Model-driven soil probing, site assessment and evaluation guidance on technologies (Roma, 2012). - ОГЛАВЛЕНИЕ / CONTENTS
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ОбложкаModel-driven soil probing, site assessment and evaluation guidance on technologies / ed. by M.Kastner et al. - Roma: Sapienza Università Editrice, 2012. - xix, 307 p.: ill. + 1 CD ROM. - Incl. bibl. ref. - Ind.: p.297-307. - ISBN 978-88-95814-72-8
 

Место хранения: 041 | Институт почвоведения и агрохимии CO РАН | Новосибирск

Оглавление / Contents
 
Preface ......................................................... V
Acknowledgements .............................................. VII
The Editors .................................................. VIII
Additional editorial committee and internal reviewers .......... XI
External reviewers ............................................ XII
Contributors ................................................. XIII
List of abbreviations ......................................... XVI

Section 1 - Guideline ........................................... 1

1.1  What are the aims of the ModelPROBE Handbook and
     what does it consist of? An overview ....................... 3
1.2  Why is a new approach to contaminated site 
     characterisation needed and why do new approaches meet
     severe obstacles? A brief introduction ..................... 3
1.3  A new approach to contaminated site characterisation and
     its framework - The ModelPROBE approach .................... 6
1.4  The ModelPROBE techniques and methods at a glance -
     A brief guidance to the Manuals Part of the Handbook ....... 8
1.5  How to integrate ModelPROBE within an overall
     investigation framework - A brief guidance to the
     practical use of the techniques covered by ModelPROBE ..... 11
1.6  Further information on ModelPROBE ......................... 15
1.7  References ................................................ 15

Section 2 - Factsheets

I   Geophysical Methods
2.1  Self-Potential (SP) ....................................... 19
2.2  Electrical Impedance Tomography (EIT) Spectral Induced
     Polarization (SIP) ........................................ 22
2.3  Electromagnetic Induction mapping (terrain
     conductivity) ............................................. 25
2.4  Ground Penetrating Radar (GPR) ............................ 28
2.5  Radio Magnetotelluric (RMT) ............................... 31
2.6  Geophysical data fusion ................................... 34

II  Minimally Invasive Methods
2.7  Tree Core Monitoring ...................................... 37
2.8  Direct Push General introduction .......................... 40
2.9  Direct Push Geophysical methods ........................... 43
2.10 Direct Push Sampling ...................................... 46
2.11 Direct Push Hydrostratigraphic tools ...................... 49
2.12 Direct Push Geotechnical methods .......................... 52
2.13 Direct Push Geochemical methods ........................... 55

III Biogeochemical Methods
2.14 Compound-Specific Isotope Analysis (CSIA) ................. 58
2.15 Classical ВACTRAP ......................................... 61
2.16 Direct Push ВACTRAP ....................................... 64
2.17 Monitoring of dechlorinating microorganisms ............... 67
2.18 Bioassays ................................................. 70

IV  Laboratory methods
2.19 Cyclodextrin extraction ................................... 73
2.20 Contaminant trap .......................................... 76
2.21 Equilibrium sampling ...................................... 79

V   Soil water sampling methods
2.22 Suction cups .............................................. 82
2.23 Multilevel samplers ....................................... 85

VI  Methods for Data Assimilation
2.24 Data Assimilation and Statistical Analysis ................ 88

Section 3 - Technical Descriptions ............................. 91

I   Geophysical Methods
3.1  A geophysical multi-method approach to contaminated 
     site characterization ..................................... 93

II  Minimally Invasive Methods
3.2  Phytoscreening with tree cores ........................... 133
3.3  Introduction to Direct Push technologies ................. 149
3.4  Direct Push tools for geophysical measurements ........... 163
3.5  Direct Push methods for sampling of soil, soil gas and
     groundwater .............................................. 175
3.6  Direct Push tools for hydrostratigraphic 
     characterization ......................................... 187

III Biogeochemical Methods
3.7  Compound-specific isotope analysis (CSIA) for
     characterization of biodegradation ....................... 199
3.8  In situ microcosms for demonstrating microbial
     contaminant degradation (BACTRAP®) ....................... 219
3.9  Monitoring of dechlorinating bacteria by FISH/CARD-FISH
     and real time PCR ........................................ 231
3.10 Bioassays for the assessment of ecotoxicity in
     groundwater and soil elutriate samples ................... 245

IV  Data Assimilation methods
3.11 Spatial statistics, data comparision and assimilation .... 259

Annexes ....................................................... 275
A  General considerations
   A.1  Water Sampling in the unsaturated and saturated 
        zones ................................................. 277
   A.2  Flow and transport modelling .......................... 283
B  Additional ModelPROBE site information
   B.l  ModelPROBE site descriptions .......................... 289

Index ......................................................... 297


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