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2014). The Larsen B embayment is now RECENT EVOLUTION OF THE The startling outcome of synthesizing indi-
intermittently a new coastal polynya, LARSEN CRYOSPHERE vidual disciplinary studies is that the rapid-
whose seasonal opening is triggered and Remote sensing, in conjunction with the ity at which the area is changing now is not
maintained by the action of warm foehn automated multi-sensor stations, shows a documented in data from the Holocene, yet
winds. In this new state, the region has dramatic evolution of the remaining section is virtually universal in the recent changes
become an important component of the of the Larsen B Ice Shelf that suggests it is observed in precipitation records, sediment
overall western Weddell Sea marine eco- nearing an unstable state prone to disinte- accumulation rates, ecosystem changes,
system. Its seasonal primary production gration (Khazendar et al., 2015). MODIS isostatic uplift, and, of course, ice cover.
will enable both pelagic and benthic image series show increased bottom As dramatic change continues to charac-
habitat expansion. crevassing, and aerial photos as well as terize the Larsen region, potentially with
Redistribution of chemical-based and Landsat 8 images indicate both fine-scale additional breakup in the next warm year,
light-based biological production following surface fracturing and major new rifts in additional study will provide insight into
the ice-shelf breakup may have caused the the Scar Inlet ice. Loss of the A-54 iceberg the complex evolution of one of the most
demise of the extraordinary cold-seep eco- in February 2006 has led to instability in interesting regions on Earth in a funda-
system discovered in the newly exposed the Starbuck Glacier floating shelf front; mentally integrated way. Knowledge of
sub-ice-shelf area in 2005 (Domack et al., however, cooling climate conditions have how changes unfolded in the Larsen B
2005b; Niemann et al., 2009). Extensive led to the formation of multi-year fast ice in and adjacent areas will serve as a basis for
changes in the structure of benthic commu- the Larsen B embayment, which has been understanding what may occur in larger
nities have occurred in the years following present continuously since early 2012. This drainage basins that will warm in the
the shelf event, as previously absent phyto- fast ice appears to be inhibiting further coming years and whose changes may
detritus materials accumulate on the sea- calving of the Scar Inlet ice front. GPS have a greater effect far afield.
floor (Gutt et al., 2011). Lipid biomarkers in systems installed on the ice as part of the
surface sediments suggest that seasonal AMIGOS stations indicate that while the POSTSCRIPT
sea-ice diatoms are important contributors ice shelf accelerated at a rate of ~5% yr The LARISSA project was in many ways guided
−1
to this flux of organic matter (Shimizu, between 2010 and 2012, since the formation by the scientific vision of Eugene Domack, who
2016). The development of a new paleo‐ of the persistent fast ice in 2012, the shelf dedicated much of his life to studying Antarctica
and its connections to the rest of the world. Gene
productivity index in marine sediments has ceased to accelerate and instead exhib- passed away suddenly during the preparation of this
links ocean productivity measured as its an ~3% seasonal oscillation in flow manuscript. The remaining authors, like colleagues
DMSP (dimethyl sulfonopropionate) and speed, lagging the annual peak and trough around the world, mourn his passing.
MSA (methanesulfonic acid) measured in in air temperature by ~30 days. Given that
ice cores, within time scales of thousands the Scar Inlet ice is already structurally REFERENCES CITED
of years. The DMSP data are supported by weak, it is likely that this stabilization is Balco, G., Schaefer, J.M., and LARISSA group,
complementary data on absolute diatom temporary and that the next warm year will 2013, Terrestrial exposure-age record
abundances, which document the very lead to the loss of the fast ice and rapid of Holocene ice sheet and ice shelf change in
the northeast Antarctic Peninsula: Quaternary
recent influx of a sea-ice–associated breakup of the Scar Inlet Ice Shelf. Science Reviews, v. 59, p. 101–111, https://
diatom community (Rebesco et al., 2014). doi.org/10.1016/j.quascirev.2012.10.022.
Studies conducted as part of LARISSA INTEGRATED APPROACH TO Barrand, N.E., Vaughan, D.G., Steiner, N.,
have also highlighted the dramatic differ- UNDERSTANDING ONGOING Tedesco, M., Kuipers Munneke, P., van den
Broeke, M.R., and Hosking, J.S., 2013, Trends
ences between the rich benthic assemblages CHANGES in Antarctic Peninsula surface melting
in fjords along the western Antarctic The interdisciplinary and international conditions from observations and regional
Peninsula and those on the open western field-based LARISSA program addressed climate modeling: Journal of Geophysical
Antarctic Peninsula shelf and in the the rapid, system-level changes taking Research, Earth Surface, v. 118, p. 315–330,
https://doi.org/10.1029/2012JF002559.
Weddell Sea (Grange and Smith, 2013). place in the Larsen Embayment, Weddell Berthier, E., Scambos, T.A., and Shuman, C.A.,
Dropstone habitats add significantly to the Sea region of the Antarctic Peninsula, 2012, Mass loss of Larsen B tributary glaciers
diversity of benthic megafauna (Ziegler et where the Larsen B ice shelf underwent a (Antarctic Peninsula) unabated since 2002:
al., 2017), indicating that ice-shelf collapse spectacular collapse in 2002. The research Geophysical Research Letters, v. 39, L13501,
and massive dropstone production sub‐ team, composed of ice core scientists, https://doi.org/10.1029/2012GL051755.
stantially alters formerly sub-ice-shelf eco- glaciologists, oceanographers, marine Blunden, J., and Arndt, D.S., 2012, State of the
climate in 2011: Bulletin of the American
systems. Furthermore, LARISSA studies geologists, and biologists, including doz- Meteorological Society, v. 93, no. 7, p. S1–
revealed that, in recent decades, a large ens of students and early career scholars, S282, https://doi.org/10.1175/2012BAMS
population of king crabs crossed onto the collaborated to characterize the effects of StateoftheClimate.1.
western Antarctic Peninsula continental the collapse on the marine ecosystem as Brachfeld, S., Domack, E., Kissel, C., Laj, C.,
shelf. Warming trends along the western well as on glacier dynamics and interac- Leventer, A., Ishman, S., Gilbert, R.,
Camerlenghi, A., and Eglinton, L., 2003,
Antarctic Peninsula suggest that these tions among the ocean, ice, geology, and Holocene history of the Larsen-A Ice Shelf
relatively cold-intolerant crabs may extend biology, and to place these changes in the constrained by geomagnetic paleointensity
their range farther onto the western context of past changes in the region. dating: Geology, v. 31, no. 9, p. 749–752,
Antarctic Peninsula shelf, with major Individual disciplinary projects each docu- https://doi.org/10.1130/G19643.1.
invasive impacts in the next few decades mented system change both during the Campo, J., Wellner, J.S., Lavoie, C., Domack, E.,
and Yoo, K.-C., 2017, Glacial geomorphology of
(Smith et al., 2012). Holocene and under modern conditions. the northwestern Weddell Sea, eastern

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