00999nam0 22003131 450 99000963239040332120121012155654.0000963239FED01000963239(Aleph)000963239FED0100096323920121012d1950----km-y0itaa50------bagerCHy-------001yyHandbuch des internationalen Privatrechtsunter besonderer Berucksichtigung der Schweizerisachen Gesetzgebung und Rechtsprechungvon Adolf F. Schnitzer3., neubearbeitete und erweiterte AuflBaselRecht und Gesellschaft19502 v.24 cm340.912 rid.itaSchnitzer,Adolf F.228339ITUNINARICAUNIMARCBK990009632390403321X C 20 (1)30763FGBCX C 20 (2)40378FGBCFGBCHandbuch des internationalen Privatrechts847884UNINA01138nam0 22002893i 450 SUN010180120150612095743.269978-88-14-18353-90.0020150612d2014 |0itac50 baitaIT|||| |||||Dei patrimoni destinati ad uno specifico affareRenato SantagataMilanoGiuffrè2014XX, 543 p.25 cm.001SUN00613482001 ˆIl ‰codice civile. Commentario210 MilanoGiuffrè.SUN0101802Artt. 2447 bis-2447 decies.Patrimoni destinatiSGSUNC029408MilanoSUNL000284Santagata, RenatoSUNV009677259869GiuffrèSUNV001757650ITSOL20181231RICAhttps://www.giuffre.it/3176016/INDICE_496416.pdfSUN0101801UFFICIO DI BIBLIOTECA DEL DIPARTIMENTO DI GIURISPRUDENZA00CONS XV.D.12 2447b-2447d 00UBG796 20150721 Dei patrimoni destinati ad uno specifico affare..40733UNICAMPANIA11807oam 22005293 450 991058337950332120250204111730.09780444637635044463763X(CKB)3800000000216846(FR-PaCSA)88849450(MiAaPQ)EBC5050157(MiFhGG)9780444640079(FRCYB88849450)88849450(BIP)59112311(EXLCZ)99380000000021684620210525d2017 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierEnvironmental Geochemistry Site Characterization, Data Analysis and Case Histories2nd ed.San Diego :Elsevier,2017.©2018.1 online resource (646 pages)Front Cover -- Environmental Geochemistry: Site Characterization, Data Analysis and Case Histories -- Copyright -- Contents -- Contributors -- Preface -- Acknowledgments -- Chapter 1: Field Methods in Regional Geochemical Surveys -- 1. Introduction -- 2. Sampling Media -- 3. Sampling Density -- 4. Sampling Network -- 5. Quality Assurance in Sampling -- 6. Sampling Procedures -- 6.1. General Aspects of the Fieldwork -- 6.2. Stream Waters -- 6.3. Sediments -- 6.4. Soils -- 7. Documentation of the Field Data -- 8. Photographing -- 9. Sample Archive -- References -- Chapter 2: Sampling Methods for Site Characterization -- 1. Introduction -- 1.1. Exploratory Sampling -- 1.2. Monitoring -- 1.3. Presence/Absence Sampling -- 2. Site Characterization -- 2.1. Initial Site Assessment -- 3. Basic Sampling Types -- 3.1. Random Sampling -- 3.2. Stratified Random Sampling -- 3.3. Systematic Sampling (Grid) -- 3.4. Judgmental Sampling -- 4. Some Further Sampling Considerations -- 4.1. Depth Sampling -- 4.2. Types of Samples -- 4.3. Number of Samples -- 4.4. Composite Sampling -- 4.5. Statistical Considerations -- 4.6. Sampling Bias -- 4.7. Control (Background) Samples -- 4.8. Sampling Tools -- 4.9. Field Measurement -- 4.10. Sample Handling -- 4.11. Documenting Sampling -- References -- Chapter 3: Contaminated Groundwater Sampling and Quality Control of Water Analyses -- 1. Introduction -- 2. Groundwater Sampling Objectives -- 2.1. Planning and Preparation -- 3. Choosing the Right Portable Sampling Devices -- 3.1. Grab Samplers -- 3.2. Passive Diffusion Bag Sampler -- 3.3. SnapSampler -- 3.4. HydraSleeve -- 3.5. Inertial Pumps -- 3.6. Peristaltic Pumps -- 3.7. Gas-Operated Bladder Pumps -- 3.8. Electric Submersible Pumps -- 3.9. Common Materials Used in Sampling Devices -- 4. Avoiding Cross-Contamination -- 5. Water-Level Measurements.6. Well Purging Techniques -- 6.1. Specified Number of Well Volumes -- 6.2. Low-Flow Purging -- 6.3. "No Purge" Sampling -- 6.4. Dedicated Pump Versus Portable Sample Collection -- 7. On-Site Water-Quality Measurements -- 7.1. Temperature -- 7.2. pH -- 7.3. Specific Electrical Conductance -- 7.4. Alkalinity -- 7.5. Dissolved Oxygen -- 7.6. Oxidation-Reduction Potential -- 8. Preservation and Handling of Samples -- 8.1. Filtration -- 8.2. Addition of Preservatives -- 8.3. Solvent Extraction -- 8.4. Cooling or Freezing -- 8.5. Sample Containers -- 9. Quality Assurance and Quality Control Procedures -- 9.1. Blank Samples -- 9.2. Laboratory Blanks -- 9.3. Field Blanks -- 9.4. Replicate Samples -- 9.5. Spiked Samples -- 9.6. Labeling -- 9.7. Transport -- 9.8. Laboratory Reception -- 9.9. Chain of Custody -- 10. Data Validation -- 10.1. Comparison of Field and Laboratory Values -- 10.2. Comparison With Other Samples From the Same Source -- 10.3. Comparison With Other Samples From the Area -- 10.4. Comparison of SEC and TDS -- 10.5. Evaluation of Charge Balance Errors -- 10.6. Comparison of Measured and Calculated TDS (or Measured and Calculated SEC) -- 10.7. Apparent Anomalies and Impossibilities -- 11. Health and Safety in Fieldwork -- References -- Chapter 4: The Collection of Drainage Samples for Environmental Analyses From Active Stream Channels -- 1. Introduction -- 2. Drainage Basins -- 3. Drainage Sampling -- 4. Sampling Strategy -- 5. Procedures -- 5.1. Generic Sampling Considerations -- 5.1.1. Reliability of Sampling Teams -- 5.1.2. Avoiding Contamination -- 5.2. Sampling Team and Responsibilities -- 5.3. Field Sampling Equipment -- 5.4. Sampling Procedures -- 5.5. Site Selection -- 5.6. Collecting a Stream Water -- 5.7. Collecting Stream Sediment -- 5.8. Collecting Panned Concentrate -- 5.9. Completion of Sampling.5.10. Collecting Duplicate Samples -- 5.11. Dry Sites -- 5.12. Control Samples -- 5.13. Health and Safety -- 6. Discussion -- 6.1. Sampling Equipment -- 6.2. Representative Nature of Drainage Sediments -- 6.3. Other Drainage Site Media -- 7. Conclusions -- Acknowledgments -- References -- Chapter 5: Data Conditioning of Environmental Geochemical Data: Quality Control Procedures Used in the British Geological ... -- 1. Introduction -- 2. Planning Quality Control-Quality Assurance -- 2.1. Appropriate and Well-Documented Procedures -- 2.2. Sample Numbering -- 2.3. Control Samples -- 3. Raw Data Checking -- 3.1. Data Checking -- 3.2. Dealing with Missing, Semiquantitative and Unreliable Data -- 4. Statistical Analyses and Plotting of Control Sample Data -- 4.1. Control Charts -- 4.2. Duplicate-Replicate Plots -- 4.3. Hierarchical Analysis of Variance -- 5. Leveling Data -- 5.1. Between Batch and Between Field Campaign Data Leveling -- 5.2. Leveling Data With Differing Lower Limits of Detection -- 5.3. Leveling Data Determined by Different Analytical Method -- 6. Discussion -- Acknowledgments -- References -- Chapter 6: Gas Chromatographic Methods of Chemical Analysis of Organics and Their Quality Control -- 1. Introduction -- 2. Sample Preparation-Aqueous Samples -- 2.1. Purge and Trap -- 2.2. Headspace -- 2.3. Liquid/Liquid Extraction -- 2.4. Solid Phase Extraction -- 2.5. Solid Phase Microextraction -- 3. Sample Preparation-Soil Samples -- 3.1. Purge and Trap -- 3.2. Soxhlet Extraction -- 3.3. Shaker Table -- 3.4. Ultrasonic Probe -- 3.5. Accelerated Solvent Extraction -- 4. Clean-Up Techniques -- 4.1. Adsorption "Clean-Up" Columns -- 4.2. Size-Exclusion Columns -- 4.3. Lipid Destruction -- 4.4. Sulfur Removal -- 4.5. Evaporation Steps -- 5. Instrumental Analysis -- 5.1. Flame Ionization Detector -- 5.2. Electron Capture Detector.5.3. Nitrogen/Phosphorus Detector -- 5.4. Photo Ionization Detector -- 5.5. Mass Spectrometry -- 5.6. High-Resolution Mass Spectrometry -- 6. Data Analysis -- 6.1. External Standard Calculations -- 6.2. Internal Standard Calculations -- 6.3. Isotope Dilution Calculations -- 7. Quality Control -- 7.1. Internal QC -- 7.2. Method Blanks -- 7.3. Method Spikes (Laboratory Control Samples) -- 7.4. Matrix Spikes and Matrix Spike Duplicates -- 7.5. Surrogates -- 7.6. Duplicates -- 7.7. Reference Materials -- 7.8. External Laboratory QC -- References -- Chapter 7: Evaluation of Geochemical Background at Regional and Local Scales by Fractal Filtering Technique: Case Studies ... -- 1. Introduction -- 2. Multifractal Interpolation and Fractal Concentration-Area (C-A) Method -- 3. Background/Baseline Geochemical Map Obtained by Fractal Filtering (S-A) method -- 4. Pb and U Background Values for Campania Region Stream Sediments -- 5. Pb Background Values for the Volcanic Soils of the Metropolitan and Provincial Areas of Napoli -- 6. Conclusions -- Acknowledgments -- References -- Chapter 8: Geochemical Mapping of Urban Areas -- 1. Introduction -- 2. Definition of Geochemical Background and Baseline at an Urban Scale -- 3. Planning Urban Geochemical Mapping -- 4. Sampling Protocols and Field Activities -- 5. Sample Preparation and Analyses -- 6. Geochemical Data Presentation -- 6.1. GIS-Aided Techniques for Urban Geochemical Data Presentation -- 6.2. Dot Maps -- 6.3. Interpolation -- 6.4. Background and Baseline Maps -- 6.5. Multivariate Analysis and Scores Mapping -- 6.6. Risk Mapping -- Acknowledgments -- References -- Chapter 9: Chemical Speciation to Assess Bioavailability, Bioaccessibility and Geochemical Forms of Potentially Toxic Met ... -- 1. Introduction -- 2. PTMs Forms in Soil and Bioavailability.3. The Need of Speciation and Speciation Methods of PTMs in Soil -- 4. Plant Bioavailability -- 4.1. Metals in Soil Solution -- 4.2. Single Chemical Methods to Assess Phytoavailable Metals in Soil -- 4.2.1. Soil Extraction of Readily Soluble PTMs With 1M NH4NO3 -- 4.3. Contrasting Aspects in the Use of Single Chemical Methods to Define Plant-Available PTMs -- 5. Human Bioavailability and Bioaccessibility -- 6. PTM Partitioning Between Soil Geochemical Phases -- 6.1. Sequential Chemical Extractions -- 6.2. The BCR Sequential Extractions -- 6.3. Problems and Options of Sequential Extractions -- 7. Applications of PTM Speciation for Risk and Remediation Assessment -- 8. Concluding Remarks -- References -- Chapter 10: Extraction and Characterization of Pore Water in Contaminated Soils -- 1. Introduction -- 1.1. Soil Pore Water and the Concept of (Bio)availability -- 1.1.1. Soil Pore Water Definition -- 1.1.2. Bioavailability and Soil Pore Water Sampling -- 2. Methods for Sampling Soil Pore Water -- 2.1. Field-Based Methods -- 2.1.1. Tension Samplers -- 2.1.2. Passive Samplers -- 2.2. Laboratory-Based Methods -- 3. Description and Discussion of Selected Methods -- 3.1. Rhizon Soil Moisture Samplers -- 3.1.1. Materials -- 3.1.2. Theoretical Basis of Method -- 3.1.3. Zone of Influence -- 3.1.4. Uses and Limitations for Soil Pore Water Extractions -- 3.2. Passive Diffusion Samplers-Microdialysis Probes -- 3.2.1. Materials -- 3.2.2. Theoretical Basis of Method -- 3.2.3. Uses and Limitations for Soil Pore Water Extractions -- 3.3. Centrifugation -- 3.3.1. Materials -- 3.3.2. Theoretical Basis of Method -- 3.3.3. Pore Water Extraction -- 3.3.4. Uses and Limitations for Soil Pore Water Extractions -- 3.4. Pressure Filtering (Squeezing) -- 3.4.1. Materials -- 3.4.2. Theoretical Basis of Method -- 3.4.3. Pore Water Extraction -- 3.4.4. Extraction Efficiency.3.4.5. Uses and Limitations for Soil Pore Water Extractions.Environmental Geochemistry: Site Characterization, Data Analysis and Case Histories, Second Edition, reviews the role of geochemistry in the environment and details state-of-the-art applications of these principles in the field, specifically in pollution and remediation situations. Chapters cover both philosophy and procedures, as well as applications, in an array of issues in environmental geochemistry including health problems related to environment pollution, waste disposal and data base management. This updated edition also includes illustrations of specific case histories of site characterization and remediation of brownfield sites. Covers numerous global case studies allowing readers to see principles in action Explores the environmental impacts on soils, water and air in terms of both inorganic and organic geochemistry Written by a well-respected author team, with over 100 years of experience combined Includes updated content on: urban geochemical mapping, chemical speciation, characterizing a brownsfield site and the relationship between heavy metal distributions and cancer mortalityEnvironmental geochemistryEnvironmental geochemistry.551.9DeVivo Benedetto1739313Belkin H. E1414899Lima Annamaria62835MiAaPQMiAaPQMiAaPQBOOK9910583379503321Environmental Geochemistry4163290UNINA