Geomorphology and global tectonics /

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Detalles Bibliográficos
Autor principal: Summerfield, Michael A.
Otros Autores: Mayer, Larry, Beaumont, Christopher, Kooi, Henk, Willett, Sean D., Gleadow, Andrew J. W., Brown, Roderick W., Hovius, Niels, Tippett, J. Mark, Lin, Jiun-Chuan, Ohmori, Hiroo, Kennan, Lorcan, Fielding, Eric J., Bishop, Paul, Goldrick, Geoff, Gallagher, Kerry, Pazzaglia, Frank J., Gardner, Thomas W., Kerr, David E., Sugden, David E., Gunnell, Yanni, Fleitout, L., Watts, A B.
Formato: Desconocido
Lenguaje:Español
Publicado: New York: Wiley, 2001.
Edición:repr.
Materias:
Geología
Geomorfología
Tectónica global
Aporte de:Registro referencial: Solicitar el recurso aquí
Sistema de Bibliotecas UNRN de Universidad Nacional de Río Negro
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100 1 |a Summerfield, Michael A.  |9 19037 
245 1 0 |a Geomorphology and global tectonics /   |c Edited by Michael A. Summerfield 
250 |a repr. 
260 |a New York:   |b Wiley,   |c 2001. 
300 |a 367 p. :   |b mapas ;   |c 26 cm. 
500 |a Incluye índice analítico 
505 |a Part I Introduction -- 1. Geomophology and global tectonics: introduction / Michael A. Summerfield -- 1.1 Aim and context -- 1.2 Early ideas -- 1.3 Davisian dogma -- 1.4 Erosion surfaces, denudation chronology and tectonics -- 1.5 Current issues -- 1.6 Plan of the book  
505 |a Part II General models and empirical approaches -- 2. Application of digital elevation models to macroscale tectonic geomorphology / Larry Mayer -- 2.1 Introduction -- 2.2 Digital elevation models -- 2.3 Topographic analysis and DEMs -- 2.4 Use of DEMs for tectonic studies -- 2.5 DEMs for macroscales tectonic geomorphology -- 2.5.1 Grand Canyon erosion -- 2.5.2 Volcanic eruptions: Mount St Helens -- 2.5.3 Interplate seismicity: New Madrid, Missouri, USA -- 2.5.4 Continental rifting: Baja California -- 2.6 Future Research directions -- Apendix: Some sources of global elevation data  
505 |a 3. Coupled tectonic-surface process modes with applications to rifted margins and collisional orogens / Christopher Beaumont ; Henk kooi and Sean Willett -- 3.1 Introduction -- 3.1.1 Convergent plate boundaries -- 3.1.2 Divergent plate boundaries -- 3.1.3 Stating the problem -- 3.2 Surface process models and coupling tectonic models -- 3.3 Denudational response to kinematic tectonic forcing -- 3.3.2.1 Steady-state landscape -- 3.3.2.2 Linear resposnse and landscape response time -- 3.3.2.3 Slow, intermediate, rapid and impulsive tectonic forcing -- 3.3.2.4 Nonlinear behavoir -- 3.3.3 Comparison with other work -- 3.4 Post-Rift evolution of Rifted Margins -- 3.4.1 Escarpment evolution -- 3.4.2 Comparison with other work -- 3.5 Dynamically coupled models of tectonic and denudation in orogens -- 3.5.1 Evidence of coupling between tectonics and surface processes -- 3.5.2. Results from numerical models -- 3.5.3. Results from physical models -- 3.6. Future research directions -- 
505 |a 4. Fission-track thermochronology and the long-term denudational respose to tectonics / Andrew J. W. Gleadow and Roderick W. Brown -- 4.1. Introduction -- 4.2. Fission-Track thermochronology -- 4.2.1. Fission-track dating -- 4.2.2. Fission-track annealing and thermal history modelling -- 4.3. Interpretation of fission-track data -- 4.3.1. Cooling history styles -- 4.3.2. Discriminating cooling from thermal event styles -- 4.3.3. Vertical fission-track sampling profiles -- 4.3.4. Tectonic disruption of fission-track patterns -- 4.4. application to continental denudation -- 4.4.1. Deriving estimates of denudation -- 4.4.2. Estimating thermal gradients -- 4.4.3. Transient thermal events -- 4.4.4. Denudation in active orogenic belts -- 4.4.5. The ralationship between denudation and tectonics -- 4.5. Conclusion -- 4.6. Outstanding questions and future directions -- 
505 |a 5. Macroscale process systems of mountain belt erosion / Niels Hovius -- 5.1. Introduction -- 5.2. Global sediment flux -- 5.2.1. Empirical models for sediment yiedd: the role of climate and relief -- 5.2.2. Tectonic control on sediment yield -- 5.3. Landsliding -- 5.3.1. Limits to local relied -- 5.3.2. Rate and scaling behaviour of landslides -- 5.3.3. Residence time -- 5.3.4. causes of slope instability -- 5.4. Drainage paterns -- 5.4.1. Fluvial entrainment -- 5.4.2. Transverse drainage -- 5.4.3. Response of drainage patterns to thrust-generated folding -- 5.5. Longitudinal river profiles -- 5.5.1. Mthematical models -- 5.5.2. Regional consistencies iin profile form -- 5.5.3. Processes of bedrock incision -- 5.5.4. Terrace studies -- 5.5.5. Long profile development -- 5.5.6. Glacial erosion -- 5.6. Topography and orogen dynamics -- 5.6.1. Topographic development and steady state: a synthesis -- 5.6.2. Surface control of orogen wedge dynamics -- 5.7. Scaling the mountain --  
505 |a Part III. Morphotectonic evolution in interplate settings. 6. Geodynamic processes in the Southern Alps, New Zealand / J. Mar Tippett and Niels Hovius -- 6.1. Introduction -- 6.2. Framework of the South Island collision zone -- 6.2.1. Tectonic setting of the Southern Alps -- 6.2.2. Climate -- 6.2.3. Geomorphology -- 6.2.4. Lithology and structure -- 6.2.5. Seismicity -- 6.2.6. Deep lithospheric structure and thermal regime -- 6.3. Uplift and erosion of the Southern Alps -- 6.3.1. Amount and timing of late Cenozoic erosion and rock uplift -- 6.3.2. Rates of late Cenozoic cooling, erosion and rock uplift -- 6.3.3 Modern rates of erosion -- 6.3.4 Modern rates of rock uplift -- 6.3.5 Modern surface displacement -- 6.4 Evolution of topographic architecture -- 6.4.1 Eastern flank -- 6.4.3 Cross-sectional architecture -- 6.5 Discussion and outstanding research questions -- 6.5.1 Topography -- 6.5.2 Uplft and erosion -- 6.5.3 Evolution of the Southern Alps 
505 |a 7 Morphotectonic evolution of Taiwan / Jiun-Chuan Lin -- 7.1 Introduction -- 7.2 Regional tectonic background -- 7.3 The nature of the plate collision Zone in Taiwan -- 7.3.1 Regional tectonics -- 7.3.2 Seismicity -- 7.3.3 Uplift and denudation rates -- 7.3.4 Climatic controls: rtropical storms and episodic formative events -- 7.4 Tectonic Landforms of Taiwan -- 7.5 Morphotectonic evolution of Taiwan -- 7.5.1 Kinematics of arc-continent collision -- 7.5.2 An uplift-denudation interaction model for the Central Range -- 7.5.3 Application to the Coastal Range -- 7.6 Discussion and conclusions 
505 |a 8 Morphotectonics evolution of Japan / Hiroo Ohmori -- 8.1 Introduction -- 8.2 Tectonic framwork of Japan -- 8.3 Seismicity and crustal displacement -- 8.3.1 Recent and quaternary crustal movements -- 8.3.2 Inland Quaternary vertical displacements -- 8.4 Denudation in the quaternary -- 8.5 Denudation rates in relation from concurrete tectonics and denudation -- 8.7 Morphological evolution of the Japanese Mountain Ranges -- 8.8 Discussion and conclusions 
505 |a 9 Large-scale geomorphology of the Andes: interrelationships of tectonics, magmatics and climate / Lorcan Kennan -- 9.1 Introduction -- 9.2 Reconstructing Andean Uplift: Methods -- 9.3 Overview of plate tectonic setting and kinematics -- 9.4 Uplift of the Northen Andes (11ºN to 4ºS) -- 9.4.1 Palaeogeographical development -- 9.4.2 Fission-track data -- 9.4.3 Palaebotanical evidence -- 9.4.4 High-altitude palaeosurfaces in Colombia -- 9.5 Uplift of the Central Andes (4ºS to 46ºS) -- 9.5.1 Palaeogeographical development -- 9.5.2 Fission-track and other cooling ages in Peru and Bolivia -- 9.5.3 Palaeobotanical evidence -- 9.5.4 High-altitude palaeosurfaces in Peru, Chile and Bolivia -- 9.5.5 Southern Puna and easter thrust belt of northern Argentina -- 9.6 Uplift of the Southern Andes (46ºS - 57ºS) -- 9.7 Discussion -- 9.8 Conclusions and reserch questions 
505 |a 10 Morphotectonic evolution of the Himalayas and Tibetan Plateau / Eric J. Fielding -- 10.1 introduction -- 10.2 Tectonic Models -- 10.3 Previous geomorphological studies -- 10.4 Morphological Characteristics -- 10.5 Landform development -- 10.6 Summary of morphotectonic history -- 10.7 Conclusions 
505 |a Part Iv. Morphotectonic evolution in intraplate seetting. 11. Geomorphological evolution of the East Austrlian continental margin / Paul Bishop and Geoff Goldrick -- 11.1. Introduction -- 11.2. Character of the East Australian continental margin -- 11.3. Southeast Australian denudation -- 11.3.1. Escarpement retreat across a downwarped coastal strip? -- 11.3.2. Apatite fission-track thermochronology data and margin denudation -- 11.3.3. Denudation and margin rebound -- 11.4. Southeast Australian rivers: planform -- 11.4.1. Cenozoic valley-filling lavas and southeast Australian drainage hstory -- 11.4.2. Mesozoic drainage -- 11.5. Southeast Australian rivers: Long profiles -- 11.5.1. Cenozoin profiles -- 11.5.2. Modern river long profiles -- 11.5.2.1. Introduction - 11.5.2.2. Summary of a more general equilibrium river long profile form -- 11.5.2.3. The long proile characteristics of the Lachlan basin drainge net -- 11.6. Synthesis and discussion - 11.6.1. Synthesis -- 11.6.2. East Australia and the modelling of the evolution of high-elevarion passive continental margins -- 11.7. Future directions and research issues -- Appendix: Theoretical derivation of a general form of the equilibrium long profile --  
505 |a 12. Morphotectonic evolution of the South Atlantc margins of Africa and South America / Roderick W. Brown, Kery Gallagher, Andrew J. W. Gleadow and Michael A. Summerfield. 12.1. Introduction -- 12.2. Morphology of the margins -- 12.3. Regional geology and palaeogeography -- 12.3.1. Pre-break-up Paraná and Karoo basins -- 12.3.2. Syn- and post-break-up magmatism -- 12.3.3. Post-break-up sedimentation and magmatism -- 12.4. Continental break-up and rifting in the South Atlantic -- 12.4.1. Break-up and rifting chronology -- 12.4.2. Regional tectonic setting and structural control -- 12.4.3. Offshore basins -- 12.4.4. Post-break-up plate moion changes -- 12.5. Neotectonics -- 12.6. Denudation chronologies from fission-track data -- 12.7. Fission-track data from the South Atlantic margins -- 12.7.1. The southeast Brazilian margin -- 12.7.2. The southwest African margin -- 12.7.2.1. Soth Africa -- 12.7.2.2. Namibia -- 12.8. Mapping denudation over time -- 12.9. Post-break-up landscape evolution -- 12.10. Conclussions and outstanding research questions --  
505 |a 13. Late Cenozoic landscape evolution of the US Atlantic passive margin: ingights into a Norh American great escarpment / Frank J. Pazzaglia and Thomas W. Gardner. 13.1. Introducion -- 13.2. Morphological and geological setting -- 13.3. Previous work -- 13.4. Late Cenozoic flexural deformation of the Middle and Southern Atlantic margin -- 13.4.1. Offshore basins -- 13.4.2. Continental denudation - 13.4.3. Coastal plain -- 13.4.4. Piedmont terraces -- 13.4.5. Time lines -- 13.5. Geodynamic models -- 13.5.1. One-dimensional model -- 13.5.2. Two-dimensional model -- 13.5.3. Methological and data errors -- 13.6. Results -- 13.7. Discussion and conclussions -- 13.7.1. The Fall zone, Piedmont and coastal plain -- 13.7.2. he Blue ridge and drainage divide -- 13.7.3. A North American great escarpment --  
505 |a 14. Linking tectonicas and landscape development in a passive margin setting: the Transartactic mountains / Andrew Kerr, David E. Sugden and Michael A. Summerfield. 14.1. Introduction -- 14.2. The Transantartic mountains -- 14.2.1. Morphology -- 14.2.2. Geology -- 14.3. Geophysical, geochemical and geochronological data -- 14.3.1. Gravity and magnetic data -- 14.3.2. Fission-track data -- 14.3.3. Sesmic and structural data -- 14.3.4. Geochemical and geochronological data from volcanic rocks -- 14.4. Evidence for surface processes -- 14.4.1. Role of recent glacial erosion -- 14.4.2. Models of landscape evolution -- 14.4.3. Climatic interprretarion of ladscape development -- 14.5. Tectonic models of ladscape development -- 14.6. Towards a model of landscape evolution in the dry valleys region -- 14.6.1. Landscape components -- 14.6.2. Denudation chronology -- 14.6.3. Model of landscape evolution -- 14.7. Integration of geomorphic and tectonic approachers: broader research issues -- 14.8. Conclussions --  
505 |a 15. Morphotectonic evolution of the Western Ghats, India / Y. Gunnell and L. Fleitout. 15.1. Introduction -- 15.2. The Western Ghats passive margin shoulder. Overview -- 15.3. Theoretical models -- 15.4. Modelling assumptions and geomorphological constraints -- 15.5. Flexural model and erosional history -- 15.6. Discussion -- 15.6.1. The lithospheric model: strenghs and limitations -- 15.6.2. Fission-track data in global geomorphology: advantages and disadvantages -- 15.7. Conclussions --  
505 |a 16. The growth and decay of oceanic islands / A. B. Watts. 16.1. Introduction -- 16.2. Growth -- 16.3. Flexure of the lithosphere -- 16.4. Drowned active volcanoes -- 16.5. Decay -- 16.6. Discussions. 
650 0 |a Geología  |9 1052 
650 0 |a Geomorfología  |9 14344 
650 0 |a Tectónica global  |9 18068 
700 |9 19042  |a Mayer, Larry 
700 |9 19044  |a Beaumont, Christopher 
700 |9 19045  |a Kooi, Henk 
700 |9 15496  |a Willett, Sean D. 
700 |9 19047  |a Gleadow, Andrew J. W. 
700 |9 19048  |a Brown, Roderick W.  
700 |9 15497  |a Hovius, Niels 
700 |9 19049  |a Tippett, J. Mark 
700 |9 19050  |a Lin, Jiun-Chuan 
700 |9 19051  |a Ohmori, Hiroo 
700 |9 19052  |a Kennan, Lorcan 
700 |9 19053  |a Fielding, Eric J. 
700 |9 19054  |a Bishop, Paul 
700 |9 19055  |a Goldrick, Geoff 
700 |9 14472  |a Gallagher, Kerry 
700 |9 19056  |a Pazzaglia, Frank J. 
700 |9 19057  |a Gardner, Thomas W. 
700 |9 19058  |a Kerr, David E. 
700 |9 19059  |a Sugden, David E. 
700 |9 19032  |a Gunnell, Yanni 
700 |9 19060  |a Fleitout, L. 
700 |9 19061  |a Watts, A B. 
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