Post on 06-Oct-2020
Capital Requirements,
Risk Choice, and Liquidity Provision
in a Business Cycle Model
Juliane Begenau
Harvard Business School
July 11, 2015
1
Motivation
I How to regulate banks?
I Capital requirement: min equity/ risky assets
I Literature: higher capital requirements
I limit banks' risk-takingI reduce lending and liquidity provision
This paper:
I develops general equilibrium model to quantify trade-o�s
I derives optimal capital requirement
I shows importance of e�ect of capital requirements onendogenous prices
I mechanism is based on household's demand for safe assets
2
Quantitative GE model
I Main features
I banks are essential for a part of productionI households' preference for safe & liquid bank debtI banks receive government subsidy
I Quanti�ed with data from the FDIC and NIPA
I Consistent with business cycle facts
I macroeconomic variablesI banking sector aggregates
3
Findings
Optimal capital requirement
I 14% of risky assets
Increasing the capital requirement to 14%
I reduces the supply of liquid bank debt by 9%
I reduces volatility of income-risky-asset ratio by 6%
I increases loans by 2%
Main proposition:
Higher capital requirements leading to a reduction in thesupply of bank debt can in fact result in more lending
Core assumption:
Investors value safe and liquid assets in the form of bank debtmore the scarcer they are
4
Corporate bond spread and bank debt
Bank Debt-to-GDP0.7 0.75 0.8 0.85 0.9 0.95 1
Spr
ead
-1
-0.5
0
0.5
1
1.5
2
2.5
3
3.5
4 1999
2000
2001
20022003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
The �gure plots the spread between the Aaa corporate bond rate and the implied
interest rate on bank debt against the bank debt-to-GDP ratio for 1999-2013.
5
Related literature
I Banks' role for productionI Diamond 1984; Sharpe 1990; Boyd & Prescott 1986; Holmström &
Tirole 1997; Winton 2000; Van Den Heuvel 2002; Bolton & Freixas 2006I James 1978; Hoshi, Kashyap & Scharfstein 1991; Gertler & Gilchrist
1992; Dell'Ariccia, Detragiache & Rajan 2008; Iacoviello & Minetti 2008
I Households' demand for liquid bank debtI Diamond & Dybvig 1983; Gorton & Winton 1995; Diamond & Rajan
2000; Kashyap, Rajan & Stein 2002; Van Den Heuvel 2008; Williamson
2012; Dang, Gorton, Holmström & Ordonez 2013; DeAngelo & Stulz
2013; Allen, Carletti & Marquez 2014I Bansal & Coleman 1996; Krishnamurthy & Vissing-Jørgensen 2013;
Greenwood, Hanson & Stein 2014
I Risk-shifting incentivesI Kareken & Wallace 1978; Keeley & Furlong 1990; Gennotte & Pyle
1991; Schneider & Tornell 2004; Farhi & Tirole 2011; Admati et al 2013;
Allen, Carletti, Goldstein & Leonello 2014I Kelly, Lustig & Nieuwerburgh 2012; Gandhi & Lustig 2012; Marques,
Correa & Sapriza 2013; Duchin & Sosyura 2014
I Quanti�cation of capital requirementsI Corbae & D'Erasmo 2011, 2012; Christiano & Ikeda 2013; Clerc et al
2014; Nguyen 2014; Martinez-Miera & Suarez 20146
Outline
I Mechanism
I Model
I Trade-o� Description
I Taking the model to the dataI Welfare
7
Two-sector business cycle model
I Technology f : non-bank dependent
yft = Zft
(kft−1
)α (N ft
)1−αI Technology h : banking sector funded activities as part ofthe overall output (collateralized lending)
yht = Zht
(kht−1
)vI Banks run h production directly
I Choose investment and risk
8
Banks' risk-return trade-o�I Captures menu of investment choices
I Zht productivity level in yht = Zh
t
(kht−1
)vlogZh
t+1
(σht)
= ρh logZht
(σht−1
)+(φ1 − φ2σ
ht
)σht +σht ε
ht+1
Productivity maximizing σh
Risk choice of banks
E[lo
g(Z
h )]
σh
I σht determines mean and exposure to aggregate shock
9
Balance sheet and pro�ts
I Balance sheet at the beginning of t
kht−1 + bt−1 = et−1 + st−1
I Pro�ts
πt = yht − δhkht−1︸ ︷︷ ︸income from kh
+ rBt bt−1︸ ︷︷ ︸interest inc.
− rtst−1︸ ︷︷ ︸interest exp.
I Capital requirementet ≥ ξkht
10
Subsidy to banks
I Capture e�ects of guarantees on banks' liabilities
I Assume: government cannot commit to not bailout banksI Guarantees subsidize leverage and risk-taking
I Unlimited liability and explicit subsidy
TRt = ω3kht−1︸︷︷︸
size
exp
−ω1et−1 + πtkht−1︸ ︷︷ ︸
capitalization
+ ω2 σht︸︷︷︸risk-taking
ω1, ω2, ω3 > 0
I Implies complementarity between leverage and risk-taking
11
Banks' problem
I Maximize present value of dividend payout dtsubject to
dt = πt + TRt −∆et −κ
2
(dt − d̄
)2 − adjkh
I Dividend smoothing motive captured with dividendadjustment costs
12
HouseholdsI Utility of households
U (ct, st) = log ct + θ(st/ct)
1−η
1− ηwhere η > 1.
I Net worth of households
nt = (dt + pt) Θt−1 + (1 + rt) st−1
+(rft + 1− δf
)kft−1
− Taxes
I Maximize discounted expected utility subject to thebudget constraint
ct + st + kft + ptΘt = nt + wftNft
13
Recursive competitive equilibrium
I State vars: capital stocks, productivity levels, households'net worth, equity after pro�ts
I Exog. shocks to logZh & logZk
I Given prices, households, �rms, and banks optimize
I Policies satisfy market clearing forbonds, bank debt, capital stocks, labor, bank shares, andconsumption.
I Gov budget constraint holds: TR +BrB = Taxes
14
Outline
I Mechanism
I Model
I Trade-o� Description
I Taking the model to the data
I Welfare
15
Decisions relevant for trade-o�
I Risk choice
I Leverage choice
I Lending choice
16
Risk choice
I Subsidy: source of excessive risk-taking
Productivity maximizing σh
Risk choice of banks E
[log(
Zh )]
σh
I Higher ξ : reduce σh and increase E[log(Zh)]
17
Leverage choice
I Households' FOC wrt liquid bank debt:
re − r1 + re
= Us (c, s) /Uc (c, s) > 0
⇒ re = 1β− 1 > r
I Discount on bank debt → binding capital requirement:e = ξkh
I debt is preferredI gov. subsidy adds to this
I What happens to r when s falls?
I re − r larger the scarcer sI reduction in s leads to reduction in r
18
Lending choice
1 + vyh
kh− δh + g
(TR
kh
)︸ ︷︷ ︸
Bene�t of kh
= ξ (1 + re) + (1− ξ) (1 + r)︸ ︷︷ ︸Funding costs of kh
I Higher capital requirements→ With rates �xed: banks want to reduce scale→ Reduction in debt reduces r through GE→ Overall funding costs fall if ξ not too large
I Fall in funding costs→ banks want to increase kh
I Strength depends on key parameters: η and v
19
Welfare e�ects of capital requirements
Increase in the capital requirement
I reduces risk-taking
I reduces liquidity through a reduction in bank debt
I increases assets through lower funding costs
Optimal capital requirement
I trades-o� reduction in liquidity against reduction inrisk-taking and an increase in consumption
20
Outline
I Mechanism
I Model
I Trade-o� Description
I Taking the model to the data
I Welfare
21
Mapping from model to data
Model NIPA and FDIC balance sheet & inc stat.yh: bank output income− sec int. incomekh: bank capital loans + trading assetsyf : �rm output NIPA total GDP − bank outputkf : �rm capital NIPA K − khc: consumption NIPA consumptions: bank debt bank liabilitiesπ: pro�ts net income + non interest expenser: rate on bank debt interest expenses / bank liabilitiesσh: risk choice std of BC component log (yh/kh)e: equity tier 1 equity
Period: 1999q1:2013q4
22
Quanti�cation of Parameters
1. natural data counterpart
I e.g. persistences of productivity shocks
2. using steady state conditions of the model and targetingmoments one for one
I e.g. time preference rate of households
3. jointly
I e.g. parameters governing adjustment costs, liquiditypreference, and size of banking sector
23
Key parameters
Par. Governs Target Moment Valueη hh dislike for changes
vol(bank liab/cons)
3.15in bank debt/ consum.
strength of ↓ r to ↑ ξv conversion of risky
inc/risky assets
0.30assets into bank output
strength of ↑ kh to ↑ ξ
24
Business cycle correlations
GDPData Model
Investment 0.97 0.98Consumption 0.94 0.87Bank income 0.66 0.64Bank risky assets 0.37 0.32Bank liabilities 0.31 0.32Interest rate on bank liabilities 0.68 0.64Bank income-risky assets 0.61 0.62Bank pro�t 0.34 0.64Bank investment 0.46 0.55
25
Outline
I Mechanism
I Model
I Trade-o� Description
I Taking the model to the data
I Welfare
26
Welfare
I Compute the optimal capital requirement
I use local approximation methodsI simulate economy under benchmark tier-1-equity/risky
asset and under new requirementsI compute value function of households
I Welfare as a function of capital requirements
27
Optimal ξ = 14%
0.05 0.1 0.15 0.2 0.25
−0.25
−0.2
−0.15
−0.1
−0.05
0
ξ
Wel
fare
in %
con
sum
ptio
n eq
uiva
lent
uni
ts
28
Reduction in funding costs
1 + vyh
kh− δh +
TR
kh
(1 + ω1 (1− v)
yh
kh
)︸ ︷︷ ︸
Bene�t of kh
= ξ (1 + re) + (1− ξ) (1 + r)︸ ︷︷ ︸Funding costs of kh
I Benchmark: kh costs 2.57% with r = 1.5% and re = 10%
I Increase requirement to 14%→ With �xed prices, cost would increase by 10%→ Reduction in debt reduces r to 0.88%→ Overall funding costs fall by 16% to 2.15%
I Fall in funding costs → banks increase kh by 2%
29
Raising capital requirement during crisis or boom?
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35−0.25
−0.2
−0.15
−0.1
−0.05
0
0.05
0.1
ξ
Wel
fare
in %
con
sum
ptio
n eq
uiva
lent
uni
ts
Start in RecessionStart in Boom
30
Conclusion
I Mechanism:Higher capital requirement can lead to more lending whenbank debt is valued for being safe and liquid
I Optimal capital requirement about ξ = 14%
I Caveat: potential for safe asset substitution from shadowbanks may mitigate channel
31
Thank you
32
Subsidy to banks
I Capture e�ects of guarantees on banks' liabilities
I Assume: government cannot commit to not bailout banksI Guarantees subsidize leverage and risk-taking
I Unlimited liability and explicit subsidy
TRt = ω3kht−1︸︷︷︸
size
exp
−ω1et−1 + πtkht−1︸ ︷︷ ︸
capitalization
+ ω2 σht︸︷︷︸risk-taking
ω1, ω2, ω3 > 0
I Implies complementarity between leverage and risk-taking
Back
33
Key parameters (ctd)
Par. Governs Target Moment Valueφ2 risk-return trade-o�
vol(inc/risky-assets)
0.89
strength of↓ σh& ↑ kh to ↑ ξ
Var(log(yht /k
ht
)| log πt−1
)ω2 risk-taking due to 2.92subsidy
strength of↓ σh to ↑ ξ
34