magnetic anomaly number
description
Transcript of magnetic anomaly number
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magnetic anomaly number
age (Ma) from geomagnetic reversal chronology extrapolated in South Atlantic assuming constant rate of spreading
pale
onto
logi
cal a
geSeafloor ages from deep sea drilling versus geomagnetic reversal chronology
data for Atlantic ocean; similar data from older oceans permit reversal chronology to be calibrated back to 180 Ma
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Chronology of geomagnetic field reversals recorded on ocean floor
Ocean floor age, millions of years (Ma), determined largely from deep sea drilling (ODP program)
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Chronology of geomagnetic field reversals recorded on ocean floor
magnetic anomaly “number” is a convenient identifier of specific features of the magnetic anomaly profiles that have proven useful for correlation between different profiles.
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Spatial correlation of magnetic anomalies produced by the seafloor spreading “tape recorder” of reversals of the geomagnetic field”
Map pattern of magnetic anomalies
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Map pattern of magnetic anomaly
number
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North Atlantic
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Map pattern of magnetic anomaly number
Chronology of reversals of geomagnetic field from deep sea drilling
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5 6
10.9 120.4
anomaly no. 1813 25 31 3421 M16M10N
M4M0 M21 M25
154.3 180
From Muller, et al., 1997
Age of the ocean floor
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Age of the ocean floor
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Age of the ocean floor
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Spreading centers and transform faults
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Spreading centers and transform faults
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South Atlantic Mid-Ocean Ridge
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South Atlantic Mid-Ocean Ridge
inactive fracture zone
active transform faultactive ridge crest
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Global topography and bathymetry
Bathymetry of world’s oceans: close correlation with ocean floor age shown in next slide
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seafloor age, Ma
Ocean floor age from seafloor spreading tape recorder
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seafloor age, Ma
Seafloor bathymetry
Close correlation with ocean floor age and bathymetry
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spreading ridge
heat flow by conduction
Heat flow by convection
heat flow by conduction
Simple thermal model for spreading ridge showing
• conductive thermal “boundary layer” (= lithosphere)
• convecting mantle beneath.
• (oceanic crust is not shown)
dep
th
sea water
Thermal model for ridge bathymetry
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temperature
spreading ridge
heat flow by conduction
Heat flow by convection
dep
th
heat flow by conduction
pro
file
A
profile A
dep
th
The temperature profile B (temperature versus depth) at the ridge crest has a very rapid increase from sea bottom temperatures near 0 C to temperatures of 1300 C near the top of the hot, convecting mantle
sea water
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spreading ridge
heat flow by conduction
Heat flow by convection
temperature
dep
th
heat flow by conduction
pro
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B
profile B
At some distance, x, away from the ridge crest, the seafloor has an age = x/v (where v is half the spreading rate).
During the time since the plate formed at the spreading ridge, the plate has cooled to form a conductive “boundary layer”.
The thickness of the conductive boundary layer increases with time.
dep
th
sea water
v v
x
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temperature
spreading ridge
heat flow by conduction
Heat flow by convection
dep
th
temperature
dep
th
heat flow by conduction
pro
file
A
pro
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B
profile A
profile B
dep
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The decrease in temperature due to cooling of the plate as it moves away from the ridge crest leads to• thermal contraction and• consequent deepening of the ocean bottom.
Thus the depth of the ocean increases with the age of the sea floor.
sea water
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0 10 20 30 40 50 60 70 80 90 100-6.0
-5.5
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TIME, MY
- D
EP
TH
, KM
OCEAN DEPTH VERSUS TIME
ocean depth
vrs
age of ocean floor
See thermal.pdf for derivation of these curves
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AGE, MY
LITHOSPHERE THICKNESSVERSUS AGE
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Thickness of conductive boundary layer (lithosphere)
vrs
age of ocean floor
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Subducted oceanic
lithosphere
Subdu
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litho
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Oceanic crust“island arc”
subduction zone
What happened to the sub-oceanic plates older than 200 Ma?
Subduction!
Continental Margin subduction zone
trench
trench
volcanic arc
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seafloor age, Ma
ocean age from seafloor spreading tape recorder
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0 Ma
NAM
SAM
AFR
EUR
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20 Ma
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40 Ma
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60 Ma
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80 Ma
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100 Ma
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120 Ma
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140 Ma
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160 Ma
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180 Ma
The reconstructions are from C.R. Scotese’s PALEOMAP Project
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Plate motions: the movie
Click on the above to play the the “movie”, a file called SFS.MOV. This is a large file (38+ mb); at first it will be slow as the file is downloading, but then you can run it back and forth quite rapidly. It will play faster if you first right-click on the link above, download the file, and then run it from your own machine. The CD that comes with the class text (Stanley) has a lower resolution version of the same reconstruction.
The file shows accurate reconstructions of plate positions based on fitting the map patterns of ocean floor ages decoded from the map patterns of magnetic reversals recorded by the seafloor spreading “tape recorder”.The reconstructions are from the PALEOMAP Project (C.R. Scotese) at the University of Texas in Austin.