01077cam0 2200289 450 E60020002474120200719070238.020070130d1989 |||||ita|0103 baitaITPiccolo dizionario dei grandi uomini della RivoluzioneAntoine Rivarol con un saggio di Charles Augustin de Sainte-BeuvePalermoSellerio[1989]109 p.17 cm.<La >memoria187Trad. di Federica Giardini001LAEC000163512001 La *memoria187Rivarol, Antoine: deA600200034596070453335Sainte-Beuve, Charles Augustin : deA600200032058070ITUNISOB20200719RICAUNISOBUNISOB90056500E600200024741M 102 Monografia moderna SBNM900001744Si56500acquistopregresso1UNISOBUNISOB20070130092713.020200719070238.0rovitoPiccolo dizionario dei grandi uomini della Rivoluzione1758299UNISOB06904nam 2200457 450 99649986110331620230411193125.03-031-12176-7(MiAaPQ)EBC7148708(Au-PeEL)EBL7148708(CKB)25504185700041(PPN)266355323(EXLCZ)992550418570004120230411d2022 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierX-ray imaging of the soil porous architecture /Sacha Jon Mooney [and three others], editorsCham, Switzerland :Springer,[2022]©20221 online resource (232 pages)Print version: Jon Mooney, Sacha X-Ray Imaging of the Soil Porous Architecture Cham : Springer International Publishing AG,c2023 9783031121753 Includes bibliographical references and index.Intro -- Foreword -- Acknowledgements -- Contents -- Chapter 1: 40 Years of X-ray CT in Soil: Historical Context -- 1.1 Introduction -- References -- Chapter 2: Practicalities of X-ray CT Scanning for the Soil Sciences -- 2.1 Introduction -- 2.2 Manufacturers of μCT Systems -- 2.3 X-ray Sources -- 2.4 Detectors -- 2.5 Obtaining High-Resolution Images -- 2.6 Image Quality -- 2.7 Sample Manipulator -- 2.8 Configurations -- 2.8.1 Cabinet or Enclosure? -- 2.8.2 CT Scanning Methods -- 2.8.3 Software -- 2.9 Overcoming CT Artefacts -- 2.10 Evaluating a Potential X-Ray CT System -- References -- Chapter 3: Soil Sampling and Preparation for X-ray Imaging -- 3.1 Introduction -- 3.2 The Main Steps for Successful Sampling -- 3.2.1 What is the Aim of the Sampling -- 3.2.2 Where to Sample -- 3.2.3 Determining Sample Size -- 3.2.4 How to Orientate the Sample -- 3.2.5 Number of Samples -- 3.2.6 When to Sample -- 3.2.7 How to Sample -- 3.2.8 How to Document, Transport, and Store Samples -- 3.3 Representative Elementary Volume -- 3.4 Geospatial Sampling -- 3.5 Sample Preparation -- 3.5.1 Preliminary Laboratory Analysis -- 3.6 Conclusions -- References -- Chapter 4: Optimising the Scanning Process: Demystifying the Dark Art of Optimising Microtomography Scan Settings -- 4.1 Introduction -- 4.2 Preparing the Sample -- 4.3 Optimising the Image -- 4.3.1 Positioning the Sample in the Scanner -- 4.3.2 X-ray Voltage and Current -- 4.3.3 Detector Settings -- 4.4 Acquisition Modes -- 4.5 Conclusions -- References -- Chapter 5: X-ray Computed Tomography Image Processing &amp -- Segmentation: A Case Study Applying Machine Learning and Deep Learning... -- 5.1 Image Processing: Cropping and Filtering -- 5.2 Image Segmentation -- 5.2.1 Global Segmentation -- 5.2.2 Local Segmentation -- 5.2.3 Machine Learning-Based Segmentation as a Solution to New X-ray CT Imaging Challenges.5.3 An X-ray CT Image Segmentation Protocol Based on Machine Learning and Deep Learning Strategies: A Case Study -- 5.3.1 X-ray CT Image Acquisition and Preparation for the Machine Learning Pipeline -- 5.3.2 Machine Learning Pipeline -- 5.3.3 Deep Learning Pipeline -- 5.4 Conclusions -- References -- Chapter 6: Quantification of Soil Porous Architecture -- 6.1 Introduction -- 6.2 Quantification of Pore Structure -- 6.2.1 Metrics Based on Binary Image -- 6.2.2 Metrics Based on Connected Components -- 6.2.3 Metrics Based on Distance -- 6.2.4 Metrics Based on Pore Size -- 6.2.5 Case Study on Tillage-Induced Pore Structure -- 6.3 Scale Issues in Pore Structure Characterization -- 6.4 Correlative Imaging -- 6.4.1 Practical Issues -- 6.4.2 Software Implementations -- 6.5 Conclusions -- References -- Chapter 7: X-ray Computed Tomography for Studying Solute Transport in Soils -- 7.1 Introduction -- 7.2 Methods to Study Solute and Water Transport in Soils -- 7.3 CT Scanning for Estimating Solute and Water Transport -- 7.4 Limitations of CT Techniques for Estimating Water and Solute Transport through Soil -- 7.5 Conclusions -- References -- Chapter 8: X-ray Imaging of Mechanical Processes in Soil -- 8.1 Introduction -- 8.2 X-ray CT in Relation to Tillage -- 8.2.1 Visualisation and Evaluation of Seedling Growing Conditions Produced by Tillage -- 8.2.2 Macropore Structure and Functioning Affected by Tillage/no-Tillage -- 8.2.3 Using X-Ray CT to Predict Soil Fragmentation from Tillage -- 8.3 Soil Compaction Due to Traffic -- 8.3.1 Identification of the Long-term Effects of Soil Compaction -- 8.3.2 Segmentation and Compaction -- 8.3.3 From Soil Displacement to Stress Transmission -- 8.4 Visualisation of Soil Deformation -- 8.5 Conclusions -- References -- Chapter 9: X-ray Imaging of Root-Soil Interactions -- 9.1 Introduction -- 9.2 General Overview and Drawbacks.9.3 X-ray Dose -- 9.4 Opportunity In Situ over Time -- 9.5 Root Segmentation -- 9.6 Root System Architecture and Root Traits -- 9.7 Mutual Interaction of Roots and Soil Structure -- 9.8 Compacted Soils -- 9.8.1 Compaction of the Rhizosphere -- 9.8.2 Root-Soil Contact -- 9.9 Interaction with (Micro)Organisms -- 9.10 The Impact of Nutrition on Root Growth -- 9.11 Image-Based Modelling -- 9.11.1 Explicit Models -- 9.11.2 Root System Architecture (RSA) as Input for Models -- 9.12 Conclusions -- References -- Chapter 10: X-ray Computed Tomography Imaging &amp -- Soil Biology -- 10.1 Introduction -- 10.2 Soil Meso-Fauna and X-ray CT -- 10.3 Soil Microorganisms and X-ray CT -- 10.4 Indirect Use of CT to Observe the Outcomes of Microbial Activities -- 10.5 Effect of CT Scanning on Soil Organisms -- 10.6 CT and Soil Organic Matter Visualization -- 10.7 Conclusions -- References -- Chapter 11: Integrating X-ray CT Data into Models -- 11.1 Introduction -- 11.2 Direct Integration of X-ray CT Data-Derived Soil Phases into Image-Based Models -- 11.2.1 Integration of X-ray CT Data of Pore Space Geometry -- 11.2.2 Integration of X-ray CT Data of Air-Water Distribution -- 11.2.3 Integration of X-ray CT Data of Solid Organic Matter Distribution -- 11.2.4 Integration of X-ray CT Data of Roots -- 11.3 Overview of Image-Based Modelling Works -- 11.3.1 Modelling of Soil Physical Processes -- 11.3.1.1 Saturated Water Conditions -- 11.3.1.2 Unsaturated Water Conditions -- 11.3.2 Modelling of Biological Processes -- 11.3.2.1 Modelling of Microbial Activity -- 11.3.2.2 Modelling of Root Processes -- 11.4 Conclusions -- References -- Chapter 12: Future Perspectives -- 12.1 Introduction -- 12.2 Conclusions -- References.Soil mechanics. Imaging systems in geology Soil mechanics. .Imaging systems in geology .624.15136Jon Mooney SachaMiAaPQMiAaPQMiAaPQBOOK996499861103316X-ray imaging of the soil porous architecture3088636UNISA01882nam0 22004093i 450 RAV067378820231121125643.088339125749788833912578Rist. 200820001106d2000 ||||0itac50 baitaitz01i xxxe z01n˜Il œsenso degli altriattualità dell'antropologiaMarc AugéTorinoBollati Boringhieri2000139 p.22 cmSaggi. Storia, filosofia e scienze socialiTrad. di Adriana Soldati.001CFI05200352001 Saggi. Storia, filosofia e scienze sociali˜Le œsens des autres. Actualité de l'anthropologie.LO10372859CFIV0074873616341AntropologiaFIRRMLC001428I302.520306CULTURA E ISTITUZIONI21Augé, MarcCFIV007487070382055Soldati, AdrianaLO1V148498ITIT-0120001106IT-RM0289 IT-FR0084 IT-FR0017 IT-RM0526 Biblioteca Statale A. BaldiniRM0289 Biblioteca Del Monumento Nazionale Di MontecassinoFR0084 Biblioteca umanistica Giorgio ApreaFR0017 Biblioteca dell’Istituto Centrale per il Patrimonio ImmaterialeRM0526 NRAV0673788Biblioteca umanistica Giorgio Aprea 52CIS Studio prof.ssa De Carlo 52VM 0000760715 VM barcode:00067976. - Inventario:5064 LLCSVMB 2008082620121204 52MAG 12/1971 52DSU0000004285 VMN RS A 2014062720140627 04 25 52 58Sens des autres. Actualité de l'anthropologie3616341UNICAS