Biogeochemical processes and geotechnical applications: Progress, opportunities and challenges

J. T. Dejong; K. Soga; E. Kavazanjian; S. Burns; L. A. Van Paassen; A. AL Qabany; A. Aydilek; S. S. Bang; M. Burbank; L. F. Caslake; C. Y. Chen; X. Cheng; J. Chu; S. Ciurli; A. Esnault-Filet; S. Fauriel; N. Hamdan; T. Hata; Y. Inagaki; S. Jefferis; M. Kuo; L. Laloui; J. Larrahondo; D. A.C. Manning; B. Martinez; B. M. Montoya; D. C. Nelson; A. Palomino; P. Renforth; J. C. Santamarina; E. A. Seagren; B. Tanyu; M. Tsesarsky; T. Weaver

doi:10.1680/geot.SIP13.P.017

Biogeochemical processes and geotechnical applications: Progress, opportunities and challenges

J. T. Dejong
, K. Soga
, E. Kavazanjian
, S. Burns
, L. A. Van Paassen
, A. AL Qabany
, A. Aydilek
, S. S. Bang
, M. Burbank
, L. F. Caslake
, C. Y. Chen
, X. Cheng
, J. Chu
, S. Ciurli
, A. Esnault-Filet
, S. Fauriel
, N. Hamdan
, T. Hata
, Y. Inagaki
, S. Jefferis

M. Kuo, L. Laloui, J. Larrahondo, D. A.C. Manning, B. Martinez, B. M. Montoya, D. C. Nelson, A. Palomino, P. Renforth, J. C. Santamarina, E. A. Seagren, B. Tanyu, M. Tsesarsky, T. Weaver

University of California at Davis
University of Cambridge
Arizona State University
Georgia Institute of Technology
Delft University of Technology
University of Maryland, College Park
South Dakota School of Mines & Technology
University of Idaho
Lafayette College
National Chung Cheng University
Tsinghua University
Iowa State University
University of Bologna
Research and Development Department
Swiss Federal Institute of Technology Lausanne
National Institute of Technology, Nagano College
Public Works Institute
University of Oxford
INGETEC S. A.
Newcastle University
GeoSyntec Consultants
North Carolina State University
University of Tennessee, Knoxville
Michigan Technological University
George Mason University
The Jacob Blaustein Institutes for Desert Research
United States Nuclear Regulatory Commission

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

803 Scopus citations

Abstract

Consideration of soil as a living ecosystem offers the potential for innovative and sustainable solutions to geotechnical problems. This is a new paradigm for many in geotechnical engineering. Realising the potential of this paradigm requires a multidisciplinary approach that embraces biology and geochemistry to develop techniques for beneficial ground modification. This paper assesses the progress, opportunities, and challenges in this emerging field. Biomediated geochemical processes, which consist of a geochemical reaction regulated by subsurface microbiology, currently being explored include mineral precipitation, gas generation, biofilm formation and biopolymer generation. For each of these processes, subsurface microbial processes are employed to create an environment conducive to the desired geochemical reactions among the minerals, organic matter, pore fluids, and gases that constitute soil. Geotechnical applications currently being explored include cementation of sands to enhance bearing capacity and liquefaction resistance, sequestration of carbon, soil erosion control, groundwater flow control, and remediation of soil and groundwater impacted by metals and radio-nuclides. Challenges in biomediated ground modification include upscaling processes from the laboratory to the field, in situ monitoring of reactions, reaction products and properties, developing integrated biogeochemical and geotechnical models, management of treatment by-products, establishing the durability and longevity/reversibility of the process, and education of engineers and researchers.

Original language	English
Pages (from-to)	287-301
Number of pages	15
Journal	Geotechnique
Volume	63
Issue number	4
DOIs	https://doi.org/10.1680/geot.SIP13.P.017
State	Published - Mar 2013
Externally published	Yes

Keywords

Chemical properties
Environmental engineering
Ground improvement
Remediation
Soil stabilisation

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10.1680/geot.SIP13.P.017

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Dejong, J. T., Soga, K., Kavazanjian, E., Burns, S., Van Paassen, L. A., AL Qabany, A., Aydilek, A., Bang, S. S., Burbank, M., Caslake, L. F., Chen, C. Y., Cheng, X., Chu, J., Ciurli, S., Esnault-Filet, A., Fauriel, S., Hamdan, N., Hata, T., Inagaki, Y., ... Weaver, T. (2013). Biogeochemical processes and geotechnical applications: Progress, opportunities and challenges. Geotechnique, 63(4), 287-301. https://doi.org/10.1680/geot.SIP13.P.017

@article{a314be82d5fd4f15aac9b2d76076f41b,

title = "Biogeochemical processes and geotechnical applications: Progress, opportunities and challenges",

abstract = "Consideration of soil as a living ecosystem offers the potential for innovative and sustainable solutions to geotechnical problems. This is a new paradigm for many in geotechnical engineering. Realising the potential of this paradigm requires a multidisciplinary approach that embraces biology and geochemistry to develop techniques for beneficial ground modification. This paper assesses the progress, opportunities, and challenges in this emerging field. Biomediated geochemical processes, which consist of a geochemical reaction regulated by subsurface microbiology, currently being explored include mineral precipitation, gas generation, biofilm formation and biopolymer generation. For each of these processes, subsurface microbial processes are employed to create an environment conducive to the desired geochemical reactions among the minerals, organic matter, pore fluids, and gases that constitute soil. Geotechnical applications currently being explored include cementation of sands to enhance bearing capacity and liquefaction resistance, sequestration of carbon, soil erosion control, groundwater flow control, and remediation of soil and groundwater impacted by metals and radio-nuclides. Challenges in biomediated ground modification include upscaling processes from the laboratory to the field, in situ monitoring of reactions, reaction products and properties, developing integrated biogeochemical and geotechnical models, management of treatment by-products, establishing the durability and longevity/reversibility of the process, and education of engineers and researchers.",

keywords = "Chemical properties, Environmental engineering, Ground improvement, Remediation, Soil stabilisation",

author = "Dejong, \{J. T.\} and K. Soga and E. Kavazanjian and S. Burns and \{Van Paassen\}, \{L. A.\} and \{AL Qabany\}, A. and A. Aydilek and Bang, \{S. S.\} and M. Burbank and Caslake, \{L. F.\} and Chen, \{C. Y.\} and X. Cheng and J. Chu and S. Ciurli and A. Esnault-Filet and S. Fauriel and N. Hamdan and T. Hata and Y. Inagaki and S. Jefferis and M. Kuo and L. Laloui and J. Larrahondo and Manning, \{D. A.C.\} and B. Martinez and Montoya, \{B. M.\} and Nelson, \{D. C.\} and A. Palomino and P. Renforth and Santamarina, \{J. C.\} and Seagren, \{E. A.\} and B. Tanyu and M. Tsesarsky and T. Weaver",

year = "2013",

month = mar,

doi = "10.1680/geot.SIP13.P.017",

language = "English",

volume = "63",

pages = "287--301",

journal = "Geotechnique",

issn = "0016-8505",

publisher = "ICE Publishing",

number = "4",

}

Dejong, JT, Soga, K, Kavazanjian, E, Burns, S, Van Paassen, LA, AL Qabany, A, Aydilek, A, Bang, SS, Burbank, M, Caslake, LF, Chen, CY, Cheng, X, Chu, J, Ciurli, S, Esnault-Filet, A, Fauriel, S, Hamdan, N, Hata, T, Inagaki, Y, Jefferis, S, Kuo, M, Laloui, L, Larrahondo, J, Manning, DAC, Martinez, B, Montoya, BM, Nelson, DC, Palomino, A, Renforth, P, Santamarina, JC, Seagren, EA, Tanyu, B, Tsesarsky, M & Weaver, T 2013, 'Biogeochemical processes and geotechnical applications: Progress, opportunities and challenges', Geotechnique, vol. 63, no. 4, pp. 287-301. https://doi.org/10.1680/geot.SIP13.P.017

TY - JOUR

T1 - Biogeochemical processes and geotechnical applications

T2 - Progress, opportunities and challenges

AU - Dejong, J. T.

AU - Soga, K.

AU - Kavazanjian, E.

AU - Burns, S.

AU - Van Paassen, L. A.

AU - AL Qabany, A.

AU - Aydilek, A.

AU - Bang, S. S.

AU - Burbank, M.

AU - Caslake, L. F.

AU - Chen, C. Y.

AU - Cheng, X.

AU - Chu, J.

AU - Ciurli, S.

AU - Esnault-Filet, A.

AU - Fauriel, S.

AU - Hamdan, N.

AU - Hata, T.

AU - Inagaki, Y.

AU - Jefferis, S.

AU - Kuo, M.

AU - Laloui, L.

AU - Larrahondo, J.

AU - Manning, D. A.C.

AU - Martinez, B.

AU - Montoya, B. M.

AU - Nelson, D. C.

AU - Palomino, A.

AU - Renforth, P.

AU - Santamarina, J. C.

AU - Seagren, E. A.

AU - Tanyu, B.

AU - Tsesarsky, M.

AU - Weaver, T.

PY - 2013/3

Y1 - 2013/3

N2 - Consideration of soil as a living ecosystem offers the potential for innovative and sustainable solutions to geotechnical problems. This is a new paradigm for many in geotechnical engineering. Realising the potential of this paradigm requires a multidisciplinary approach that embraces biology and geochemistry to develop techniques for beneficial ground modification. This paper assesses the progress, opportunities, and challenges in this emerging field. Biomediated geochemical processes, which consist of a geochemical reaction regulated by subsurface microbiology, currently being explored include mineral precipitation, gas generation, biofilm formation and biopolymer generation. For each of these processes, subsurface microbial processes are employed to create an environment conducive to the desired geochemical reactions among the minerals, organic matter, pore fluids, and gases that constitute soil. Geotechnical applications currently being explored include cementation of sands to enhance bearing capacity and liquefaction resistance, sequestration of carbon, soil erosion control, groundwater flow control, and remediation of soil and groundwater impacted by metals and radio-nuclides. Challenges in biomediated ground modification include upscaling processes from the laboratory to the field, in situ monitoring of reactions, reaction products and properties, developing integrated biogeochemical and geotechnical models, management of treatment by-products, establishing the durability and longevity/reversibility of the process, and education of engineers and researchers.

AB - Consideration of soil as a living ecosystem offers the potential for innovative and sustainable solutions to geotechnical problems. This is a new paradigm for many in geotechnical engineering. Realising the potential of this paradigm requires a multidisciplinary approach that embraces biology and geochemistry to develop techniques for beneficial ground modification. This paper assesses the progress, opportunities, and challenges in this emerging field. Biomediated geochemical processes, which consist of a geochemical reaction regulated by subsurface microbiology, currently being explored include mineral precipitation, gas generation, biofilm formation and biopolymer generation. For each of these processes, subsurface microbial processes are employed to create an environment conducive to the desired geochemical reactions among the minerals, organic matter, pore fluids, and gases that constitute soil. Geotechnical applications currently being explored include cementation of sands to enhance bearing capacity and liquefaction resistance, sequestration of carbon, soil erosion control, groundwater flow control, and remediation of soil and groundwater impacted by metals and radio-nuclides. Challenges in biomediated ground modification include upscaling processes from the laboratory to the field, in situ monitoring of reactions, reaction products and properties, developing integrated biogeochemical and geotechnical models, management of treatment by-products, establishing the durability and longevity/reversibility of the process, and education of engineers and researchers.

KW - Chemical properties

KW - Environmental engineering

KW - Ground improvement

KW - Remediation

KW - Soil stabilisation

UR - https://www.scopus.com/pages/publications/84878067145

U2 - 10.1680/geot.SIP13.P.017

DO - 10.1680/geot.SIP13.P.017

M3 - Article

AN - SCOPUS:84878067145

SN - 0016-8505

VL - 63

SP - 287

EP - 301

JO - Geotechnique

JF - Geotechnique

IS - 4

ER -

Biogeochemical processes and geotechnical applications: Progress, opportunities and challenges

Abstract

Keywords

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