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sedimentation

Sedimentation is the process by which particulate matter suspended in a fluid settles out under gravity and forms a deposit. In natural waters and engineered systems, settling is governed by particle size, density, and shape, as well as fluid viscosity and flow regime. For small, spherical particles in laminar conditions, settling velocity can be estimated by Stokes' law; however, most natural systems involve turbulence, flocculation, and hindered settling, which alter both the rate and pattern of deposition.

Natural sedimentation occurs in rivers, lakes, deltas, and oceans when flow energy declines, causing suspended particles

Factors that control sedimentation include the transport energy of the system, particle size and density distributions,

Measurement and significance: Sedimentation rates help quantify sediment budgets, inform interpretations of the rock record, and

to
deposit.
Over
time,
clastic
sediments
form
beds
with
graded
or
cross-bedded
structures;
fine
silts
and
clays
settle
more
slowly
to
form
mudstones
and
shales.
Chemical
and
biogenic
sediments
arise
from
precipitation
of
minerals
or
from
biological
processes,
and
may
accumulate
in
quiet
waters
or
settings
such
as
reefs
and
evaporite
basins.
Deposition
is
followed
by
burial,
compaction,
and
lithification
to
form
sedimentary
rocks.
settling
velocity,
aggregation
by
flocculation,
and
water
chemistry.
Turbulence
can
keep
particles
suspended,
while
calm
conditions
promote
deposition.
Human
activities
such
as
dam
construction,
land
use
changes,
and
dredging
can
alter
sedimentation
patterns
by
changing
flows
and
sediment
supply.
guide
the
design
of
settling
basins
in
water
and
wastewater
treatment.
In
geology
and
sedimentology,
the
study
of
deposition,
sorting,
and
layering
supports
reconstruction
of
past
environments
and
the
development
of
sedimentary
rocks.