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paleowinds

Paleowinds refers to reconstructed patterns of atmospheric wind flow in the geological past, inferred from rocks and sediments rather than direct observations. In paleoclimatology and sedimentology, researchers use aeolian indicators and dust records to infer prevailing wind directions and transport regimes that prevailed at different times.

Primary evidence comes from cross-bedding in sandstones and dune fields, which records the paleowind direction and

Researchers have applied paleowind analyses across the geological record, with well-developed reconstructions for the Pleistocene and

Limitations include preservation bias, post-depositional alteration, multiple wind events, and the difficulty of separating wind direction

Overall, paleowinds contribute to understanding past climates, helping to explain dune evolution, dust deposition, arid region

strength
during
deposition.
Large-scale
dune
formations
indicate
dominant
wind
directions,
while
relict
dune
orientations
preserved
in
rock
are
used
to
map
past
wind
belts.
Loess
deposits,
which
accumulate
from
wind-blown
silt,
provide
long-term
records
of
wind
intensity
and
transport.
Other
cues
include
aerosol-rich
sediment
layers,
sedimentary
facies
distribution,
and
isotopic
or
mineralogical
proxies
that
reflect
dust
flux
and
source
regions.
Cenozoic
and
for
certain
Paleozoic
and
Mesozoic
intervals.
Case
studies
cover
desert
belts,
monsoon
systems,
and
the
global
circulation
patterns
that
responded
to
continents'
arrangement
and
climate
forcings.
from
seasonal
or
episodic
winds.
Consequently,
paleowind
reconstructions
typically
report
uncertainties
and
ensemble
interpretations.
expansion,
and
shifts
in
atmospheric
circulation
that
influenced
ecosystems
and
sedimentary
basins.