Hydrogeology of the Oceanic Lithosphere
Herausgeber: Davis, Earl E.; Elderfield, Harry
Hydrogeology of the Oceanic Lithosphere
Herausgeber: Davis, Earl E.; Elderfield, Harry
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This book, first published in 2004, reviews the subject of the nature, causes, and consequences of fluid flow in oceanic crust.
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This book, first published in 2004, reviews the subject of the nature, causes, and consequences of fluid flow in oceanic crust.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 728
- Erscheinungstermin: 4. Januar 2013
- Englisch
- Abmessung: 244mm x 170mm x 39mm
- Gewicht: 1233g
- ISBN-13: 9781107414235
- ISBN-10: 1107414237
- Artikelnr.: 38081372
- Verlag: Cambridge University Press
- Seitenzahl: 728
- Erscheinungstermin: 4. Januar 2013
- Englisch
- Abmessung: 244mm x 170mm x 39mm
- Gewicht: 1233g
- ISBN-13: 9781107414235
- ISBN-10: 1107414237
- Artikelnr.: 38081372
Introduction E. E. Davis and H. Elderfield; Part I. The Background: 1.
Variability of heat flux through the sea floor: discovery of hydrothermal
circulation in the oceanic crust J. G. Sclater; 2. Foundations of research
into heat, fluid, and chemical fluxes in oceanic crust H. Elderfield, K.
Becker and E. E. Davis; Part II. Hydrological Structure, Properties, and
State of the Oceanic Crust: 3. Variability of ocean crustal structure
created along the global midocean ridge S. M. Carbotte and D. S. Scheirer;
4. Fracturing and fluid flow in the oceanic crust: insights from borehole
imaging and other downhole measurements D. Goldberg, G. J. Iturrino and K.
Becker; 5. Hydrothermal ageing of oceanic crust: inferences from seismic
refraction and borehole studies I. Grevemeyer and A. Bartetzko; 6. Sediment
permeability, distribution, and influence on fluxes in oceanic basement G.
A. Spinelli, E. R. Giambalvo and A. T. Fisher; 7. In situ determinations of
the permeability of the igneous oceanic crust K. Becker and E. E. Davis; 8.
Observations of temperature and pressure: constraints on ocean crustal
hydrologic state, properties, and flow E. E. Davis and K. Becker; 9.
Hydrothermal insights from the Troodos ophiolite, Cyprus J. Cann and K.
Gillis; Part III. Heat and Fluid Fluxes: 10. Deep-seated oceanic heat flow,
heat deficits, and hydrothermal circulation R. N. Harris and D. S. Chapman;
11. Rates of flow and patterns of fluid circulation A. T. Fisher; 12.
Applying fundamental principles and mathematical models to understand
processes and estimate parameters K. Wang; 13. Geothermal evidence for
continuing hydrothermal circulation in older (>60 M.y.) ocean crust R. P.
Von Herzen; Part IV: Geochemical State and Water-Rock Reactions: 14.
Alterations and mass transport in high-temperature hydrothermal systems at
mid-ocean ridges: controls on the chemical and isotopic evolution of axial
vent fluids W. E. Seyfried Jr and W. C. Shanks III; 15. Alteration of the
upper oceanic crust: mineralogy, chemistry, and processes J. C. Alt; 16.
Ridge flank sediment - fluid interactions M. Kastner and M. D. Rudnicki;
17. Microbial reactions in marine sediments J. P. Telling, E. R. C.
Hornibrook and R. J. Parkes; 18. Microbial mediation of oceanic crust
alteration H. Staudigel and H. Furnes; Part V. Geochemical Fluxes: 19.
Geochemical fluxes through mid-ocean ridge flanks C. G. Wheat and M. J.
Mottl; 20. Insight into the hydrogeology and alteration of oceanic
lithosphere based on subduction zones and arc volcanism S. M. Peacock; 21.
Hydrothermal fluxes in a global context M. Bickle and H. Elderfield.
Variability of heat flux through the sea floor: discovery of hydrothermal
circulation in the oceanic crust J. G. Sclater; 2. Foundations of research
into heat, fluid, and chemical fluxes in oceanic crust H. Elderfield, K.
Becker and E. E. Davis; Part II. Hydrological Structure, Properties, and
State of the Oceanic Crust: 3. Variability of ocean crustal structure
created along the global midocean ridge S. M. Carbotte and D. S. Scheirer;
4. Fracturing and fluid flow in the oceanic crust: insights from borehole
imaging and other downhole measurements D. Goldberg, G. J. Iturrino and K.
Becker; 5. Hydrothermal ageing of oceanic crust: inferences from seismic
refraction and borehole studies I. Grevemeyer and A. Bartetzko; 6. Sediment
permeability, distribution, and influence on fluxes in oceanic basement G.
A. Spinelli, E. R. Giambalvo and A. T. Fisher; 7. In situ determinations of
the permeability of the igneous oceanic crust K. Becker and E. E. Davis; 8.
Observations of temperature and pressure: constraints on ocean crustal
hydrologic state, properties, and flow E. E. Davis and K. Becker; 9.
Hydrothermal insights from the Troodos ophiolite, Cyprus J. Cann and K.
Gillis; Part III. Heat and Fluid Fluxes: 10. Deep-seated oceanic heat flow,
heat deficits, and hydrothermal circulation R. N. Harris and D. S. Chapman;
11. Rates of flow and patterns of fluid circulation A. T. Fisher; 12.
Applying fundamental principles and mathematical models to understand
processes and estimate parameters K. Wang; 13. Geothermal evidence for
continuing hydrothermal circulation in older (>60 M.y.) ocean crust R. P.
Von Herzen; Part IV: Geochemical State and Water-Rock Reactions: 14.
Alterations and mass transport in high-temperature hydrothermal systems at
mid-ocean ridges: controls on the chemical and isotopic evolution of axial
vent fluids W. E. Seyfried Jr and W. C. Shanks III; 15. Alteration of the
upper oceanic crust: mineralogy, chemistry, and processes J. C. Alt; 16.
Ridge flank sediment - fluid interactions M. Kastner and M. D. Rudnicki;
17. Microbial reactions in marine sediments J. P. Telling, E. R. C.
Hornibrook and R. J. Parkes; 18. Microbial mediation of oceanic crust
alteration H. Staudigel and H. Furnes; Part V. Geochemical Fluxes: 19.
Geochemical fluxes through mid-ocean ridge flanks C. G. Wheat and M. J.
Mottl; 20. Insight into the hydrogeology and alteration of oceanic
lithosphere based on subduction zones and arc volcanism S. M. Peacock; 21.
Hydrothermal fluxes in a global context M. Bickle and H. Elderfield.
Introduction E. E. Davis and H. Elderfield; Part I. The Background: 1.
Variability of heat flux through the sea floor: discovery of hydrothermal
circulation in the oceanic crust J. G. Sclater; 2. Foundations of research
into heat, fluid, and chemical fluxes in oceanic crust H. Elderfield, K.
Becker and E. E. Davis; Part II. Hydrological Structure, Properties, and
State of the Oceanic Crust: 3. Variability of ocean crustal structure
created along the global midocean ridge S. M. Carbotte and D. S. Scheirer;
4. Fracturing and fluid flow in the oceanic crust: insights from borehole
imaging and other downhole measurements D. Goldberg, G. J. Iturrino and K.
Becker; 5. Hydrothermal ageing of oceanic crust: inferences from seismic
refraction and borehole studies I. Grevemeyer and A. Bartetzko; 6. Sediment
permeability, distribution, and influence on fluxes in oceanic basement G.
A. Spinelli, E. R. Giambalvo and A. T. Fisher; 7. In situ determinations of
the permeability of the igneous oceanic crust K. Becker and E. E. Davis; 8.
Observations of temperature and pressure: constraints on ocean crustal
hydrologic state, properties, and flow E. E. Davis and K. Becker; 9.
Hydrothermal insights from the Troodos ophiolite, Cyprus J. Cann and K.
Gillis; Part III. Heat and Fluid Fluxes: 10. Deep-seated oceanic heat flow,
heat deficits, and hydrothermal circulation R. N. Harris and D. S. Chapman;
11. Rates of flow and patterns of fluid circulation A. T. Fisher; 12.
Applying fundamental principles and mathematical models to understand
processes and estimate parameters K. Wang; 13. Geothermal evidence for
continuing hydrothermal circulation in older (>60 M.y.) ocean crust R. P.
Von Herzen; Part IV: Geochemical State and Water-Rock Reactions: 14.
Alterations and mass transport in high-temperature hydrothermal systems at
mid-ocean ridges: controls on the chemical and isotopic evolution of axial
vent fluids W. E. Seyfried Jr and W. C. Shanks III; 15. Alteration of the
upper oceanic crust: mineralogy, chemistry, and processes J. C. Alt; 16.
Ridge flank sediment - fluid interactions M. Kastner and M. D. Rudnicki;
17. Microbial reactions in marine sediments J. P. Telling, E. R. C.
Hornibrook and R. J. Parkes; 18. Microbial mediation of oceanic crust
alteration H. Staudigel and H. Furnes; Part V. Geochemical Fluxes: 19.
Geochemical fluxes through mid-ocean ridge flanks C. G. Wheat and M. J.
Mottl; 20. Insight into the hydrogeology and alteration of oceanic
lithosphere based on subduction zones and arc volcanism S. M. Peacock; 21.
Hydrothermal fluxes in a global context M. Bickle and H. Elderfield.
Variability of heat flux through the sea floor: discovery of hydrothermal
circulation in the oceanic crust J. G. Sclater; 2. Foundations of research
into heat, fluid, and chemical fluxes in oceanic crust H. Elderfield, K.
Becker and E. E. Davis; Part II. Hydrological Structure, Properties, and
State of the Oceanic Crust: 3. Variability of ocean crustal structure
created along the global midocean ridge S. M. Carbotte and D. S. Scheirer;
4. Fracturing and fluid flow in the oceanic crust: insights from borehole
imaging and other downhole measurements D. Goldberg, G. J. Iturrino and K.
Becker; 5. Hydrothermal ageing of oceanic crust: inferences from seismic
refraction and borehole studies I. Grevemeyer and A. Bartetzko; 6. Sediment
permeability, distribution, and influence on fluxes in oceanic basement G.
A. Spinelli, E. R. Giambalvo and A. T. Fisher; 7. In situ determinations of
the permeability of the igneous oceanic crust K. Becker and E. E. Davis; 8.
Observations of temperature and pressure: constraints on ocean crustal
hydrologic state, properties, and flow E. E. Davis and K. Becker; 9.
Hydrothermal insights from the Troodos ophiolite, Cyprus J. Cann and K.
Gillis; Part III. Heat and Fluid Fluxes: 10. Deep-seated oceanic heat flow,
heat deficits, and hydrothermal circulation R. N. Harris and D. S. Chapman;
11. Rates of flow and patterns of fluid circulation A. T. Fisher; 12.
Applying fundamental principles and mathematical models to understand
processes and estimate parameters K. Wang; 13. Geothermal evidence for
continuing hydrothermal circulation in older (>60 M.y.) ocean crust R. P.
Von Herzen; Part IV: Geochemical State and Water-Rock Reactions: 14.
Alterations and mass transport in high-temperature hydrothermal systems at
mid-ocean ridges: controls on the chemical and isotopic evolution of axial
vent fluids W. E. Seyfried Jr and W. C. Shanks III; 15. Alteration of the
upper oceanic crust: mineralogy, chemistry, and processes J. C. Alt; 16.
Ridge flank sediment - fluid interactions M. Kastner and M. D. Rudnicki;
17. Microbial reactions in marine sediments J. P. Telling, E. R. C.
Hornibrook and R. J. Parkes; 18. Microbial mediation of oceanic crust
alteration H. Staudigel and H. Furnes; Part V. Geochemical Fluxes: 19.
Geochemical fluxes through mid-ocean ridge flanks C. G. Wheat and M. J.
Mottl; 20. Insight into the hydrogeology and alteration of oceanic
lithosphere based on subduction zones and arc volcanism S. M. Peacock; 21.
Hydrothermal fluxes in a global context M. Bickle and H. Elderfield.