Rising groundwater levels in Dare County, North Carolina: implications for onsite wastewater management for coastal communities

Author:

O'Driscoll Michael1ORCID,Humphrey Charles2,Iverson Guy2,Bowden Jared3,Harrison Jane4

Affiliation:

1. a Environmental Health Sciences Program, Department of Coastal Studies, East Carolina University, 250 Flanagan, Greenville, NC 27858, USA

2. b Environmental Health Sciences Program, Department of Health and Human Performance, East Carolina University, Greenville, NC, USA

3. c North Carolina State Climate Office, North Carolina State University, Raleigh, NC, USA

4. d North Carolina Sea Grant, North Carolina State University, Raleigh, NC, USA

Abstract

ABSTRACT Onsite wastewater treatment systems (OWTS) are a common wastewater treatment approach in coastal communities. Vertical separation distance (VSD) requirements between the drainfield and groundwater aim to ensure aerated soils for wastewater treatment. When the VSD declines, OWTS can fail. This study evaluated groundwater response to sea level rise (SLR) and the implications for OWTS. A groundwater monitoring network (13 wells) was used to evaluate groundwater depth in Dare County, North Carolina. Groundwater levels were measured with water level meters and pressure transducers. Trends in groundwater depth and SLR were analyzed to evaluate the influence of SLR on groundwater depth. From 1984–2022, mean groundwater levels have risen (∼7.6 mm/year) in response to SLR. Currently, sites at <2.7 m land elevation are most likely to have groundwater depths <1 m and inadequate VSD. Based on current precipitation and NOAA intermediate SLR projections, groundwater depth projections suggest that OWTS at lower elevations are more likely to experience groundwater inundation by 2040–2060. SLR has resulted in reduced VSD causing diminished wastewater treatment capacity in low-lying areas. OWTS VSD requirements are typically static due to regulatory constraints. Future management approaches should consider adapting to rising coastal groundwater levels because of increasing wastewater contamination risks.

Funder

NOAA Research

Publisher

IWA Publishing

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