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Physical oceanography from 120 CTDs, 79 water bottles stations, and 30 helicopter-borne CTDs during POLARSTERN cruise ANT-XXII/2 (ISPOL)

Absy, Joao Marcelo ; Schröder, Michael ; Muench, Robin D ; [et al.]

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In: Supplement to: Absy, Joao Marcelo; Schröder, Michael; Muench, Robin D; Hellmer, Hartmut H (2008): Early summer thermohaline characteristics and mixing in the western Weddell Sea. Deep Sea Research Part II: Topical Studies in Oceanography, 55(8-9), 1117-1131, https://doi.org/10.1016/j.dsr2.2007.12.023

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Publication Date: 2023-05-12

Description: The Ice Station POLarstern (ISPOL) cruise revisited the western Weddell Sea in late 2004 and obtained a comprehensive set of conductivity-temperature-depth (CTD) data. This study describes the thermohaline structure and diapycnal mixing environment observed in 2004 and compares them with conditions observed more than a decade earlier. Hydrographic conditions on the central western Weddell Sea continental slope, off Larsen C Ice Shelf, in late winter/early spring of 2004/2005 can be described as a well-stratified environment with upper layers evidencing relict structures from intense winter near-surface vertical fluxes, an intermediate depth temperature maximum, and a cold near-bottom layer marked by patchy property distributions. A well-developed surface mixed layer, isolated from the underlying Warm Deep Water (WDW) by a pronounced pycnocline and characterized by lack of warming and by minimal sea-ice basal melting, supports the assumption that upper ocean winter conditions persisted during most of the ISPOL experiment. Much of the western Weddell Sea water column has remained essentially unchanged since 1992; however, significant differences were observed in two of the regional water masses. The first, Modified Weddell Deep Water (MWDW), comprises the permanent pycnocline and was less saline than a decade earlier, whereas Weddell Sea Bottom Water (WSBW) was horizontally patchier and colder. Near-bottom temperatures observed in 2004 were the coldest on record for the western Weddell Sea over the continental slope. Minimum temperatures were ~0.4 and ~0.3 °C colder than during 1992-1993, respectively. The 2004 near-bottom temperature/salinity characteristics revealed the presence of two different WSBW types, whereby a warm, fresh layer overlays a colder, saltier layer (both formed in the western Weddell Sea). The deeper layer may have formed locally as high salinity shelf water (HSSW) that flowed intermittently down the continental slope, which is consistent with the observed horizontal patchiness. The latter can be associated with the near-bottom variability found in Powell Basin with consequences for the deep water outflow from the Weddell Sea.

Keywords: ANT-XXII/2; ANT-XXII/2_003-1; ANT-XXII/2_004-1; ANT-XXII/2_005-1; ANT-XXII/2_006-1; ANT-XXII/2_007-1; ANT-XXII/2_007-22; ANT-XXII/2_008-1; ANT-XXII/2_008-22; ANT-XXII/2_009-1; ANT-XXII/2_009-22; ANT-XXII/2_010-1; ANT-XXII/2_011-1; ANT-XXII/2_012-1; ANT-XXII/2_013-1; ANT-XXII/2_014-1; ANT-XXII/2_015-1; ANT-XXII/2_016-1; ANT-XXII/2_017-1; ANT-XXII/2_018-1; ANT-XXII/2_019-1; ANT-XXII/2_020-1; ANT-XXII/2_021-1; ANT-XXII/2_022-1; ANT-XXII/2_066-22; ANT-XXII/2_139-22; ANT-XXII/2_140-22; ANT-XXII/2_142-22; ANT-XXII/2_143-22; ANT-XXII/2_144-22; ANT-XXII/2_146-22; AWI_PhyOce; CTD/Rosette; CTD from ice float; CTDIF; CTD-RO; Physical Oceanography @ AWI; Polarstern; PS67/005-1; PS67/006-10; PS67/006-100; PS67/006-101; PS67/006-102; PS67/006-103; PS67/006-104; PS67/006-105; PS67/006-108; PS67/006-109; PS67/006-11; PS67/006-110; PS67/006-111; PS67/006-113; PS67/006-115; PS67/006-116; PS67/006-118; PS67/006-12; PS67/006-120; PS67/006-121; PS67/006-122; PS67/006-123; PS67/006-126; PS67/006-127; PS67/006-128; PS67/006-13; PS67/006-130; PS67/006-131; PS67/006-132; PS67/006-133; PS67/006-134; PS67/006-135; PS67/006-136; PS67/006-137; PS67/006-139; PS67/006-14; PS67/006-140; PS67/006-142; PS67/006-143; PS67/006-144; PS67/006-146; PS67/006-15; PS67/006-18; PS67/006-19; PS67/006-2; PS67/006-20; PS67/006-21; PS67/006-22; PS67/006-23; PS67/006-25; PS67/006-26; PS67/006-27; PS67/006-29; PS67/006-3; PS67/006-30; PS67/006-32; PS67/006-33; PS67/006-34; PS67/006-35; PS67/006-38; PS67/006-39; PS67/006-4; PS67/006-40; PS67/006-41; PS67/006-43; PS67/006-44; PS67/006-45; PS67/006-47; PS67/006-48; PS67/006-49; PS67/006-5; PS67/006-50; PS67/006-51; PS67/006-53; PS67/006-54; PS67/006-55; PS67/006-56; PS67/006-57; PS67/006-59; PS67/006-6; PS67/006-61; PS67/006-62; PS67/006-63; PS67/006-65; PS67/006-66; PS67/006-67; PS67/006-68; PS67/006-7; PS67/006-70; PS67/006-71; PS67/006-72; PS67/006-73; PS67/006-74; PS67/006-75; PS67/006-76; PS67/006-78; PS67/006-79; PS67/006-80; PS67/006-81; PS67/006-82; PS67/006-84; PS67/006-85; PS67/006-86; PS67/006-87; PS67/006-89; PS67/006-9; PS67/006-90; PS67/006-91; PS67/006-92; PS67/006-94; PS67/006-95; PS67/006-96; PS67/006-98; PS67/006-99; PS67/007-1; PS67/008-1; PS67/009-1; PS67/011-1; PS67/011-2; PS67/011-3; PS67 ISPOL; Scotia Sea, southwest Atlantic; Weddell Sea

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Format: application/zip, 3 datasets

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Exceptionally Warm and Prolonged Flow of Warm Deep Water Toward the Filchner-Ronne Ice Shelf in 2017 (2021)

Ryan, Svenja ; Hellmer, Hartmut H. ; Janout, Markus ; [et al.]

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Publication Date: 2021-10-13

Description: The Filchner-Ronne Ice Shelf, fringing the southern Weddell Sea, is Antarctica's second largest ice shelf. At present, basal melt rates are low due to active dense water formation; however, model projections suggest a drastic increase in the future due to enhanced inflow of open-ocean warm water. Mooring observations from 2014 to 2016 along the eastern flank of the Filchner Trough (76°S) revealed a distinct seasonal cycle with inflow if Warm Deep Water during summer and autumn. Here we present extended time series showing an exceptionally warm and long inflow in 2017, with maximum temperatures exceeding 0.5°C. Warm temperatures persisted throughout winter, associated with a fresh anomaly, which lead to a change in stratification over the shelf, favoring an earlier inflow in the following summer. We suggest that the fresh anomaly developed upstream after anomalous summer sea ice melting and contributed to a shoaling of the shelf break thermocline.

Keywords: 551.46 ; ocean-ice shelf interaction ; Weddell Sea ; warm inflow ; Antarctic Slope Front ; Filchner-Ronne Ice Shelf

Language: English

Type: map

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FRIS Revisited in 2018: On the Circulation and Water Masses at the Filchner and Ronne Ice Shelves in the Southern Weddell Sea (2021)

Janout, Markus A. ; Hellmer, Hartmut H. ; Hattermann, Tore ; [et al.]

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Publication Date: 2021-09-29

Description: The Filchner‐Ronne Ice Shelf (FRIS) is characterized by moderate basal melt rates due to the near‐freezing waters that dominate the wide southern Weddell Sea continental shelf. We revisited the region in austral summer 2018 with detailed hydrographic and noble gas surveys along FRIS. The FRIS front was characterized by High Salinity Shelf Water (HSSW) in Ronne Depression, Ice Shelf Water (ISW) on its eastern flank, and an inflow of modified Warm Deep Water (mWDW) entering through Central Trough. Filchner Trough was dominated by Ronne HSSW‐sourced ISW, likely forced by a recently intensified circulation beneath FRIS due to enhanced sea ice production in the Ronne polynya since 2015. Glacial meltwater fractions and tracer‐based water mass dating indicate two separate ISW outflow cores, one hugging the Berkner slope after a two‐year travel time, and the other located in the central Filchner Trough following a ∼six year‐long transit through the FRIS cavity. Historical measurements indicate the presence of two distinct modes, in which water masses in Filchner Trough were dominated by either Ronne HSSW‐derived ISW (Ronne‐mode) or more locally derived Berkner‐HSSW (Berkner‐mode). While the dominance of these modes has alternated on interannual time scales, ocean densities in Filchner Trough have remained remarkably stable since the first surveys in 1980. Indeed, geostrophic velocities indicated outflowing ISW‐cores along the trough's western flank and onto Berkner Bank, which suggests that Ronne‐ISW preconditions Berkner‐HSSW production. The negligible density difference between Berkner‐ and Ronne‐mode waters indicates that each contributes cold dense shelf waters to protect FRIS against inflowing mWDW.

Description: Plain Language Summary: We visited the largest floating Antarctic ice shelf in the southern Weddell Sea in 2018 with an icebreaker expedition, and measured ocean temperature, salinity, meltwater content, and other parameters in front of the FRIS. We found that the ocean conditions were still dominated by the very cold and dense waters needed to protect the ice shelf from inflowing warm waters from the deep ocean. We compared the 2018 conditions with earlier surveys since the 1980s and concluded that, in spite of climate change and in contrast to other Antarctic regions, the water masses on the southern Weddell Sea shelf remained relatively stable overall. We found that most of the stations we visited near the Filchner Ice Shelf edge were dominated by cold ISW, which forms when water masses interact with the underside of the shelf ice. Our measurements helped improve our understanding regarding the currents and water masses on the southern Weddell Sea continental shelf.

Description: Key Points: Hydrographic status update with the first comprehensive CTD survey along the entire FRIS front since 1995. Strong and stable presence of High Salinity Shelf Water in Ronne Depression over decades. Dominance of Ronne‐sourced Ice Shelf Water in Filchner Trough in 2018 points to intensified sub‐FRIS circulation.

Description: Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research (AWI) http://dx.doi.org/10.13039/501100003207

Keywords: 551.46 ; Ocean circulation ; ocean‐ice shelf interaction ; water masses ; Weddell Sea ; Filcher and Ronne shelves

Type: map

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