Venus
today
is
inhospitable
at
the
surface,
its
average
temperature
of
750
K
being
incompatible
to
existence
life
as
we
know
it.
However,
potential
for
past
surface
habitability
and
upper
atmosphere
(cloud)
present
day
hotly
debated,
ongoing
discussion
regarding
a
possible
phosphine
signature
coming
from
clouds
shows.
We
review
current
understanding
about
evolution
with
special
attention
scenarios
where
planet
may
have
been
capable
hosting
microbial
life.
compare
possibility
on
case
Earth
by
reviewing
various
hypotheses
put
forth
concerning
origin
habitable
conditions
emergence
plate
tectonics
both
planets.
Life
emerged
during
Hadean
when
was
dominated
higher
mantle
temperatures
(by
200$^\circ$C),
an
uncertain
tectonic
regime
that
likely
included
squishy
lid/plume-lid
tectonics,
proto
continents.
Despite
lack
well-preserved
crust
dating
Hadean-Paleoarchean
eons,
attempt
resume
environmental
this
critical
period
based
zircon
crystals
geochemical
signatures
period,
well
studies
younger,
relatively
rocks
Paleoarchean.
For
these
early,
primitive
forms,
not
but
it
became
important
means
nutrient
recycling,
consequences
global
environment
long-term,
essential
continuation
early
Venus,
question
stable
water
closely
related
tectonics.
discuss
transitions
between
stagnant
lid
(episodic)
crustal
volatile
cycling
Venus’
interior
atmosphere.
In
particular,
insights
into
climate
examine
questions
rotation
speed,
reflective
clouds,
silicate
weathering,
summarize
implications
long-term
habitability.
Finally,
state
knowledge
venusian
proposed
detection
covered.
Astrobiology,
Journal Year:
2024,
Volume and Issue:
24(4), P. 343 - 370
Published: March 7, 2024
Long-standing
unexplained
Venus
atmosphere
observations
and
chemical
anomalies
point
to
unknown
chemistry
but
also
leave
room
for
the
possibility
of
life.
The
include
several
gases
out
thermodynamic
equilibrium
(e.g.,
tens
ppm
O2,
possible
presence
PH3
NH3,
SO2
H2O
vertical
abundance
profiles),
an
composition
large,
lower
cloud
particles,
"unknown
absorber(s)."
Here
we
first
review
relevant
properties
venusian
then
describe
atmospheric
how
they
motivate
future
astrobiology
missions
Venus.
Aerospace,
Journal Year:
2022,
Volume and Issue:
9(8), P. 445 - 445
Published: Aug. 13, 2022
Regular,
low-cost
Decadal-class
science
missions
to
planetary
destinations
will
be
enabled
by
high-ΔV
small
spacecraft,
such
as
the
high-energy
Photon,
and
launch
vehicles,
Electron,
support
expanding
opportunities
for
scientists
increase
rate
of
return.
The
Rocket
Lab
mission
Venus
is
a
direct
entry
probe
planned
baseline
in
May
2023
with
accommodation
single
~1
kg
instrument.
A
backup
window
available
January
2025.
spend
about
5
min
cloud
layers
at
48-60
km
altitude
above
surface
collect
situ
measurements.
We
have
chosen
low-mass,
autofluorescing
nephelometer
search
organic
molecules
particles
constrain
particle
composition.
Space Science Reviews,
Journal Year:
2023,
Volume and Issue:
219(7)
Published: Oct. 1, 2023
Abstract
In
this
work
we
discuss
various
selected
mission
concepts
addressing
Venus
evolution
through
time.
More
specifically,
address
investigations
and
payload
instrument
supporting
scientific
goals
open
questions
presented
in
the
companion
articles
of
volume.
Also
included
are
their
related
(observations
&
modeling)
discussion
which
measurements
future
data
products
needed
to
better
constrain
Venus’
atmosphere,
climate,
surface,
interior
habitability
A
new
fleet
missions
has
been
selected,
will
continue
be
considered
for
selections.
Missions
under
development
include
radar-equipped
ESA-led
EnVision
M5
orbiter
(European
Space
Agency
2021),
NASA-JPL’s
VERITAS
(Smrekar
et
al.
2022a),
NASA-GSFC’s
DAVINCI
entry
probe/flyby
(Garvin
2022a).
The
acquired
with
VERITAS,
DAVINCI,
from
end
decade
fundamentally
improve
our
understanding
planet’s
long
term
history,
current
activity
evolutionary
path.
We
further
describe
beyond
framework
missions,
as
well
synergies
between
these
concepts,
ground-based
space-based
observatories
facilities,
laboratory
measurements,
algorithmic
or
modeling
activities
that
pave
way
a
program
extends
into
2040s
(Wilson
2022).
Space Science Reviews,
Journal Year:
2023,
Volume and Issue:
219(2)
Published: Feb. 22, 2023
Abstract
Venus
today
is
inhospitable
at
the
surface,
its
average
temperature
of
750
K
being
incompatible
to
existence
life
as
we
know
it.
However,
potential
for
past
surface
habitability
and
upper
atmosphere
(cloud)
present
day
hotly
debated,
ongoing
discussion
regarding
a
possible
phosphine
signature
coming
from
clouds
shows.
We
review
current
understanding
about
evolution
with
special
attention
scenarios
where
planet
may
have
been
capable
hosting
microbial
life.
compare
possibility
on
case
Earth
by
reviewing
various
hypotheses
put
forth
concerning
origin
habitable
conditions
emergence
plate
tectonics
both
planets.
Life
emerged
during
Hadean
when
was
dominated
higher
mantle
temperatures
(by
$200~^{\circ}\text{C}$
200∘C
),
an
uncertain
tectonic
regime
that
likely
included
squishy
lid/plume-lid
tectonics,
proto
continents.
Despite
lack
well-preserved
crust
dating
Paleoarchean,
attempt
environmental
this
critical
period
based
zircon
crystals
geochemical
signatures
period,
well
studies
younger,
relatively
rocks
Paleoarchean.
For
these
early,
primitive
forms,
not
but
it
became
important
means
nutrient
recycling,
consequences
global
environment
in
long-term,
essential
continuation
early
Venus,
question
stable
water
closely
related
tectonics.
discuss
transitions
between
stagnant
lid
(episodic)
crustal
volatile
cycling
Venus’
interior
atmosphere.
In
particular,
insights
into
climate
examine
questions
rotation
speed,
reflective
clouds,
silicate
weathering,
summarize
implications
long-term
habitability.
Finally,
state
knowledge
Venusian
proposed
detection
covered.
Proceedings of the National Academy of Sciences,
Journal Year:
2023,
Volume and Issue:
120(25)
Published: June 12, 2023
What
constitutes
a
habitable
planet
is
frontier
to
be
explored
and
requires
pushing
the
boundaries
of
our
terracentric
viewpoint
for
what
we
deem
environment.
Despite
Venus'
700
K
surface
temperature
being
too
hot
any
plausible
solvent
most
organic
covalent
chemistry,
cloud-filled
atmosphere
layers
at
48
60
km
above
hold
main
requirements
life:
suitable
temperatures
bonds;
an
energy
source
(sunlight);
liquid
solvent.
Yet,
Venus
clouds
are
widely
thought
incapable
supporting
life
because
droplets
composed
concentrated
sulfuric
acid-an
aggressive
that
assumed
rapidly
destroy
biochemicals
on
Earth.
Recent
work,
however,
demonstrates
rich
chemistry
can
evolve
from
simple
precursor
molecules
seeded
into
acid,
result
corroborated
by
domain
knowledge
in
industry
such
leads
complex
molecules,
including
aromatics.
We
aim
expand
set
known
stable
acid.
Here,
show
nucleic
acid
bases
adenine,
cytosine,
guanine,
thymine,
uracil,
as
well
2,6-diaminopurine
"core"
purine
pyrimidine,
cloud
concentration
range,
using
UV
spectroscopy
combinations
1D
2D
Astrobiology,
Journal Year:
2024,
Volume and Issue:
24(4), P. 386 - 396
Published: March 18, 2024
Scientists
have
long
speculated
about
the
potential
habitability
of
Venus,
not
at
700K
surface,
but
in
cloud
layers
located
48–60
km
altitudes,
where
temperatures
match
those
found
on
Earth's
surface.
However,
prevailing
belief
has
been
that
Venus'
clouds
cannot
support
life
due
to
chemical
composition
concentrated
sulfuric
acid—a
highly
aggressive
solvent.
In
this
work,
we
study
20
biogenic
amino
acids
range
acid
concentrations
(81%
and
98%
w/w,
rest
water)
temperatures.
We
find
19
tested
are
either
unreactive
(13
w/w
12
81%
w/w)
or
chemically
modified
side
chain
only,
after
4
weeks.
Our
major
finding,
therefore,
is
backbone
remains
intact
acid.
These
findings
significantly
broaden
biologically
relevant
molecules
could
be
components
a
biochemistry
based
Life,
Journal Year:
2023,
Volume and Issue:
13(3), P. 675 - 675
Published: March 1, 2023
The
field
of
astrobiology
aims
to
understand
the
origin
life
on
Earth
and
searches
for
evidence
beyond
our
planet.
Although
there
is
agreement
some
requirements
Earth,
exact
process
by
which
emerged
from
prebiotic
conditions
still
uncertain,
leading
various
theories.
In
order
expand
knowledge
place
in
universe,
scientists
look
signs
through
use
biosignatures,
observations
that
suggest
presence
past
or
present
life.
These
biosignatures
often
require
up-close
investigation
orbiters
landers,
have
been
employed
space
missions.
Mars,
because
its
proximity
Earth-like
environment,
has
received
most
attention
explored
using
(sub)surface
sampling
analysis.
Despite
inhospitable
surface
conditions,
Venus
also
subject
missions
due
potentially
habitable
atmosphere.
addition,
discovery
environments
icy
moons
sparked
interest
further
study.
This
article
provides
an
overview
studies
carried
out
landers.
Science Advances,
Journal Year:
2025,
Volume and Issue:
11(5)
Published: Jan. 29, 2025
The
circumstellar
liquid-water
habitable
zone
guides
our
search
for
potentially
inhabited
exoplanets
but
remains
observationally
untested.
We
show
that
the
inner
edge
of
can
now
be
mapped
among
using
their
lack
surface
water,
which,
unlike
presence
unambiguously
revealed
by
atmospheric
sulfur
species.
Using
coupled
climate-chemistry
modeling,
we
find
observability
gases
on
depends
critically
ultraviolet
(UV)
flux
host
star,
a
property
with
wide
variation:
Most
M-dwarfs
have
low
UV
and
thereby
allow
detection
as
tracer
dry
planetary
surfaces;
however,
Trappist-1
may
too
high
to
disambiguate
uninhabitable
from
surfaces
any
its
planets.
generalize
this
result
how
population-level
chemistry
M-dwarf
planets
used
empirically
define
in
near
future.
arXiv (Cornell University),
Journal Year:
2024,
Volume and Issue:
unknown
Published: Jan. 1, 2024
Scientists
have
long
speculated
about
the
potential
habitability
of
Venus,
not
at
700K
surface,
but
in
cloud
layers
located
48-60
km
altitudes,
where
temperatures
match
those
found
on
Earth's
surface.
However,
prevailing
belief
has
been
that
Venus'
clouds
cannot
support
life
due
to
chemical
composition
concentrated
sulfuric
acid-a
highly
aggressive
solvent.
In
this
work,
we
study
20
biogenic
amino
acids
range
acid
concentrations
(81%
and
98%
w/w,
rest
water)
temperatures.
We
find
19
tested
are
either
unreactive
(13
w/w
12
81%
w/w)
or
chemically
modified
side
chain
only,
after
4
weeks.
Our
major
finding,
therefore,
is
backbone
remains
intact
acid.
These
findings
significantly
broaden
biologically
relevant
molecules
could
be
components
a
biochemistry
based
Life Sciences in Space Research,
Journal Year:
2023,
Volume and Issue:
37, P. 18 - 24
Published: Feb. 4, 2023
The
Committee
on
Space
Research's
(COSPAR)
Planetary
Protection
Policy
states
that
all
types
of
missions
to
Venus
are
classified
as
Category
II,
the
planet
has
significant
research
interest
relative
processes
chemical
evolution
and
origin
life,
but
there
is
only
a
remote
chance
terrestrial
contamination
can
proliferate
compromise
future
investigations.
"Remote
chance"
essentially
implies
absence
environments
where
organisms
could
survive
replicate.
Hence,
II
require
simplified
planetary
protection
documentation,
including
plan
outlines
intended
or
potential
impact
targets,
brief
Pre-
Post-launch
analyses
detailing
strategies,
Post-encounter
End-of-Mission
Report.
These
requirements
were
applied
in
previous
foreseen
for
numerous
new
international
planned
exploration
Venus,
which
include
NASA's
VERITAS
DAVINCI
missions,
ESA's
EnVision
mission.
There
also
several
proposed
India's
Shukrayaan-1,
Russia's
Venera-D.
multiple
plans
spacecraft
coincide
with
recent
within
scientific
community
regarding
cloud
layers
have
been
suggested
by
some
be
habitable
environments.
proposed,
privately
funded,
MIT/Rocket
Lab
Life
Finder
mission
specifically
designed
assess
habitability
Venusian
clouds
search
signs
life.
It
includes
up
three
atmospheric
probes,
first
one
targeting
launch
2023.
COSPAR
Panel
evaluated
data
underpins
implications
this
current
policy.
done
thorough
review
knowledge
planet's
conditions
prevailing
clouds.
Based
existing
literature,
we
conclude
environmental
orders
magnitude
drier
more
acidic
than
tolerated
survival
limits
any
known
extremophile
organism.
Because
orbital,
landed
entry
probe
do
not
extra
measures.
This
recommendation
may
revised
if
observations
reanalysis
past
show
increment,
magnitude,
water
content
pH
layer.
