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The Concepts of Maria

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The Face of the Moon (1949) : Maria were floods of basalt ... Maria are covered by the regolith. Lunar Orbiter spacecraft landforms ... – PowerPoint PPT presentation

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Title: The Concepts of Maria


1
Yen-Shan Lim PTYS 395 October 16, 2008
2
The Concepts of Maria
Maria dark, smooth, low plains (occupy 16 of
the lunar surface area)
Before space age, concepts for the models of
maria - Dried-up riverbeds - Huge bowls of
dust - Flow of volcanic ash - Melted
material ejected from basin
3
The Face of the Moon (1949) Maria were
floods of basalt Basalts sample returned
(4.3 to 3.1 billion years old) - Oldest rocks
on Earth 4.5 billion years old)
4
The two basic types of regions on the Moon a
smooth, dark maria on the left and a
heavily-cratered, light-colored highland region
on the upper right.
5
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6
Lunar Lava Flows
At close-up scales, small, lobe-shaped scarps
can be seen (common in the lava flows of basalt
found on Earth) Ranger 7 spacecraft returned
close-up pictures of the Moon - Scale of
impact cratering continues downward to the limits
of resolution - Maria are covered by the
regolith Lunar Orbiter spacecraft ?
landforms Surveyors 1, 3, 5 and 6 give a
close-up view of the surface of the maria
dark rocks covered with small holes
7
Samples of maria (Apollo missions) ? basalt
Basalt - dark lava - Iron and magnesium
- Very fine (usually lt1mm) Lunar lavas ? small,
bubble-like holes (vesicles)
8
Mare basalt
9
Lunar lavas - devoid of water - depleted
in all volatile elements (very low bp.) 1st
basalts returned were from Mare Tranquilitatis
? large amounts of titanium Lavas (Moon)
contain minor minerals not found in
Earth rocks ? armalcolite
(another iron
titanium mineral) The viscosity of erupted
lunar lava depends on the composition and
temperature of the magma ? aluminum and
alkali, ? iron, ? temperature at extrusion ?
?viscosity of lavas
10
Mare lavas tend to form low, broad structures
volcanoes Lavas from Apollo 12 (formed 3.1
billion years ago) - lower titanium than the
Apollo 11 basalts - 600 to 700 million years
younger - low in volatile elements, very rich
in irons Apollo 15 ? low-titanium basalts,
slightly older than those
from Apollo 12 (3.3 billion years ago)
Apollo 17 ? very high titanium basalts (3.7
billion years old) Conclusion Early eruptions
of high-titanium lavas and late
eruptions of low-titanium lavas
11
How lava is formed? - The high density of
mantle is made up of olivine and pyroxene
- Radioactive, heat-producing elements made the
early mantle very hot - Some places are
partially melt - Blobs of melt coagulate deep
in a planets interior and slowly migrate
upwards - Force their way to the surface -
Extruded onto the surface as lava flow
12
Fire Fountain
Small glass beads were found in abundance at
Apollo 15 and 17 sites ? clear emerald-green
glass (Apollo 15 site) ? black and orange glass
(Apollo 17 site) The surfaces of these glass
beads have small glassy mounds made up of a
variety of volatile elements (lead, zinc, and
halogens) Apollo 15 glasses (rich in
magnesium, low in titanium) Apollo 17 glass
(rich in titanium)
13
The glasses ? products of a spray of
low-viscosity lava into
space Hawaii ? eruptions of lava are
accompanied by very large sprays
of magma from the vent Such spray
eruptions are called fire fountains ? ash
deposit around the eruptive vent Lunar
glasses products of fire fountains on the Moon
over 3 billion years
ago
14
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15
Large craters on the Moon have deformed and
fractured floors Along some fractures are small
irregular craters surrounded by a dark,
smooth material These craters ? volcanic vents
surrounded by ash deposits.
16
Pockets of gas and other volatile elements
existed deep with the Moon Vesicles are
found in some samples of mare basalt
Composition of this gas phase ? not water
vapor (absence of water-bearing phase) ?
reduced chemistry of lunar lavas (gas
phase might be the carbon monoxide)
17
References
Mare Basalt http//images.google.com/imgres?imgurl
http//pds.jpl.nasa.gov/planets/images/browse/ear
th/basalt.jpgimgrefurlhttp//pds.jpl.nasa.gov/pl
anets/captions/earth/basalt.htmh400w400sz22
hlenstart5usg__S3ND7NoLEUyrS1PAFy4ox9rrSv0t
bnidCYDXdySqeDWDaMtbnh124tbnw124prev/image
s3Fq3Dbasalt2Bon2Bthe2Bmoon26gbv3D226hl3D
en26sa3DG Tomography of Lunar
Spherules http//images.google.com/imgres?imgurlh
ttp//research.amnh.org/debel/tomo-aps/HI-firefou
ntain1cropLogo.gifimgrefurlhttp//research.amnh.
org/debel/tomo-aps/lunarOG1.htmlh561w742sz2
59hlenstart5usg__cQ-jFAo0pEWBztXrgYXTajcfWyo
tbnidtGw8tTQsv00CuMtbnh107tbnw141prev/im
ages3Fq3Dfire2Bfountain2Bon2Bthe2Bmoon26gbv
3D226hl3Den26sa3DG
18
Meet the Neighbour http//images.google.com/imgres
?imgurlhttp//www.spacegazer.com/images/photos/ss
may05moon.jpgimgrefurlhttp//www.spacegazer.com/
may-2005-g.asph462w480sz38hlenstart14us
g__PAxFKqSz5IAOvDZEAqiK7gdYvDotbnidEgxDkeyU2Zd
lnMtbnh124tbnw129prev/images3Fq3Dmaria2B
on2Bthe2Bmoon26gbv3D226hl3Den26sa3DG http
//images.google.com/imgres?imgurlhttp//www.wind
ows.ucar.edu/the_universe/images/maria_5x5.gifimg
refurlhttp//www.windows.ucar.edu/tour/link3D/ea
rth/images/maria_5x5.htmlh504w431sz241hlen
start25usg__TfcTAraqK5RsXiOiRMcih0gPofctbnid
hlIRS2DcUESmgMtbnh130tbnw111prev/images3F
q3Dmaria2Bon2Bthe2Bmoon26start3D1826gbv3D2
26ndsp3D1826hl3Den26sa3DN Spudis (The
Once and Future Moon) Chapter 5
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