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    Mechanical Properties of Fine-Grained Soils Treated with Fungal Mycelium of <i>Trichoderma virens</i>

    Source: Journal of Geotechnical and Geoenvironmental Engineering:;2025:;Volume ( 151 ):;issue: 005::page 04025030-1
    Author:
    Joon Soo Park
    ,
    Hai Lin
    ,
    Emily Chen
    ,
    Hussein Alqrinawi
    ,
    Yi Dong
    ,
    William M. Moe
    DOI: 10.1061/JGGEFK.GTENG-12745
    Publisher: American Society of Civil Engineers
    Abstract: Recent investigations into bio-mediated soil improvement have identified fungal mycelium as a promising candidate for innovative applications in geotechnical engineering. Fungal mycelia can increase soil water repellency, reduce hydraulic conductivity and increase matric suction by reducing pore size, and cement and bind soil particles together through biomineralization and extracellular polymeric substance (EPS). Previous studies, however, focused primarily on the effects of fungal mycelia on sandy soils. This study investigated the effects of the filamentous fungus Trichoderma virens (ATCC 9645) on mechanical properties of fine-grained soils. Three types of fine-grained soils were used in this study, including Baton Rouge (BR) silt, silica silt, and kaolinite. Unconfined compression, drying cake (DC), and Brazilian tensile strength (BTS) tests were conducted under different moisture contents to measure unconfined compressive strength (UCS), Young’s modulus, soil shrinkage curve, suction stress characteristic curve (SSCC), and tensile strength of untreated, potato dextrose broth (PDB)–treated, and fungal-treated specimens (PDB suspended with fungal mycelia). The results showed T. virens fungal mycelia increased the mean UCS and BTS of BR and silica silts at oven-dry condition by about 100% and 64%, respectively. T. virens fungal mycelia resulted in negligible improvement in the UCS of kaolinite, likely due to the constrained pore size that restricted fungal growth. The increases of UCS and BTS in BR and silica silts were attributed to the increase of suction stress magnitude (i.e., increase of attractive interparticle stress), resulting from the increased capillary and physicochemical forces by fungal mycelia.
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      Mechanical Properties of Fine-Grained Soils Treated with Fungal Mycelium of <i>Trichoderma virens</i>

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    http://yetl.yabesh.ir/yetl1/handle/yetl/4309456
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    contributor authorJoon Soo Park
    contributor authorHai Lin
    contributor authorEmily Chen
    contributor authorHussein Alqrinawi
    contributor authorYi Dong
    contributor authorWilliam M. Moe
    date accessioned2026-02-16T21:36:18Z
    date available2026-02-16T21:36:18Z
    date copyright2025/05/01
    date issued2025
    identifier otherJGGEFK.GTENG-12745.pdf
    identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4309456
    description abstractRecent investigations into bio-mediated soil improvement have identified fungal mycelium as a promising candidate for innovative applications in geotechnical engineering. Fungal mycelia can increase soil water repellency, reduce hydraulic conductivity and increase matric suction by reducing pore size, and cement and bind soil particles together through biomineralization and extracellular polymeric substance (EPS). Previous studies, however, focused primarily on the effects of fungal mycelia on sandy soils. This study investigated the effects of the filamentous fungus Trichoderma virens (ATCC 9645) on mechanical properties of fine-grained soils. Three types of fine-grained soils were used in this study, including Baton Rouge (BR) silt, silica silt, and kaolinite. Unconfined compression, drying cake (DC), and Brazilian tensile strength (BTS) tests were conducted under different moisture contents to measure unconfined compressive strength (UCS), Young’s modulus, soil shrinkage curve, suction stress characteristic curve (SSCC), and tensile strength of untreated, potato dextrose broth (PDB)–treated, and fungal-treated specimens (PDB suspended with fungal mycelia). The results showed T. virens fungal mycelia increased the mean UCS and BTS of BR and silica silts at oven-dry condition by about 100% and 64%, respectively. T. virens fungal mycelia resulted in negligible improvement in the UCS of kaolinite, likely due to the constrained pore size that restricted fungal growth. The increases of UCS and BTS in BR and silica silts were attributed to the increase of suction stress magnitude (i.e., increase of attractive interparticle stress), resulting from the increased capillary and physicochemical forces by fungal mycelia.
    publisherAmerican Society of Civil Engineers
    titleMechanical Properties of Fine-Grained Soils Treated with Fungal Mycelium of Trichoderma virens
    typeJournal Article
    journal volume151
    journal issue5
    journal titleJournal of Geotechnical and Geoenvironmental Engineering
    identifier doi10.1061/JGGEFK.GTENG-12745
    journal fristpage04025030-1
    journal lastpage04025030-14
    page14
    treeJournal of Geotechnical and Geoenvironmental Engineering:;2025:;Volume ( 151 ):;issue: 005
    contenttypeFulltext
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