Paleo-methane emissions recorded in foraminifera near the landward limit of the gas hydrate stability zone offshore western Svalbard
Permanent link
https://hdl.handle.net/10037/10843Date
2016-02-26Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
We present stable isotope and geochemical data from four sediment cores from west of Prins
Karls Forland (ca. 340 m water depth), offshore western Svalbard, recovered from close to sites of
active methane seepage, as well as from shallower water depths where methane seepage is not
presently observed. Our analyses provide insight into the record of methane seepage in an area
where ongoing ocean warming may be fueling the destabilization of shallow methane hydrate. The d13C
values of benthic and planktonic foraminifera at the methane seep sites show distinct intervals
with negative values (as low as 227.8&) that do not coincide with the present-day depth of the
sulfate methane transition zone (SMTZ) These intervals are interpreted to record long-term
fluctuations in methane release at the present-day land- ward limit of the gas hydrate stability
zone (GHSZ). Shifts in the radiocarbon ages obtained from planktonic foraminifera toward older
values are related to methane-derived authigenic carbonate overgrowths of the foraminiferal tests,
and prevent us from establishing the chronology of seepage events. At shallower water depths, where
seepage is not presently observed, no record of past methane seepage is recorded in forami nifera
from sediments spanning the last 14 ka cal BP (14C-AMS dating). d13C values of foraminiferal
carbon- ate tests appear to be much more sensitive to methane seepage than other sediment
parameters. By providing nucleation sites for authigenic carbonate precipitation, foraminifera thus
record the position of even a transiently stable SMTZ, which is likely to be a characteristic of
temporally variable methane fluxes.
Description
Published version. Source at http://dx.doi.org/10.1002/2015GC006153