Sight for Sorghums: Comparisons of Satellite- and Ground-Based Sorghum Yield Estimates in Mali

Sight for Sorghums: Comparisons of Satellite- and Ground-Based Sorghum Yield Estimates in Mali

The advent of multiple satellite systems capable of resolving smallholder agricultural plots raises possibilities for significant advances in measuring and understanding agricultural productivity in smallholder systems. However, since only imperfect yield data are typically available for model train...

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Main Authors: David B. Lobell, Stefania Di Tommaso, Calum You, Ismael Yacoubou Djima, Marshall Burke, Talip Kilic
Format: Article
Language:English
Published: MDPI AG 2019-12-01
Series:Remote Sensing
Subjects:
crop yield estimation
crop cutting
remote sensing
mali
sub-saharan africa
Online Access:https://www.mdpi.com/2072-4292/12/1/100
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spelling doaj-f022ea5579e441a2a8a9c6560858bfbe2020-11-25T01:06:44ZengMDPI AGRemote Sensing2072-42922019-12-0112110010.3390/rs12010100rs12010100Sight for Sorghums: Comparisons of Satellite- and Ground-Based Sorghum Yield Estimates in MaliDavid B. Lobell0Stefania Di Tommaso1Calum You2Ismael Yacoubou Djima3Marshall Burke4Talip Kilic5Department of Earth System Science and Center on Food Security and the Environment, Stanford University, Stanford, CA 94305, USADepartment of Earth System Science and Center on Food Security and the Environment, Stanford University, Stanford, CA 94305, USADepartment of Earth System Science and Center on Food Security and the Environment, Stanford University, Stanford, CA 94305, USALiving Standards Measurement Study (LSMS), Data Production and Methods Unit, Development Data Group, the World Bank, Washington, DC 20433, USADepartment of Earth System Science and Center on Food Security and the Environment, Stanford University, Stanford, CA 94305, USALiving Standards Measurement Study (LSMS), Data Production and Methods Unit, Development Data Group, the World Bank, Washington, DC 20433, USAThe advent of multiple satellite systems capable of resolving smallholder agricultural plots raises possibilities for significant advances in measuring and understanding agricultural productivity in smallholder systems. However, since only imperfect yield data are typically available for model training and validation, assessing the accuracy of satellite-based estimates remains a central challenge. Leveraging a survey experiment in Mali, this study uses plot-level sorghum yield estimates, based on farmer reporting and crop cutting, to construct and evaluate estimates from three satellite-based sensors. Consistent with prior work, the analysis indicates low correlation between the ground-based yield measures (r = 0.33). Satellite greenness, as measured by the growing season peak value of the green chlorophyll vegetation index from Sentinel-2, correlates much more strongly with crop cut (r = 0.48) than with self-reported (r = 0.22) yields. Given the inevitable limitations of ground-based measures, the paper reports the results from the regressions of self-reported, crop cut, and (crop cut-calibrated) satellite sorghum yields. The regression covariates explain more than twice as much variation in calibrated satellite yields (R<sup>2</sup> = 0.25) compared to self-reported or crop cut yields, suggesting that a satellite-based approach anchored in crop cuts can be used to track sorghum yields as well or perhaps better than traditional measures. Finally, the paper gauges the sensitivity of yield predictions to the use of Sentinel-2 versus higher-resolution imagery from Planetscope and DigitalGlobe. All three sensors exhibit similar performance, suggesting little gains from finer resolutions in this system.https://www.mdpi.com/2072-4292/12/1/100crop yield estimationcrop cuttingremote sensingmalisub-saharan africa
collection DOAJ
language English
format Article
sources DOAJ
author David B. Lobell
Stefania Di Tommaso
Calum You
Ismael Yacoubou Djima
Marshall Burke
Talip Kilic
spellingShingle David B. Lobell
Stefania Di Tommaso
Calum You
Ismael Yacoubou Djima
Marshall Burke
Talip Kilic
Sight for Sorghums: Comparisons of Satellite- and Ground-Based Sorghum Yield Estimates in Mali
Remote Sensing
crop yield estimation
crop cutting
remote sensing
mali
sub-saharan africa
author_facet David B. Lobell
Stefania Di Tommaso
Calum You
Ismael Yacoubou Djima
Marshall Burke
Talip Kilic
author_sort David B. Lobell
title Sight for Sorghums: Comparisons of Satellite- and Ground-Based Sorghum Yield Estimates in Mali
title_short Sight for Sorghums: Comparisons of Satellite- and Ground-Based Sorghum Yield Estimates in Mali
title_full Sight for Sorghums: Comparisons of Satellite- and Ground-Based Sorghum Yield Estimates in Mali
title_fullStr Sight for Sorghums: Comparisons of Satellite- and Ground-Based Sorghum Yield Estimates in Mali
title_full_unstemmed Sight for Sorghums: Comparisons of Satellite- and Ground-Based Sorghum Yield Estimates in Mali
title_sort sight for sorghums: comparisons of satellite- and ground-based sorghum yield estimates in mali
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2019-12-01
description The advent of multiple satellite systems capable of resolving smallholder agricultural plots raises possibilities for significant advances in measuring and understanding agricultural productivity in smallholder systems. However, since only imperfect yield data are typically available for model training and validation, assessing the accuracy of satellite-based estimates remains a central challenge. Leveraging a survey experiment in Mali, this study uses plot-level sorghum yield estimates, based on farmer reporting and crop cutting, to construct and evaluate estimates from three satellite-based sensors. Consistent with prior work, the analysis indicates low correlation between the ground-based yield measures (r = 0.33). Satellite greenness, as measured by the growing season peak value of the green chlorophyll vegetation index from Sentinel-2, correlates much more strongly with crop cut (r = 0.48) than with self-reported (r = 0.22) yields. Given the inevitable limitations of ground-based measures, the paper reports the results from the regressions of self-reported, crop cut, and (crop cut-calibrated) satellite sorghum yields. The regression covariates explain more than twice as much variation in calibrated satellite yields (R<sup>2</sup> = 0.25) compared to self-reported or crop cut yields, suggesting that a satellite-based approach anchored in crop cuts can be used to track sorghum yields as well or perhaps better than traditional measures. Finally, the paper gauges the sensitivity of yield predictions to the use of Sentinel-2 versus higher-resolution imagery from Planetscope and DigitalGlobe. All three sensors exhibit similar performance, suggesting little gains from finer resolutions in this system.
topic crop yield estimation
crop cutting
remote sensing
mali
sub-saharan africa
url https://www.mdpi.com/2072-4292/12/1/100
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