Spatial resolution of Normalized Difference Vegetation Index and greenness exposure misclassification in an urban cohort

Background The Normalized Difference Vegetation Index (NDVI) is a measure of greenness widely used in environmental health research. High spatial resolution NDVI has become increasingly available; however, the implications of its use in exposure assessment are not well understood. Objective To quant...

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Bibliographic Details
Published in:Journal of exposure science & environmental epidemiology 2022-03, Vol.32 (2), p.213-222
Main Authors: Jimenez, Raquel B., Lane, Kevin J., Hutyra, Lucy R., Fabian, M. Patricia
Format: Article
Language:English
Subjects:
Boston
Buffers
Child
Cohort Studies
Environmental Health
Environmental research
Epidemiology
Estimates
Exposure
Humans
Landsat
Low income groups
Medicine
Medicine & Public Health
MODIS
Normalized difference vegetative index
Outdoor air quality
Population
Quantiles
Reliability analysis
Remote sensing
Reproducibility of Results
Satellites
Spatial discrimination
Spatial resolution
Urban areas
Vegetation
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Summary:Background The Normalized Difference Vegetation Index (NDVI) is a measure of greenness widely used in environmental health research. High spatial resolution NDVI has become increasingly available; however, the implications of its use in exposure assessment are not well understood. Objective To quantify the impact of NDVI spatial resolution on greenness exposure misclassification. Methods Greenness exposure was assessed for 31,328 children in the Greater Boston Area in 2016 using NDVI from MODIS (250 m 2 ), Landsat 8 (30 m 2 ), Sentinel-2 (10 m 2 ), and the National Agricultural Imagery Program (NAIP, 1 m 2 ). We compared continuous and categorical greenness estimates for multiple buffer sizes under a reliability assessment framework. Exposure misclassification was evaluated using NAIP data as reference. Results Greenness estimates were greater for coarser resolution NDVI, but exposure distributions were similar. Continuous estimates showed poor agreement and high consistency, while agreement in categorical estimates ranged from poor to strong. Exposure misclassification was higher with greater differences in resolution, smaller buffers, and greater number of exposure quantiles. The proportion of participants changing greenness quantiles was higher for MODIS (11–60%), followed by Landsat 8 (6–44%), and Sentinel-2 (5–33%). Significance Greenness exposure assessment is sensitive to spatial resolution of NDVI, aggregation area, and number of exposure quantiles. Greenness exposure decisions should ponder relevant pathways for specific health outcomes and operational considerations.
ISSN:1559-0631
1559-064X
1559-064X
DOI:10.1038/s41370-022-00409-w