Spectral induced polarization signatures of abiotic FeS precipitation

Dimitrios Ntarlagiannis; Rory Doherty; Kenneth H. Williams

doi:10.1190/1.3467759

Spectral induced polarization signatures of abiotic FeS precipitation

Dimitrios Ntarlagiannis, Rory Doherty, Kenneth H. Williams

School of Natural and Built Environment

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Abstract

In recent years, geophysical methods have been shown to be sensitive to microbial-induced mineralization processes. The spectral induced-polarization (SIP) method appears to be very promising for monitoring mineralization and microbial processes. With this work, we study the links of mineralization and SIP signals, in the absence of microbial activity. We recorded the SIP response during abiotic FeS precipitation. We show that the SIP signals are diagnostic of FeS mineralization and can be differentiated from SIP signals from biomineralization processes. More specifically, the imaginary conductivity shows almost linear dependence on the amount of FeS precipitating out of solution, above the threshold value 0.006 gr under our experimental conditions. This research has direct implications for the use of the SIP method as a monitoring and decision-making tool for sustainable remediation of metals in contaminated soils and groundwater.

Original language	English
Pages (from-to)	F127-F133
Number of pages	7
Journal	Geophysics
Volume	75
Issue number	4
DOIs	https://doi.org/10.1190/1.3467759
Publication status	Published - 01 Jul 2010

Keywords

geophysics, SIP, FeS, precipitation, contaminated land

ASJC Scopus subject areas

Geochemistry and Petrology
Geophysics

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title = "Spectral induced polarization signatures of abiotic FeS precipitation",

abstract = "In recent years, geophysical methods have been shown to be sensitive to microbial-induced mineralization processes. The spectral induced-polarization (SIP) method appears to be very promising for monitoring mineralization and microbial processes. With this work, we study the links of mineralization and SIP signals, in the absence of microbial activity. We recorded the SIP response during abiotic FeS precipitation. We show that the SIP signals are diagnostic of FeS mineralization and can be differentiated from SIP signals from biomineralization processes. More specifically, the imaginary conductivity shows almost linear dependence on the amount of FeS precipitating out of solution, above the threshold value 0.006 gr under our experimental conditions. This research has direct implications for the use of the SIP method as a monitoring and decision-making tool for sustainable remediation of metals in contaminated soils and groundwater.",

keywords = "geophysics, SIP, FeS, precipitation, contaminated land ",

author = "Dimitrios Ntarlagiannis and Rory Doherty and Williams, \{Kenneth H.\}",

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T1 - Spectral induced polarization signatures of abiotic FeS precipitation

AU - Ntarlagiannis, Dimitrios

AU - Doherty, Rory

AU - Williams, Kenneth H.

PY - 2010/7/1

Y1 - 2010/7/1

N2 - In recent years, geophysical methods have been shown to be sensitive to microbial-induced mineralization processes. The spectral induced-polarization (SIP) method appears to be very promising for monitoring mineralization and microbial processes. With this work, we study the links of mineralization and SIP signals, in the absence of microbial activity. We recorded the SIP response during abiotic FeS precipitation. We show that the SIP signals are diagnostic of FeS mineralization and can be differentiated from SIP signals from biomineralization processes. More specifically, the imaginary conductivity shows almost linear dependence on the amount of FeS precipitating out of solution, above the threshold value 0.006 gr under our experimental conditions. This research has direct implications for the use of the SIP method as a monitoring and decision-making tool for sustainable remediation of metals in contaminated soils and groundwater.

AB - In recent years, geophysical methods have been shown to be sensitive to microbial-induced mineralization processes. The spectral induced-polarization (SIP) method appears to be very promising for monitoring mineralization and microbial processes. With this work, we study the links of mineralization and SIP signals, in the absence of microbial activity. We recorded the SIP response during abiotic FeS precipitation. We show that the SIP signals are diagnostic of FeS mineralization and can be differentiated from SIP signals from biomineralization processes. More specifically, the imaginary conductivity shows almost linear dependence on the amount of FeS precipitating out of solution, above the threshold value 0.006 gr under our experimental conditions. This research has direct implications for the use of the SIP method as a monitoring and decision-making tool for sustainable remediation of metals in contaminated soils and groundwater.

KW - geophysics, SIP, FeS, precipitation, contaminated land

U2 - 10.1190/1.3467759

DO - 10.1190/1.3467759

M3 - Article

SN - 0016-8033

VL - 75

SP - F127-F133

JO - Geophysics

JF - Geophysics

IS - 4

ER -

Spectral induced polarization signatures of abiotic FeS precipitation

Abstract

Keywords

ASJC Scopus subject areas

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