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subduceras

Subduceras is a proposed term in geoscience used to denote subduction-related conduits within the mantle wedge that facilitate transfer of fluids and melts from a subducting slab into the overlying mantle and crust. The concept envisions elongated, dipping channels or zones—subduceras—that channel fluids released by dehydration reactions in the subducting slab into surrounding rocks, aiding metasomatism and melt generation at arc depths.

Geometrically, subduceras are imagined as narrow, fault- or shear-hosted structures aligned with the subduction direction, extending

Formation is linked to dehydration of minerals like lawsonite and chlorite at high pressure, producing aqueous

Evidence remains indirect: seismic tomography, magnetotelluric surveys, and xenolith data offer hints consistent with channelized fluid

Subduceras relates to broader topics such as the mantle wedge, slab dehydration, and arc volcanism, and aspects

from
deep
slab
depths
toward
the
mantle
wedge.
Their
composition
is
thought
to
be
variable,
comprising
hydrated
minerals,
serpentinite,
and
metasomatic
veins
enriched
in
fluids.
fluid
phases
that
migrate
along
preexisting
faults
or
in
ductile
shear
zones.
The
presence
of
subduceras
would
affect
physical
properties:
elevated
seismic
velocity
contrasts
in
surrounding
mantle,
high
electrical
conductivity
in
magnetotelluric
studies,
and
distinctive
seismic
anisotropy
in
the
mantle
wedge.
flow,
but
direct
confirmation
of
subduceras
as
discrete
structures
is
lacking.
The
idea
is
debated;
some
researchers
view
subduction-zone
fluids
and
metasomatism
as
distributed
processes
rather
than
confined
conduits.
of
its
plausibility
are
weighed
against
alternative
models
of
fluid
transport
and
melt
generation.