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Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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Diagenesis of carbonates and clastic sediments encompasses the biochemical, mechanical, and chemical changes that occur in sediments subsequent to deposition and prior to low-grade metamorphism. These parameters which, to a large extent, control diagenesis in carbonates and clastic sediments include primary composition of the sediments, depositional facies, pore water chemistry, burial–thermal and tectonic evolution of the basin, and paleo-climatic conditions. Diagenetic processes involve widespread chemical, mineralogical, and isotopic modifications affected by the original mineralogy of carbonate and clastic sediments. These diagenetic alterations will impose a major control on porosity and permeability and hence on hydrocarbon reservoirs, water aquifers, and the presence of other important economic minerals. In this Special Issue, we have submissions focusing on understanding the interplay between the mineralogical and chemical changes in carbonates and clastic sediments and the diagenetic processes, fluid flow, tectonics, and mineral reactions at variable scales and environments from a verity of sedimentary basins. Quantitative analyses of diagenetic reactions in these sediments using a variety of techniques are essential for understanding the pathways of these reactions in different diagenetic environments.
Research & information: general --- diagenesis --- authigenic minerals --- reservoir quality --- Eboliang --- Qaidam Basin --- clay minerals --- major elements --- trace elements --- sedimentary environment --- diagenetic Environment --- silicification --- meteoric diagenesis --- fractures --- deltaic sequence --- karst --- glacial period --- dolomitization --- Huron Domain --- Silurian --- Devonian --- fluid composition --- Michigan Basin --- bipyramidal quartz --- pseudohexagonal aragonite --- Iberian Range --- Upper Triassic --- hydrothermal circulation --- carbonate reservoirs --- sedimentation --- porosity --- platform carbonates --- REE + Y chemistry --- paleoceanographic proxies --- diagenetic proxies --- NE Turkey --- hydrothermal dolomite --- diagenetic settings --- optical petrography --- geochemical --- Triassic-Jurassic successions --- Provençal Domain --- diagenesis --- authigenic minerals --- reservoir quality --- Eboliang --- Qaidam Basin --- clay minerals --- major elements --- trace elements --- sedimentary environment --- diagenetic Environment --- silicification --- meteoric diagenesis --- fractures --- deltaic sequence --- karst --- glacial period --- dolomitization --- Huron Domain --- Silurian --- Devonian --- fluid composition --- Michigan Basin --- bipyramidal quartz --- pseudohexagonal aragonite --- Iberian Range --- Upper Triassic --- hydrothermal circulation --- carbonate reservoirs --- sedimentation --- porosity --- platform carbonates --- REE + Y chemistry --- paleoceanographic proxies --- diagenetic proxies --- NE Turkey --- hydrothermal dolomite --- diagenetic settings --- optical petrography --- geochemical --- Triassic-Jurassic successions --- Provençal Domain
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Diagenesis of carbonates and clastic sediments encompasses the biochemical, mechanical, and chemical changes that occur in sediments subsequent to deposition and prior to low-grade metamorphism. These parameters which, to a large extent, control diagenesis in carbonates and clastic sediments include primary composition of the sediments, depositional facies, pore water chemistry, burial–thermal and tectonic evolution of the basin, and paleo-climatic conditions. Diagenetic processes involve widespread chemical, mineralogical, and isotopic modifications affected by the original mineralogy of carbonate and clastic sediments. These diagenetic alterations will impose a major control on porosity and permeability and hence on hydrocarbon reservoirs, water aquifers, and the presence of other important economic minerals. In this Special Issue, we have submissions focusing on understanding the interplay between the mineralogical and chemical changes in carbonates and clastic sediments and the diagenetic processes, fluid flow, tectonics, and mineral reactions at variable scales and environments from a verity of sedimentary basins. Quantitative analyses of diagenetic reactions in these sediments using a variety of techniques are essential for understanding the pathways of these reactions in different diagenetic environments.
diagenesis --- authigenic minerals --- reservoir quality --- Eboliang --- Qaidam Basin --- clay minerals --- major elements --- trace elements --- sedimentary environment --- diagenetic Environment --- silicification --- meteoric diagenesis --- fractures --- deltaic sequence --- karst --- glacial period --- dolomitization --- Huron Domain --- Silurian --- Devonian --- fluid composition --- Michigan Basin --- bipyramidal quartz --- pseudohexagonal aragonite --- Iberian Range --- Upper Triassic --- hydrothermal circulation --- carbonate reservoirs --- sedimentation --- porosity --- platform carbonates --- REE + Y chemistry --- paleoceanographic proxies --- diagenetic proxies --- NE Turkey --- hydrothermal dolomite --- diagenetic settings --- optical petrography --- geochemical --- Triassic-Jurassic successions --- Provençal Domain --- n/a --- Provençal Domain
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
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- Reference Manager
- EndNote
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This book, entitled “Elemental Concentration and Pollution in Soil, Water, and Sediment”, presents an updated overview of the main trace elements in living organisms. This collection brings researchers from different fields together, including those from biogeochemistry and ecotoxicology in various environmental media, in order to provide a more comprehensive understanding of the environmental fate of trace elements in their biogeochemical cycles for different ecosystems.
Research & information: general --- Chemistry --- marine sediments --- trace metals --- speciation --- contamination --- San Simon Bay --- soil remediation --- toxicity bioassays --- humic substances --- calcium carbonate --- iron oxides --- polyphenolic compounds --- heavy metals --- soil --- enrichment factor --- geoaccumulation index --- contamination factor --- pollution indices --- soil contamination --- geogenic and anthropogenic origin --- iron ore deposits --- tailing dumps --- seepage water --- water balance of the enterprise --- metals --- p-arsanilic acid --- adsorption --- natural fluorine-enriched soil --- natural sources --- chemical extraction resistance --- low washing efficiency --- lacustrine sediments --- geochemical mapping --- spatial distribution --- contamination assessment --- environmental risk assessments --- sediment quality guidelines --- pollution --- bottom sediments --- river --- acid mine drainage --- abandoned coal mine --- potentially toxic elements --- pollution level --- potential ecological risk --- sewage sludge --- calcareous soil --- extraction DTPA --- crop --- transfer --- long time --- engineered nanoparticles --- organic matter --- phosphorus --- nutrients --- volcanic soil --- agricultural land contamination --- sediment --- irrigation canal --- heavy metal --- copper --- cadmium --- Daphnia pulex --- ecotoxicology --- LC50 --- ecological risk assessment --- karst areas --- soil properties --- urban ecology --- trace metal pollution --- soil organisms --- diversity --- Western Siberia --- snow pollution --- trace metals and metalloids --- atmospheric depositions --- solubility --- sediments --- bioindicators --- geochemical background --- risk assessment code --- sequential extraction --- groundwater --- precipitation --- caustic calcined magnesia (CCM) --- permeable reactive barrier (PRB) --- natural water --- water quality --- Arctic region --- elemental composition --- springs --- QR code --- modern sedimentation processes --- mineralogy --- geochemistry --- authigenic minerals --- hydrogen sulfide contamination --- arid climate --- Caspian Sea --- marine sediments --- trace metals --- speciation --- contamination --- San Simon Bay --- soil remediation --- toxicity bioassays --- humic substances --- calcium carbonate --- iron oxides --- polyphenolic compounds --- heavy metals --- soil --- enrichment factor --- geoaccumulation index --- contamination factor --- pollution indices --- soil contamination --- geogenic and anthropogenic origin --- iron ore deposits --- tailing dumps --- seepage water --- water balance of the enterprise --- metals --- p-arsanilic acid --- adsorption --- natural fluorine-enriched soil --- natural sources --- chemical extraction resistance --- low washing efficiency --- lacustrine sediments --- geochemical mapping --- spatial distribution --- contamination assessment --- environmental risk assessments --- sediment quality guidelines --- pollution --- bottom sediments --- river --- acid mine drainage --- abandoned coal mine --- potentially toxic elements --- pollution level --- potential ecological risk --- sewage sludge --- calcareous soil --- extraction DTPA --- crop --- transfer --- long time --- engineered nanoparticles --- organic matter --- phosphorus --- nutrients --- volcanic soil --- agricultural land contamination --- sediment --- irrigation canal --- heavy metal --- copper --- cadmium --- Daphnia pulex --- ecotoxicology --- LC50 --- ecological risk assessment --- karst areas --- soil properties --- urban ecology --- trace metal pollution --- soil organisms --- diversity --- Western Siberia --- snow pollution --- trace metals and metalloids --- atmospheric depositions --- solubility --- sediments --- bioindicators --- geochemical background --- risk assessment code --- sequential extraction --- groundwater --- precipitation --- caustic calcined magnesia (CCM) --- permeable reactive barrier (PRB) --- natural water --- water quality --- Arctic region --- elemental composition --- springs --- QR code --- modern sedimentation processes --- mineralogy --- geochemistry --- authigenic minerals --- hydrogen sulfide contamination --- arid climate --- Caspian Sea
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
This book, entitled “Elemental Concentration and Pollution in Soil, Water, and Sediment”, presents an updated overview of the main trace elements in living organisms. This collection brings researchers from different fields together, including those from biogeochemistry and ecotoxicology in various environmental media, in order to provide a more comprehensive understanding of the environmental fate of trace elements in their biogeochemical cycles for different ecosystems.
Research & information: general --- Chemistry --- marine sediments --- trace metals --- speciation --- contamination --- San Simon Bay --- soil remediation --- toxicity bioassays --- humic substances --- calcium carbonate --- iron oxides --- polyphenolic compounds --- heavy metals --- soil --- enrichment factor --- geoaccumulation index --- contamination factor --- pollution indices --- soil contamination --- geogenic and anthropogenic origin --- iron ore deposits --- tailing dumps --- seepage water --- water balance of the enterprise --- metals --- p-arsanilic acid --- adsorption --- natural fluorine-enriched soil --- natural sources --- chemical extraction resistance --- low washing efficiency --- lacustrine sediments --- geochemical mapping --- spatial distribution --- contamination assessment --- environmental risk assessments --- sediment quality guidelines --- pollution --- bottom sediments --- river --- acid mine drainage --- abandoned coal mine --- potentially toxic elements --- pollution level --- potential ecological risk --- sewage sludge --- calcareous soil --- extraction DTPA --- crop --- transfer --- long time --- engineered nanoparticles --- organic matter --- phosphorus --- nutrients --- volcanic soil --- agricultural land contamination --- sediment --- irrigation canal --- heavy metal --- copper --- cadmium --- Daphnia pulex --- ecotoxicology --- LC50 --- ecological risk assessment --- karst areas --- soil properties --- urban ecology --- trace metal pollution --- soil organisms --- diversity --- Western Siberia --- snow pollution --- trace metals and metalloids --- atmospheric depositions --- solubility --- sediments --- bioindicators --- geochemical background --- risk assessment code --- sequential extraction --- groundwater --- precipitation --- caustic calcined magnesia (CCM) --- permeable reactive barrier (PRB) --- natural water --- water quality --- Arctic region --- elemental composition --- springs --- QR code --- modern sedimentation processes --- mineralogy --- geochemistry --- authigenic minerals --- hydrogen sulfide contamination --- arid climate --- Caspian Sea --- n/a
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
This book, entitled “Elemental Concentration and Pollution in Soil, Water, and Sediment”, presents an updated overview of the main trace elements in living organisms. This collection brings researchers from different fields together, including those from biogeochemistry and ecotoxicology in various environmental media, in order to provide a more comprehensive understanding of the environmental fate of trace elements in their biogeochemical cycles for different ecosystems.
marine sediments --- trace metals --- speciation --- contamination --- San Simon Bay --- soil remediation --- toxicity bioassays --- humic substances --- calcium carbonate --- iron oxides --- polyphenolic compounds --- heavy metals --- soil --- enrichment factor --- geoaccumulation index --- contamination factor --- pollution indices --- soil contamination --- geogenic and anthropogenic origin --- iron ore deposits --- tailing dumps --- seepage water --- water balance of the enterprise --- metals --- p-arsanilic acid --- adsorption --- natural fluorine-enriched soil --- natural sources --- chemical extraction resistance --- low washing efficiency --- lacustrine sediments --- geochemical mapping --- spatial distribution --- contamination assessment --- environmental risk assessments --- sediment quality guidelines --- pollution --- bottom sediments --- river --- acid mine drainage --- abandoned coal mine --- potentially toxic elements --- pollution level --- potential ecological risk --- sewage sludge --- calcareous soil --- extraction DTPA --- crop --- transfer --- long time --- engineered nanoparticles --- organic matter --- phosphorus --- nutrients --- volcanic soil --- agricultural land contamination --- sediment --- irrigation canal --- heavy metal --- copper --- cadmium --- Daphnia pulex --- ecotoxicology --- LC50 --- ecological risk assessment --- karst areas --- soil properties --- urban ecology --- trace metal pollution --- soil organisms --- diversity --- Western Siberia --- snow pollution --- trace metals and metalloids --- atmospheric depositions --- solubility --- sediments --- bioindicators --- geochemical background --- risk assessment code --- sequential extraction --- groundwater --- precipitation --- caustic calcined magnesia (CCM) --- permeable reactive barrier (PRB) --- natural water --- water quality --- Arctic region --- elemental composition --- springs --- QR code --- modern sedimentation processes --- mineralogy --- geochemistry --- authigenic minerals --- hydrogen sulfide contamination --- arid climate --- Caspian Sea --- n/a
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