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Bio‐mediated soil improvement: An introspection into processes, materials, characterization and applications
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CiNii Research
Bio‐mediated soil improvement: An introspection into processes, materials, characterization and applications
- 資料種別
- 記事
- 著者
- Ning‐Jun Jiangほか
- 出版者
- Wiley
- 出版年
- 2021-07-02
- 資料形態
- デジタル
- 掲載誌名
- Soil Use and Management 38 1
- 掲載ページ
- p.68-93
資料詳細
要約等:
- <jats:title>Abstract</jats:title> <jats:p>For a long time in the practice of geotechnical engineering, soil has been viewed as an in...
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デジタル
- 資料種別
- 記事
- 著者標目
- 出版年月日等
- 2021-07-02
- 出版年(W3CDTF)
- 2021-07-02
- タイトル(掲載誌)
- Soil Use and Management
- 巻号年月日等(掲載誌)
- 38 1
- 掲載巻
- 38
- 掲載号
- 1
- 掲載ページ
- 68-93
- 掲載年月日(W3CDTF)
- 2021-07-02
- ISSN(掲載誌)
- 02660032
- 出版事項(掲載誌)
- Wiley
- 対象利用者
- 一般
- DOI
- 10.1111/sum.12736
- 作成日(W3CDTF)
- 2021-06-06
- オンライン閲覧公開範囲
- インターネット公開
- 著作権情報
- http://onlinelibrary.wiley.com/termsAndConditions#vor
- 関連情報(URI)
- 参照
- Soil erosion control of Urmia Lake using indigenous ureolytic calcifying bacteriaState-of-the-art review of soil erosion control by MICP and EICP techniques: Problems, applications, and prospectsDurability Improvement of Biocemented Sand by Fiber-Reinforced MICP for Coastal Erosion Protection
- 参照
- Soil Bioconsolidation Through Microbially Induced Calcite Precipitation by <i>Lysinibacillus sphaericus</i> WJ-8Viability of bacterial spores and crack healing in bacteria-containing geopolymerPerformance of microbial-induced carbonate precipitation on wind erosion control of sandy soilCementation of sand soil by microbially induced calcite precipitation at various degrees of saturationStrengthening of Soft Marine Clay Using BioencapsulationInfluence of Fiber Addition on Mechanical Properties of MICP-Treated SandMicrobially induced carbonate precipitation for wind erosion control of desert soil: Field-scale testsKinetics of calcite precipitation by ureolytic bacteria under aerobic and anaerobic conditionsToward a better understanding of microbiologically influenced corrosion caused by sulfate reducing bacteriaManufacturing bio-bricks using microbial induced calcium carbonate precipitation and human urineRemoval of Heavy Metals Zinc, Lead, and Cadmium by Biomineralization of Urease-Producing Bacteria Isolated from Iranian Mine Calcareous SoilsInduced Osteogenesis in Plants Decellularized ScaffoldsCentrifuge Model Testing of Liquefaction Mitigation via Denitrification-Induced DesaturationA Numerical Model for Enzymatically Induced Calcium Carbonate PrecipitationPromotion and nucleation of carbonate precipitation during microbial iron reductionEffect of relative density and biocementation on cyclic response of calcareous sandGuidance for Investigating Calcite Precipitation by Urea Hydrolysis for GeomaterialsBiogrouting of hydraulic fill fine sands for reclamation projectsBiotic and abiotic effects on CO2 sequestration during microbially-induced calcium carbonate precipitationUnconfined Compressive and Splitting Tensile Strength of Basalt Fiber–Reinforced Biocemented SandAn indigenous bacterium with enhanced performance of microbially-induced Ca-carbonate biomineralization under extreme alkaline conditions for concrete and soil-improvement industriesInvestigations on biosorption and biogenic calcite precipitation in sandsDissolution experiments on dolerite quarry fines at low liquid-to-solid ratio: a source of calcium for MICPIron- and calcium-based biogrouts for porous soilsInfluences of calcium sources on microbially induced carbonate precipitation in porous mediaApplication of microbial biocementation to improve the physico-mechanical properties of sandy soilInhibition of Sporosarcina pasteurii under Anoxic Conditions: Implications for Subsurface Carbonate Precipitation and Remediation via UreolysisA cost effective cultivation medium for biocalcification of Bacillus pasteurii KCTC 3558 and its effect on cement cubes propertiesInvestigating the Effect of Microbial Activity and Chemical Concentrations on the Mineralogy and Morphology of Ureolytic Bio-CementationField-scale modeling of microbially induced calcite precipitationMicrobially Induced Carbonate Precipitation Process for Soil Improvement Adjacent to Model Pile by Innovative Delivery SystemThe Hydrolysis of Urea and the Proficiency of UreaseUse of Biogeotechnologies for Soil ImprovementLarge‐Scale Experiments in Microbially Induced Calcite Precipitation (MICP): Reactive Transport Model Development and PredictionResearch advances and challenges in biogeotechnologiesBiogeochemical Model for Soil Improvement by DenitrificationExperimental and numerical modeling of bacterially induced pH increase and calcite precipitation in saline aquifersBio‐mediated soil improvement: The way forwardThe Influence of the Addition of Plant-Based Natural Fibers (Jute) on Biocemented Sand Using MICP MethodInvestigation of Natural Beachrock and Physical–Mechanical Comparison with Artificial Beachrock Induced by MICP as a Protective Measure against Beach Erosion at Yogyakarta, IndonesiaApplying MICP by denitrification in soils: a process analysis3-D micro-architecture and mechanical response of soil cemented via microbial-induced calcite precipitationUreolytic activities of a urease-producing bacterium and purified urease enzyme in the anoxic condition: Implication for subseafloor sand production control by microbially induced carbonate precipitation (MICP)Microbially Induced Calcium Carbonate Precipitation on Surface or in the Bulk of SoilUse of microorganism to improve the strength of cement mortarQuantifying Biomediated Ground Improvement by Ureolysis: Large-Scale Biogrout ExperimentHeavy metal and sulfate removal from sulfate-rich synthetic mine drainages using sulfate reducing bacteriaQuantifying the Permeability Reduction of Biogrouted Rock FractureReview on geotechnical engineering properties of sands treated by microbially induced calcium carbonate precipitation (MICP) and biopolymersMicrobially Induced Calcite Precipitation for Seepage Control in Sandy SoilEffects of Microbial Induced Calcite Precipitation on Bentonite Cracking RemediationHeavy metal and antibiotic resistance of ureolytic bacteria and their immobilization of heavy metalsEffects of clay's chemical interactions on biocementationInduction of calcite precipitation through heightened production of extracellular carbonic anhydrase by CO2 sequestering bacteriaA new biogrouting method for fine to coarse sandInnovation in Disaster Mitigation TechnologiesDevelopment of a Scaled Repeated Five-Spot Treatment Model for Examining Microbial Induced Calcite Precipitation Feasibility in Field ApplicationsDiscussion of “About calcium carbonate precipitation on sand biocementation” by Rafaela Cardoso, Rita Pedreira, Sofia O.D. Duarte, and Gabriel A. MonteiroAn overview on heavy metal resistant microorganisms for simultaneous treatment of multiple chemical pollutants at co-contaminated sites, and their multipurpose applicationBioremediation of heavy metals by using bacterial mixturesFactors Affecting Permeability Reduction of MICP for Fractured RockEnhancement of MICP-Treated Sandy Soils against Environmental DeteriorationFacilitation of microbially induced calcite precipitation with kaolinite nucleationDrained Shear Strength of MICP Sand at Varying Cementation LevelsA coupled bio-chemo-hydraulic model to predict porosity and permeability reduction during microbially induced calcite precipitationA Full-Scale Application of Slope Stabilization via Calcite Bio-Mineralization Followed by Long-Term GIS SurveillanceThe effect of enrichment media on the stimulation of native ureolytic bacteria in calcareous sandEffects of Cationic Polypeptide on CaCO<sub>3</sub>Crystallization and Sand Solidification by Microbial-Induced Carbonate PrecipitationMicrobial-induced carbonate precipitation applicability with the methane hydrate-bearing layer microbeEffects of environmental factors on microbial induced calcium carbonate precipitationInvestigation of the crack healing performance in mortar using microbially induced calcium carbonate precipitation (MICP) methodBio-remediation of desiccation cracking in clayey soils through microbially induced calcite precipitation (MICP)Soil bio-cementation using a new one-phase low-pH injection methodComparison of Effects of Different Nutrients on Stimulating Indigenous Soil Bacteria for BiocementationRestraint of Particle Breakage by Biotreatment MethodComplete removal of arsenic and zinc from a heavily contaminated acid mine drainage via an indigenous SRB consortiumThermal conductivity of sands treated with microbially induced calcite precipitation (MICP) and model predictionNon‐sterile corn steep liquor a novel, cost effective and powerful culture media for <i>Sporosarcina pasteurii</i> cultivation for sand improvementEnhancing wellbore cement integrity with microbially induced calcite precipitation (MICP): A field scale demonstrationMethods for Calcium Carbonate Content Measurement of Biocemented SoilsMeter-Scale Biocementation Experiments to Advance Process Control and Reduce Impacts: Examining Spatial Control, Ammonium By-Product Removal, and Chemical ReductionsEngineering behaviour of MICP treated marine claysAragonite formation induced by open cultures of microbial consortia to heal cracks in concrete: Insights into healing mechanisms and crystal polymorphsAssessment of erosion resistance of biocemented sandy slope subjected to wave actionsCalcium carbonate formation on mica supported extracellular polymeric substance produced by Rhodococcus opacusFreeze-thaw durability and shear responses of cemented slope soil treated by microbial induced carbonate precipitationOptimizing protocols for microbial induced calcite precipitation (MICP) for soil improvement–a reviewOptimization of calcium-based bioclogging and biocementation of sandStudy on effect of Microbial Induced Calcite Precipitates on strength of fine grained soilsMicrobial Induced Calcium Carbonate Precipitation (MICP) Using Pig Urine as an Alternative to Industrial UreaHydrodynamic coupling in microbially mediated fracture mineralization: Formation of self-organized groundwater flow channelsThe promotion of magnesium ions on aragonite precipitation in MICP processThermal conductivity of MICP-treated sands at varying degrees of saturationImproving the strength of sandy soils via ureolytic CaCO <sub>3</sub> solidification by <i>Sporosarcina ureae</i>Enhancing Strength of MICP-Treated Sand with Scrap of Activated Carbon-Fiber FeltBiopolymers from a Bacterial Extracellular Matrix Affect the Morphology and Structure of Calcium Carbonate CrystalsPore‐scale network modeling of microbially induced calcium carbonate precipitation: Insight into scale dependence of biogeochemical reaction ratesAugmenting Microbially Induced Carbonate Precipitation of Soil with the Capability to Self-HealBiocementation Control of Sand against Wind ErosionBiochemically Induced Carbonate Precipitation in Aerobic and Anaerobic Environments by <i>Sporosarcina pasteurii</i>Stiffness and Dilatancy Improvements in Uncemented Sands Treated through MICPEnhancing fiber/matrix bonding in polypropylene fiber reinforced cementitious composites by microbially induced calcite precipitation pre-treatmentMicrobial-induced carbonate precipitation for coastal erosion mitigation of sandy slopesBiocementation of calcareous sand using soluble calcium derived from calcareous sandA revised model for microbially induced calcite precipitation: Improvements and new insights based on recent experimentsMicrobially induced calcite precipitation effect on soil thermal conductivityCalcium Carbonate Mineralization: Involvement of Extracellular Polymeric Materials Isolated from Calcifying BacteriaBiological process of soil improvement in civil engineering: A reviewThe applicability of microbially induced calcite precipitation (MICP) for internal erosion control in gravel–sand mixturesApplication of expanded perlite encapsulated bacteria and growth media for self-healing concreteSand and silty-sand soil stabilization using bacterial enzyme–induced calcite precipitation (BEICP)The large-scale process of microbial carbonate precipitation for nickel remediation from an industrial soilLow-cost cultivation of Sporosarcina pasteurii strain in food-grade yeast extract medium for microbially induced carbonate precipitation (MICP) applicationBiocementation for Sand Using an Eggshell as Calcium SourceLarge-Scale Comparison of Bioaugmentation and Biostimulation Approaches for Biocementation of SandsInfluence of cementation level on the strength behaviour of bio-cemented sandInfluence of Fiber Content and Length on Engineering Properties of MICP-Treated Coral SandErosional behavior of gravel-sand mixtures stabilized by microbially induced calcite precipitation (MICP)Feasibility Study of Native Ureolytic Bacteria for Biocementation Towards Coastal Erosion Protection by MICP MethodBiocementation of soil using non-sterile enriched urease-producing bacteria from activated sludgeCarbonate Precipitation through Microbial Activities in Natural Environment, and Their Potential in Biotechnology: A ReviewProperties of biocemented, fiber reinforced sandMitigation of liquefaction of saturated sand using biogasA bio-chemo-hydro-mechanical model for microbially induced calcite precipitation in soilsBiogeochemical processes and geotechnical applications: progress, opportunities and challengesInduced polarization as a monitoring tool for in-situ microbial induced carbonate precipitation (MICP) processesSoil Bacteria Population Dynamics Following Stimulation for Ureolytic Microbial-Induced CaCO<sub>3</sub> Precipitation3D DEM Simulations of Drained Triaxial Compression of Sand Strengthened Using Microbially Induced Carbonate PrecipitationMicrostructural and Geomechanical Study on Biocemented Sand for Optimization of MICP ProcessUndrained Monotonic Shear Response of MICP-Treated Silty SandsDiscrete element method simulations of bio-cemented sandsSelf-healing of concrete cracks by use of bacteria-containing low alkali cementitious materialBiological Considerations in Geotechnical EngineeringPotential soil reinforcement by biological denitrificationAnalysis of strength characteristics of carbon fiber–reinforced microbial solidified sandFracture Sealing with Microbially-Induced Calcium Carbonate Precipitation: A Field StudyEffect of injected bacterial suspension volume and relative density on carbonate precipitation resulting from microbial treatmentUrease activity in microbiologically-induced calcite precipitationSelective enrichment and production of highly urease active bacteria by non-sterile (open) chemostat cultureMicroscale Visualization of Microbial-Induced Calcium Carbonate Precipitation ProcessesA decade of progress and turning points in the understanding of bio-improved soils: A reviewIncreasing of Soil Urease Activity by Stimulation of Indigenous Bacteria and Investigation of Their Role on Shear StrengthA microfluidic chip and its use in characterising the particle-scale behaviour of microbial-induced calcium carbonate precipitation (MICP)Bio-mediated soil improvementIn-situ solidification/stabilization of heavy metals contaminated site soil using a dry jet mixing method and new hydroxyapatite based binderMechanical Behavior of Sands Treated by Microbially Induced Carbonate PrecipitationApplication of microbially induced calcite precipitation in erosion mitigation and stabilisation of sandy soil foreshore slopes: A preliminary investigationSulfate reducing bacteria in microbial mats: Changing paradigms, new discoveriesApplications of microorganisms to geotechnical engineering for bioclogging and biocementation of soil in situInfluence of Exopolymeric Materials on Bacterially Induced Mineralization of CarbonatesSustainable Biocement Production via Microbially Induced Calcium Carbonate Precipitation: Use of Limestone and Acetic Acid Derived from Pyrolysis of Lignocellulosic BiomassBioremediation of Cd by strain GZ-22 isolated from mine soil based on biosorption and microbially induced carbonate precipitationField-scale bio-cementation tests to improve sandsDiversity of <i>Sporosarcina</i>-like Bacterial Strains Obtained from Meter-Scale Augmented and Stimulated Biocementation ExperimentsShear Strength Envelopes of Biocemented Sands with Varying Particle Size and Cementation LevelState-of-the-art on geotechnical engineering perspective on bio-mediated processesCO2 sequestration by ureolytic microbial consortia through microbially-induced calcite precipitationState-of-the-Art Review of Biocementation by Microbially Induced Calcite Precipitation (MICP) for Soil StabilizationMicrobially Induced Carbonate Precipitation for Seepage-Induced Internal Erosion Control in Sand–Clay MixturesMicrobial induced carbonate precipitation for immobilizing Pb contaminants: Toxic effects on bacterial activity and immobilization efficiencyGeotechnical systems that evolve with ecological processesReview of the factors that influence on the microbial induced calcite precipitationPermeability reduction due to microbial induced calcite precipitation in sandA new framework for identifying cementation level of MICP‐treated sandsMIDP: Liquefaction mitigation via microbial denitrification as a two‐stage process. II: MICPSoil bacteria that precipitate calcium carbonate: mechanism and applications of the processErosion reduction of coastal sands using microbial induced calcite precipitationBiotreatment of fine‐grained soil through bioencapsulation methodBiological stabilization of a swelling fine‐grained soil: The role of microstructural changes in the shear behaviorCompression behavior of MICP‐treated sand with various gradationsBio‐grout materials: A reviewAn experimental study of mitigating coastal sand dune erosion by microbial‐and enzymatic‐induced carbonate precipitationFactors Affecting Sand Solidification Using MICP with Pararhodobacter spDissimilatory Fe (III) and Mn (IV) reduction
- 参照(URI)
- 連携機関・データベース
- 国立情報学研究所 : CiNii Research
- 提供元機関・データベース
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