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exogeology

Exogeology is the scientific study of the geology of planetary bodies beyond Earth, including planets, moons, asteroids, comets, and dwarf planets, as well as the processes that shape their surfaces and interiors. The field overlaps with planetary geology and astrogeology and is concerned with understanding how geological activity and history vary across the solar system and, in some discussions, around exoplanets as data allow.

Core objectives include mapping surface geology, characterizing crustal structure, and unraveling geological histories through volcanism, tectonics,

Methods and data are drawn from remote sensing, high-resolution imaging, spectroscopy, radar sounding, and, where possible,

In exoplanet contexts, geology is inferred indirectly through mass–radius relations, density, atmospheric composition, and thermal evolution

impact
cratering,
erosion,
sedimentation,
and,
on
icy
worlds,
cryovolcanism
and
ice
tectonics.
Exogeology
uses
geological
timelines—crater
dating,
stratigraphy,
and
differentiations
of
crust
and
mantle—to
reconstruct
evolutionary
sequences.
It
also
studies
geochemical
and
geophysical
signatures,
including
gravity
and
magnetic
fields,
to
infer
internal
processes.
in
situ
measurements
from
landers
and
rovers
or
sample
analyses.
Laboratory
work
on
Earth,
meteorite
studies,
and
modeling
support
interpretation.
Space
missions
provide
primary
data,
including
lunar
and
planetary
orbiter
observations,
lander
and
rover
results,
and
targeted
studies
of
asteroids
and
comets
(for
example,
data
from
missions
to
the
Moon,
Mars,
Mercury,
asteroid
Bennu,
and
comet
67P/Churyumov-Gerasimenko).
Notable
missions
include
Cassini,
Dawn,
Rosetta,
MESSENGER,
and
New
Horizons.
models,
as
direct
surface
data
remain
unavailable.
Exogeology
contributes
to
understanding
solar
system
formation,
planetary
evolution,
habitability,
and
future
exploration
and
resource
utilization.