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zeestromen

Zeestromen, the Dutch term for sea currents, are large-scale movements of seawater that transport heat, nutrients, and biomass across the oceans. They occur on global, regional, and local scales and influence climate, weather, and marine ecosystems. Currents can persist for years or decades and vary with season and climate state.

Surface currents are primarily wind-driven. The interaction between prevailing winds and the Coriolis effect generates geostrophic

Other processes include upwelling, where deep, nutrient-rich water rises to the surface, supporting productive ecosystems; downwelling;

Measurements rely on satellite altimetry, drifting buoys, moored instruments, and ships' CTD profiles. Climate models use

Zeestromen exhibit substantial natural variability and may respond to climate modes like ENSO and the North

flows
that
follow
major
wind
belts.
Ekman
transport
moves
water
90
degrees
to
wind
direction,
initiating
persistent
patterns
such
as
gyres
in
major
oceans.
Deep
currents
arise
from
differences
in
water
density
(thermohaline
circulation)
and
can
move
vast
volumes
of
water
slowly,
connecting
basins
and
distributing
heat
and
carbon.
and
tidal
currents
produced
by
the
gravitational
effects
of
the
Moon
and
Sun.
Notable
currents
include
the
Gulf
Stream
and
Kuroshio
in
the
upper
ocean,
the
Antarctic
Circumpolar
Current
around
Antarctica,
and
the
North
Atlantic
Deep
Water
formation
that
drives
the
global
overturning
circulation.
observed
currents
to
simulate
heat
transport
and
predict
changes
under
global
warming.
They
influence
weather
patterns,
marine
biodiversity,
and
human
activities
such
as
shipping
and
fisheries.
Atlantic
Oscillation.
Ongoing
research
aims
to
improve
understanding
of
regional
responses,
potential
shifts
in
current
strength,
and
implications
for
regional
climates
and
coastal
systems.