Reestablishing Public Health and Land Use Planning to Protect Public Water Supplies

Michael Greenberg; Henry Mayer; K. Tyler Miller; Robert Hordon; Daniel Knee

doi:10.2105/AJPH.93.9.1522

Reestablishing Public Health and Land Use Planning to Protect Public Water Supplies

Michael Greenberg
, Henry Mayer
, K. Tyler Miller
, Robert Hordon
, Daniel Knee

Edward J. Bloustein School of Planning and Public Policy

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Objectives. This study measured the extent to which land use, design, and engineering practices could reduce contamination of major public water supplies. Methods. Key parcels of land were identified in New Jersey, and the potential uncontrolled loading of contaminants was estimated with the US Environmental Protection Agency's Long-Term Hydrologic Impact Assessment model for a variety of land use, design, and engineering scenarios. Results. High-density per-acre development and engineering controls, along with housing and light commercial activity near main railroads, would substantially reduce runoff. Conclusions. In New Jersey, government and purveyor action is being taken as a result of, and in support of, these findings.

Original language	English (US)
Pages (from-to)	1522-1526
Number of pages	5
Journal	American journal of public health
Volume	93
Issue number	9
DOIs	https://doi.org/10.2105/AJPH.93.9.1522
State	Published - Sep 2003

All Science Journal Classification (ASJC) codes

Public Health, Environmental and Occupational Health

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10.2105/AJPH.93.9.1522

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title = "Reestablishing Public Health and Land Use Planning to Protect Public Water Supplies",

abstract = "Objectives. This study measured the extent to which land use, design, and engineering practices could reduce contamination of major public water supplies. Methods. Key parcels of land were identified in New Jersey, and the potential uncontrolled loading of contaminants was estimated with the US Environmental Protection Agency's Long-Term Hydrologic Impact Assessment model for a variety of land use, design, and engineering scenarios. Results. High-density per-acre development and engineering controls, along with housing and light commercial activity near main railroads, would substantially reduce runoff. Conclusions. In New Jersey, government and purveyor action is being taken as a result of, and in support of, these findings.",

author = "Michael Greenberg and Henry Mayer and Miller, \{K. Tyler\} and Robert Hordon and Daniel Knee",

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AU - Greenberg, Michael

AU - Mayer, Henry

AU - Miller, K. Tyler

AU - Hordon, Robert

AU - Knee, Daniel

PY - 2003/9

Y1 - 2003/9

N2 - Objectives. This study measured the extent to which land use, design, and engineering practices could reduce contamination of major public water supplies. Methods. Key parcels of land were identified in New Jersey, and the potential uncontrolled loading of contaminants was estimated with the US Environmental Protection Agency's Long-Term Hydrologic Impact Assessment model for a variety of land use, design, and engineering scenarios. Results. High-density per-acre development and engineering controls, along with housing and light commercial activity near main railroads, would substantially reduce runoff. Conclusions. In New Jersey, government and purveyor action is being taken as a result of, and in support of, these findings.

AB - Objectives. This study measured the extent to which land use, design, and engineering practices could reduce contamination of major public water supplies. Methods. Key parcels of land were identified in New Jersey, and the potential uncontrolled loading of contaminants was estimated with the US Environmental Protection Agency's Long-Term Hydrologic Impact Assessment model for a variety of land use, design, and engineering scenarios. Results. High-density per-acre development and engineering controls, along with housing and light commercial activity near main railroads, would substantially reduce runoff. Conclusions. In New Jersey, government and purveyor action is being taken as a result of, and in support of, these findings.

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AN - SCOPUS:0141721492

SN - 0090-0036

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SP - 1522

EP - 1526

JO - American journal of public health

JF - American journal of public health

IS - 9

ER -

Reestablishing Public Health and Land Use Planning to Protect Public Water Supplies

Abstract

All Science Journal Classification (ASJC) codes

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