Extent and Persistence of Secondary Water Quality Impacts after Enhanced Reductive Bioremediation

Abstract

Electron donor (ED) addition can be very effective in stimulating enhanced reductive bioremediation (ERB) of a wide variety of groundwater contaminants. However, ERB can result Secondary Water Quality Impacts (SWQI) including decreased levels of dissolved oxygen (O2), nitrate (NO3-), and sulfate (SO42-), and elevated levels of dissolved manganese (Mn2+), dissolved iron (Fe2+), methane (CH4), organic carbon, and naturally occurring hazardous compounds(e.g., As). This report summarizes available information on processes controlling the production and natural attenuation of SWQI parameters and can be used as a guide in understanding the magnitude, areal extent and duration of SWQI in ERB treatment zones and the natural attenuation of SWQI parameters as the dissolved solutes migrate down gradient with ambient groundwater flow. This information was compiled from a wide variety of sources including a survey and statistical analysis of SWQI from 47 ERB sites, geochemical model simulations, field studies at sites where organic-rich materials have entered the subsurface (e.g., wastewater, landfill leachate and hydrocarbon plumes), and basic information on physical, chemical and biological processes in the subsurface. This information is then integrated to provide a general conceptual model of the major processes controlling the production and attenuation of SWQI production and attenuation.

Document Details

Document Type

Technical Report

Publication Date

Sep 01, 2015

Accession Number

AD1032696

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