化学与生物视角下酸性矿山废水中次生矿物的地球化学过程
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作者Zhi Dang,Yufei Zeng,Guining Lu 等
出版社龙门书局
ISBN9787508858746
出版时间2020-11
装帧精装
开本16开
定价219元
货号10828570
上书时间2023-11-12
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目录
ContentsChapter 1 Pollution of Acid Mine Drainage in The Mining Area 11.1 Acid Mine Drainage and Its Occurrence 11.2 Mechanism of AMD Generation 31.3 AMD Prevention and Control Techniques 61.3.1 Oxygen Barrier 61.3.2 Bactericide 81.3.3 Co-Disposal and Blending 81.3.4 Passivation 91.3.5 Passive Treatment Techniques 91.4 Main Points of Interest in This Book 101.4.1 Sulfur Cycle in AMD-Affected Watershed 101.4.2 Fe Cycling and Nano-Fe(III) secondary minerals in AMD-Affected Watershed 121.4.3 Main Points of Interest inOurWork 141.5 The Dabaoshan Mine 151.5.1 Mineral Resources of The Dabaoshan Mine 151.5.2 Solid Waste Disposal in the Mine Area 161.5.3 AMD Control and Its Treatment in Mine Area 181.5.4 AMD Pollution in the Dabaoshan Mine Area 201.5.5 General Sampling Sites Arrangement 21Chapter 2 Sulfate Migration and Geochemical Behaviors in the AMD-Affected River 232.1 Physicochemical Characteristics of the Affected River Watershed 232.1.1 Acidic Watershed Environments 242.1.2 High Turbidity 252.1.3 Steep Riverbed Upstream 262.1.4 Oxidative Water Condition 292.1.5 High Salinity 292.2 Sulfur Element Distribution in the Watershed 302.2.1 Dissolved Sulfur in Water Phase 302.2.2 Sulfur Distributions in Sediments 31Chapter 3 Metallic Elements Fate and Migration Mechanisms in the AMD-Affected River 373.1 Metallic Elements in the Watershed 373.1.1 Dissolved Metallic Elements in the Water Phase 373.1.2 Metallic Elements in Sediment Phase 383.2 Migration Mechanisms for Metallic Elements in the Affected Watershed 443.2.1 Potential Mobility 443.2.2 Oxidative Leaching and Re-Adsorption 453.2.3 Hydraulic Transportation 463.2.4 Precipitation/ Co-Precipitation 473.3 Relations of Sulfur, Iron, and Metallic Elements in the Watershed 483.3.1 Relationship Argumentation by SPSS Analysis 483.3.2 Relationship Argumentation by Mineralogy Analysis 503.3.3 Relationship Argumentation via Isotope Analysis 54Chapter 4 Microbial Community Composition in AMD-Polluted Watershed and Paddy Soil 594.1 Microbial Community Shifts in Response to AMD Pollution in the Hengshi River Watershed 594.1.1 Materials and Methods 604.1.2 Physicochemical Characterization of the Watershed 614.1.3 Alpha Diversity Analyses 614.1.4 Beta Diversity Analyses 664.1.5 Spatiotemporal Dynamics of Microbial Communities 684.2 Microbial Community Responses to AMD-Laden Pollution in Rice Paddy Soils 814.2.1 Investigating the Effect of Pollution inAMD-Affected Paddy Soil 814.2.2 Microbial Community and Soil Properties 824.2.3 The Spatial Pattern of Microbial Community 91Chapter 5 Chemical Transformations of Secondary Minerals in the AMD-Affected Area: Induced by Dissolved Organic Matter 955.1 Role of L-Tryptophan in the Release of Chromium from Schwertmannite 965.1.1 Experimental Setting 965.1.2 Results and Discussion 995.1.3 Possible Mechanism 1095.2 Fulvic Acid Induction of the Liberation of Chromium From CrO24 -Substituted Schwertmannite 1115.2.1 Release of Total Fe, Cr, and SO24- from Schwertmannite 1115.2.2 Cr Speciation Analysis 1225.2.3 Proposed Schematic Illustrating Fate of Fe and Cr 1235.3 Elucidation of Desferrioxamine B on the Liberation of Chromium from Schwertmannite 1245.3.1 Dissolution Kinetics 1245.3.2 Effects of DFOB and pH on the Dissolution of Cr-Schwertmannite 125Chapter 6 Chemical Transformations of Secondary Minerals in AMD-Affected Area: Induced by Inorganic Substance 1396.1 Effect of Cu(II) on the Stability of Oxyanion-Substituted Schwertmannite 1406.1.1 Schwertmannite Synthesis 1406.1.2 Stability Experiments 1416.1.3 Effect of Cu(II) on the Stability of Oxyanion-Substituted Schwertmannite 1426.2 Transformation of Cadmium-Associated Schwertmannite and Subsequent Element Repartitioning Behaviors 1596.2.1 Cd-associated Schwertmannite Synthesis 1596.2.2 Surface Complexation Model Simulations 1596.2.3 Cd-associated Schwertmannite Transformation Experiments 1606.2.4 Transformation Mechanism of Cadmium-associated Schwertmannite 1606.3 The Behavior of Chromium and Arsenic Associated with Redox Transformation of Schwertmannite in AMD Environment 1736.3.1 Schwertmannite Synthesis 1736.3.2 Transformation Experiments 1736.3.3 The Behavior of Chromium and Arsenic Associated with Redox Transformation of Schwertmannite In AMD Environment 1746.4 Thiocyanate-Induced Labilization of Schwertmannite: Impacts and Mechanisms 1886.4.1 The Inducing Transformation of Schwertmannite 1886.4.2 TheMechanismofThiocyanate-InducedTransformation 1896.4.3 pH-Controlled Transformation 2006.4.4 Ligand-Promoted Transformation 201Chapter 7 The Microbial Transformation of Schwertmannite 2037.1 Schwertmannite Transformation Led by Iron-Reducing Bacteria 2037.1.1 Schwertmannite and Iron-Reducing Bacteria 2037.1.2 S. oneidensis MR-1 and the Transformation of Cr(V)-Loaded Schwertmannite 2047.2 Secondary Mineralization in AMD-Affected River Controlled By Functional Microbes 2127.2.1 Schwertmannite and Iron-Reducing Bacteria 2127.2.3 Secondary Mineralization by Microbial Community 2217.3 Extracellular Electron Transfer of Sulfate-Reducing Enrichment Culture 2247.3.1 Schwertmannite and Sulfate-Reducing Bacteria 2247.3.2 Schwertmannite Transformation and the Change of Enrichment Within Direct/Indirect Electron Transfer 2247.3.3 The Predicted Genetic Function during Schwertmannite Transformation within Direct/Indirect Electron Transfer 2287.3.4 Proposed Schematic of Microbial Transformation of Schwertmannite and Jarosite 232References 235
内容摘要
酸性矿山废水(Acid Mine Drainage,AMD)污染是矿产资源开发利用过程中金属硫化物自然风化产生的重要环境问题。AMD中所含的重金属等污染物经污灌进入矿山周边农田耕地,严重破坏矿区的生态环境,对农产品安全构成潜在的威胁。在AMD污染的流域环境中,常常也会形成的大量亚稳定的含铁硫酸盐次生矿物,能够对流域内的重金属起到吸附和共沉淀的作用,但同时也面临着矿物转化过程中重金属再释放的环境风险,影响着水体中重金属的环境行为与归宿。本书介绍以黄铁矾和施氏矿物为代表的次生矿物在多种环境因子介导下的生物化学转化过程以及重金属释放机制等科学问题。将有助厘清矿区重金属的迁移规律和内在机理,从而为矿区重金属污染防控和治理提供理论指导。本书适合从事矿区生态修复治理相关的企*单位、科研机构、学生及对矿山生态环境有兴趣的大众人群。
精彩内容
Thisbookisofinterestregardingacidminedrainage(AMD),animportantenvironmentalproblemcausedbythenaturalweatheringofmetalsulfidesduringtheutilizationofmineralresources.IntheAMD-contaminatedwatershedenvironment,alargenumberofmetastableiron-sulfatesecondarymineralsareoftenformed,whichcanadsorbandco-precipitateheavymetalswithinAMD.Atthesametime,mineraltransformationdeterminestherereleasebehaviorofheavymetalsandtheirfateindifferentphases.Thisbookintroducesthescientificproblemsofbiochemicallycontrolledprocessesandheavymetalreleasemechanismsdrivenbyvariousenvironmentalfactorsasfollows:①migrationandfateofmetallicelementsinthemudimpoundmentandtheaffectedriver;②SO24-migrationinanAMD-affectedriver;③mineralogicalcharacteristicsofsedimentsinanAMD-affectedriver;④Fe-andS-metabolizingmicrobialcommunitiesinanAMD-affectedriverecosystem;⑤chemicalandbiologicaltransformationsofsecondarymineralphasesinAMD-affectedriversediments.Thistheoreticalframeworkwillhelptoclarifythemigrationpathwaysandinternalmechanismofheavymetalsinminingareas,thusprovidinginsightintothepreventionandcontrolofheavymetalpollutioninsuchareas.
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