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Microfinance

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Title: Microfinance


1
Microfinance
2
Overall motivation for microfinance
  • Lack of access to financial instruments (savings,
    credit) is a key obstacle to poor families
    seeking to improve their own lives
  • Many investments that are good for households'
    long-run prospects require large up-front costs
  • e.g., tuition for education, capitalization of
    small enterprises
  • But it is often difficult to pay such up-front
    costs
  • Savings mechanisms are inefficient or nonexistent
  • Credit mechanisms poor
  • Microfinance institutions seek to fill this gap,
    by bringing financial services to the poor and
    previously unserved

3
Microfinance common elements
  • Focus on providing financial services to those
    excluded from the formal banking sector
  • Most common credit
  • More recently savings
  • New frontier insurance
  • Credit mostly intended to finance self-employment
    activities
  • Provide small loans (as small as 75), to be
    repaid over several months to a year
  • Many dispense with collateral requirements
  • Key for poor households with few assets
  • How are microfinance lenders able to do this?

4
Asymmetric information problems
  • Adverse selection individuals who know they are
    likely to default select into borrowing pool,
    raising default rates and interest rates for
    everyone
  • Hidden type, hidden information
  • Moral hazard
  • Individuals exert less effort than the lender
    would desire, raising default rates and interest
    rates for all
  • Ex-ante less effort is exerted to make the
    project succeed
  • Ex-post even if project succeeds, may
    voluntarily default
  • Hidden action

5
Group liability lending
  • Widely-publicized mechanism of Grameen Bank for
    dispensing with collateral requirements
  • a.k.a. joint liability
  • Idea make everyone in a group of 5 borrowers
    jointly liable for repaying each of the loans to
    group members
  • If group doesn't repay each loan, no-one in group
    gets subsequent loans
  • Not the same as group lending

6
Group liability in theory
  • Why does it work?
  • Helps solve asymmetric information problem that
    usually exists between lenders and borrowers (and
    that is costly for conventional lenders to deal
    with)
  • Adverse selection
  • Moral hazard
  • Reduces adverse selection
  • groups will only form if all have confidence in
    individuals' repayment
  • people generally know each other beforehand,
    members will be selected for their reliability
    as borrowers
  • Reduces moral hazard
  • creates incentives for within-group monitoring
    and enforcement
  • In the end, key is to reduce transaction costs
    for lenders, allowing them to serve borrowers
    with very small loans

7
Group liability drawbacks
  • What drawbacks might group liability have?
  • Increases tension among members
  • Leads to voluntary dropouts
  • Can harm social capital among members
  • More costly for clients who are good risks,
    because they are more likely to pay off loans of
    their peers
  • Bad clients can free ride off good ones
  • Makes it more difficult to attract and retain
    good clients
  • As groups mature, loan sizes typically diverge
  • Smaller clients may not want to guarantee larger
    loans of other group members
  • Overall group liabilitys beneficial effect on
    repayment may reduce client base (and poors
    overall access to finance)
  • Also bank profitability may be lower

8
Gine and Karlan (2006)
  • Field experiment in the Philippines
  • Microfinance bank where borrowers (all women)
    organized into joint-liability groups of 20
  • 169 pre-existing centers randomized into
  • Treatment converted to individual-liability
    centers
  • Control no change from joint liability
  • Findings
  • No impact on repayment rate
  • Attracts new clients to individual-liability
    centers
  • Caveats
  • Groups were still formed under joint liability
    (so still benefit from joint structures impact
    on adverse selection)
  • Only moral hazard is affected by experiment
  • Next step form groups under individual
    liability, and test effects

9
Karlan and Zinman (2007) Motivation
  • Credit markets thought to be imperfect due to
    asymmetric information problems
  • Adverse selection
  • Moral hazard
  • Policy responses
  • Microlending resolve adverse selection, moral
    hazard via joint liability, group lending
  • Subsidies for lenders if moral hazard, asymmetric
    information problems make private sector lending
    unprofitable for the poorest sectors
  • Appropriate policies depend on understanding
    extent of these asymmetric information problems

10
Karlan and Zinman (2007)
  • Goal quantify importance of various information
    asymmetries in a credit market
  • Adverse selection
  • Repayment burden
  • Moral hazard
  • Typically assumed to be unobservable
  • Experiment with a consumer lender to the working
    poor in South Africa
  • Randomization used to separately identify these
    effects
  • offer interest rate identifies adverse
    selection
  • contract interest rate identifies repayment
    burden
  • dynamic repayment incentive identifies moral
    hazard

11
Experimental design
12
Findings
  • Evidence of moral hazard
  • Dynamic repayment incentive has significant
    effects on default
  • No evidence of adverse selection or repayment
    burden overall
  • But analysis by gender reveals
  • adverse selection for females
  • Repayment burden for males
  • See Tables 4, 5

13
Table 4
14
Table 5
15
Discussion items
  • Why is it important for loan supply decision to
    be blind to the experimental offer rates?
  • And was it, in fact?
  • Why present results for the standardized index of
    three default measures? (Kling, Liebman, and Katz
    2007)
  • Ditto the seemingly unrelated regression (SUR)
  • How to interpret results by gender?

16
Savings
17
The role of savings
  • Transform a series of small payments into a
    usably large lump sum (Rutherford 1999)
  • For investment
  • As buffer stock (self-insurance)
  • Less costly than credit no need to pay for
    lenders risk

18
Barriers to savings
  • Problems with self-discipline
  • While understanding the need to save for the
    future, individuals cant resist the temptation
    to spend now
  •  
  • Strong social pressures to share accumulated
    assets with others who have immediate needs
  • Reflective of informal insurance/risk-sharing
    arrangements
  • High transactional or informational costs
  • Distance to branches, unfamiliarity with formal
    financial institutions, difficulty filling out
    forms, etc.
  • A barrier to formal savings

19
Informal savings
  • In the absence of formal savings mechanisms,
    households in poor countries have developed a
    variety of informal means to save
  • Cash savings at home
  • But vulnerable to temptation, theft, and pressure
    to share with others
  • Asset accumulation and decumulation
  • E.g., livestock
  • Czukas, Fafchamps and Udry (1998)
  • Rosenzweig and Wolpin (1993)
  • But this comes at an efficiency cost
  • ROSCAs
  • but some innovative MFIs are starting to offer
    formal savings

20
SafeSave
  • Helping overcome transactional cost barriers to
    savings
  • New program in Dhaka, Bangladesh
  • Deposit collectors visit people in their homes
  • Clients may deposit as little as one taka
    (0.015) when the collector calls at their house
    each day
  • Accounts with balances above 1,000 taka (15)
    earn 6 interest.
  • Clients may withdraw up to 500 taka per
    day (7.50) at their doorstep, or up to 5,000
    taka per day (75) at the branch office
  • 22,000 clients, with average savings balance of
    22

Source http//www.safesave.org/
21
Commitment savings
  • Do people need help with self-control, with
    committing to savings?
  • Ashraf, Karlan, and Yin (2006), Tying Odysseus
    to the Mast
  • Randomized offer of commitment savings product to
    customers of a rural bank in Philippines
  • Customers pre-commit to save a certain amount or
    for a certain time period before withdrawal
  • Withdrawals not allowed before pre-committed
    amount or time period, except for emergencies

22
Table 1
23
Table 2
24
Table 3
25
Table 5
26
Table 6
27
Comments on Ashraf, Karlan, and Yin
  • Effects may be due to helping overcome
  • Self-discipline problems
  • But also helps resist pressure to share with
    others
  • More research needed on whether this is
    substitution from other forms of saving (other
    banks, or physical asset holdings)
  • A follow-up paper indicates that savings do not
    seem to be sustained in longer term

28
Risk and insurance
29
Agenda
  • Risk-coping mechanisms
  • Townsend (1994), Udry (1994), and related
    literature
  • A field experiment in Malawi insurance, credit,
    and technology adoption

30
Micro-level responses to risk
  • How do households cope with risk?
  • In rich countries, people have insurance
  • Fire insurance, home insurance, auto insurance,
    life insurance, medical insurance
  • These insulate people from the potentially
    ruinous effects of catastrophic shocks
  • In poor countries, formal insurance markets tend
    not to exist or to be very limited
  • The poor have to rely on informal insurance
  • A vast literature in development economics
    illustrates the ingenious ways poor households
    insure themselves from adverse shocks
  • A theme idiosyncratic risk is easier to cope
    with than aggregate risk

31
Poverty and vulnerability a vicious circle
Poverty
Vulnerability
32
Ways to cope with risk
  • Ex ante smooth income
  • Ex post smooth consumption

33
Smoothing income
  • Choose a safe production technology farm a food
    crop like cassava rather than a cash crop like
    coffee
  • Avoid risky new investments, transitions to
    different technologies (Malawi example)
  • Diversify income sources
  • Diversify farming plots spatially
  • References Morduch (1992, 1995, 1999)
  • Note all of these are costly (reduce average
    income, even while making income more stable)

34
Smoothing consumption
  • Reciprocal transfers (informal insurance)
  • Coate and Ravallion (1993), Townsend (1994), Udry
    (1994), Ligon (1998), Banerjee and Newman (1993)
  • Credit Udry (1994)
  • Asset sales Rosenzweig and Wolpin (1993)
  • Savings Paxson (1992)
  • Labor supply Kochar (1999)
  • Migration by family members Rosenzweig and Stark
    (1989)
  • Remittances Yang (2008), Yang and Choi (2007)

35
Theory risk-sharing between households
  • Basic result if there is a Pareto-efficient
    allocation of risk across households, one
    householdss consumption should not depend on
    idiosyncratic shocks
  • 2 households, indexed by i1,2
  • Uncertain income, separable utility
  • Pareto efficient allocation of risk between
    households 1 and 2 implies
  • Any two households marginal utilities are
    proportional
  • consumption moves in tandem
  • If utility is CARA

36
Empirical implication
  • Consumption depends only on mean village income
    (and households weight in the Pareto program),
    and not on idiosyncratic shocks
  • Consumption should comove within villages
  • Empirical test regress household consumption on
    idiosyncratic shocks, controlling for village
    income (or village fixed effects in panel
    setting), and idiosyncratic shocks should not
    have effect
  • Townsend (1994), Ravallion and Chaudhuri (1997)
    find high degree of comovement in consumption
    across Indian ICRISAT households, even with
    substantial idiosyncratic income variation
  • But can reject full risk-sharing (idiosyncratic
    shocks do have some effect)

37
Insurance, Credit and Technology Adoption Field
Experimental Evidence from Malawi
Xavier Gine World Bank Dean Yang University of
Michigan
38
A technology adoption puzzle
  • Green Revolution high-yield crop varieties have
    led to significant increases in agricultural
    productivity worldwide
  • But there is enormous variation in the extent to
    which households have adopted these new
    technologies
  • In Malawi, hybrid maize adoption has lagged
    behind Kenya, Zambia, and Zimbabwe
  • Need to look beyond credit constraints even when
    credit offered, only 33 of farmers took up a
    loan for improved seeds

39
Credit or insurance as the key barrier?
  • In observational data, the relative importance of
    credit constraints and imperfect insurance may be
    confounded
  • Example widely-observed correlation between
    wealth and adoption of new technology
  • May be because wealthier farmers have better
    access to credit
  • But wealthier households may also have better
    access to (formal and informal) insurance
    mechanisms
  • Disentangling the two explanations is crucial to
    good policymaking
  • Needed exogenous variation in insurance

40
Technology adoption, risk, and credit
  • Key question Does risk inhibit adoption of new
    technologies?
  • High-yielding varieties have higher yields but
    may also be riskier
  • So households unwilling to bear fluctuations in
    their consumption may decide not to adopt
  • Downside risk of adoption may be exacerbated when
    adoption requires credit
  • Failure of crop is compounded by the consequences
    of default
  • Problem absent or imperfect insurance markets

41
This paper
  • A field experiment where insurance was allocated
    randomly
  • Question of interest
  • Does providing insurance against a major source
    of risk increase farmers willingness to take out
    a loan to adopt a new technology?
  • Adoption decision whether or not to take out a
    loan for improved groundnut and maize seeds

42
Harvesting groundnuts
43
Weather insurance and loan take-up in theory
  • Risk-averse farmers choose between traditional
    seeds, and taking out loan for improved seeds
  • Improved seeds have higher mean yield, but are
    riskier
  • Consider attractiveness of bundling loan with
    weather insurance (at actuarially fair rate)
  • Loans subject to limited liability in case of
    default, lender can only seize the value of
    production
  • Under certain conditions, farmers might take the
    uninsured loan if offered, but prefer the status
    quo (traditional seeds) to the insured loan
  • Basic idea limited liability provides implicit
    insurance
  • Insurance premium may exceed benefit from
    insurance
  • Rosenzweig and Wolpin (1993) welfare gain from
    actuarially-fair weather insurance is minimal

44
Simple model
  • Output from traditional seeds YT
  • Output from improved seeds YH, YL with
    probabilities p, 1-p
  • Output positively covaries with rainfall
  • Farmers are offered loans to purchase improved
    seeds (repayment R) lender can only confiscate
    production, but cannot seize assets (so there is
    a consumption floor)
  • CRRA utility u(c) c1-s/(1-s)
  • Farmers are heterogeneous in risk aversion (si)
    and low-state income from improved seeds (YL,i)
  • Some farmers offered loan bundled with
    actuarially fair rainfall insurance policy (loan
    forgiven if low state occurs)
  • Does rainfall insurance raise loan take-up?

45
What farmers take up the loan?
  • Find coefficient of relative risk aversion
    sTU(YL) such that farmer whose si sTU is
    indifferent between traditional seeds and
    uninsured loan for hybrid seeds
  • Farmer takes up the uninsured loan if si lt sTU
  • Find analogous cutoff for insured loan, sTI(YL)
  • Cutoffs will be function of income from improved
    seeds in low state, YL
  • See Figure 1

46
Figure 1
47
Key partners in project
  • Rural lenders
  • Malawi Rural Finance Company (MRFC)
  • Opportunity International Bank of Malawi (OIBM)
  • National Smallholder Farmers Association of
    Malawi (NASFAM)
  • Contact with farmers
  • Insurance Association of Malawi
  • Underwrites insurance
  • World Bank / University of Michigan
  • Technical advice on design of insurance policy
  • Design of randomized evaluation

48
Experimental design
  • Joint liability loans for clubs of 10-15
    farmers
  • Participation is individual farmer decision
  • Randomization across 32 localities
  • Treatment farmers offered hybrid seed loan with
    insurance against poor rainfall
  • 393 farmers
  • Control farmers offered hybrid seed loan only
    (no insurance)
  • 394 farmers

49
Loan details
  • Farmers given option to purchase either groundnut
    package only, or both groundnut and maize
  • Seeds and fertilizer for planting 1 acre
    (groundnut) or ½ acre (maize)
  • Initial deposit of 12.5 of principal
  • Repayment due in 10 months
  • 27.5 interest rate (33 annual interest rate x
    10/12)
  • Maize repayment
  • Uninsured 36
  • Insured 40-43
  • Groundnut repayment
  • Uninsured 34
  • Insured 36-38

50
Weather insurance policy
  • Farmers insured against poor rainfall as measured
    at nearest weather station
  • Paid continuous amount depending on shortfall
    below 1st trigger, up to maximum amount for
    rainfall at or below 2nd trigger
  • Insurance premium actuarially fair price
    17.5 surtax

51
Insurance payout structure
payout
2nd trigger (corresponds to crop failure)
1st trigger
rainfall during phase
52
Project locations
53
Orientation meeting, October 2006
54
Simple treatment-control comparison
  • Take-up rate for uninsured loan 33.0
  • Take-up rate for insured loan 17.6

55
Regression specification
  • For farmer i in group j
  • Yij a bIj fXij eij
  • Yij takeup indicator
  • Ij treatment indicator
  • Xij vector of control variables (collected at
    baseline)
  • Standard errors reported
  • clustered at locality level
  • bootstrapped

56
Impact of insurance on take-up
Table 3 Impact of insurance on take-up of loan for hybrid seeds Table 3 Impact of insurance on take-up of loan for hybrid seeds Table 3 Impact of insurance on take-up of loan for hybrid seeds Table 3 Impact of insurance on take-up of loan for hybrid seeds
(Ordinary least-squares estimates)

Dependent variable Respondent took up loan for November 2006 planting season Dependent variable Respondent took up loan for November 2006 planting season Dependent variable Respondent took up loan for November 2006 planting season Dependent variable Respondent took up loan for November 2006 planting season

(1) (2) (3) (4)

Treatment indicator -0.154 -0.141 -0.132 -0.128
0.109 0.082 0.082 0.074
Clustered s.e. p-value 0.155 0.085 0.107 0.082
Bootstrapped p-value 0.198 0.116 0.140 0.120

Region fixed effects Y Y Y
Linear control variables Y
Indicators for 5-year age categories Y
Land quintile indicators Y
Income quintile indicators Y
Education quintile indicators Y

Mean dependent variable 0.253 0.253 0.253 0.253
Observations 787 787 787 787
R-squared 0.03 0.13 0.15 0.17

significant at 10 significant at 5 significant at 1 significant at 10 significant at 5 significant at 1 significant at 10 significant at 5 significant at 1
57
Implied interest rate elasticity
  • For a farmer placing zero value on insurance,
    effective annual interest rates for groundnut
    loan were
  • 27.5 for uninsured loan
  • 37.8 to 44.4 for insured loan (varied according
    to location)
  • The 13-percentage-point decline in take-up (from
    baseline 33.0) ? a 39.4 decline
  • Increase in effective interest rate due to
    insurance 37.5 to 61.3
  • Implied interest rate elasticity of credit demand
    ranging from 0.64 to 1.05

58
Additional testable predictions from theory
  • Take-up rates for insured vs. uninsured loan
    suggest that sample tends to have lower levels of
    YL
  • In this range of YL, there is another theoretical
    implication to test
  • YL should be positively correlated with take-up
    of insured loan
  • But not correlated with take-up of uninsured
    loan
  • But how to measure YL?
  • Assume farmers with higher socio-economic status
    have higher YL
  • Regress take-up on education, income, and wealth
  • Separately for farmers offered insured and
    uninsured loans

59
Figure 1
60
Other determinants of take-up
Table 5 Determinants of take-up in treatment and control groups Table 5 Determinants of take-up in treatment and control groups Table 5 Determinants of take-up in treatment and control groups Table 5 Determinants of take-up in treatment and control groups Table 5 Determinants of take-up in treatment and control groups
(Ordinary least-squares estimates) (Ordinary least-squares estimates)

Dependent variable Respondent took up loan for November 2006 planting season Dependent variable Respondent took up loan for November 2006 planting season Dependent variable Respondent took up loan for November 2006 planting season Dependent variable Respondent took up loan for November 2006 planting season Dependent variable Respondent took up loan for November 2006 planting season Dependent variable Respondent took up loan for November 2006 planting season

Treatment group (insured loan) Treatment group (insured loan) Treatment group (insured loan) Treatment group (insured loan) Treatment group (insured loan) Treatment group (insured loan) Control group (uninsured loan) Control group (uninsured loan) Control group (uninsured loan) Control group (uninsured loan) Control group (uninsured loan) Control group (uninsured loan)
(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

Years of schooling 0.014 0.011 -0.001 -0.002
0.005 0.005 0.008 0.009
Net income (MK 100,000) 0.098 0.075 0.004 0.003
0.059 0.053 0.010 0.010
House quality 0.041 0.027 0.011 0.011
0.027 0.030 0.022 0.022
Land owned 0.001 0.001 0.001 0.001
0.003 0.003 0.002 0.002
Risk aversion (self-reported) -0.008 -0.008 -0.015 -0.015
0.006 0.006 0.004 0.004

Region fixed effects Y Y Y Y Y Y Y Y Y Y Y Y

Mean dependent variable 0.176 0.176 0.176 0.176 0.176 1.176 0.330 0.330 0.330 0.330 0.330 0.330
Observations 393 393 393 393 393 393 394 394 394 394 394 394
R-squared 0.074 0.078 0.073 0.058 0.061 0.101 0.274 0.274 0.274 0.274 0.286 0.287

F-stat Joint signif. of first 4 indep. variables F-stat Joint signif. of first 4 indep. variables F-stat Joint signif. of first 4 indep. variables F-stat Joint signif. of first 4 indep. variables F-stat Joint signif. of first 4 indep. variables 3.446 F-stat Joint signif. of first 4 indep. variables F-stat Joint signif. of first 4 indep. variables F-stat Joint signif. of first 4 indep. variables F-stat Joint signif. of first 4 indep. variables F-stat Joint signif. of first 4 indep. variables 0.113
P-value 0.03 P-value 0.98

significant at 10 significant at 5 significant at 1 significant at 10 significant at 5 significant at 1 significant at 10 significant at 5 significant at 1 significant at 10 significant at 5 significant at 1
Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions. Notes -- Standard errors clustered by localities in square brackets. Dependent variable equal to 1 if respondent took up loan for November 2006 planting season, and 0 otherwise. Omitted region indicator is for Kasungu. See Appendix for variable definitions.
61
Other potential explanations
  • Complexity
  • Risk priming
  • Differential default cost perceptions

62
In sum
  • Take-up is lower for loans bundled with insurance
    against poor rainfall (priced actuarially fairly)
  • Compared with identical loans that are uninsured
  • Potential explanation
  • Farmers already implicitly insured by limited
    liability inherent in loan contract
  • Reduces value of the formal, explicit insurance
  • Among farmers offered the insured loan, take-up
    is higher among farmers with higher education,
    income, and wealth
  • But not among farmers offered the uninsured loan
  • Perhaps because higher-status farmers have higher
    default costs

63
Ongoing related research
  • Current projects continue to examine the nature
    of constraints that Malawian farmers face in
    financial markets
  • Credit
  • How important are difficulties in enforcement in
    limiting credit supply in rural areas?
  • In particular, can improvements in identification
    technology raise loan repayment rates?
  • Savings
  • How important are imperfect savings mechanisms in
    explaining low input use on farms?
  • How important are transactions costs in
    explaining low utilization of formal savings
    mechanisms?
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