Aggregate Demand and the Top 1% - Stanford Universityweb.stanford.edu/~aauclert/topineq_slides.pdfI...
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Aggregate Demand and the Top 1%
Adrien Auclert Matthew Rognlie
Stanford Northwestern
AEA Meetings, ChicagoJanuary 7, 2017
![Page 2: Aggregate Demand and the Top 1% - Stanford Universityweb.stanford.edu/~aauclert/topineq_slides.pdfI Gets predictions for aggregate consumption, savings and wealth I This paper: ...](https://reader035.fdocuments.net/reader035/viewer/2022062605/5fd14cf3159b49707a587531/html5/thumbnails/2.jpg)
Two canonical models of inequality
1. Income inequality literature:I Considers random growth income processesI Gets Pareto tail of the income distribution
2. Incomplete markets literature:I Considers variety of income processes (typically lognormal)I Gets predictions for aggregate consumption, savings and wealth
I This paper: combines 1 and 2 to examine macro consequences ofan increase in top 1% of labor incomes, leaving average income cst
I Focus on aggregate demand (partial equilibrium) outcomesI Top 1% ↑ ⇒ desired consumption ↓ in short run, wealth ↑ in long run
I General equilibrium consequences depend on mon. policy responseI See“Inequality and Aggregate Demand”
I Case study: US labor income inequality, 1980–today
![Page 3: Aggregate Demand and the Top 1% - Stanford Universityweb.stanford.edu/~aauclert/topineq_slides.pdfI Gets predictions for aggregate consumption, savings and wealth I This paper: ...](https://reader035.fdocuments.net/reader035/viewer/2022062605/5fd14cf3159b49707a587531/html5/thumbnails/3.jpg)
Two canonical models of inequality
1. Income inequality literature:I Considers random growth income processesI Gets Pareto tail of the income distribution
2. Incomplete markets literature:I Considers variety of income processes (typically lognormal)I Gets predictions for aggregate consumption, savings and wealth
I This paper: combines 1 and 2 to examine macro consequences ofan increase in top 1% of labor incomes, leaving average income cst
I Focus on aggregate demand (partial equilibrium) outcomesI Top 1% ↑ ⇒ desired consumption ↓ in short run, wealth ↑ in long run
I General equilibrium consequences depend on mon. policy responseI See“Inequality and Aggregate Demand”
I Case study: US labor income inequality, 1980–today
![Page 4: Aggregate Demand and the Top 1% - Stanford Universityweb.stanford.edu/~aauclert/topineq_slides.pdfI Gets predictions for aggregate consumption, savings and wealth I This paper: ...](https://reader035.fdocuments.net/reader035/viewer/2022062605/5fd14cf3159b49707a587531/html5/thumbnails/4.jpg)
Two canonical models of inequality
1. Income inequality literature:I Considers random growth income processesI Gets Pareto tail of the income distribution
2. Incomplete markets literature:I Considers variety of income processes (typically lognormal)I Gets predictions for aggregate consumption, savings and wealth
I This paper: combines 1 and 2 to examine macro consequences ofan increase in top 1% of labor incomes, leaving average income cst
I Focus on aggregate demand (partial equilibrium) outcomesI Top 1% ↑ ⇒ desired consumption ↓ in short run, wealth ↑ in long run
I General equilibrium consequences depend on mon. policy responseI See“Inequality and Aggregate Demand”
I Case study: US labor income inequality, 1980–today
![Page 5: Aggregate Demand and the Top 1% - Stanford Universityweb.stanford.edu/~aauclert/topineq_slides.pdfI Gets predictions for aggregate consumption, savings and wealth I This paper: ...](https://reader035.fdocuments.net/reader035/viewer/2022062605/5fd14cf3159b49707a587531/html5/thumbnails/5.jpg)
Two canonical models of inequality
1. Income inequality literature:I Considers random growth income processesI Gets Pareto tail of the income distribution
2. Incomplete markets literature:I Considers variety of income processes (typically lognormal)I Gets predictions for aggregate consumption, savings and wealth
I This paper: combines 1 and 2 to examine macro consequences ofan increase in top 1% of labor incomes, leaving average income cst
I Focus on aggregate demand (partial equilibrium) outcomesI Top 1% ↑ ⇒ desired consumption ↓ in short run, wealth ↑ in long run
I General equilibrium consequences depend on mon. policy responseI See“Inequality and Aggregate Demand”
I Case study: US labor income inequality, 1980–today
![Page 6: Aggregate Demand and the Top 1% - Stanford Universityweb.stanford.edu/~aauclert/topineq_slides.pdfI Gets predictions for aggregate consumption, savings and wealth I This paper: ...](https://reader035.fdocuments.net/reader035/viewer/2022062605/5fd14cf3159b49707a587531/html5/thumbnails/6.jpg)
Two canonical models of inequality
1. Income inequality literature:I Considers random growth income processesI Gets Pareto tail of the income distribution
2. Incomplete markets literature:I Considers variety of income processes (typically lognormal)I Gets predictions for aggregate consumption, savings and wealth
I This paper: combines 1 and 2 to examine macro consequences ofan increase in top 1% of labor incomes, leaving average income cst
I Focus on aggregate demand (partial equilibrium) outcomesI Top 1% ↑ ⇒ desired consumption ↓ in short run, wealth ↑ in long run
I General equilibrium consequences depend on mon. policy responseI See“Inequality and Aggregate Demand”
I Case study: US labor income inequality, 1980–today
![Page 7: Aggregate Demand and the Top 1% - Stanford Universityweb.stanford.edu/~aauclert/topineq_slides.pdfI Gets predictions for aggregate consumption, savings and wealth I This paper: ...](https://reader035.fdocuments.net/reader035/viewer/2022062605/5fd14cf3159b49707a587531/html5/thumbnails/7.jpg)
Simple random growth income process
I Suppose process for gross labor income zit follows
d log zit = −µdt + σdZit
with Zit standard Brownian motion and reflecting barrier at zit = z
I ⇒ stationary distribution is Pareto
P (zi ≥ z) ∝ z−α
with tail coefficient
α =2µ
σ2
I Parsimonious, explains incomes within top 1% well
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Top 1% labor income shares in US (wages and salaries)
α =1
1− log(top 1% share)log(1%)
⇒
{α1980 = 2.47
αtoday = 1.91
1980 1990 2000 20100
2
4
6
8
10
12
0
Year
Sh
are
ofto
tal
lab
orin
com
e
Top 1% share
Top 0.1% share
Source: World Top Incomes Database
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Top 1% labor income shares in US (wages and salaries)
α =1
1− log(top 1% share)log(1%)
⇒
{α1980 = 2.47
αtoday = 1.91
1980 1990 2000 20100
2
4
6
8
10
12
0
Year
Sh
are
ofto
tal
lab
orin
com
e
Top 1% share
Top 0.1% share
Source: World Top Incomes Database
![Page 10: Aggregate Demand and the Top 1% - Stanford Universityweb.stanford.edu/~aauclert/topineq_slides.pdfI Gets predictions for aggregate consumption, savings and wealth I This paper: ...](https://reader035.fdocuments.net/reader035/viewer/2022062605/5fd14cf3159b49707a587531/html5/thumbnails/10.jpg)
Top 1% labor income shares in US (wages and salaries)
α =1
1− log(top 1% share)log(1%)
⇒
{α1980 = 2.47
αtoday = 1.91
1980 1990 2000 20100
2
4
6
8
10
12
0
Year
Sh
are
ofto
tal
lab
orin
com
e
Top 1% share
Top 0.1% share
Source: World Top Incomes Database
![Page 11: Aggregate Demand and the Top 1% - Stanford Universityweb.stanford.edu/~aauclert/topineq_slides.pdfI Gets predictions for aggregate consumption, savings and wealth I This paper: ...](https://reader035.fdocuments.net/reader035/viewer/2022062605/5fd14cf3159b49707a587531/html5/thumbnails/11.jpg)
Parameterizing the model
I Estimates of income risk: σ2 ∈ [0.01, 0.04], possibly rising over timeI Set σ2
1980 = 0.02I Then µ1980 = 0.024 matches α1980
I Consider three explanations for fall in α:
α =2µ ↓σ2
,2µ
σ2 ↑,
2µ ↑σ2 ↑↑
ie
σ2today = σ21980
(α1980
αtoday
)k
k = 0, 1, 2
I Our benchmark is k = 2I Transitions between income percentiles unchanged, but levels spreadI Interpretation: secular trend in relative skill pricesI Transition can be infinitely fast: Gabaix, Lasry, Lions and Moll (2016)
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Model: households
I Mass 1 of ex-ante identical households. Purely idiosyncratic risk:
I pre-tax income zit , discretized version of above processI stationary (Pareto) distribution of income states, E [z] = 1
I Separable preferences, constant EIS ν: u (c) = c1−ν−1
1−ν−1
I Incomplete markets: trade in risk-free asset ait with return rt
max E
[ ∞∑t=0
βtu (cit)
]s.t. cit + ait = yit + (1 + rt−1) ait−1
ait ≥ 0
I Post-tax income: affine transformation of pre-tax
yit = τ r + (1− τ r ) zit
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Model calibration and experiment
I Calibration to 1980 steady-state:I σ1980 = 2%, µ1980 = 2.4%I τ r = 17.5% consistent with progressivity of US tax systemI β = 0.95 generates wealth/post-tax income ratio W1980 when r = 4%
I Our quantitative experiment:I Achieve α ↓ through k = 0, 1, 2; leaving E [z] = E [y ] = 1I Phased in between 1980 and todayI Maintain r = 4% constantI Trace out impact on consumption path dCt and ss wealth dW
W
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Why this matters
I In Auclert-Rognlie “Inequality and Aggregate Demand”, we embedabove framework in general equilibrium:
I Neoclassical GE same as Aiyagari (1994)I full employment at all times
I With downward nominal wage rigidities and binding zero lower boundI can have depressed employmentI temporarily or permanently (’secular stagnation’)
I Key result: dCt and dWW sufficient statistics for effects on macro
aggregates of changes in income inequalityI real interest rates, consumption, employment, and output, e.g.
Output effect = (GE multiplier) · (PE sufficient statistic)
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Why this matters
I In Auclert-Rognlie “Inequality and Aggregate Demand”, we embedabove framework in general equilibrium:
I Neoclassical GE same as Aiyagari (1994)I full employment at all times
I With downward nominal wage rigidities and binding zero lower boundI can have depressed employmentI temporarily or permanently (’secular stagnation’)
I Key result: dCt and dWW sufficient statistics for effects on macro
aggregates of changes in income inequalityI real interest rates, consumption, employment, and output, e.g.
Output effect = (GE multiplier) · (PE sufficient statistic)
![Page 16: Aggregate Demand and the Top 1% - Stanford Universityweb.stanford.edu/~aauclert/topineq_slides.pdfI Gets predictions for aggregate consumption, savings and wealth I This paper: ...](https://reader035.fdocuments.net/reader035/viewer/2022062605/5fd14cf3159b49707a587531/html5/thumbnails/16.jpg)
Partial eqbm path for aggregate wealth dWt/W
2000 2050 2100 2150 2200
1
1.2
1.4
1.6
1.8
Year
dW
t/W
k = 0k = 1k = 2
I Recall k = 0 has constant σ and lower µ
I → not just a precautionary savings effect
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Decomposing steady-state dW /WWhen k = 2
dW
W= 1.98 = Cov (εW ,y , dy)
where εWy is effect of only increasing income level ’y ’
0 0.2 0.4 0.6 0.8 1
0
1
2
3
0
Income percentile
Inco
me
chan
ge,
rela
tive
tom
ean
dy
0 0.2 0.4 0.6 0.8 1−20
0
20
40
0
Income percentile
Sen
siti
vityε W,y
εW ,y
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Decomposing impact effect dCWhen change in distribution is temporary
dC = −1.8% = Cov (MPCy , dy)
where dC is effect, MPC is average for income ’y ’ at t = 0
0 0.2 0.4 0.6 0.8 1
0
1
2
3
0
Income percentile
Inco
me
chan
ge,
rela
tive
tom
ean
dy
0 0.2 0.4 0.6 0.8 10
0.2
0.4
Income percentile
MP
C
MPCy
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Conclusion
I Rise in top 1% may have depressed aggregate demand:I Lower aggregate consumption via MPC channel (likely small effect)I Raise aggregate savings via precautionary savings + wealth effect
channels (possibly very large)
I Macroeconomic consequences depend on monetary policy:I Away from the ZLB, lowers equilibrium interest rate
I In our experiments dr = −45bp to −85bp
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Predicted path for equilibrium interest rates
2000 2050 2100 2150 2200
3.2
3.4
3.6
3.8
4
4.2
Year
r tk = 0k = 1k = 2
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Conclusion
I Rise in top 1% may have depressed aggregate demand:I Lower aggregate consumption via MPC channel (likely small effect)I Raise aggregate savings via precautionary savings + wealth effect
channels (possibly very large)
I Macroeconomic consequences depend on monetary policy:I Away from the ZLB, lowers equilibrium interest rate
I In our experiments dr = −45bp to −85bpI One factor contributing to bringing economy to ZLB, may persist
I At the ZLB, generates unemploymentI Model implies permanent depression (secular stagnation)I Mitigated by expansionary fiscal policyI see Auclert-Rognlie