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Poverty Impact Assessment: Ex Ante vs. Ex Post

Ex Post Impacts of Improved Maize Varieties on the Poor in Rural Ethiopia Di Zeng, Jeffrey Alwang, George Norton, Bekele Shiferaw, Moti Jaleta , Chilot Yirga. Poverty Impact Assessment: Ex Ante vs. Ex Post. Ex ante. Predicted i ncome d istribution. Observed income distribution.

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Poverty Impact Assessment: Ex Ante vs. Ex Post

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  1. Ex Post Impacts of Improved Maize Varieties on the Poor in Rural EthiopiaDi Zeng, Jeffrey Alwang, George Norton, Bekele Shiferaw, Moti Jaleta, Chilot Yirga

  2. Poverty Impact Assessment: Ex Ante vs. Ex Post Ex ante Predictedincome distribution Observed income distribution Predicted poverty impact Poor Poverty Line Rich Ex post Counterfactual income distribution Observedincome distribution Estimated poverty impact Poor Poverty Line Rich

  3. Maize Production in Ethiopia A major maize producer in Sub-Saharan Africa 19% daily energy contribution (Smale, Byerlee and Jayne, 2011) Mainly cropped in central highlands (>93% total yield, Schneider and Anderson, 2010) Over 40 improved varieties released since 1970s (hybrid and OPV)

  4. Data Description Four regions surveyed in 2010 1,359 households with 2,443 maize plots 564 adopters, 535 non-adopters, and 260 partial adopters 43.3% of maize area under improved varieties Woreda-level monthly precipitation datal for the past 5-10 years from National Meteorology Agency of Ethiopia Tigray Amhara Oromia SNNPR

  5. Kernel Density of Yields

  6. Empirical Specification • Normalize the utility from local varieties to zero, and denote the utility from improved varieties as • The decision rule of adoption • The potential outcomes (Rubin, 1974) in logarithm form are or • The generalized Roy model (Heckman et al., 2006)

  7. Treatment Effect Estimation • Endogenous adoption decision: IV methods • Homogeneity • Probit-2SLS (Wooldridge, 2002) • Selection model (Heckman, 1979) • Heterogeneity • Marginal treatment effect via semiparametric local IV estimation (Björklund and Moffitt,1987; Heckman et al., 2006) • Obtain estimates of percentage yield increase (treatment effect)

  8. Welfare Changes: the Economic Surplus Model

  9. Welfare Changes: Small Open Economy • Directly estimated at household level • Plot level income change: • Aggregated to household: • ΔCik— IV cost function estimation • Counterfactual income distribution computed

  10. Welfare Changes: Closed Economy • STEP 1: Estimate market-level economic surplus changes • The k-shift (Alston et al., 1995) • The counterfactual price level (elasticities synthesized from literature) • The aggregate surplus changes

  11. Welfare Changes: Closed Economy • STEP 2: Allocate market level surplus changes to households • Decomposition of ΔPS • ΔPSprice— allocated to all maize sellers by market shares • ΔPSyield— allocated to all adopters by the yield increases' shares • ΔCS— allocated to all maize buyers by purchase shares among total supply • Counterfactual income distribution computed

  12. Poverty Impacts • Foster-Greer-Thorbecke (FGT, 1984) poverty indices calculated for both observed and counterfactual income distributions • The differences are poverty impacts

  13. Instrumental Variables Production Rainfall intensity of the sowing month Local population density Distance to the nearest agricultural extension office Temporary seed supply shortage (yes / no) Cost Rainfall intensity of the sowing month Distance to the nearest agricultural extension office

  14. Yield Impact: Mean Estimates

  15. Yield Impact: MTE Estimates C-D technology Translog technology

  16. Other Parameter Estimates Cost increase due to adoption — 32.5% The k-shift— 39.1% cost reduction per kilogram Elasticities ε— 0.5 η— -1 Aggregate impacts ΔPS in small open economy —135.9 thousand USD ΔPS in closed economy —101.3 thousand USD ΔCS in closed economy —50.7 thousand million USD Only 6.37% sold maize is consumed by surveyed households

  17. Poverty Impacts: Small Open Economy

  18. Poverty Impacts: Closed Economy

  19. Further Interpretation Individual level A typical adopter with average maize area (0.39 ha) observe 440.5 kg yield increase Such an adopter observe an income increase of45.6 - 72.4 USD (evaluated using average per-capita maize consumption) Population level Sensitivity analyses lend credence to previous estimates 0.7 - 1.2 percentage headcount poverty reduction means0.48 - 0.83 millionrural people have escaped poverty A major achievement

  20. Further Interpretation: Producer Benefits

  21. Concluding Remarks Maize research and variety diffusion has had a substantial effect on poverty in rural Ethiopia The poor benefit the least from maize technologies due to resource constraints: still much room for micro-level policies to work Methodological remarks

  22. References • Smale, M., D. Byerlee, and T. Jayne. 2011. Maize revolutions in Sub-Saharan Africa. World Bank Policy Research working paper. No. WPS 5659. • Schneider, K., and L. Anderson. 2010. Yield Gap and Productivity Potential in Ethiopian Agriculture: Staple Grains & Pulses. Evans School Policy Analysis and Research (EPAR) Brief No. 98. • Rubin, D. 1974. Estimating Causal Effects of Treatments in Randomized and Nonrandomized Studies. Journal of Educational Psychology 66: 688-701 • Wooldridge, J. 2002. Econometric Analysis of Cross Section and Panel Data, MIT Press. • Heckman, J.J., S. Urzua, and E. Vytlacil. 2006. Understanding Instrumental Variables in Models with Essential Heterogeneity. The Review of Economics and Statistics 88: 389-432. • Heckman, J.J. 1979. Sample Selection Bias as a Specification Error. Econometrica 47: 153-61. • Björklund, A., and R. Moffitt. 1987. The Estimation of Wage and Welfare Gains in SelfSelection Models. Review of Economics and Statistics 69: 42-49. • Alston, J.M., G.W. Norton, and P.G. Pardey. 1995. Science under Scarcity: Principles and Practice for Agricultural Research Evaluation and Priority Setting. Ithaca, NY: Cornell University Press. • Foster, J., J. Greer, and E. Thorbecke. 1984. A Class of Decomposable Poverty Measures. Econometrica 52: 761-766. Thank you.

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