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Mission impossible? exploring the promise of multiple imputation for predicting missing GPS-based land area measures in household surveys

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  • Kilic,Talip
  • Yacoubou Djima,Ismael
  • Carletto,Calogero
  • Kilic,Talip
  • Yacoubou Djima,Ismael
  • Carletto,Calogero

Abstract

Methodological research has showcased GPS technology as the new gold-standard in land area measurement in large-scale household surveys. Nonetheless, facing budget constraints, survey agencies continue to measure with GPS only plots within sampled enumeration areas or a given radius of dwelling locations. It is, subsequently, common for significant shares of plots not to be measured, and research has demonstrated that the incomplete datasets are subject to selection bias. This study relies on nationally-representative survey data from Malawi and Ethiopia that exhibit near-negligible missingness in GPS-based plot areas and uses these datasets to gauge the limits to the accuracy of a Multiple Imputation (MI) application for predicting GPS-based areas for plots that would typically be considered out-of-scope. The analysis (i) artificially creates missingness in area measures, ranging from 1 to 100 percent, among the plots that are beyond two operationally-relevant distance thresholds with respect to the dwellings; (ii) multiply-imputes"missing"values in each dataset created by a distance threshold-missingness combination; and (iii) compares the distributions of the imputed plot-level outcomes with the distributions of their true, observed counterparts. In Malawi, the multiply-imputed distribution of plot-level land productivity is statistically indistinguishable from the true distribution in each imputed dataset with up to 82 percent missingness in GPS-based plot areas that are more than 1 kilometer away from the associated dwellings. The comparable figure in Ethiopia is 56 percent. The study highlights the promise of MI for simulating missing area measures and provides recommendations for optimizing fieldwork to capture the minimum required data.

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  • Kilic,Talip & Yacoubou Djima,Ismael & Carletto,Calogero & Kilic,Talip & Yacoubou Djima,Ismael & Carletto,Calogero, 2017. "Mission impossible? exploring the promise of multiple imputation for predicting missing GPS-based land area measures in household surveys," Policy Research Working Paper Series 8138, The World Bank.
    • Handle: RePEc:wbk:wbrwps:8138
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    References listed on IDEAS

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    1. Carletto, Calogero & Savastano, Sara & Zezza, Alberto, 2013. "Fact or artifact: The impact of measurement errors on the farm size–productivity relationship," Journal of Development Economics, Elsevier, vol. 103(C), pages 254-261.
    2. Calogero Carletto & Sydney Gourlay & Paul Winters, 2015. "Editor's choice From Guesstimates to GPStimates: Land Area Measurement and Implications for Agricultural Analysis," Journal of African Economies, Centre for the Study of African Economies, vol. 24(5), pages 593-628.
    3. Kilic, Talip & Palacios-López, Amparo & Goldstein, Markus, 2015. "Caught in a Productivity Trap: A Distributional Perspective on Gender Differences in Malawian Agriculture," World Development, Elsevier, vol. 70(C), pages 416-463.
    4. Kobi Abayomi & Andrew Gelman & Marc Levy, 2008. "Diagnostics for multivariate imputations," Journal of the Royal Statistical Society Series C, Royal Statistical Society, vol. 57(3), pages 273-291, June.
    5. Carletto,Calogero & Gourlay,Sydney & Murray,Siobhan & Zezza,Alberto & Carletto,Calogero & Gourlay,Sydney & Murray,Siobhan & Zezza,Alberto, 2016. "Cheaper, faster, and more than good enough : is GPS the new gold standard in land area measurement ?," Policy Research Working Paper Series 7759, The World Bank.
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    2. Gourlay, Sydney & Kilic, Talip & Lobell, David B., 2019. "A new spin on an old debate: Errors in farmer-reported production and their implications for inverse scale - Productivity relationship in Uganda," Journal of Development Economics, Elsevier, vol. 141(C).
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