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coccolithophore

Coccolithophores are a group of single-celled marine algae in the Haptophyta. They are characterized by calcium carbonate plates called coccoliths that cover the cell or are shed into the surrounding water, forming a coccosphere. They are primarily photosynthetic plankton living in the photic zone of oceans and seas.

Most species are tiny, typically 2 to 20 micrometers in diameter. They possess two flagella for movement

Coccolithophores contribute to marine primary production and to the biogeochemical cycling of carbon. Photosynthesis removes CO2

Coccolithophores have a rich fossil record dating to the Jurassic and are a major component of Cretaceous

and
a
haptonema,
a
filament
used
for
sensing.
Coccoliths
are
produced
inside
Golgi-derived
vesicles
and
secreted
to
the
cell
surface;
assembled
coccoliths
form
a
calcareous
covering
that
can
be
complete
or
patchy,
and
may
overlie
the
cell
in
various
patterns.
from
seawater,
while
calcification
converts
carbonate
and
calcium
into
CaCO3,
releasing
CO2
to
seawater.
As
a
result,
the
carbonate
tests
they
produce
can
contribute
to
long-term
carbon
storage
when
they
sink
as
sediment.
Their
blooms
can
be
extensive
and
are
detectable
from
space
as
bright,
white
patches;
Emiliania
huxleyi
is
among
the
best-known
bloom-forming
species.
Bloom
dynamics
are
influenced
by
light,
nutrients,
temperature,
and
ocean
conditions
and
can
be
affected
by
viral
infections,
such
as
Emiliania
huxleyi
virus
(EhV).
and
Cenozoic
sediments.
Their
fossil
coccoliths,
from
genera
such
as
Coccolithus,
Discoaster,
and
others,
form
extensive
chalk
and
limestone
deposits
and
are
widely
used
in
biostratigraphy
and
paleoclimate
reconstructions.
The
White
Cliffs
of
Dover
are
a
well-known
example
of
chalk
derived
partly
from
coccolithophore
tests.