Mapping Urban Risk: Flood Hazards, Race, & Environmental Justice In New York"

Overview

Journal Appl Geogr

Date 2010 Jan 5

PMID 20047020

Citations 19

Authors

Juliana Maantay

Andrew Maroko

Affiliations

Soon will be listed here.

Abstract

This paper demonstrates the importance of disaggregating population data aggregated by census tracts or other units, for more realistic population distribution/location. A newly-developed mapping method, the Cadastral-based Expert Dasymetric System (CEDS), calculates population in hyper-heterogeneous urban areas better than traditional mapping techniques. A case study estimating population potentially impacted by flood hazard in New York City compares the impacted population determined by CEDS with that derived by centroid-containment method and filtered areal weighting interpolation. Compared to CEDS, 37 percent and 72 percent fewer people are estimated to be at risk from floods city-wide, using conventional areal weighting of census data, and centroid-containment selection, respectively. Undercounting of impacted population could have serious implications for emergency management and disaster planning. Ethnic/racial populations are also spatially disaggregated to determine any environmental justice impacts with flood risk. Minorities are disproportionately undercounted using traditional methods. Underestimating more vulnerable sub-populations impairs preparedness and relief efforts.

Citing Articles

Using Inundation Extents to Predict Microbial Contamination in Private Wells after Flooding Events.

Drewry K, Jones C, Hayes W, Beighley R, Wang Q, Hochard J Environ Sci Technol. 2024; 58(12):5220-5228.

PMID: 38478973 PMC: 10976889. DOI: 10.1021/acs.est.3c09375.

Examining racial and ethnic heat exposure disparities in New York City (NYC) across different spatial and political scales through geographic effect measure modification.

Sprague N, Uong S, Jacobowitz A, Packard S, Quinn J, Keyes K Environ Res. 2024; 250:118521.

PMID: 38382663 PMC: 11102848. DOI: 10.1016/j.envres.2024.118521.

Evaluating the impact of proximity to reported toxic release facilities and flood events on chronic health outcomes in the city of Galena Park, Texas.

Sansom G, Hernandez R, Johnson J, Newman G, Atoba K, Masterson J Clim Risk Manag. 2023; 40.

PMID: 37975020 PMC: 10652947. DOI: 10.1016/j.crm.2023.100507.

Toxic Tides and Environmental Injustice: Social Vulnerability to Sea Level Rise and Flooding of Hazardous Sites in Coastal California.

Cushing L, Ju Y, Kulp S, Depsky N, Karasaki S, Jaeger J Environ Sci Technol. 2023; 57(19):7370-7381.

PMID: 37129408 PMC: 10193577. DOI: 10.1021/acs.est.2c07481.

Daily Satellite Observations of Nitrogen Dioxide Air Pollution Inequality in New York City, New York and Newark, New Jersey: Evaluation and Application.

Dressel I, Demetillo M, Judd L, Janz S, Fields K, Sun K Environ Sci Technol. 2022; 56(22):15298-15311.

PMID: 36224708 PMC: 9670852. DOI: 10.1021/acs.est.2c02828.

References

Fothergill A, Maestas E, Darlington J . Race, ethnicity and disasters in the United States: a review of the literature. Disasters. 1999; 23(2):156-73. DOI: 10.1111/1467-7717.00111. View

Langford M, Unwin D . Generating and mapping population density surfaces within a geographical information system. Cartogr J. 1994; 31(1):21-6. View

ONeill M, Jerrett M, Kawachi I, Levy J, Cohen A, Gouveia N . Health, wealth, and air pollution: advancing theory and methods. Environ Health Perspect. 2003; 111(16):1861-70. PMC: 1241758. DOI: 10.1289/ehp.6334. View

Turner 2nd B, Kasperson R, Matson P, McCarthy J, Corell R, Christensen L . A framework for vulnerability analysis in sustainability science. Proc Natl Acad Sci U S A. 2003; 100(14):8074-9. PMC: 166184. DOI: 10.1073/pnas.1231335100. View

Neumann C, Forman D, Rothlein J . Hazard screening of chemical releases and environmental equity analysis of populations proximate to toxic release inventory facilities in Oregon. Environ Health Perspect. 1998; 106(4):217-26. PMC: 1532974. DOI: 10.1289/ehp.98106217. View