heat flow intro - university of california, san diego · lithospheric heat flow and dynamics!! •...
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![Page 1: heat flow intro - University of California, San Diego · Lithospheric Heat Flow and Dynamics!! • obvious signals! - heat flow, depth, and geoid height versus age! - does hydrothermal](https://reader034.vdocuments.us/reader034/viewer/2022050212/5f5e0c638fe2305abe1d2cf1/html5/thumbnails/1.jpg)
Lithospheric Heat Flow and Dynamics!!• obvious signals!
- heat flow, depth, and geoid height versus age!- does hydrothermal circulation really transport 10 TW?!
• inferred signals!
- lithospheric thickness and strength versus age!- swell-push force and global stress from the geoid!
• mysterious signals!- details of 3-D plate shrinkage!- are gravity lineaments and volcanic ridges due to lithospheric shrinkage?!
- are transform faults thermal contraction cracks?!
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global heat budget!
7.5 TW
44 TW
25-15 TW
3-13 TW
lithosphere
core
mantle
conduction
convection
convection
qs
qb
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oceanic lithosphere dominates mantle convection!largest surface area !greatest temperature drop across TBL = largest density contrast!> 1/2 of heat escapes in young oceanic lithosphere
!
7.5 TW
44 TW
25-15 TW
3-13 TW
lithosphere
core
mantle
conduction
convection
convection
qs
qb
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thermal stress !develops when!!
thermal expansion!
volumetric expansion
linear expansion
!VV
= "!T or !##
= $"!T
" - the rmal expans ion coeffi cient ~ 3x10 -5 ˚C$1
!ll
= " l!T
" l #"3
!("T) # 0
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obvious signals!
- depth versus age!
- heat flow versus age!
- geoid height versus age!
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depth vs age!
d(t) ! 2500 + 350t1 / 2
d(t) = !"#m#m ! #w
Tdz0
L
$
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model = 20 TW
data = 10 TW
heat flow vs age!
q(t) ! 480t "1 / 2
q(t) = k!T!z
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What is the global heat output of the Earth?!!!How do we interpret this discrepancy?!
!!A) The other 10 TW is transferred by hydrothermal circulation [Lister, 1972; Williams et al., 1974; Sleep and Wolery, 1978, Anderson and Hobart, 1976; Stein, 1995]!
!!B) The other 10 TW does not exist and the total heat output from the Earth is < 34 TW [Hofmeister and Criss, 2005]. !
!!! !!
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!mCPv • "T = " •q
d(t) = !"#m#m ! #w
Tdz0
L
$
conservation of energy
thermal isostasy
(qb ! qu) =("m ! "w )Cp
#v• $d( )
heat = flow
scalar subsidence rate
constant X
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heat flow related to subsidence rate
(qb ! qu) =("m ! "w )Cp
#$A • $d$A •$A
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Mueller, personal communication 2006
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Mueller, personal communication 2006
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Loyd, Becker, Conrad, Litho-Bertelloni and Corsetti, PNAS, 2007
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heat flow versus age!• surface temperature gradient!
• noisy, observations << model!
depth versus age!• integrated temperature!
• observations = model!
geoid height versus age!• first moment of temperature!• dominated by mantle geoid, observations ~ model!
obvious signals - summary!
qs(t) = k!T!z
d(t) = !"m"m ! "w
#Tdz0
L
$
N (t) = !2"G#mg
$Tzdz0
L
%
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Inferred signals!
- lithospheric strength versus age (see Watts, 2001)!
- swell-push force and global stress from the geoid!
!
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Hawaiian-Emperor seamount chain
Hawaii
Kauai Oahu
Molokai Maui
Plate kinematics
Plate Mechanics (flexure)
Sandwell & Smith 1997 (offshore) +Woollard et al 1966 (onshore)
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Gravity anomalies and crustal structure at Oahu/Molokai
Watts & ten Brink (1989)
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Estimating Te
Te can be estimated by comparing the amplitude and wavelength of the observed gravity anomaly to the predicted anomaly
based on an elastic plate model.
The minimum in the RMS difference between observed and calculated gravity anomaly
indicate a ‘best fit’ Te ~ 30 km. O
cean
ic C
rust
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Topography seaward of the Kuril Trench
Distance to bulge ~ 120-140 km Te ~ 30 km
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Relationship between oceanic Te and plate and load age
Watts & Zhong (2000)
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Lithospheric Heat Flow and Dynamics!!• obvious signals!
- heat flow, depth, and geoid height versus age!- does hydrothermal circulation really transport 10 TW?!
• inferred signals!
- lithospheric thickness and strength versus age!- swell-push force and global stress from the geoid!
• mysterious signals!- details of 3-D plate shrinkage!- are gravity lineaments and volcanic ridges due to lithospheric shrinkage?!
- are transform faults thermal contraction cracks?!