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Remote Sensing for Geoscientists: Image Analysis and Integration, Third Edition 3rd edition [Kõva köide]

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(G.L. Prost GeoConsulting)
  • Formaat: Hardback, 704 pages, kõrgus x laius: 254x178 mm, kaal: 1660 g, 19 Tables, black and white; 543 Illustrations, color; 543 Illustrations, black and white
  • Ilmumisaeg: 13-Dec-2013
  • Kirjastus: CRC Press Inc
  • ISBN-10: 1466561742
  • ISBN-13: 9781466561748
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Remote Sensing for Geoscientists: Image Analysis and Integration, Third Edition 3rd editionSuurem pilt
  • Formaat: Hardback, 704 pages, kõrgus x laius: 254x178 mm, kaal: 1660 g, 19 Tables, black and white; 543 Illustrations, color; 543 Illustrations, black and white
  • Ilmumisaeg: 13-Dec-2013
  • Kirjastus: CRC Press Inc
  • ISBN-10: 1466561742
  • ISBN-13: 9781466561748
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781466561748.html
Märksõnad:
This third edition of the bestselling Remote Sensing for Geologists: A Guide to Image Interpretation is now titled Remote Sensing for Geoscientists: Image Analysis and Integration. The title change reflects that this edition applies to a broad spectrum of geosciences, not just geology; stresses that remote sensing has become more than photointerpretation; and emphasizes integration of multiple remote sensing technologies to solve Earth science problems. The text reviews systems and applications, explains what to look for when analyzing imagery, and provides abundant case histories to illustrate the integration and application of these tools.

See Whats New in the Second Edition:











Broader coverage to include integration of multiple remote sensing technologies Expanded with significant new illustrations in color and reviews of new satellites and sensors Analysis of imagery for geobotanical remote sensing, remote geochemistry, modern analogs to ancient environments, and astrogeology

The book covers how to initiate a project, including determining the objective, choosingthe right tools, and selecting imagery. It describes techniques used in geologic mapping and mineral and hydrocarbon exploration, image analysis used in mine development and petroleum exploitation, site evaluation, groundwaterdevelopment, surface water monitoring, geothermal resource exploitation, and logistics. It also demonstrates how imageryis used to establish environmental baselines; monitor land, air, and water quality; maphazards; and determine the effects of global warming.

The many examples of geologic mapping on other planets and the moon highlight how to analyze planetary surface processes, map stratigraphy, and locate resources. The book then examines remote sensing and the public, geographic information systems and Google Earth, and how imagery is used by the media, in the legal system, in public relations, and by individuals.

Readers should come away with a good understanding of what is involved in image analysis and interpretation and should be ableto recognize and identify geologic features of interest. Having read this book, they should be able to effectively use imagery in petroleum, mining, groundwater, surface water, engineering, and environmental projects.

Arvustused

" a well organized and highly readable overview of many of the most powerful and significant applications of "practical" remote sensing. The book is sure to clarify concepts both old and new while stimulating interest in the new. The great difficulty in a book of this type is to stay relevant in a world of ever changing technology. The author has done an excellent job in doing this, in a clear and readable manner. I feel that this book will become the standard reference for practitioners and students alike."Dr Ralph N.Baker, Independent Consulting Geologist, Houston, Texas " provides an earth scientist with a very efficient, one-stop information shop that covers not only the standard reflected light, thermal, and radar systems, but also the very important geophysical sensors such as potential field, EM, GPR, side-scan sonar, etc. an important contribution for earth scientists trying to understand how remote sensing imagery and vegetation can be used to create better maps of the earths geology." James Ellis, Ellis GeoSpatial

"Dr. Prost has clearly and thoroughly explained the wide variety of methods and applications Geoscientists will find this comprehensive guide to the interpretation and integration of remote sensing data to be a welcome addition to their personal libraries." Dr. Dietmar (Deet) Schumacher, Vice President for Geosciences and technology, E&P Field Services

"A new book by Prost is an amazing guide to the field of remote sensing, and it will remain so for years. Difficult to imagine, but the author was able to collect so huge amount of information that his writing can be judged as an ultimate reference volume irrespectively of which particular technique the reader is interested in. Well, it was almost impossible to achieve such brilliance, but this has been done successfully.

Speaking generally, the re

Preface xxi
Acknowledgments xxv
Author xxvii
Section I Initiating Projects
1 Project Flow and Obtaining Data
3(8)
Chapter Overview
3(1)
Choosing the Right Imagery for the Job
3(5)
Acquiring Imagery
8(1)
References
8(1)
Additional Reading
9(2)
2 Photointerpretation Tools and Techniques
11(22)
Chapter Overview
11(1)
Tools
11(1)
Light Tables
11(1)
Magnifying Glasses
11(1)
Stereoscopes
12(1)
Transferscopes
12(2)
Scales and Planimeters
14(1)
Parallax Bars
14(1)
Overlays
14(1)
Base Maps
15(1)
Filters
15(1)
Image Characteristics
15(1)
Photo Finish
15(1)
Paper versus Film
15(1)
Hard Copy versus Digital
16(1)
Mechanics of Image Analysis
16(1)
Image Interpretation
16(2)
Influence of Scale
18(1)
Influence of Color
19(1)
Technique
19(1)
Effect of Viewing Direction or Perspective
20(1)
Foreshortening
20(1)
Filtering
20(1)
Viewing with "Fresh Eyes"
20(1)
Multiple Images of the Same Area
20(1)
Image Processing
21(1)
Contrast Enhancement (and Suppression)
21(1)
Filtering
21(3)
Ratioing
24(1)
Transforms and Spectral Band Merging
25(3)
Color Manipulation
28(1)
Density Slicing
28(1)
Vegetation Indices
28(1)
Classification
29(1)
Geographic Information Systems
30(1)
References
31(1)
Additional Reading
32(1)
3 Remote Sensing Systems
33(132)
Chapter Overview
33(1)
Instrument Systems
33(1)
Cameras and Photography
33(2)
Black-and-White Photography
35(1)
Color Photography
36(3)
Satellite Photography
39(1)
Thermal Scanners and Imagery
39(2)
Radar
41(3)
Radar Profiling/Microwave Sounders
44(1)
Radar Altimeters
45(1)
Radar Interferometry
45(1)
Passive Microwave Radiometry
46(1)
Spectrometers, Spectrophotometers, and Interferometers
47(1)
Multispectral and Hyperspectral Scanners
48(3)
Imaging Absorption Spectrometers
51(1)
Occultation Spectrometers
51(1)
Michelson Interferometers
51(1)
Lasers, Lidar, and Lidar Altimeters
51(4)
Backscatter Lidar
55(1)
Differential Absorption Lidar
55(1)
Fluorescence Lidar
55(1)
Doppler Lidar
55(1)
Broadband Lidar
56(1)
Potential Fields Systems (Gravity and Magnetics Instruments)
56(1)
Gravimeters
57(2)
Magnetometers
59(2)
Gamma Ray and X-Ray Spectrometry
61(3)
Airborne Electromagnetic Surveys
64(1)
Airborne Very Low Frequency Electromagnetic Survey
64(1)
Airborne Resistivity
65(1)
Airborne Induced Polarization
65(1)
Ground-Penetrating Radar
66(1)
Other EM Systems
67(1)
Side-Scan Sonar
68(2)
Instrument Platforms
70(1)
Airborne Scanner Systems
71(1)
Thermal Infrared Multispectral Scanner
71(1)
Airborne Imagining Spectrometer
71(1)
Airborne Visible/Infrared Imaging Spectrometer
71(1)
Compact Airborne Spectrographic Imager
72(1)
Thematic Mapper Simulator
72(1)
NS-001
72(1)
AIRSAR
73(1)
Multispectral Infrared and Visible Imaging Spectrometer
73(1)
Hyperspectral Digital Imagery Collection Experiment
73(1)
Short Wavelength Infrared Full Spectrum Imager
73(1)
Digital Airborne Imaging Spectrometer 7915
73(1)
Portable Hyperspectral Imager for Low-Light Spectroscopy
74(1)
MODIS/ASTER Airborne Simulator
75(2)
IceBridge
77(1)
DISCOVER-AQ
77(2)
Airborne Microwave Observatory of Subcanopy and Subsurface
79(1)
CARVE
79(1)
Hurricane and Severe Storm Sentinel
79(1)
Satellites and Their Primary Earth Observation Systems
79(1)
United States of America (NASA, NOAA)
80(1)
Orbiting Geophysical Observatory
80(1)
Skylab
80(1)
Landsat
80(3)
Geostationary Operational Environmental Satellite
83(1)
Laser Geodynamics Satellite 1 and 2
83(1)
The National Oceanographic and Atmospheric Administration and MetOp-A
83(1)
Heat Capacity Mapping Mission
84(1)
SeaSat
84(2)
Magnetic Field Satellite
86(1)
Space Shuttle
86(1)
Geodetic Satellite
87(1)
TOPEX/Poseidon
87(1)
Tropical Rainfall Measuring Mission
88(1)
Geosat Follow-On
88(1)
TERRA (EOS AM)
88(3)
Active Cavity Radiometer Irradiance Monitor III
91(1)
Quick Scatterometer
92(1)
New Millenium Program Earth Observing-1 Satellite
92(1)
Scientific Application Satellite-C
92(2)
Jason-1
94(1)
Jason-2
95(1)
AQUA (EOS PM 1)
95(1)
Gravity Recovery and Climate Experiment
96(1)
Ice, Cloud, and Land Elevation Satellite
97(1)
Solar Radiation and Climate Experiment
97(1)
Aura
98(1)
CBERS Series
98(1)
Polar Operational Environmental Satellite N Series
98(2)
CloudSat
100(2)
CALIPSO
102(1)
Aquarius/SAC-D
102(1)
Suomi National Polar-Orbiting Partnership
103(1)
Canada
103(1)
RADARSAT-1
103(1)
RADARSAT-2
104(1)
SCISAT-1
104(1)
Chile
105(1)
FASat-Bravo
105(1)
SSOT
106(1)
China
106(1)
Yaogan 1 Series
106(1)
HaiYang-2A
107(1)
Ziyuan Series
107(1)
Denmark
108(1)
Ørsted
108(1)
DigitalGlobe
109(1)
Early Bird
109(1)
QuickBird
109(1)
WorldView-1
109(1)
WorldView-2
109(1)
European Organization for the Exploitation of Meteorological Satellites
109(1)
Meteosat Second Generation
110(1)
European Space Agency
110(2)
ERS-1 and -2 Ill
Cluster II Series
112(1)
Project for On-Board Autonomy
112(1)
ODIN
112(1)
Environmental Satellite
112(2)
FORMOSAT-2
114(1)
COSMO-SkyMed
115(1)
Soil Moisture Ocean Salinity
115(1)
Gravity Field and Ocean Circulation Explorer
116(1)
CryoSat-2
116(1)
Laser Relativity Satellite
116(1)
France
117(1)
STARLETTE and STELLA
117(1)
SPOT Series
118(1)
SPOT-6
118(1)
Detection of Electro-Magnetic Emissions Transmitted from Earthquake Regions
119(1)
Polarization and Anisotropy of Reflectances for Atmospheric Science Coupled with Observations from Lidar
119(1)
Pleiades Series
120(1)
Pleiades IB
121(1)
Germany
121(1)
Challenging Minisatellite Payload
121(1)
TerraSAR-X
121(1)
TanDEM-X
121(1)
GEOEYE, INC
122(1)
IKONOS-1 and IKONOS-2
122(1)
ORBVIEW-1
122(1)
ORBVIEW-2
122(1)
ORBVIEW-3
123(1)
GeoEye-1
123(1)
India
124(1)
IRS Series
124(1)
IRS-P4 (Oceansat-1)
125(1)
Technology Experiment Satellite
126(1)
IRS-P6
126(1)
IRS-P5
127(1)
IRS-P7
127(1)
Indian Micro Satellite-1
127(1)
Oceansat-2
127(1)
RISAT 2
127(1)
CARTOSAT 2B
128(1)
ResourceSat-2
128(1)
RISAT-1
128(1)
Indonesia
128(1)
Lapan-TUBsat
128(1)
ImageSat International
128(1)
Earth Resources Observation Satellite
128(1)
Earth Resources Observation Satellite B
129(1)
Japan
129(1)
Geostationary Meteorological Satellite Series
129(1)
Marine Observation Satellite-1 and -1b
130(1)
Advanced Earth Observing Satellite Series
130(2)
JERS-1
132(1)
Multifunctional Transport Satellites Series
132(1)
Advanced Land Observing Satellite
133(2)
Greenhouse Gases Observing Satellite
135(1)
Korea
135(1)
Korea Multipurpose Satellite-1
136(1)
Korea Multipurpose Satellite-2
136(1)
Korea Multipurpose Satellite-3
136(1)
Soviet Union/Russian Federation
136(2)
KOSMOS Series
138(1)
ETALON Series
138(1)
ALMAZ-1
138(1)
Monitor-E
138(1)
Resurs-DK1
138(2)
Meteor-M-1
140(1)
Electro-L
140(1)
Singapore
140(1)
X-Sat
141(1)
Surrey Satellite Technology Limited
141(1)
Disaster Monitoring Constellation
141(1)
Alsat-1 and Alsat-2
142(1)
Bilsat-1
142(1)
NigeriaSat-1 and NigeriaSat-2
142(1)
NigeriaSat-X
143(1)
U.K. DMCSat-1
143(1)
Beijing-1
143(1)
Deimos-1
143(1)
THEOS
143(1)
Future Satellite Systems
143(1)
Swarm Series
144(1)
LDCM (Landsat-8)
144(1)
ATTREX
145(1)
GeoEye-2
145(1)
CBERS Series
145(1)
Sentinel Series
145(1)
Atmospheric Dynamics Mission (ADM-Aeolus)
146(1)
SPOT-7
146(1)
Global Precipitation Measurement
146(1)
Worldview-3
147(1)
National Polar-Orbiting Operational Environmental Satellite System
147(1)
SAOCOM Series
147(1)
OceanSat-3
147(1)
International Space Station (ISS)
148(1)
Jason-3
148(1)
Orbiting Carbon Observatory-2
148(1)
EarthCARE
149(1)
GOES NEXT Series
149(1)
HyspIRI
149(1)
ResourceSat-3
149(1)
CartoSat-3
150(1)
Soil Moisture Active-Passive
150(1)
Geosat Follow-On-2
150(1)
Ice, Cloud, and Land Elevation Satellite-2
150(1)
Joint Polar Satellite System
151(1)
RADARSAT-3, -4, and -5
151(1)
ASCENDS
151(1)
Deformation, Ecosystem Structure, and Dynamics of Ice
152(1)
References
152(11)
Additional Reading
163(2)
Section II Remote Sensing in Geologic Mapping and Resource Exploration
Introduction
165(1)
Geologic Mapping
166(1)
Frontier Area Analysis
166(1)
Lease Evaluation
167(1)
Established Concessions
168(1)
The Field Check
168(3)
4 Recognizing Rock Types
171(10)
Chapter Overview
171(1)
Igneous Rocks
171(1)
Intrusive Igneous Rocks
171(2)
Extrusive Igneous Rocks
173(2)
Metamorphic Rocks
175(1)
Sedimentary Rocks
176(1)
Sandstones
176(1)
Shales
176(1)
Carbonates
177(1)
Evaporites
178(2)
References
180(1)
5 Recognizing Structure
181(82)
Chapter Overview
181(1)
Undeformed Terrain
181(2)
Recognizing Dip
183(5)
Anticlines, Domes, and Uplifts
188(2)
Surface Folds
190(1)
Buried Folds
191(1)
Topographic Expression of Folding
192(1)
Color Anomalies Indicating Folds
192(1)
Vegetation Anomalies Suggesting Folds
193(1)
Fracture Patterns Indicating Folds
194(6)
Buried Folds in Glacial Terrain
200(1)
Folds beneath Drifting Sand
200(1)
Folds Revealed by Drainage Patterns
201(1)
Channel Width/Depth Adjustment and Incision
202(1)
Compressed Meanders
202(1)
Drainage Texture
203(1)
Radial and Concentric (Annular) Drainage
203(1)
Braided Stream Segments
204(1)
Double Drainage Deflection
204(1)
Change in Strike of Bedding
204(1)
Parallel Drainage Deflection
205(1)
Levee Preservation
205(1)
Topographic Profiles
206(1)
Trend Surface Analyses
206(1)
Surface Features Offset from Subsurface Structure
207(1)
Circular Features
207(1)
Fractures and Lineaments
208(1)
Propagation Mechanisms
208(3)
Joints
211(5)
Faults
216(3)
Normal, Reverse, and Listric Faults
219(9)
Strike-Slip Faults
228(3)
Thrust Faults
231(8)
Case History: Structure and Geomechanics of Active Fault Zones
239(2)
Fault Zone Mapping
241(1)
Fault Zone Complexity
241(1)
Lateral Displacement of Geomorphic Markers
242(3)
Geomechanical Modeling
245(2)
Earthquakes and Tectonics
247(1)
Case History: Measuring Earthquake Deformation Using Differential Lidar
248(1)
El Mayor-Cucapah Earthquake Deformation
248(3)
Remote Sensing and Earthquake Forecasting
251(1)
Timing of Structural Development
252(1)
References
253(8)
Additional Reading
261(2)
6 Stratigraphic and Compositional Mapping
263(34)
Chapter Overview
263(1)
Rock Spectra
263(1)
Mineral Spectra
264(4)
Hyperspectral Imagery
268(1)
Mineral Mixing and Unmixing
269(3)
Atmospheric Corrections
272(1)
Ground-Penetrating Radar
272(2)
Lithologic Mapping
274(5)
Using Radar to Map Stratigraphy
279(1)
Hyperspectral Outcrop and Core Analysis
279(4)
Source Rock Mapping
283(1)
Seeps Mapping
283(2)
Stratigraphic Traps
285(2)
Stratiform Deposits
287(1)
Coal, Phosphate, Potash, and Uranium-Vanadium Deposits
287(1)
Base Metal Sedimentary Deposits and Chemical Precipitates
287(2)
Disseminated Sedimentary Ores and Replacement Mantos
289(1)
Fluvial and Marine Placer Deposits
290(2)
Laterites
292(1)
References
292(4)
Additional Reading
296(1)
7 Remote Geochemistry
297(20)
Chapter Overview
297(1)
Altered Rock and Soil Related to Hydrocarbon Seepage
297(7)
Altered Rock and Soil Related to Mineral Deposits
304(5)
Remote Sensing of Gases, Radiation, and Aerosols
309(1)
Case History: Sniffing the Air
309(2)
Detection of Gases, Radiation, and Aerosols Associated with Mineral Deposits
311(1)
References
312(5)
8 Modern Analogs
317(14)
Chapter Overview
317(1)
Depositional Environments
317(5)
Storm Deposits
322(1)
Erosional Environments
323(1)
Structural Analogs
324(2)
Analogs for Hazards Planning
326(1)
Planetary Analogs
327(1)
References
328(3)
9 Remote Sensing in Petroleum Exploration
331(22)
Chapter Overview
331(1)
Frontier Petroleum Exploration
331(1)
Case History: Offshore Barbados Petroleum Exploration
331(2)
Case History: Unraveling the Trap at Trap Springs, Nevada
333(3)
Mature Basin Petroleum Exploration
336(1)
Case History: An Integrated Approach Brings New Life to an Old Basin
336(4)
Case History: Stratigraphic Traps in the Paradox Basin, Utah
340(3)
Resource Plays
343(1)
Case History: Niobrara Fractured Carbonate-Shale Reservoir, Denver Basin, Colorado-Wyoming
343(4)
Case History: The Marcellus Fractured Shale Play
347(2)
References
349(2)
Additional Reading
351(2)
10 Remote Sensing in Mineral Exploration
353(20)
Chapter Overview
353(1)
Exploration Applications of Alteration Mapping
353(1)
Case History: Mapping the Grizzly Peak Caldera, Colorado
353(4)
Case History: The Missing Link--Alteration Associated with Gold Mineralization at Goldfield, Nevada
357(4)
Exploration Applications of Structure Mapping
361(1)
Case History: Structure Mapping as a Guide to Porphyry Copper Deposits, Northeast China
361(1)
Exploration Applications of Hyperspectral Mapping
362(1)
Case History: Exploration for Diamond-Bearing Kimberlites and Diatremes, Utah, Colorado, and Wyoming
362(3)
Case History: Mineral Exploration in Northern Chile
365(5)
References
370(1)
Additional Reading
371(2)
Section III Exploitation, Hydrologic, and Engineering Remote Sensing
Introduction
373(1)
Exploitation Applications
373(1)
Hydrologic Applications
374(1)
Engineering and Logistical Applications
375(2)
11 Remote Sensing in Resource Exploitation Projects
377(24)
Chapter Overview
377(1)
Choosing Infill and Stepout Well Locations
377(1)
Case History: Developing the Bravo Dome CO2 Field, New Mexico
378(3)
Case History: Developing a Fractured (Conventional) Reservoir, Austin Chalk, Texas
381(6)
Coalbed Methane
387(1)
Case History: Developing Coal Bed Methane, Piceance Basin, Colorado
388(1)
Secondary Recovery and Waterfloods
389(1)
Case History: Understanding a Waterflood at Cottonwood Creek Field
Wyoming
390(3)
Extending Known Mineral Deposits
393(1)
Case History: Extending Known Deposits in the Huancavelica Mining District, Peru
394(3)
Slope Stability and Mine Safety
397(1)
References
397(4)
12 Hydrology
401(18)
Chapter Overview
401(1)
Locating Sources of Groundwater
401(4)
Soil Moisture Determination
405(2)
Surface Waters and Bathymetry
407(2)
Bathymetric Mapping and Ocean Floor Topography
409(2)
Sub-Glacial Water
411(2)
Geothermal Resources
413(2)
References
415(3)
Additional Reading
418(1)
13 Logistics and Engineering
419(18)
Chapter Overview
419(1)
Site Selection
419(1)
Geologic Structure
420(1)
Surface Materials
421(1)
Subsidence
421(1)
Surface Slope
422(1)
Permafrost
422(2)
Expanding Clays
424(1)
Generating Appropriate Base Maps
424(1)
Reconnaissance
425(2)
Transportation
427(5)
Construction Projects
432(1)
Case History: Site Selection for the Kakrapar Atomic Power Project, India
432(1)
References
433(1)
Additional Reading
434(3)
Section IV Environmental Remote Sensing
14 Environmental Baselines and Monitoring
437(48)
Chapter Overview
437(1)
Environmental Audits
437(1)
Hazardous Waste
438(1)
Terrestrial Hydrocarbon Leaks and Spills
438(1)
Habitat Mapping
439(2)
Surface Disturbance and Change Detection
441(4)
Case History: Using Interferometric Synthetic Aperture Radar (InSAR) to Monitor Surface Deformation over a Steam-Assisted Gravity Drainage Project, Christina Lake, Alberta
445(1)
Coal Mine Fires
446(3)
Case History: Monitoring the Jharia Coal Fire, India
449(2)
Mine Reclamation
451(1)
Case History: Mine Reclamation in the Couer d'Alene Mining District, idaho
451(5)
Water Quality
456(1)
Rivers, Lakes, and Ponds
456(1)
Case History: Acid Rock Drainage, Upper Arkansas River, Colorado
457(2)
Case History: Monitoring Algal Blooms and Toxins, Nebraska
459(4)
Groundwater Quality
463(3)
Estuaries and Wetlands
466(1)
Marine Environment
466(1)
Algae
466(1)
Discharges, Spills, and Seeps
467(2)
Coastal Change Mapping
469(1)
Atmospheric and Air Pollution Monitoring
470(3)
Gas and Aerosol Detectors
473(3)
Satellite and Airborne Atmospheric Monitoring
476(2)
References
478(5)
Additional Reading
483(2)
15 Geobotanical Remote Sensing
485(18)
Chapter Overview
485(1)
Geobotany and Geological Mapping
486(5)
Vegetation Suppression Techniques
491(1)
Botanical Indicators of Mineralization and Alteration
492(2)
Botanical Responses to Hydrocarbons
494(5)
Vegetation as a Groundwater/Geothermal Resource Indicator
499(1)
References
500(2)
Additional Reading
502(1)
16 Environmental Hazards and Global Warming
503(35)
Chapter Overview
503(2)
Monitoring the Effects of Global Warming
505(3)
Landslides and Avalanches
508(5)
Earthquakes and Tsunamis
513(3)
Flooding
516(4)
Erosion
520(1)
Volcanoes
521(2)
Case History: Monitoring Volcanic Unrest in Kenya
523(2)
Subsidence and Sinkholes
525(1)
Case History: Subsidence over Abandoned Coal Mines, Colorado Springs, Colorado
526(2)
Marine Hazards
528(1)
Shoals
529(1)
Shoreline Change
530(1)
Submarine Slumps
530(1)
Sea Ice and Sea Ice Scour
530(2)
Hydrates, Gas Vents, and Craters
532(1)
References
533(3)
Additional Reading
536(2)
Section V Astrogeology
References
538(1)
17 Mapping Planetary Structure
539(20)
Chapter Overview
539(1)
Faulting
539(6)
Folding
545(3)
Impact Structures
548(7)
References
555(1)
Additional Reading
556(3)
18 Mapping Planetary Stratigraphy
559(20)
Chapter Overview
559(1)
Erosion and Deposition
559(1)
Eolian Erosion and Deposition
559(3)
Oceans and Lakes
562(1)
Rivers and Deltas
562(5)
Mass Wasting
567(1)
Glaciation
568(1)
Volcanism
569(3)
Composition and Mineral Mapping
572(5)
References
577(1)
Additional Reading
577(2)
19 Planetary Resources
579(10)
Chapter Overview
579(1)
Water
579(3)
Minerals and Metals
582(1)
Hydrocarbons
583(2)
References
585(1)
Additional Reading
585(4)
Section VI Remote Sensing, Geoscience, and the Public
20 Public Relations, the Media, and the Law
589(8)
Chapter Overview
589(1)
Public Relations
589(3)
Media
592(1)
Remote Sensing and the Law
593(1)
Regulations
593(1)
Law Suits
594(2)
References
596(1)
21 Geographic Information Systems and Online Remote Sensing Resources
597(24)
Chapter Overview
597(1)
Geographic Information Systems and Mapping
598(1)
Case History: Mine Management Using a Geographic Information System
598(2)
Case History: Pipeline Routing Using Remote Sensing and a Geographie Information System
600(1)
Online Resources for Remote Sensing
601(1)
Data Repositories
602(1)
NASA Reverb (reverb.echo.nasa.gov)
602(1)
Rapid Response (lance.nasa.gov/imagery/rapid-response/)
602(1)
USGS EarthExplorer (earthexplorer.usgs.gov)
602(1)
USGS GloVis (glovis.usgs.gov)
603(1)
ESA EOLi (eoli.esa.int)
603(1)
Community Remote Sensing
603(1)
Ongoing Research
604(1)
Publishing Data
605(1)
Standards
605(1)
Software Tools
605(1)
Geographic Information Systems
606(1)
Virtual Globes
606(1)
Google Earth
606(1)
NASA World Wind
607(1)
OpenWebGlobe
608(2)
Image Analysis
610(1)
ESA BEAM (www.brockmann-consult.de/cms/web/beam)
610(1)
GDAL (gdal.org)
611(1)
GeoTools (geotools.org)
611(1)
OSSIM (www.ossim.org)
611(1)
Networks
611(1)
Forums
611(1)
Twitter
612(1)
Blogs
612(1)
OpenTopography: Tutorial for a Web-Based Public Digital Topographic Data and Tools
613(1)
Introduction
613(1)
Computing Considerations
614(5)
References
619(2)
22 Closing Thoughts
621(2)
Index 623
Gary L. Prost