypothetical example:
the CAPB-to-GDP ratio rose by only 0.4per-
centage point, despite the fact that the authorities
implemented fiscal austerity measures amounting
to about 1.4percent of GDP.
11
The impact of
these measures on the CAPB was partly offset by
countercyclical stimulus measures introduced in
response to the recession that year.
12
Moreover, the problems with the usual approach
are not just hypothetical or limited to a few specic
cases. As we show in Appendix 3.3, the change in the
CAPB-to-GDP ratio is an unreliable guide regard-
ing the presence of scal consolidation. e standard
approach tends to select periods associated with favor-
able outcomes but during which no austerity measures
were actually taken. It also tends to omit cases of scal
austerity associated with unfavorable outcomes.
erefore, rather than focusing on the CAPB,
we look at policy actions. In particular, we identify
cases in which the government implemented tax
hikes or spending cuts (at the general government
level) to reduce the budget decit and put pub-
lic nances on a more sustainable footing. us,
whereas the usual strategy identies periods of con-
solidation based on successful (cyclically adjusted)
budget outcomes, our approach identies episodes
based on scal policy actions motivated by decit
reduction, irrespective of the outcomes.
11
e source of the data for the CAPB-to-GDP ratio is Ale-
sina and Ardagna (2010). e concept of government used for
the CAPB is that of the general government.
12
For similar reasons, the standard approach is likely to iden-
tify cases of scal tightening that are unrelated to decit-reduc-
tion concerns. For example, imagine that two countries adopt no
consolidation measures, but then one is hit by a favorable shock
and so adopts countercyclical tightening to cool the economy,
while the other does nothing. Here, the change in the CAPB
would show tightening for the rst country, and no change for
the second country, despite the lack of consolidation measures in
both countries. e standard approach would therefore tend to
include cases associated with economic booms despite the lack of
measures aimed at scal consolidation.
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 97
Although our action-based approach addresses
the problems associated with the conventional
approach to identifying scal consolidation, both
the standard approach and our approach are subject
to two additional criticisms. First, if countries
sometimes postpone scal consolidation until the
economy recovers, then the consolidation exercise
will be associated with good economic outcomes in
both the standard approach and our approach. Sec-
ond, if a country is committed to a decit-reduc-
tion path and the economy falls into a recession,
it may implement additional scal consolidation
measures, thus associating scal consolidation with
unfavorable economic outcomes in both the stan-
dard approach and our approach. us, biases may
remain even in our approach, although it is unclear
in which direction they would go overall.
In addition, in contrast to some previous studies,
we do not focus on periods of sustained” (mul-
tiyear) scal consolidation. A key problem with
such an approach is that governments may choose
to interrupt a program of scal austerity due to
unfavorable output developments. For example,
Japans six-year scal adjustment plan, initiated in
1997, was suspended in December 1998 following
a sharp economic downturn. In contrast, favorable
output developments are likely to help governments
complete a sustained scal consolidation. erefore,
focusing on cases of sustained consolidation would
bias toward nding expansionary eects.
In sum, not only does the standard approach
sometimes select years that bear no relation to
actual changes in scal policy, it also biases the
results toward downplaying contractionary eects
and overstating the expansionary eects of scal
adjustment. In contrast, a key contribution of this
chapter is to reduce these bias problems and there-
fore allow us to better estimate the causal impact on
output of scal consolidation.
Implementing the Action-Based Approach
Our approach requires identifying policy actions
motivated by decit reduction. erefore, we exam-
ine accounts and records of what countries actu-
ally did. In particular, we analyze OECD Economic
Surveys, IMF Sta Reports, IMF Recent Economic
Developments reports, country budget documents,
and additional country-specic sources.
13
e
estimated eect on the budget decit is based on
these sources. In this respect, our methodology is
closely related to the narrative approachproposed
by Romer and Romer (1989, 2004, 2010).
14
e
analysis also distinguishes between permanent
and temporary measures. Temporary measures are
recorded as generating positive savings when they
are introduced and negative savings when they
expire.
e sample includes the scal actions taken to
reduce the decit in 15 advanced economies during
1980–2009.
15
e main reason the analysis focuses
on advanced economies is that scal policy adjust-
ment needs are particularly large, on average, for
the group of advanced economies, as discussed in
the IMF’s May 2010 Fiscal Monitor (IMF, 2010).
For the 15 countries covered—Australia, Bel-
gium, Canada, Denmark, Finland, France, Ger-
many, Ireland, Italy, Japan, Portugal, Spain, Sweden,
the United Kingdom, and the United States—we
identied 173 years in which there were budget-
ary measures aimed at scal consolidation. us,
on average across the sample countries, about 40
percent of years saw the introduction of budget-
ary measures aimed at reducing the decit (Figure
3.1). e average size of scal consolidation was
about 1 percent of GDP per year, but the range was
wide (see Figure 3.1). Fiscal contractions of more
13
Additional country-specic sources used to clarify the
motivation behind the scal consolidation measures include
Kuttner and Posen (2002), Nakagawa (2009), and Takahashi
and Tokuoka (2010) for Japan; Lawson (1992) for the United
Kingdom; and Romer and Romer (2009) and the sources cited
therein, for the United States. We nd that the estimates of the
measures’ expected impact on the scal decit at the time they
were implemented are similar across the various sources.
14
Focusing on the United States, Romer and Romer (2010)
use the narrative record, such as congressional reports, to identify
the size and motivation for all post–World War II tax policy
actions. ey nd that only a small share of observed changes in
government revenue reect actual changes in tax policy and use
the changes in tax policy identied by means of their narrative
approach to obtain estimates of the causal impact of tax changes
on the economy.
15
e complete list of periods of scal adjustments is reported
in Appendix 3.1. A companion paper, available on request,
shows how we implement the approach. In particular, it provides
quotations and citations for each case to show how we deter-
mined the presence of scal consolidation measures.
WORLD ECONOMIC OUTLOOK: RECOVERY, RISK, AND REBALANCING
Figure 3.1. Action-Based Fiscal Consolidation
There were about 170 cases of action-based fiscal consolidation over the past 30
years in advanced economies. Consolidation has often relied primarily on
spending cuts. On average, action-based fiscal consolidation amounted to 1
percent of GDP a year, but the range was wide.
than 1.5 percent of GDP per year represent about
one-fth of all cases of consolidation.  erefore,
on average, countries implemented such large  scal
adjustments once every 14 years. As we show later
on, the estimated eects of these large adjustments
on output are similar to the eects of smaller
adjustments.
Estimated Eects of Fiscal Consolidation
With periods of scal consolidation now identi-
ed, this section employs statistical techniques to
assess the impact of the scal measures on economic
activity. e statistical methodology is standard and
follows that of Cerra and Saxena (2008), Romer
and Romer (2010), and others. In particular, we
estimate the average impulse response of output to
action-based scal consolidation using panel data
analysis. e estimated equation makes use of an
autoregressive model in growth rates estimated on
annual data for 1980–2009 for the 15countries in
our sample. e growth rates are then cumulated to
obtain the estimated impact of  scal consolidation
on the level of output.
16
A key result is that scal consolidation is typi-
cally contractionary. A scal consolidation equal to
1 percent of GDP typically reduces real GDP by
about 0.5 percent after two years (Figure 3.2).  e
eect on the unemployment rate is an increase of
16
In particular, the estimated equation has the growth rate of
real GDP as the dependent variable on the left-hand side. On
the right-hand side, the explanatory variables are the current and
lagged values of the scal consolidation measures identi ed as
discussed above. Including lags allows for a delayed impact of  s-
cal consolidation on growth. In addition, the approach controls
for lags of real GDP growth, to distinguish the eect of  scal
consolidation from that of normal output dynamics.  us, the
equation estimated is
2 2
g
it
j
=1
j
g
i,t–j
s
=0
s
ABFC
i,t–s
i
t
it
,
where the subscript i denotes the ith country, and the subscript
t denotes the tth year; g is the percent change in real GDP; and
ABFC is the estimated size of the action-based  scal consolida-
tion measures as a percent of GDP. e approach includes a
full set of country dummies (
i
) to take account of di erences
among countries’ normal growth rates. e estimated equation
also includes a full set of time dummies (
t
) to take account of
global shocks such as shifts in oil prices or the global business
cycle.
Fiscal Consolidation over Time
14
(Number of fiscal contractions by year)
Sp
ending-based
12
Tax-based
Oth
er
10
8
6
4
2
0
1980 85 90 95 2000 05 10
Size of Fiscal Consolidation
60
(
In percent of GDP a year)
50
40
30
20
10
0
0 1 2 3 4
Source: IMF staff calculations.
Note: The 15 advanced economies in the sample are Australia, Belgium, Canada,
Denmark, Finland, France, Germany, Ireland, Italy, Japan, Portugal, Spain, Sweden,
United Kingdom, and United States. “Spending-based” consolidation relied primarily on
spending cuts. “Tax-based” consolidation relied primarily on tax hikes. The “other”
category denotes contractions for which composition details were either not available
or for which no category accounted for the majority of the adjustment.
98 International Monetary Fund | October 2010
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 99
about 0.3percentage point after two years.
17
e
results are statistically signicant at conventional
levels. Overall, the idea that scal austerity stimu-
lates economic activity in the short term nds little
support in the data.
18
However, the average eect of scal consolidation
shown in Figure 3.2 hides a range of experiences
related to a number of factors. In particular, we
now turn to three key factors that shape the out-
comes: the role of interest rates and exchange rates,
the composition of the scal package, and the role
of perceived sovereign risk of the country undertak-
ing the consolidation.
The Mitigating Role of Interest Rates and Exchange Rates
is section looks at the role of interest rate
cuts and declines in the value of the currency in
mitigating the impact of scal consolidation. In
addition, to clarify how interest rates and exchange
rates shape the outcome, we examine the behavior
of the components of GDP, including exports and
imports. To explore these channels, we use the same
statistical approach as described above, but apply
it to studying the impact of scal consolidation
on exchange rates and interest rates instead of on
output.
19
17
To explore the impact on the unemployment rate, we
replace all the GDP growth terms in the estimated equation with
the change in the unemployment rate. We then cumulate the
impulse responses to obtain the impact of scal consolidation on
the level of the unemployment rate.
18
Several robustness checks were performed, as reported in
Appendix 3.2. In particular, excluding lags of growth had little
eect on the results; using dierent lag lengths (up to four)
yielded similar results. Although the country dummies are
correlated with the lagged dependent variables in the estimated
equation, the bias is small here given the large number of obser-
vations per country relative to the number of countries (30 years
for each of our 15 countries). When the estimation is conducted
using the Arellano-Bond estimator, which corrects for this pos-
sible bias, the results are very similar.
19
For example, to examine the response of the real exchange
rate to scal consolidation, we repeat the estimation of the equa-
tion described above, while replacing all the GDP growth terms
with the change in the log of the real exchange rate. We then
cumulated the impulse responses to obtain the impact of scal
consolidation on the (log) level of the real exchange rate.
0 1 2 3
-0.8
-0.6
-0.4
-0.2
0.0
0.2
0.4
0.6
Source: IMF staff calculations.
Note: t = 1 denotes the year of consolidation. Dotted lines equal one standard error
bands.
Figure 3.2. Impact of a 1 Percent of GDP Fiscal
Consolidation on GDP and Unemployment
Fiscal consolidation is normally contractionary. A fiscal consolidation equal to
1 percent of GDP typically reduces real GDP by about 0.5 percent and raises the
unemployment rate by about 0.3 percentage point.
GDP (percent) Unemployment rate (percentage points)
WORLD E CO NOMIC OUT LOOK: RE COVE RY, RI SK, AND R EBA LANCING
100 International Monetary Fund | October 2010
Interest rates
e short-term policy interest rate typically falls
by about 20 basis points in response to a scal con-
solidation of 1 percent of GDP (Figure 3.3). Since
the rate of ination usually does not change much
following scal consolidation, the fall in real interest
rates is similar. At the same time, the long-term
nominal interest rate on government bonds falls
broadly in line with short-term rates. In particular,
the yield on government bonds with a maturity of
10 years declines by about 15 basis points after two
years in response to a scal consolidation equal to
1 percent of GDP. e response of long-term rates
suggests that scal consolidation may reduce risk
premiums.
20
Exchange rates
In response to a scal consolidation of 1 percent
of GDP, the exchange rate depreciates by about
1.1percent in real terms (see Figure 3.3). Interest-
ingly, this real depreciation is almost fully explained
by nominal exchange rate depreciation or currency
devaluation. Examples of large devaluations during
scal consolidation include, among others, Finland
(1992), Ireland (1987), and Italy (1992).
Transmission channel: the role of net exports
How do these changes in interest rates and
exchange rates aect the economy? e fall in
interest rates is likely to support consumption and
investment. And the real depreciation should sup-
port economic activity by boosting net exports.
Decomposing the response of GDP into its
demand components conrms that net exports
expand in response to scal consolidation, provid-
ing a key cushioning role. In particular, the contri-
bution of net exports to GDP increases by about
0.5 percentage point (Figure 3.4). e increase in
net exports reects both an increase in real exports
in response to the real exchange rate depreciation
20
e eect of scal consolidation on longer-term interest
rates may be inuenced by two factors: the decline in the cur-
rent and future short-term interest rate and a reduction in the
risk premium related to the perceived improvement in the scal
outlook.
0 1 2 3
-30
-20
-10
0
10
Exchange Rate
(percent)
Source: IMF staff calculations.
Note: t = 1 denotes the year of consolidation. Dotted lines equal one standard error
bands.
Figure 3.3. Response of Monetary Conditions to a 1
Percent of GDP Fiscal Consolidation
Interest rate cuts and a decline in the value of the domestic currency usually play
a key supportive role during episodes of fiscal consolidation.
Interest Rate
(basis points)
Real
Nominal
Long-term
(ten-year)
Short-term
(policy)
0 1 2 3
-2.0
-1.5
-1.0
-0.5
0.0
0.5
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 101
and a decline in real imports, which also reects the
fall in income (see Figure3.4).
21
Meanwhile, domestic demand (consumption and
investment) declines substantially in response to
scal retrenchment. In particular, a consolidation
of 1 percent of GDP reduces the contribution of
domestic demand to GDP by about 1 percentage
point after twoyears. is result is broadly consis-
tent with textbook (Keynesian) eects on demand
of spending cuts and tax hikes.
Overall, this section conrms that a fall in the
value of the currency plays a key role in soften-
ing the impact of scal consolidation on output
through the impact on net exports. Without this
increase in net exports, the output cost of scal
consolidation would be roughly twice as large, with
output falling by 1 percent instead of 0.5 percent.
Cuts in interest rates also help cushion the impact
on consumption and investment.
Taxes versus Spending: Does Composition Matter?
Does the composition of scal consolidation
across taxes and spending matter? Anumber of
studies suggest that scal contraction associated
primarily with declines in spending is accompanied
by an expansion of the economy in the short term,
whereas adjustments based primarily on revenue
increases feature output contractions.
22
In this sec-
tion, using our data set of periods of action-based
scal consolidation, we revisit these stylized facts to
test whether the composition of consolidation mea-
sures makes a dierence in terms of their impact on
growth. We also investigate the role of interest rates
and exchange rates in explaining the eects of dif-
ferent types of scal consolidation measures.
Basic results
To address the issue, we repeat the estimation
approach used above for two types of scal con-
21
Since the analysis controls for shifts in global demand (time
dummies), the estimated increase in exports does not reect an
upswing in external demand. Also, the estimated response of
exports and imports is consistent with that implied by standard
elasticities with respect to the real exchange rate, as reported, for
example, in Bayoumi and Faruqee (1998).
22
See, for example, Alesina and Perotti (1995, 1997), Alesina
and Ardagna (2010), Broadbent and Daly (2010), and others.
0 1 2 3
-1.5
-1.0
-0.5
0.0
0.5
1.0
Source: IMF staff calculations.
Note: t = 1 denotes the year of consolidation. Dotted lines equal one standard error
bands.
Figure 3.4. Impact of a 1 Percent of GDP Fiscal
Consolidation on GDP Components
(Percent)
Net exports typically expand in response to fiscal consolidation, providing a key
cushion for GDP. In contrast, domestic demand contracts. The boom in net
exports reflects both an increase in exports in response to the real exchange rate
depreciation and a decline in imports reflecting the fall in income.
Domestic demand contribution
Net exports contribution
0 1 2 3
-2
-1
0
1
2
Imports
Exports
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102 International Monetary Fund | October 2010
solidation. e rst type, denoted tax-based,
corresponds to years in which the contribution of
tax hikes to scal consolidation is greater than the
contribution of spending cuts. e second type,
denoted spending-based,corresponds to years in
which the contribution of spending cuts to scal
consolidation is greater than that of tax hikes.
23
e following main results emerge from the
analysis:
Spending-based adjustments are less contraction-
ary than tax-based adjustments. In the case of
tax-based programs, the effect of a fiscal con-
solidation of 1 percent of GDP on GDP is –1.3
percent after two years (Figure 3.5). In the case
of spending-based programs, the effect is –0.3
percent after two years, and is not statistically
significant.
24
Similarly, while deficit cuts that
rely on tax hikes raise the unemployment rate
by about 0.6percentage point, spending-based
deficit cuts raise the unemployment rate only
by about 0.2 percentage point (see Figure 3.5).
However, as will be shown below, a key rea-
son the costs of spending-based deficit cuts are
relatively small is that they typically benefit from
a large dose of monetary stimulus, as well as an
expansion in exports.
Domestic demand contracts for both types of
fiscal consolidation, but by more in the case of
tax-based packages. In particular, in the case of
spending-based measures, domestic demand falls
by about 0.9 percent after two years, whereas the
decline exceeds 1.8percent in the case of tax-
based packages (see Figure 3.5).
A rise in net exports mitigates the impact of the
consolidation on GDP in both cases. However,
there is a considerably larger improvement in
exports associated with spending-based measures
than with tax-based measures, whereas imports fall
more for tax-based adjustments (see Figure 3.5).
23
Similar results are obtained if the tax-based type corresponds
to years in which the contribution of tax hikes to scal consoli-
dation was more than 60 percent of the total; the same holds
true for the spending-based type.
24
e dierence between the tax-based and spending-based
responses is strongly statistically signicant.
Why are spending-based adjustments less
contractionary?
Much of the dierence is due to the response
of monetary conditions to scal consolidation:
interest rates and the value of the currency tend to
fall more following spending-based consolidation
(Figure 3.6). Existing estimates in the literature
can provide a rough sense of how much of the
dierence in output performance stems from the
dierence in monetary conditions. e dierence
in interest rate responses between tax-based and
spending-based scal consolidation is about 50 basis
points in the rst year (see Figure 3.6).
25
Mean-
while, the output cost for tax-based consolidation
exceeds that for spending-based consolidation by
about 0.3 percentage point in the rst year and by
about 1percentage point in the second year (see
Figure 3.5). erefore, for the dierence in output
outcomes to be attributable entirely to the dierent
monetary policy responses, a 100basis point rise
in interest rates would need to reduce output by
about 0.6 percent in the rst year and 2 percent in
the second. Such impacts are within the range of
estimates found in the empirical literature, though
toward the high end.
26
us, it appears that the
dierence in monetary policy responses accounts for
much, though probably not all, of the dierence in
output performance.
ese ndings are in line with the notion that
central banks view spending-based decit cuts more
favorably, possibly because they interpret them as a
signal of a stronger commitment to scal discipline,
and are therefore more willing to provide monetary
stimulus following spending-based adjustments. It is
also plausible that an increase in taxes, if it involves
indirect tax hikes (sales and excise taxes, VAT),
raises ination on impact, making interest rate cuts
25
Note that part of the eect of interest rates on output works
through the exchange rate. erefore, to avoid double counting,
the dierence in output costs due to the dierence in exchange
rate behavior is not considered separately here.
26
Romer and Romer (2004) nd that an unexpected 100
basis point increase in interest rates reduces output (measured
by industrial production) by 4.3 percent after two years. Sims
(1992) estimates the maximum impact on industrial production
at about –1.5 percent, while Bernanke and Mihov (1998) and
Christiano, Eichenbaum, and Evans (1996) nd a maximum
eect on real GDP close to –1 percent.
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 103
0 1 2 3
-3
-2
-1
0
1
0 1 2 3
-2.5
-2.0
-1.5
-1.0
-0.5
0.0
0.5
Source: IMF staff calculations.
Note: t = 1 denotes the year of consolidation. Dotted lines equal one standard error bands.
Figure 3.5. Impact of a 1 Percent of GDP Fiscal Consolidation: Taxes versus Spending
Spending-based consolidation is less contractionary than tax-based consolidation. GDP falls by less and unemployment increases less. Domestic demand
contracts significantly as a result of both spending-based and tax-based consolidation, but the contraction is sharper after tax-based adjustments. A boom in net
exports mitigates the contraction in both cases. A surge in exports drives the net export boom associated with spending-based consolidation. After tax-based
consolidation, net exports rise mainly because imports fall.
Tax-based Spending-based
GDP
(percent)
0 1 2 3
-0.2
0.0
0.2
0.4
0.6
0.8
1.0
Unemployment Rate
(percentage points)
Domestic Demand Contribution
(percent)
0 1 2 3
-0.2
0.0
0.2
0.4
0.6
0.8
1.0
Net Exports Contribution
(percent)
0 1 2 3
-2
-1
0
1
2
Exports
(percent)
0 1 2 3
-3
-2
-1
0
1
Imports
(percent)
WORLD E CO NOMIC OUT LOOK: RE COVE RY, RI SK, AND R EBA LANCING
104 International Monetary Fund | October 2010
by an ination-averse central bank less likely. In line
with this notion, Figure 3.7 provides evidence that
the policy rate rises on impact for tax-based adjust-
ments, and even more so when they include some
indirect tax hikes. In the case of tax-based packages
that include indirect tax hikes, the output costs are
particularly large.
27
e results reported above suggest that spend-
ing-based measures are less contractionary than
tax-based measures, but do the eects dier across
dierent types of spending cuts? In particular, a
number of studies, such as Alesina and Perotti
(1995), predict that spending-based adjustments
have relatively benign eects if they involve cuts to
politically sensitive items, such as transfer programs,
or government consumption, such as the public sec-
tor wage bill. e key idea is that cutting politically
sensitive items may signal a credible commitment
to long-term decit reduction and that, in these
cases, positive non-Keynesiancondence eects
oset the negative “Keynesianimpact on aggregate
demand. On the other hand, cuts to less politically
sensitive items, such as government investment,
might have weaker condence eects. To investigate
this possibility, we divide the spending-based adjust-
ments into three groups: those that rely mainly
on cuts to government transfers (31percent of all
spending-based packages), those that rely mainly on
cuts to government consumption (46percent), and
those that rely mainly on cuts to public investment
(9 percent).
28
e estimated impact on output of these three
types of decit cuts provides some evidence sug-
gesting that spending cuts based on cuts to govern-
27
Similarly, long-term interest rates tend to rise following tax-
based adjustments that include indirect tax hikes, but tend to fall
for those based on direct tax hikes or spending cuts. ese results
suggest that markets may perceive governments that make spend-
ing cuts or direct tax hikes as more serious about carrying out
scal consolidation over time. is perception might be based on
the notion that it is more dicult politically in most jurisdic-
tions to cut spending or to raise direct taxes than to raise indirect
taxes and that governments willing to invest political capital in
the former measures are more likely to persist in their endeavor
to reduce government debt.
28
e remainder (14 percent of cases) features spending-based
adjustments without sucient documentation regarding the
types of spending cuts or where no category accounted for the
majority of the adjustment.
Source: IMF staff calculations.
Note: t = 1 denotes the year of consolidation. Dotted lines equal one standard error
bands.
Figure 3.6. Composition and Monetary Conditions:
Impact of a 1 Percent of GDP Fiscal Consolidation
Why are spending-based consolidations less contractionary? Partly because they
benefit from monetary stimulus, whereas tax-based adjustments feature
monetary tightening.
0 1 2 3
-6
0
-4
0
-2
0
0
20
40
60
80
Policy Rate
(basis points)
Tax-based Spending-based
0 1 2 3
-2
-1
0
1
2
Real Effective Exchange Rate
(percent)
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 105
ment transfers are relatively benign (Figure3.8).
In particular, the point estimates indicate a modest
expansion. For adjustments based mainly on cuts to
government consumption or investment, the output
costs are larger. However, the estimates reported in
Figure 3.8 are based on a small sample of observa-
tions for which we have details regarding the types
of spending cuts implemented. Hence, these results
should be interpreted with caution. In particular,
even for the cases of consolidation based on transfer
cuts, there is no strong evidence of expansionary
eects, as the results are statistically indistinguish-
able from zero.
The Role of Perceived Sovereign Risk
One would expect expansionary scal contrac-
tion to be more likely in situations where doubts
about solvency raise borrowing costs and where
the consolidation could reduce those costs sharply.
In line with this notion, Giavazzi and Pagano
(1990) found evidence of expansionary scal
contractions” in Denmark in 1983 and Ireland in
1987—two countries that had experienced a rapid
deterioration in their sovereign debt rating.
29
In
this subsection, we examine the role of sovereign
risk perception.
To explore this issue, we split the sample into
two groups. e rst group includes scal adjust-
ment preceded by high (above-median) levels of
perceived sovereign credit risk in the three years
before scal consolidation. e second group
includes adjustment preceded by low (below-
median) perceived sovereign credit risk. Our mea-
sure of perceived solvency risk is the Institutional
Investor Ratings (IIR) index.
30
ese ratings are
based on assessments of sovereign risk by private
sector analysts. Each country is rated on a scale of
zero to 100, with a rating of 100 assigned to the
29
Based on our identication strategy, Denmark (1983) and
Ireland (1987) undertook spending-based scal consolidation
measures amounting to about 3 percent of GDP each.
30
Studies that use the IIR as a proxy for sovereign default risk
include Reinhart, Rogo, and Savastano (2003) and Eichengreen
and Mody (2004). Similar results are obtained when the sample
is split into three groups—high, medium, and low risk.
Figure 3.7. Composition and Monetary Conditions:
Impact of a 1 Percent of GDP Fiscal Consolidation
0 1 2 3
-80
-60
-40
-20
0
20
40
Source: IMF staff calculations.
Note:
t = 1 denotes the year of consolidation.
Policy Rate
(basis points)
The policy rate usually rises on impact for episodes of tax-based consolidation,
particularly when they include some indirect tax hikes. In the case of indirect tax
hikes, the output costs are particularly high.
0 1 2 3
-2.0
-1.5
-1.0
-0.5
0.0
0.5
GDP
(percent)
Spending-basedTax-based (indirect)
Tax-based (direct)
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106 International Monetary Fund | October 2010
lowest perceived sovereign default probability.
31
e
median level of this index, 80, is close to that of
Portugal in 2007.
32
e estimation results suggest that decit cuts
preceded by high perceived sovereign risk are indeed
less contractionary than those preceded by low per-
ceived sovereign default risk (Figure 3.9). is nd-
ing is consistent with the notion that condence or
credibility eects help mitigate the impact of scal
consolidation on high-risk countries and that low
perceived sovereign default risk is associated with a
more typical contraction.
At the same time, however, even for the group
of high-risk countries, the results are not usually
expansionary. e point estimates imply that output
on average still falls following scal consolidation
in these countries by about 0.4 percent after two
years. However, when the only two episodes of s-
cal consolidation considered are those of Denmark
(1983) and Ireland (1987), the estimated eect
on output is indeed positive (although not statisti-
cally signicant). ese ndings are consistent with
the nding of Giavazzi and Pagano (1990) that
Denmark and Ireland experienced expansionary s-
cal contractions.However, the results also suggest
that these two cases are not representative of the
normal output response, even among countries with
a relatively poor initial credit rating.
Comparison with Other Studies
How do our results compare with those obtained
using the standard set of scal consolidation
episodes? To answer this question, we consider the
sample of large scal adjustments identied by
Alesina and Ardagna (2010) for our same sample of
15countries––years in which the CAPB-to-GDP
ratio increases by at least 1.5percentage points.
33
For this sample, the estimation results suggest
that scal austerity usually stimulates GDP and
31
Note that these ratings are strongly correlated with sovereign
bond yields (although the latter reect more than just default
risk).
32
Note that Denmark (1983) and Ireland (1987)––the two
cases studied by Giavazzi and Pagano (1990)––fall into this high-
perceived-risk category.
33
e episodes identied by Alesina and Ardagna (2010) are
listed in Table 3.5.
0 1 2 3
-0.8
-0.6
-0.4
-0.2
0.0
0.2
0.4
Source: IMF staff calculations.
Note: The three lines indicate consolidation in which most of the spending cuts fell on
government transfers, government consumption, and public investment, respectively.
t = 1 denotes the year of consolidation.
Figure 3.8. Impact on GDP of a 1 Percent of GDP
Spending-Based Consolidation
(Percent)
Fiscal consolidation based on cuts to government transfers is less contractionary
than that based on cuts to government consumption or government investment.
But the differences between the three spending types are within the margin of
error.
Cuts to government consumption
Cuts to transfers
Cuts to public investment
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 107
reduces the rate of unemployment in the short term
(Figure3.10). In contrast, for a comparable set of
large consolidation episodes identied according to
our action-based approach (those greater than 1.5
percent of GDP), the impact on GDP is negative
and unemployment rises.
What explains this stark contrast? Why is scal
contraction usually painless based on the standard
set of episodes but contractionary based on our
sample of action-based episodes? As described
above, the standard approach to identication
of consolidation based on the behavior of the
CAPB may be imperfect and create bias in the
estimated eects of consolidation. Appendix 3.3
demonstrates that these problems are substantial.
It shows that there are large dierences between
the episodes identied by the two approaches. It
then examines the 10 cases in which the dierence
between the size of the consolidation identied by
the two approaches is largest and establishes two
results. First, the action-based measure appears to
be substantially more accurate. In the majority of
the 10episodes, there were specic economic or
budgetary developments that cause the CAPB-
based approach to inaccurately measure the size
of the consolidation; in the remainder, there were
economic developments that very likely had a large
eect on the CAPB-based measure. Second, the
errors are correlated with economic developments.
Most notably, the CAPB-based approach often
fails to identify consolidation when governments
took substantial actions to reduce the decit but
the actions were associated with severe economic
downturns. It is therefore not surprising that
the estimates based on the CAPB-based measure
do not nd that consolidations are on average
contractionary.
Finally, Figure 3.10 also illustrates another
interesting nding: based on our set of scal adjust-
ments, the incremental impact of scal consolida-
tion on economic activity appears to be unrelated to
the size of the package. In particular, the estimated
responses of output and unemployment to these
large decit cuts (greater than 1.5 percent of GDP)
are similar to those reported before for our full
sample of scal consolidation. For each additional
scal consolidation of 1percent of GDP, the impact
0 1 2 3
-2.0
-1.5
-1.0
-0.5
0.0
0.5
1.0
Source: IMF staff calculations.
Note: t = 1 denotes the year of consolidation. Dotted lines equal one standard error
bands.
Figure 3.9. Estimated Impact on GDP of a 1 Percent
of GDP Fiscal Consolidation
(Percent)
Fiscal consolidation preceded by high perceived sovereign risk is less
contractionary than when preceded by low perceived default risk. But even for
the group with high perceived risk, fiscal retrenchment rarely triggers faster
growth. Exceptions include Denmark (1983) and Ireland (1987)—two cases of
fiscal consolidation studied by Giavazzi and Pagano (1990)—which were
expansionary.
High perceived sovereign default risk
Low perceived sovereign default risk
Denmark (1983) and Ireland (1987)
WORLD E CO NOMIC OUT LOOK: RE COVE RY, RI SK, AND R EBA LANCING
108 International Monetary Fund | October 2010
on output is about –0.5 percent, and the impact
on the unemployment rate is about 0.3 percentage
point, which is similar to the baseline results for all
adjustments, large and small, reported earlier.
34
Additional Insights from Model Simulations
e previous section looked at historical episodes
of scal consolidation in advanced economies to
assess the short-term eects. But historical analy-
sis goes only so far. For example, the empirical
framework used above is not well suited to provid-
ing estimates of the eects of scal consolidation
over long periods such as 10 or 20 years. Moreover,
historical analysis cannot fully address specic issues
that are relevant for today but that rarely arose in
the past, such as the zero oor on nominal inter-
est rates. erefore, to complement the empirical
analysis, this section looks at scal consolidation
in the controlled “laboratorysetting of the GIMF,
a dynamic general equilibrium model designed to
simulate the eects of scal and monetary policy
measures.
35
In particular, we examine the following
questions:
How do the effects of fiscal consolidation change
when nominal interest rates are near zero?
How do the effects change when many countries
conduct fiscal consolidation simultaneously?
What are the long-term effects of reducing gov-
ernment debt from high levels?
34
Additional analysis suggests that the proportional impact
is also similar for very large decit cuts (equal to more than 3
percent of GDP per year), although the estimation results are less
precise for these cases due to the smaller number of observations.
35
For presentations of the structure of the GIMF, see Kumhof
and Laxton (2007); Kumhof, Muir, and Mursula (2010); Freed-
man and others (2009, forthcoming); and Clinton and others
(2010). A companion paper, available on request, shows that
the GIMF produces short-term expenditure and tax multipliers
that are in line with those reported in the previous section of the
chapter. In addition, it explains why scal multipliers associ-
ated with scal consolidation are likely to be smaller than those
associated with scal stimulus, including the fact that monetary
policy stimulus partly osets the eect of scal consolidation but
reinforces the eect of scal stimulus.
0 1 2 3
-0.8
-0.6
-0.4
-0.2
0.0
0.2
0.4
Source: IMF staff calculations.
Note: t = 1 denotes the year of consolidation. Dotted lines equal one standard error
bands.
Figure 3.10. Impact of Large Fiscal Consolidation on
GDP and Unemployment: Action-Based Approach
versus Standard Approach
(Impact of each additional 1 percent of GDP fiscal consolidation)
Fiscal retrenchment usually triggers faster growth and lower unemployment
according to the standard approach, exemplified by Alesina and Ardagna (2010).
But according to our action-based approach, the opposite is true.
Action-based approach
Standard approach (Alesina and Ardagna, 2010)
GDP
(percent)
0 1 2 3
-0.3
-0.2
-0.1
0.0
0.1
0.2
0.3
0.4
0.5
Unemployment Rate
(percentage points)
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 109
Fiscal Consolidation when Policy Rates Are Near the Zero
Interest Rate Floor
Since the onset of the Great Recession, short-
term interest rates in the largest advanced econo-
mies have been near the zero interest rate oor.
Yet of the historical episodes considered above,
only those of Japan since the 1990s occurred in an
environment of near-zero interest rates. In the other
episodes, interest rate cuts typically followed scal
consolidation.
erefore, to look at the eects of scal con-
solidation when interest rates are near zero, we use
model simulations. In particular, we look at what
happens when a small open economy, which we
calibrate to t the main features of Canada, imple-
ments scal consolidation with and without the
zero interest rate oor. For simplicity, the analysis
ignores the possibility of the central bank respond-
ing to the consolidation by using unconventional
monetary tools, such as quantitative and credit eas-
ing. To the extent that such policies would be used
to support output in response to the consolidation,
the simulations reported here may overstate the
impact of the zero interest rate oor.
e consolidation considered here is a reduction
in the decit equivalent to 1percentage point of
GDP, composed entirely of spending cuts. ree-
quarters of the spending cuts fall on government
transfers, with the rest falling on government
consumption. All the simulations considered in
this subsection assume that there are no cuts to
productive public investment. If the spending cuts
do include cuts to productive public investment,
the long-term eects of scal consolidation can be
negligible or even negative.
e results suggest the following:
When the interest rate is well above zero and free
to decline, the output cost is about 0.5percent
after two years (Figure 3.11). This output cost is
broadly consistent with the estimated short-term
effect reported in the previous section of this
chapter. Two factors make the impact on GDP
less than one-to-one for every 1 percent of GDP
of fiscal consolidation. First, lower interest rates
help offset the shock to domestic demand. Sec-
ond, a significant depreciation in the exchange
rate, resulting from the persistence of the decline
in the interest rate, boosts exports and raises the
trade balance. Again, these simulation results are
consistent with the empirical findings reported in
the previous section.
36
However, when interest rates are stuck at zero,
the output cost of fiscal consolidation doubles to
about 1percent after two years (see Figure 3.11).
Here, the simulation assumes that the zero lower
bound holds for two years.
37
During this time,
the central bank is powerless to offset the slump
in aggregate demand and inflation induced by
the cut in government spending. The result-
ing fall in inflation raises the real interest rate,
which in turn exacerbates the decline in aggregate
demand, amplifying the short-term contraction-
ary effect of fiscal consolidation.
Fiscal Consolidation in Many Countries at the Same Time
How do the eects of scal consolidation change
when many countries consolidate at the same time?
is question is relevant today, as a number of advanced
economies set scal consolidation in motion.
To address this issue, the simulations compare a
situation in which only Canada cuts its scal decit
to one in which all countries do so simultaneously
(global scal consolidation). We again use Canada here
to illustrate the case of an economy small enough to
have small spillover eects on the rest of the world and
open enough that scal contraction in the rest of the
world has signicant eects on its GDP.
38
36
In an economy such as the United States, with less exposure
to foreign trade, the domestic-demand channel would be more
important. In this case, it would require a larger decline in the
interest rate to oset the eects of the scal contraction on
domestic demand.
37
Why do the simulations assume that the zero interest rate
oor holds for two years? In the model, the only way the central
bank can stabilize output and ination is by cutting nomi-
nal interest rates. When the option of cutting interest rates is
removed for a long time—here, three or more years––the model
generates unstable macroeconomic dynamics, which complicates
the computation of simulation results. In addition, for most
countries, it is unlikely that interest rates will stay at zero for
more than two years.
38
In 2009, Canadas GDP was 1.9 percent of global GDP
on a purchasing-power-parity basis, and the sum of exports and
imports represented 71 percent of GDP.
WORLD E CO NOMIC OUT LOOK: RE COVE RY, RI SK, AND R EBA LANCING
110 International Monetary Fund | October 2010
As before, the adjustment involves reducing the
decit-to-GDP ratio by 1percentage point, with
the adjustment composed entirely of spending cuts.
ree-quarters of the spending cuts fall on govern-
ment transfers, with the rest falling on government
consumption. Also, as before, the analysis considers
two cases: the rst assumes that the zero inter-
est rate oor holds in all countries for two years,
and the second assumes that the interest rate may
change without constraint.
e following results emerge:
In the simulations where the zero interest rate
floor applies, the Canada-only consolidation
implies an output loss of about 1 percent (Figure
3.12). But when the rest of the world conducts
fiscal consolidation at the same time, the output
cost to Canada more than doubles, to 2 percent.
This simulation illustrates that, when interest
rates are near zero, international spillovers are
important.
When central banks are able to cut interest rates,
the difference between the Canada-only consolida-
tion and the global consolidation is smaller. This
reflects the interplay of two forces. On the one
hand, the fiscal contraction in the rest of the world
reduces demand for Canadian exports, and the
exchange rate provides a smaller buffer—curren-
cies cannot all depreciate at the same time. But on
the other hand, the interest rate is now uncon-
strained by the zero bound, and the central bank
can thus respond with more monetary stimulus.
These larger interest rate cuts play a substantial
cushioning role, and the additional output cost of
global consolidation is therefore modest.
Overall, these results illustrate that changes
in both the interest rate and the exchange rate
are important to the adjustment process. When
countries cannot rely on the exchange rate channel
to stimulate net exports, as in the case of the global
consolidation, and cannot ease monetary policy to
stimulate domestic demand, due to the zero interest
rate oor, the output costs of scal consolidation
are much larger. us, in the presence of the zero
interest rate oor, there could be large output costs
associated with front-loaded scal retrenchment
implemented across all the large economies at the
same time.
0 1 2 3 4 5
-40
-20
0
20
40
60
80
0 1 2 3 4 5
-0.6
-0.5
-0.4
-0.3
-0.2
-0.1
0.0
0.1
0 1 2 3 4 5
-1.2
-1.0
-0.8
-0.6
-0.4
-0.2
0.0
0.2
1
Figure 3.11. Impact of a 1 Percent of GDP Fiscal
Consolidation: GIMF Simulations
1
Without zero interest rate floor
CPI Inflation
(percentage points)
GDP
(percent)
Real Short-Term Interest Rate
(basis points)
Source: IMF staff calculations.
Note: t = 1 denotes the year of consolidation. Simulations are based on the GIMF
calibrated for Canada and the rest of the world. The zero interest rate floor is assumed
to hold for two years for reasons explained in the text.
GIMF = Global Integrated Monetary and Fiscal Model.
CPI = consumer price index.
0 1 2 3 4 5
-40
-30
-20
-10
0
10
Short-Term Interest Rate
(basis points)
With zero interest rate floor
1
2
2
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 111
Long-Term Eects of Reducing Government Debt
e discussion so far has focused on short-term
eects. We now turn to the long term. Does scal
consolidation generate long-term gains? And if
so, how soon do the long-term gains arrive? is
question is one that cannot be adequately addressed
using the empirical framework used in the previous
section, and so we again use model simulations.
To focus the discussion, we consider a scal
consolidation that, over time, reduces the govern-
ment-debt-to-GDP ratio by 10 percentage points
in each of the G3 currency areas (euro area, Japan,
United States). As in the simulations discussed
above, the consolidation is based on permanent cuts
to government consumption and transfers. As the
debt-to-GDP ratio declines, the burden of inter-
est payments falls, and the resulting savings may
be used to nance either new tax cuts or spending
increases. In the main simulation reported here, we
assume that the savings are used to reduce labor
income taxes. e tax cuts are designed to ensure
that the debt-to-GDP ratio stabilizes at 10 percent-
age points below the initial level.
e simulations suggest that, over the long term,
a reduction in the debt-to-GDP ratio is likely to
raise output both in the G3 economies and in the
rest of the world. Two main factors underlie this
increase:
Lower real interest rates: Reducing the fiscal deficit
raises the overall G3 saving rate and improves
the G3 current account balance.
39
Over time, the
greater supply of savings lowers the real interest
rate. In the simulation, the 10 percentage point
fall in the debt-to-GDP ratio helps produce a
fall in the G3 real interest rate of about 30basis
points (Table 3.1).
40
Since capital is assumed to
be mobile across borders, the real interest rate
falls by the same amount in the rest of the world.
In turn, lower real interest rates crowd in
39
e counterpart to this improvement in the G3 current
account balance is a worsening in the current account balance of
the rest of the world. e magnitude of this eect will depend
on the degree to which government bonds are treated as net
wealth and the sensitivity of aggregate consumption to changes
in real interest rates.
40
e magnitude of this interest rate–debt link is in line with
empirical estimates in the literature, such as Engen and Hubbard
(2004), Laubach (2009), and Baldacci and Kumar (2010).
0 1 2 3 4 5
-1.5
-1.0
-0.5
0.0
0.5
1.0
1.5
0 1 2 3 4 5
-100
-50
0
50
0 1 2 3 4 5
-0.5
0.0
0.5
1.0
0 1 2 3 4 5
-3
-2
-1
0
1
0 1 2 3 4 5
-3
-2
-1
0
1
Figure 3.12. Impact of a 1 Percent of GDP Fiscal
Consolidation: GIMF Simulations
1
GDP
(percent)
Global fiscal consolidation
Canada-only fiscal consolidation
GDP
(percent)
With Zero Interest Rate Floor Without Zero Interest Rate Floor
0 1 2 3 4 5
-1.5
-1.0
-0.5
0.0
0.5
1.0
1.5
Real Effective Exchange Rate
(percent; + = appreciation)
Real Effective Exchange Rate
(percent; + = appreciation)
0 1 2 3 4 5
-0.5
0.0
0.5
1.0
Trade Balance
(percentage points of GDP)
Trade Balance
(percentage points of GDP)
0 1 2 3 4 5
-100
-50
0
50
Short-Term Interest Rate
(basis points)
Short-Term Interest Rate
(basis points)
Source: IMF staff calculations.
Note: t = 1 denotes the year of consolidation. Simulations are based on the GIMF
calibrated for Canada and the rest of the world. The zero interest rate floor is assumed
to hold for two years for reasons explained in the text.
1
GIMF = Global Integrated Monetary and Fiscal Model.
WORLD E CO NOMIC OUT LOOK: RE COVE RY, RI SK, AND R EBA LANCING
112 International Monetary Fund | October 2010
private investment, thereby raising the stock of
physical capital and GDP over the long term.
41
In the baseline simulation, the stock of physical
capital rises by 2.1 percent in the G3 and by 1.6
in the rest of the world. Meanwhile, the level of
GDP rises by 1.4 percent in the G3 and by 0.8
percent in the rest of the world.
Lower income taxes: The lower interest rates
and lower stock of government debt generate
savings in terms of lower interest payments
that can be used to finance tax cuts. In the
baseline simulation, we assume that the savings
are used to lower taxes on labor income. Since
labor income taxes discourage workers from
supplying labor, reducing them raises labor
supply and output. As the lower panel of Table
3.1 reports, using the savings to cut capital
income taxes instead has an even more benefi-
cial impact on GDP in the long term. This is a
reflection of capital income taxes’ strong nega-
tive effect on private sector investment. On the
other hand, if the savings are used to finance
41
is subsection has not taken into account the likelihood
that reduced government debt would reduce risk premiums in
market interest rates. A lower expected level of debt would allevi-
ate concerns that the scal outcome might become unsustain-
able. at is, it would reduce the perceived risks of default and
ination. Reduced risk premiums in government and private
sector borrowing rates would enhance and accelerate long-term
positive eects on output.
cuts to consumption taxes, or to finance higher
spending on government transfer programs, the
long-term output gains are smaller.
42
Finally,
there are positive spillover effects from the G3
to the rest of the world arising through trade
linkages. The more G3 incomes rise over the
long term, the more goods the G3 economies
import and the more income this generates for
the rest of the world.
43
How long does it take for the positive output
eects to outweigh the negative short-term eects?
GIMF simulations suggest that for a consolida-
tion based on cuts to government consumption
and transfers, GDP is lower than baseline for three
years before rising above the baseline forever. e
break-even point, at which the sum of the annual
GDP losses in the early years is just oset by the
sum of the gains later on, occurs ve years from
the start date.
42
is ranking is consistent with the standard view of the
relative distortionary supply-side aspects of the various scal
instruments.
43
Fiscal consolidation in the G3 generates a permanent
improvement in the G3 current account balance, which implies a
declining path for the G3 ratio of net foreign liabilities (NFL) to
GDP. Over the long term, in the GIMF, an increase in imports
relative to exports ensures that the NFL-to-GDP ratio stabilizes
at a lower level instead of perpetually falling.
Table 3.1. Long-Term Effects of a Permanent 10 Percentage Point Decrease in the G3 Government-
Debt-to-GDP Ratio: Global Integrated Monetary and Fiscal Model Simulations
1
G3 Rest of the World Global
Lower Interest Burden Used to Reduce Labor Income Taxes
Real GDP (percent)
Real Interest Rate (percentage points)
Capital Stock (percent)
Current-Account-to-GDP Ratio (percentage points)
1.36
–0.34
2.14
0.44
0.78
–0.34
1.58
–0.28
1.02
–0.34
1.82
. . .
Effects on GDP under Different Assumptions (percent)
Lower Interest Burden Used to
Reduce Labor Income Tax
Raise General Transfers
Reduce Capital Income Tax
Reduce Consumption Tax
1.36
0.54
1.50
0.70
0.78
0.40
0.82
0.46
1.02
0.46
1.10
0.56
Source: IMF staff calculations.
Note: This table reports long-term effects on the level of GDP, interest rate, capital stock, and current-account-to-GDP ratio.
1
G3 = euro area, Japan, United States.
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 113
Lessons for Countries Considering Fiscal
Consolidation
is section summarizes the principal ndings
of the chapter and outlines key lessons for coun-
tries considering scal consolidation in today’s
environment. Virtually all advanced economies
are likely to conduct scal consolidation at some
point in the future to put their scal positions
back on a sustainable footing. e evidence based
on historical analysis for advanced economies and
model simulations in this chapter provides several
lessons.
e idea that scal austerity triggers faster growth
in the short term nds little support in the data.
Fiscal retrenchment typically has contractionary
short-term eects on economic activity, with lower
output and higher unemployment. A budget cut
equal to 1percent of GDP typically reduces domes-
tic demand by about 1 percent and raises the unem-
ployment rate by 0.3 percentage point. At the same
time, an expansion in net exports usually occurs,
and this limits the impact on GDP to a decline of
0.5percent.
Central banks usually oset some of the con-
tractionary pressure by reducing policy rates, and
longer-term interest rates typically decline, cushion-
ing the impact on domestic demand. Undertaking
scal consolidation is likely to have more negative
short-term eects if—as is currently the case in a
number of countries––interest rates are near zero
and central banks are constrained in their ability to
provide monetary stimulus.
A decline in the real value of the domestic
currency typically plays an important cushion-
ing role by spurring net exports and is usually
the result of nominal depreciation or currency
devaluation. erefore, because not all countries
can have real depreciations and increase their
net exports at the same time, simultaneous scal
consolidation by many countries is likely to be
particularly costly. Fiscal retrenchment is also
likely to be more costly for members of a mon-
etary union where scope for a fall in the value of
their currency is reduced. At the same time, in
the current global environment, heightened mar-
ket sensitivity to scal decits and government
debt may imply that no adjustment could have a
negative impact on growth.
e ndings also suggest that spending-based
decit cuts, particularly those that rely on cuts to
transfers, have smaller contractionary eects than
tax-based adjustments. A key reason for this dif-
ference is that central banks typically provide less
monetary stimulus during tax-based adjustments,
particularly when they involve hikes in indirect
taxes that put upward pressure on ination. is
nding again highlights that the scal adjustment
process is likely to be more painful without the sup-
portive role of interest rate cuts.
Fiscal retrenchment in countries that face a
higher perceived sovereign default risk tends to
be less contractionary. But expansionary eects of
consolidation are unusual even for this group. is
result implies that short-term negative eects are
likely to be smaller in economies currently facing
greater market pressure.
In addition, scal consolidation is likely to be
benecial over the long term. In particular, lower
debt is likely to reduce real interest rates and the
burden of interest payments, allowing for future
cuts to distortionary taxes. ese eects will likely
crowd in investment and increase output in the
long term.
Finally, as discussed in Chapter 1, a number
of policy actions could enhance the credibility of
scal adjustment programs, thereby mitigating the
adverse eects of scal consolidation in the short
term. Such actions could include strengthening
scal institutions and reforming pension entitle-
ments and public health care systems. To the extent
that such measures improve household and busi-
ness condence and raise expectations about future
income, they could help support activity during the
process of scal adjustment.
Appendix 3.1. Data Sources
e sources of the data used for the analysis are
listed in Table 3.2. e episodes of scal consolida-
tion identied based on the action-based approach
are reported in Tables 3.3 and 3.4. e episodes of
scal consolidation identied based on the standard
approach are reported on Table 3.5.
WORLD ECONOMIC OUTLOOK: RECOVERY, RISK, AND REBALANCING
Table 3.2. Data Sources
Variable Source
Real GDP World Bank World Development Indicators (WDI) Database,
World Economic Outlook (WEO) Database
Real Consumption WDI Database, WEO Database
Real Investment WDI Database, WEO Database
Real Exports WDI Database, WEO Database
Real Imports WDI Database, WEO Database
Unemployment Rate WDI Database, WEO Database
Nominal Effective Exchange Rate International Financial Statistics (IFS) Database
Real Effective Exchange Rate IFS Database
Policy Interest Rates and 10-Year Bond Yields Bloomberg Financial Markets, National Authorities, Thomson
Datastream
Institutional Investor Rating Institutional Investor
Cyclically Adjusted Primary Budget Surplus in
Percent of GDP
Alesina and Ardagna (2010), Organization for Economic
Cooperation and Development
Table 3.3. Action-Based Approach: Episodes of Small Fiscal Contraction
(Smaller than 1.5 percent of GDP)
Economy Fiscal Consolidation
Australia
1980 1985 1994 1995 1996 1997 1998 1999
Belgium
1984 1990 1992 1994 1995 1996 1997 1998
Canada
1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992
1993 1994 1995 1996 1997 1998 1999
Denmark
1995
Finland
1984 1988 1999 2000 2006 2007
France
1984 1986 1987 1988 1989 1991 1995 1996 1997 1998 2000 2006 2007
Germany
1982 1983 1984 1985 1986 1987 1988 1989 1992 1993 1994 1995 1996
1998 1999 2000 2003 2004 2005 2006 2007
Ireland
1984 1985 1986
Italy
1994 1996 1998 2004 2005 2006 2007
Japan
1981 1982 1983 1986 2003 2004 2005 2006 2007
Portugal
2000 2003 2005 2006 2007
Spain
1983 1984 1985 1986 1987 1988 1989 1992 1993 1994 1995 1996 1997
1998
Sweden
1984 1986 1992 1994 1998 2007
United Kingdom
1982 1994 1995 1996 1998 1999
United States
1980 1981 1985 1986 1988 1990 1993 1994 2000
Source: IMF staff calculations.
114 International Monetary Fund | October 2010
CHAPTER 3 WILL IT HURT? MACROECONOMIC EFFECTS OF FISCAL CONSOLIDATION
Table 3.4. Action-Based Approach: Episodes of Large Fiscal Contraction
(Greater than or equal to 1.5 percent of GDP)
Economy Fiscal Consolidation
Australia
1986 1987
Belgium
1982 1983 1987 1993
Canada
Denmark
1983 1984 1985 1986
Finland
1992 1993 1994 1996 1997 1998
France
Germany
1997
Ireland
1982 1983 1987 1988 2009
Italy
1992 1993 1995 1997
Japan
1997
Portugal
1983 2002
Spain
Sweden
1983 1993 1995 1996 1997
United Kingdom
1981 1997
United States
1991
Source: IMF staff calculations.
Table 3.5. Large Fiscal Contraction Episodes Identified by Alesina and Ardagna (2010)
Economy Fiscal Consolidation
Australia
1987 1988
Belgium
1982 1984 1987 2006
Canada
1981 1986 1987 1995 1996 1997
Denmark
1983 1984 1985 1986 2005
Finland
1981 1984 1988 1994 1996 1998 2000
France
1996
Germany
1996 2000
Ireland
1984 1987 1988 1989 2000
Italy
1980 1982 1990 1991 1992 1997 2007
Japan
1984 1999 2001 2006
Portugal
1982 1983 1986 1988 1992 1995 2002 2006
Spain
1986 1987 1994 1996
Sweden
1981 1983 1984 1986 1987 1994 1996 1997 2004
United Kingdom
1982 1988 1996 1997 1998 2000
United States
Source: Alesina and Ardagna (2010).
Appendix 3.2. Estimation Approach
(t=1980, …, 2009); g is the percent change in real
e analysis in the text accounts for the current and
GDP; and ABFC is the estimated size of the action-
based scal consolidation measures as a percent of
lagged impact of scal consolidation. More speci -
GDP. e disturbance term, u
it
, is specied as a
cally, the estimated equation is as follows:
two-way error component model:
2 2
g
it
j
g
i,t–j
s
ABFC
i,t–s
u
it
, (3.1)
u
it
i
t
it
, (3.2)
j=1 s=0
where the subscript i denotes the ith country
where
i
denotes a country- xed e ect, and
t
(i=1, …,15) and the subscript t denotes the tth year
denotes a time- xed e ect. e time e ects capture
International Monetary Fund | October 2010 115
WORLD E CO NOMIC OUT LOOK: RE COVE RY, RI SK, AND R EBA LANCING
116 International Monetary Fund | October 2010
shifts in global variables, such as the global business
cycle. e country-xed eect captures dierences
in countriessteady-state growth rates. F-tests reject
the absence of country- and time-xed eects. e
impulse response function for the eect of the scal
actions on the level of output, along with one-stan-
dard-error bands, is obtained via the delta method.
Several robustness checks were conducted:
Excluding lags of growth had little effect on the
results (Figure 3.13). If consolidation is less likely
in a weak economy, there should be a correlation
between lagged output growth and consolida-
tion, and controlling for lagged output would
have an appreciable impact on the estimates. The
finding that it does not is therefore reassuring, as
it suggests that this source of bias is small in our
sample.
44
Using an alternative estimation approach––the
Arellano-Bond (1991) procedure––had little
effect on the results (Figure 3.14). As discussed
above, this result suggests that the bias due to
fixed effects being correlated with the lagged
dependent variables is small in this sample.
Splitting the sample of fiscal consolidation
according to size of government (tax-to-GDP
ratio in the three years preceding fiscal consoli-
dation) yielded an interesting result. Economies
that initially have a larger size of government
(above the median tax-to-GDP ratio of 42 per-
cent) have smaller output costs than those with
a smaller initial size of government.
45
However,
larger governments are also more likely to engage
in spending-based consolidation than smaller
governments. Keeping composition constant,
the differences due to government size are less
apparent. In particular, tax-based consolidation
is equally costly in terms of lost output for large
and small governments. Therefore, it seems that
the type of consolidation (tax- versus spending-
based) is more important than the size of govern-
ment in determining the output cost of fiscal
consolidation.
44
In addition, using dierent lag lengths (up to four) yielded
similar results.
45
Similar results were obtained using the government-spend-
ing-to-GDP ratio as a proxy for government size.
0 1 2 3
-0.8
-0.7
-0.6
-0.5
-0.4
-0.3
-0.2
-0.1
0.0
Source: IMF staff calculations.
Note: t = 1 denotes the year of consolidation. Dotted lines equal one standard error
bands.
Figure 3.13. Robustness: Impact on GDP of a 1
Percent of GDP Fiscal Consolidation
(With and without controlling for lagged GDP growth)
Excluding lags of growth from our estimated equation has little effect on the
estimated effect of fiscal consolidation on output.
With control Without control
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 117
The results were more contractionary when
the sample of fiscal adjustments was limited to
episodes occurring in economies with a fixed
exchange rate regime. This result held up under
both the IMF’s de facto and de jure classification
of exchange rate regimes. The result is consis-
tent with standard Mundell-Fleming theory
and a number of recent studies, such as Ilzetzki,
Mendoza, and Végh (2009), who find that fiscal
multipliers are larger in economies with fixed
exchange rate regimes.
Splitting the sample of fiscal consolidation
episodes according to openness to trade (ratio of
exports plus imports to GDP) did not materially
change the results.
Appendix 3.3. Identifying Periods of Fiscal
Consolidation: The Standard Approach versus
the Action-Based Approach
Figure 3.15 provides a scatter plot of increases
in the cyclically adjusted primary budget balance
(CAPB)––the standard measure of scal consolida-
tion––on the vertical axis versus the size of scal
consolidation based on the policy record on the
horizontal axis. e gure reports years for which
either the CAPB-to-GDP ratio increased or the
policy record indicated scal consolidation.
46
e
CAPB-to-GDP data are from Alesina and Ardagna
(2010).
47
e top-right corner of the scatter plot
shows cases in which the two measures agree that
there was a large scal consolidation (greater than
1.5percent of GDP). It includes cases such as
Denmark (1983) and Ireland (1987)––the two cases
highlighted by Giavazzi and Pagano (1990) in their
work on expansionary scal contraction. However,
Figure 3.15also reports numerous cases in which
the standard approach and our approach come to
dierent conclusions regarding the presence and size
of scal consolidation.
46
Cases in which there was no evidence of scal consolida-
tion in the historical record correspond to the observations along
the zero line on the horizontal axis, with positive values on the
vertical axis.
47
e cases of increases in the CAPB-to-GDP ratio greater
than 1.5 percentage points in Figure 3.15 are also those reported
as large scal adjustments in Table A1 in Alesina and Ardagna
(2010).
0 1 2 3
-0.7
-0.6
-0.5
-0.4
-0.3
-0.2
-0.1
0.0
Source: IMF staff calculations.
Note: t = 1 denotes the year of consolidation. Dotted lines equal one standard error
bands.
Figure 3.14. Robustness: Impact on GDP of a 1
Percent of GDP Fiscal Consolidation
(Baseline estimator versus Arellano-Bond estimator)
Using the Arellano-Bond procedure had little effect on the results, suggesting
that the bias due to correlation of the fixed effects with the lagged dependent
variables is small in this sample.
Baseline estimator
Arellano-Bond estimator
WORLD E CO NOMIC OUT LOOK: RE COVE RY, RI SK, AND R EBA LANCING
118 International Monetary Fund | October 2010
Which approach typically more accurately identi-
es scal consolidation? To address this question,
we focus on the largest discrepancies between the
two approaches: the 10 cases for which the dis-
crepancy between the two approaches exceeded
3 percent of GDP. In each of these cases, scal
consolidation was assessed as large (greater than
1.5percentage points of GDP) by at least one of
the two approaches. ese 10 cases are highlighted
in Figure 3.15.
We start with the cases in the top-left corner of
Figure 3.15, which contains ve periods identi-
ed as large consolidations based on the standard
approach, but for which the policy record shows
either only a small consolidation or no consolida-
tion at all.
Germany (1996): The CAPB-to-GDP ratio
increased by 6.4 percentage points, but the policy
record indicates fiscal consolidation measures
amounting to only 0.2 percent of GDP. The
large increase in the CAPB-to-GDP ratio in
1996 reflected a large one-time capital transfer
in 1995, which implied a change in the CAPB-
to-GDP ratio of about –7 percentage points in
1995 and 6.4 percentage points in 1996. The
sharp increase in the CAPB in 1996 thus had
nothing to do with fiscal austerity measures. In
particular, as reported in the 1996 IMF Recent
Economic Developments report (p. 18), a one-time
transfer of Treuhand (Trust Agency) and East
German housing debt to the general government
amounting to 6.8 percent of GDP occurred
in 1995. This operation was recorded by the
Organization for Economic Cooperation and
Development (OECD) as a one-time increase in
capital transfers that raised the general govern-
ment deficit from 2.3percent of GDP in 1994
to 9.7 percent of GDP in 1995. The deficit
returned to a more normal level in 1996, at 3.3
percent of GDP. Therefore, the sharp increase
in the CAPB in 1996 bears no relation to fiscal
austerity measures, but instead reflects the end of
a one-time capital transfer.
Japan (1999): The CAPB-to-GDP ratio rose
by about 4.9 percentage points, but the policy
record shows no evidence of fiscal consolidation
measures. Indeed, Japans fiscal consolidation
Figure 3.15. Size of Fiscal Consolidation:
Action-Based Approach versus Standard Approach
(Percent of GDP)
There are numerous cases in which the standard approach and our action-based
approach differ regarding the presence and size of fiscal consolidation. After
analyzing in detail the 10 largest discrepancies between the two approaches, we
conclude that our action-based approach more accurately identifies the size of
fiscal consolidation.
-1 0 1 2 3 4 5 6
-10
-8
-6
-4
-2
0
2
4
6
8
Standard approach
(change in cyclically adjusted primary balance)
Action-based approach
DEU 1996
JPN 1999
ITA 1993
IRL 1982
FIN 1993
BEL 1984
IRL 2009
FIN 1992
FIN 2000
JPN 2006
1
Sources: Alesina and Ardagna (2010); and IMF staff calculations.
Note: The diagonal line reports the 45-degree line, where the action-based approach and
standard approach agree. Dotted lines indicate episodes of consolidation equal to 1.5
percent of GDP. Highlighted observations indicate years for which the two approaches
differ by more than 3 percent of GDP.
1
BEL: Belgium; DEU: Germany; FIN: Finland; IRL: Ireland; ITA: Italy; JPN: Japan.
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 119
program, initiated in 1997, was suspended in
1998 following the onset of a severe recession,
and there is no evidence of measures designed
to cut the budget deficit until 2002, when
the authorities announced a new multiyear
program of fiscal consolidation (2003 OECD
Economic Survey: Japan, p. 15). Instead, as the
1998 OECD Economic Survey: Japan reports (p.
84), the government made a one-time capital
transfer in 1998 to the Japan National Railway,
amounting to about ¥24.3 trillion (4.8 percent
of GDP). The one-time nature of this capital
transfer implies a change in the (general govern-
ment) CAPB of about 4.8 percentage points of
GDP in the following year, 1999. This increase is
similar to the 4.9 percentage point change in the
CAPB-to-GDP ratio computed by Alesina and
Ardagna (2010). Therefore, the sharp increase
in the CAPB in 1999 bears no relation to fiscal
austerity measures, but instead reflects the end of
a one-time capital transfer.
Finland (2000): The CAPB-to-GDP ratio
increased by 4.1 percentage points, but the policy
record shows fiscal consolidation measures amount-
ing to only 0.9 percent of GDP.
48
This episode cor-
responds to an asset price boom: real stock prices
in Finland rose by 70 percent in 1999 and by 86
percent in 2000 (Haver Analytics). Of the 4.1per-
centage point increase in the CAPB-to-GDP ratio,
2 percentage points reflect a rise in revenue from
one-time factors unrelated to policy actions.
49
These one-time factors included a rise in tax rev-
enue associated with stock-option and capital gains
and an increase in non-tax (property income) rev-
enue partly due to an extraordinary dividend issued
by the fully state-owned bank Leonia on the eve
of its merger with the private insurance company
Sampo. Regarding the remaining 1.2 percentage
point discrepancy relative to the historical record
(2.1 versus 0.9), the OECD Economic Outlook
database indicates a fall in cyclically adjusted
social security outlays of about 1 percentage point.
48
e scal measures reected mainly central government
spending restraint (OECD Economic Surveys 1999–2000, p. 36).
49
e 2001–02 issue of OECD Economic Surveys: Finland
reports the 2000 budget outcome as a very high surplus mainly
due to one-o factors(p. 37).
However, we can find no mention of social security
cuts in the historical record, such as in the OECD
Economic Survey.
50
Overall, therefore, we conclude
that the increase in the CAPB-to-GDP ratio of 4.1
percentage points overstates the amount of consoli-
dation in 2000 by at least 2percentage points and
probably closer to 3.
Japan (2006): The CAPB-to-GDP ratio increased
by 4.1 percentage points, but the policy record
indicates fiscal consolidation measures amounting
to only 0.67 percent of GDP, implying a discrep-
ancy of about 3.4 percent of GDP. In terms of
actual consolidation measures, the policy record
indicates a cut in public investment of about
0.27 percent of GDP (2007 IMF Staff Report,
pp. 32–33) and income tax hikes worth about
¥2 trillion (0.4 percent of GDP—Takahashi and
Tokuoka, 2010). At the same time, the CAPB-to-
GDP ratio reported in the 2008 OECD Economic
Surveys: Japan rose by 3.2 percentage points in
2006 (Table 3.1, p. 65, line 4). Thus, some (0.9
percentage point) of the discrepancy is due to
differences between the OECD Economic Survey
and Alesina and Ardagna (2010) in the method
used to compute the CAPB. In addition, the
OECD Economic Survey indicates that a large part
of the CAPB increase resulted from one-time
asset operations that improved the fiscal balance
in 2006 but were unrelated to tax hikes or spend-
ing cuts.
51
Without these one-time asset opera-
tions, the 2008 OECD Economic Survey: Japan
estimates that the CAPB-to-GDP ratio increased
by only 0.4 percentage point in 2006 (OECD
Table 3.1, p. 65, line 8). Therefore, once the
change in the CAPB-to-GDP ratio is adjusted to
remove the influence of asset operations unre-
lated to tax hikes and spending cuts, the increase
50
Note that cuts to social security spending, which is not
recorded as central government spending, are not part of the
measures amounting to 0.9 percent of GDP that we identify in
the policy record.
51
e 2008 OECD Economic Survey: Japan reports that the
one-time factors include receipts of funds by the government
from corporate pension funds, receipts associated with the priva-
tization of highway corporations, and receipts from the transfer
of the reserve fund from the Fiscal Loan Fund Special Account
to the central government(p. 65).
WORLD E CO NOMIC OUT LOOK: RE COVE RY, RI SK, AND R EBA LANCING
120 International Monetary Fund | October 2010
in the CAPB-to-GDP ratio is close to our esti-
mate of policy measures of 0.67 percent of GDP.
Belgium (1984): The CAPB-to-GDP ratio
increased by 4.7 percentage points, but the policy
record indicates fiscal consolidation measures
amounting to 0.88 percent of GDP, implying a
discrepancy of about 3.8 percent of GDP.
52
At
the same time, the CAPB-to-GDP ratio reported
in the OECD Economic Outlook database rises
by 4.1 percentage points in 1984. Thus, some of
the discrepancy (0.6 percentage point) is due to
differences in the method used to compute the
CAPB. Of the remaining discrepancy (3.2 per-
centage points), most is explained by the end of
a one-time capital transfer made in 1983. In par-
ticular, the OECD Economic Outlook database
indicates a one-time increase in capital transfers
in 1983 that reduced the CAPB-to-GDP ratio
by 2.1 percentage points in 1983. When this
one-time transfer came to an end in 1984, it
caused the CAPB-to-GDP ratio to rise by 2.1
percentage points (OECD Economic Outlook
database). Therefore, excluding the influence of
this one-time capital transfer, the discrepancy
between the standard approach and our action-
based approach shrinks from 3.2 percent of GDP
to 1.1 percent of GDP (3.2 minus 2.1).
53
Next we turn to the ve cases in the bottom-
right corner of Figure 3.15––periods that are
identied as large consolidations based on our
action-based approach, but which feature either a
fall or a small increase in the CAPB.
Ireland (2009): Here, the CAPB-to-GDP ratio
fell by about 4.4 percentage points, but the
historical record reports that fiscal consolida-
tion measures of about 4.5 percent of GDP were
implemented in 2009. These measures included
52
According to the policy record, scal consolidation consisted
of a “levy of 2 percent a year for three years on earned incomes,
which was expected to increase revenue by 0.75 percentage point
of GDP in 1984 (1984/1985 OECD Economic Surveys: Belgium,
p. 11), and spending cuts of 0.13 percent of GDP consisting
of cuts to the public sector wage bill, public sector operating
costs, and social security savings (IMF, Belgium: Recent Economic
Developments, 1984, p. 47).
53
e policy record suggests that the increase in capital trans-
fers in 1983 reected “direct aid to industry” (1985/1986 OECD
Economic Survey: Belgium, pp. 25–26).
both tax hikes and spending cuts.
54
The fall in
the CAPB despite a substantial fiscal consolida-
tion reflects the impact of the financial crisis
during which stock and house prices fell sharp-
ly.
55
For reasons discussed above, such sharp
contractions tend to have a negative impact on
the CAPB, causing the CAPB-based approach
to inaccurately identify the size of consolidation
measures. Indeed, while the CAPB-to-GDP ratio
computed by Alesina and Ardagna (2010) falls
by 4.4 percentage points, the CAPB-to-GDP
ratio computed by the OECD falls by only
1.1percentage points. As expected, the fall in the
CAPB-to-GDP ratio is driven by a sharp decline
in cyclically adjusted tax revenue, which falls by
2.6 percentage points in 2009 according to the
OECD’s calculations. Government tax revenue
directly related to asset prices––capital gains taxes
and stamp duties––fell by 1 percent of GDP in
2009.
56
Another 0.8 percentage point decline in
the CAPB-to-GDP ratio is driven by an increase
in cyclically adjusted social security benefit pay-
ments that have no counterpart in the policy
record. Excluding these cyclically adjusted items,
the CAPB-to-GDP ratio rises by 2.3 percent-
age points (–1.1 1 2.6 1 0.8), which represents
a large fiscal consolidation and is substantially
closer to our estimated size of fiscal consolidation
than the Alesina and Ardagna (2010) estimate of
–4.4 percentage points.
Italy (1993): The CAPB-to-GDP ratio increased by
only 0.2 percentage point in 1993, but the policy
record reports a large consolidation of 4.3 percent
of GDP. A plausible reason for this large discrep-
ancy is that there was a sharp economic contraction
54
e 2009 OECD Economic Survey: Ireland (p. 50) and EC
(2008, p. D15) report spending cuts in 2009 of €1 billion (0.6
percent of GDP) announced in July 2008, and the 2009 OECD
Economic Survey: Ireland (pp. 50–51) reports additional spending
cuts and tax hikes amounting to 3.9 percent of GDP, implying a
total consolidation of 4.5 percent of GDP.
55
Real stock and house prices fell by 44 percent and 20 per-
cent in 2009, respectively (Haver Analytics database).
56
Revenue from capital gains taxes and stamp duties fell by
73 and 45 percent in 2009 (Ministry of Finance white paper
on receipts and expenditures 2009 and 2010). ere was also a
sharp fall in the cyclically adjusted indirect-tax-to-GDP ratio,
which fell by 1.4 percentage points (OECD Economic Outlook
database).
CHAPTER 3 WI LL IT H URT? MACR OECON OMIC E FFE CTS OF FI SCAL CON SOL IDATI ON
International Monetary Fund | October 2010 121
in 1993 associated with the European exchange rate
mechanism crisis, which, for the reasons explained
above, causes the CAPB-based approach to be
inaccurate. Indeed, while the CAPB-to-GDP ratio
computed by Alesina and Ardagna (2010) increases
by 0.2percentage point, the CAPB-to-GDP ratio
computed by the OECD increases by 1.9percent-
age points (OECD Economic Outlook database).
The OECDs calculation of the change in the
CAPB-to-GDP ratio is therefore consistent with
a large fiscal consolidation in 1993 (greater than
1.5 percent of GDP). However, even this estimate
of fiscal consolidation is substantially smaller than
what is in the policy record. In particular, according
to the OECD Economic Surveys and the IMF Recent
Economic Developments reports, fiscal consolidation
measures in 1993 amounted to more than 4 percent
of GDP. The source of the remaining discrepancy
vis-vis the change in the CAPB-to-GDP ratio
could plausibly reflect the fact that, during sharp
recessions, cyclical-adjustment techniques tend to
allocate part of the fiscal worsening due to auto-
matic stabilizers to a fall in the CAPB. This prob-
lem causes the increase in the CAPB to understate
the size of fiscal consolidation measures.
Finland (1992) and (1993): The CAPB-to-GDP
ratio fell by 2.0 percentage points in 1992 and rose
by 0.8 percentage point in 1993, but the policy
record indicates consolidation measures amount-
ing to 1.8 and 3.8 percent of GDP in 1992 and
1993, respectively. The fall in the CAPB in 1992
despite evidence of fiscal austerity measures during
those years was probably due to the depth of the
recession after the outbreak of the Finnish banking
crisis at the end of 1991.
57
For reasons explained
above, these developments probably depressed
tax revenue and increased social security transfers
beyond what could have been predicted based on
standard cyclical-adjustment techniques. In line
with this notion, the cyclically adjusted tax-revenue-
to-GDP ratio fell in 1992 by 1.2 percentage
points, and the cyclically adjusted social-security-
spending-to-GDP ratio rose by 2.3 percentage
57
Real GDP fell by 6.4 percent in 1991 and 3.8 percent in
1992, and the unemployment rate increased by 5.1percentage
points in 1992. In 1993, real GDP fell by another 0.9 percent
and the unemployment rate increased by 4.6 percentage points.
points (OECD Economic Outlook database).
Excluding these two cyclically adjusted items, the
CAPB-to-GDP ratio rose by 1.5 percentage points
in 1992, close to the size of consolidation based
on the policy record (1.8 percent of GDP). Simi-
larly, in 1993, as the sharp recession continued,
the cyclically adjusted tax-revenue-to-GDP ratio
fell by 1.1percentage points, and the cyclically
adjusted social-security-spending-to-GDP ratio
rose by 1.9 percentage points. Excluding these
two cyclically adjusted items, the CAPB-to-GDP
ratio rose by 3.8percentage points in 1992, in line
with the size of consolidation based on the policy
record (3.8 percent of GDP).
Ireland (1982): The CAPB-to-GDP ratio
increased by 0.05 percentage point, but the
narrative record indicates fiscal consolidation
measures totaling 3.8 percent of GDP. The small
increase in the CAPB reflects the problems of
cyclical-adjustment techniques during episodes
in which consolidation consists of consumption
tax hikes and in which there is a large decline in
private consumption. In particular, Ireland’s 1982
fiscal consolidation package included substantial
increases in value-added tax (VAT) rates (from
10 to 18percent in the lower rate, and from 25
to 30 percent in the standard rate) and in excise
duties. At the same time, real private consump-
tion fell by 7.1 percent, although real GDP grew
by 2.3 percent, supported by external demand.
This is the only year since 1970 in which private
consumption fell while GDP grew. The result
was a small increase in VAT receipts for a given
level of GDP. The change in tax rates is not taken
into account by the CAPB-based approach, as
fiscal variables are cyclically adjusted with respect
to overall GDP and the elasticity is assumed to
be constant over time. Therefore, the CAPB-to-
GDP ratio fails to pick up the large tax hikes that
occurred that year. The OECD’s CAPB-to-GDP
ratio increases by more than that of Alesina and
Ardagna (2010)––0.8percentage point––leaving
a discrepancy of 3 percent of GDP relative to our
action-based fiscal consolidation measure. The
following simple calculation illustrates how more
than half of this remaining discrepancy could
be due to the unusual behavior of consumption
WORLD E CO NOMIC OUT LOOK: RE COVE RY, RI SK, AND R EBA LANCING
122 International Monetary Fund | October 2010
during this episode. If the consumption-to-GDP
ratio in 1982 had remained at the 1981 level
of 65 percent, instead of falling to 59percent,
the VAT hike would have added 1.6percent-
age points to the cyclically adjusted tax-to-GDP
ratio.
58
This increase in cyclically adjusted tax
revenue would have raised the CAPB-to-GDP
ratio from the OECD’s 0.8 percentage point to
2.4 percentage points, far closer to our action-
based measure of fiscal consolidation (3.8 percent
of GDP). Overall, this is a case in which the
standard approach seems to miss a large part of
the fiscal austerity measures.
is examination of the 10 largest disagree-
ments between the two approaches provides strong
evidence that our action-based approach more
accurately identies the size of scal consolidation.
We nd seven cases where we are able to identify
specic economic or budgetary developments that
cause the CAPB-based measures used by Alesina
and Ardagna (2010) to inaccurately identify the size
of the consolidation and that largely explain the
gap between the two measures. In the remaining
three cases (Italy in 1993 and Finland in 1992 and
1993), there were crises or large economic contrac-
tions that could plausibly have caused the CAPB-
based approach to be highly inaccurate. We nd no
cases where there is evidence that our action-based
measure was substantially inaccurate.
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