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Global Topography and Bathymetry
Smith and Sandwell
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Continents
If we remove the ocean water...... What features do we see ?
Continents are the dominant feature- surface area ~1/3- flat tops- elevation close to sealevel- steep sides (not gradually tapered)
Seafloor- flat- except for spreading centers- oceanic plateau(x), flat topped
What causes the relief between the two types of plates ?
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Continents and Seafloor
Continental crust- 35-40 km thick- felsic
- density ~2700 kg/m-3
Oceanic crust
- 6-7 km thick- mafic
- denity ~2950 kg/m-3
35-40 km thick
Mantle material- peridotite
- density ~3300 kg/m-3
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Southern California Coast: Continental Shelf
Continental shelf is cut by submarine canyons that channel sediments to the deep ocean.
What keeps continental edges so steep ?
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Mountain Belts
• Mountain belts are chains of mountain ranges 1000s of km long– Located along the edges of continents
• As mountains grow higher and steeper, erosion rates increase (from running water and ice )
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Continental Cratons
• Ancient mountain belts have eroded nearly flat to form the stable core of a continent
(craton or shield)
• Every continental plate has a central, old, craton.
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Growth of Continents
• Continents grow larger as mountain belts evolve along their convergent margins
• New accreted terranes can be added to older cratons with each episode of convergence
• Tectonic subduction participates in growth and shape of continents
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Erosion rates Tectonics Isostacy (gravitational collapse) ALL play a role in shaping the
continents into what we see today. (mountains rise, but don't stay high too long)
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Seafloor Bathymetry
Seafloor plates are 100-10,000 km wide. Seafloor plates don't have clear edges or breaks Features: spreading ridges (2-3 km below sea level) Features: submarine plateau(x) - ridge and plateaus have larger crustal thickness - some have continental “type” crust, most are basaltic
Are there mountains on the seafloor ?
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East Pacific Rise (spreading center):Rayleigh Wave Tomography, MELT Experiment 1998
Donald W. Forsyth
Dep
th (k
m)
Distance from axis (km)
Ridge migration is shown to have little effect on upwelling and melting rates. Toomey et al., 1998; Conder et al., 2001
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Global Topography and Bathymetry
Smith and Sandwell
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Weeraratne, D. S., D. W. Forsyth, Y. Yang, and S. C. Webb (2007), Rayleigh wave tomography beneath intraplate volcanic ridges in the South Pacific, J. Geophys. Res., 112, B06303, doi:10.1029/2006JB004403
Yang,Y, D.W.Forsyth, D. S. Weeraratne, Seismic attenuation near the East Pacific Rise and the origin of the low- velocity zone, Earth Planet.Sci.Lett. (2007), doi:10.1016/j.epsl.2007.03.040
Southern Cross Seamount (south Pacific)
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Musician Seamounts, Kopp et al., 2003
Musician Seamounts (N. of Hawaii)
Many seamount chains oriented perpendicular to spreading display regular spacing (Bach smts ~30 km).
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Sojourn Ridge,Hotu Matua,Pukapuka Ridge,spacing = 200 km
Rano Rahi smtsspacing = 20 km
Seamount Chains in the South Pacific
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Seamounts Seamounts can stand ~1/2 the
height of Mt. Everest Some are linear (some not) Some have age progressive volcanism (some don't) Some start or stop at plate boundaries Some start and stop mid-plate Most seamounts occur far from plate boundaries What is responsible for producing them ?
Mantle plumes (hot spots) Mantle plumes probably don't create all seamounts! Scientists must think of other geodynamic models Can you think of any ? Outer-rise of subduction “bend” Asthenospheric flow
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High µdepletedasthenosLithosphere
Low µ
Lithosphere
Asthenosphere
Asthenos
Asthenos
LithosphereLithosphere
Compression
Tension
Models for Intraplate Seamount Chains
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COOK16/Melville November, 2001VANC04/Melville November, 2002
GLIMPSE Experiment
Brown UniversityLamont Doherty ObservatoryOregon State University
(Gravity Lineations and Intraplate Melting Petrology and Seismic Expedition )
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B
Low viscosity fluid displaces high viscosity fluid by fingering instabilities.(Hill, 1952; Saffman and Taylor, 1958)
Viscous Fingering of Miscible Fluids
Weeraratne, D.S., E.M. Parmentier, D.W. Forsyth, Off-axis plume flow in the form of viscous fingering Saffman-Taylor instabilitiesin the oceanic asthenosphere, in preparation for Nature, January 2008.
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Governing Equations for SaffmanTaylor Instabilities
Density variations are neglected for horizontal flow.
DP/dx = ρg – µU/b2
P1 = Po + ρ1g δx – µ1U δx/b2
P2 = Po + ρ2g δx – µ2U δx/b2
.δP = [ (ρ1− ρ2)g δx – (µ1 - µ2)U /b2 ] δx
For two component flow:
An applied pressure gradient is described by Darcy flow
0
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.δxP2
P1
.µ2, ρ2
.µ1, ρ1
The interface is unstable for µ1/ µ2 > 1
.δP = (µ1 – µ2)U δx /b2
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Experimental Apparatus
Variations in plate spacing, injection rate, and viscosity ratio are considered.
* Working fluid is corn syrup diluted with water.* Viscosity ratio µ1/µ2 ranges from 5 to 300.* Experimental time ranges from 2 min – 5 hr.* The diffusion coeff is small, 1 x 10^(10) m2/s
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Radial Flow Between Stationary Plates
* The pattern of fingering is established by perturbations at early times.* Growth of instabilities occurs by spreading, shielding, and tip splitting.* Fingering wavelength is controlled primarily by plate spacing.
Viscosity ratio = 200 (200 / 1 Pas)
B = 1.68 mmB = 0.79 m B = 3.36 mm5cm
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Rate of mass flux Plate velocity Mass flux / (Vplate*b*R)Laboratory 0.50 g/s 0.04 cm/s 30 300
0.15 0.05
Upper mantle 3.3 Mg/s 10 cm/y 0.01 – 0.2(Marquesas, Tahiti (Sleep, 1990))
Add a Mobile Upper Boundary
B
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Mobile Upper Boundary
* Fingers align with shear and travel both downstream and upstream. * Fingers initially growing perpendicular to shear are damped out.* Asthenospheric flow may be a model for formation of linear seamounts.
Viscosity ratio = 200
movie
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Broad Long Wavelength Topographic Swells
Hawaii and east Africa are examples of regions which exhibit large scale topographic swells Rising mantle plumes are suggested as the cause
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Global Free Air Gravity Map
Smith and Sandwell
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Gravity
Is the value of gravity at the Earth' surface the same everywhere ?
What causes any differences ?
Gravity varies by about 0.05% over the surface of the Earth
Causes are due to differences in density within the Earth's interior
Continental roots Subducting slabs Convection Upwelling plumes
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Gravity
How is gravity measured ?
Gravimeters on land Gravimeter towed behind ships Satellite orbits are perturbed Satellites Altimetry use radar
reflections off of sea surface
Which are the highest resolution ?
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Gravity
high density
grav
ity (
mga
l)
0
-4
4
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Gravity
grav
ity (
mga
l)
0
-4
4
Mountain
Elevation, at greater distance from the Earth's center Will have lower gravitational attraction
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Gravity
grav
ity (
mga
l)0
-4
4
Mountain
Crustal root
Gravity is also sensitive to the excess mass of the mounain root The combined attraction is somewhere in between It is important to consider gravity simultaneously with topography
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Comparing Gravity and Topography
Smith and Sandwell
Do these map have similar highs and lows everywhere ?
Topography Gravity
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2
Continents
If we remove the ocean water...... What features do we see ?
Continents are the dominant feature- surface area ~1/3- flat tops- elevation close to sealevel- steep sides (not gradually tapered)
Seafloor- flat- except for spreading centers- oceanic plateau(x), flat topped
What causes the relief between the two types of plates ?
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3
Continents and Seafloor
Continental crust- 35-40 km thick- felsic
- density ~2700 kg/m-3
Oceanic crust
- 6-7 km thick- mafic
- denity ~2950 kg/m-3
35-40 km thick
Mantle material- peridotite
- density ~3300 kg/m-3
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9
Seafloor Bathymetry
Seafloor plates are 100-10,000 km wide. Seafloor plates don't have clear edges or breaks Features: spreading ridges (2-3 km below sea level) Features: submarine plateau(x) - ridge and plateaus have larger crustal thickness - some have continental “type” crust, most are basaltic
Are there mountains on the seafloor ?
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15
Seamounts Seamounts can stand ~1/2 the
height of Mt. Everest Some are linear (some not) Some have age progressive volcanism (some don't) Some start or stop at plate boundaries Some start and stop mid-plate Most seamounts occur far from plate boundaries What is responsible for producing them ?
Mantle plumes (hot spots) Mantle plumes probably don't create all seamounts! Scientists must think of other geodynamic models Can you think of any ? Outer-rise of subduction “bend” Asthenospheric flow
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16
High µdepletedasthenosLithosphere
Low µ
Lithosphere
Asthenosphere
Asthenos
Asthenos
LithosphereLithosphere
Compression
Tension
Models for Intraplate Seamount Chains
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Broad Long Wavelength Topographic Swells
Hawaii and east Africa are examples of regions which exhibit large scale topographic swells Rising mantle plumes are suggested as the cause
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Global Free Air Gravity Map
Smith and Sandwell
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Gravity
Is the value of gravity at the Earth' surface the same everywhere ?
What causes any differences ?
Gravity varies by about 0.05% over the surface of the Earth
Causes are due to differences in density within the Earth's interior
Continental roots Subducting slabs Convection Upwelling plumes
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Gravity
How is gravity measured ?
Gravimeters on land Gravimeter towed behind ships Satellite orbits are perturbed Satellites Altimetry use radar
reflections off of sea surface
Which are the highest resolution ?
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Gravity
high density
grav
ity (
mga
l)0
-4
4
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Gravity
grav
ity (
mga
l)0
-4
4
Mountain
Elevation, at greater distance from the Earth's center Will have lower gravitational attraction
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Gravity
grav
ity (
mga
l)
0
-4
4
Mountain
Crustal root
Gravity is also sensitive to the excess mass of the mounain root The combined attraction is somewhere in between It is important to consider gravity simultaneously with topography
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Comparing Gravity and Topography
Smith and Sandwell
Do these map have similar highs and lows everywhere ?
Topography Gravity