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1. Seafloor geomorphology of the Wrigley Gulf shelf, Amundsen Sea, West Antarctica, reveals two different phases of glaciation

   https://doi.org/10.1002/esp.5865  

   Lee, Jae Il; Hillenbrand, Claus‐Dieter; Wellner, Julia S; Kim, Hyoung Jun; Rhee, Hyun Hee; Yoo, Kyu‐Cheul; Kim, Sunghan; Lee, Min Kyung (August 2024, Earth Surface Processes and Landforms)

   Abstract Knowledge of the behaviour of marine‐based ice sheets during times of climatic warming, such as the last deglaciation, provides important information to understand how ice sheets respond to external forcing. We analysed swath bathymetric and acoustic sub‐bottom profiler data from Wrigley Gulf on the western Amundsen Sea shelf, West Antarctica, to identify glacial features and reconstruct past changes in the extent of the West Antarctic Ice Sheet (WAIS) and ice flow directions. Glacial bedforms mapped within a bathymetric cross‐shelf trough include features showing cross‐cutting and overprinting relationship and indicate changes in ice‐flow orientation. Here, we distinguish at least two phases of different ice‐flow patterns on the Wrigley Gulf shelf. During the earlier phase, seaward ice stream flow on the inner shelf was deflected towards the east due to the existence of an ice dome on the middle‐outer continental shelf. Retreat of grounded ice towards the centre of this dome is indicated by the asymmetric cross profile of recessional moraines mapped on the middle shelf. The later glaciation phase was characterized by fast, NNW‐directed ice flow across the shelf along a broad front and subsequent stepwise landward retreat, which is evident from the common occurrence and orientation of mega‐scale glaciation lineations and grounding zone wedges on the middle‐inner shelf. It is uncertain whether the two phases of glaciation recorded on the seafloor occurred during the last and penultimate glacial periods or at different times of the last glaciation. Reliable chronological constraints from sediment cores and additional geomorphological information are needed to understand the cause of the changes in WAIS dynamics reflected by the two ice‐flow phases. 

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2. A continuous pathway for fresh water along the East Greenland shelf

   https://doi.org/10.1126/sciadv.abc4254  

   Foukal, Nicholas P.; Gelderloos, Renske; Pickart, Robert S. (October 2020, Science Advances)

   null (Ed.)

   Export from the Arctic and meltwater from the Greenland Ice Sheet together form a southward-flowing coastal current along the East Greenland shelf. This current transports enough fresh water to substantially alter the large-scale circulation of the North Atlantic, yet the coastal current’s origin and fate are poorly known due to our lack of knowledge concerning its north-south connectivity. Here, we demonstrate how the current negotiates the complex topography of Denmark Strait using in situ data and output from an ocean circulation model. We determine that the coastal current north of the strait supplies half of the transport to the coastal current south of the strait, while the other half is sourced from offshore via the shelfbreak jet, with little input from the Greenland Ice Sheet. These results indicate that there is a continuous pathway for Arctic-sourced fresh water along the entire East Greenland shelf from Fram Strait to Cape Farewell. 

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3. The Limits of Ocean Forcing on the Exchange Flow of the Salish Sea

   https://doi.org/10.1029/2025JC022384  

   Sanchez, R; Giddings, S N; Lemagie, E (May 2025, Journal of Geophysical Research: Oceans)

   Abstract The dynamics of ocean‐estuary exchange depend on a variety of local and remote ocean forcing mechanisms where local mechanisms include those directly forcing the estuary such as tides, river discharge, and local wind stress; remote forcing includes forcing from the ocean such as coastal wind stress and coastal stratification variability. We use a numerical model to investigate the limits of oceanic influence, such as wind‐driven upwelling, on the Salish Sea exchange flow and salt transport. We find that along‐shelf winds substantially modulate flow throughout the Strait of Juan de Fuca until flow reaches sill‐influenced constrictions. At these constrictions the exchange flow variability becomes sensitive to local tidal and river forcing. The salt exchange variability is tidally dominated at Admiralty Inlet and upwelling has little impact on seasonal salt exchange variability. While within Haro Strait, the salt exchange variability is driven by a mix of coastal upwelling and local forcing including river discharge. There, the transition from oceanic to local control of salt exchange occurs over a longer distance and is primarily identifiable in the increasing variability of bulk outflowing salinity values. The differences between the two locations highlight how ocean variability interacts with both tidal pumping and gravitational circulation. We also distinguish between transient ocean forcing which can modify fjord properties near the mouth of the strait and seasonal ocean forcing which primarily affects along‐strait pressure gradients. The results have implications for understanding the transport variability of biogeochemical variables that are influenced by both along‐shelf winds and local sources. 

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4. Marine geological investigation of Edward VIII Gulf, Kemp Coast, East Antarctica

   https://doi.org/10.1017/S0954102020000097  

   Dove, Isabel A; Leventer, Amy; Metcalf, Meredith J; Brachfeld, Stefanie A; Dunbar, Robert B; Manley, Patricia; Shevenell, Amelia E; Murray, Richard W; Hommeyer, Matthew; Kryc, Kelly A; et al (June 2020, Antarctic Science)

   Abstract A physical oceanographic, geophysical and marine geological survey of Edward VIII Gulf, Kemp Coast, collected data from conductivity–temperature–depth casts, multi-beam bathymetric swath mapping and 3.5 kHz sub-bottom surveying. Modified circumpolar deep water (mCDW) is observed in Edward VIII Gulf, as well as notable bathymetric features including mega-scale glacial lineations and a 1750 m-deep trough. Sedimentological, geochemical, rock-magnetic and micropalaeontological analysis of two kasten cores document regional palaeoclimate and palaeo-oceanographic conditions over the past 8000 years, with a warm period occurring fromc.8 to 4 ka and a shift to cooler conditions beginning atc.4 ka and persisting until at least 0.9 ka. Sediment packages > 40 m thick within deep troughs in Edward VIII Gulf present potential targets for higher-resolution Holocene and deglacial climate studies. Despite the presence of mCDW on the shelf, inland bed topography consisting of highland terrain suggests the likelihood of relative stability of this sector of the East Antarctic Ice Sheet. 

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5. Severe Convective Weather Outbreaks on 10 and 15 December 2021: Large-Scale Antecedent Conditions

   https://doi.org/10.1175/MWR-D-24-0213.1  

   Hoogewind, Kimberly A; Galarneau, Thomas J; Gensini, Vittorio A (July 2025, Monthly Weather Review)

   Abstract The first 2 weeks of December 2021 were exceptionally active for severe convective storms across the central and eastern United States. While previous work has indicated that this was related to the existence of a negative phase of the Pacific–North American pattern, we demonstrate that such a pattern was configured via dynamical linkages between multiple extratropical cyclogenesis events in the western North Pacific, the recurvature of Typhoon Nyatoh, and the subsequent phase evolution of the North Pacific jet. These processes were found to aid in the excitation of Rossby wave packets and the amplification of upper-level flow downstream over the Pacific, ultimately configuring synoptic-scale weather regimes supportive of anomalous high-frequency and high-intensity severe convective weather in the contiguous United States. In addition, abnormally warm Gulf of America/Gulf of Mexico sea surface temperatures, aided by a period of antecedent synoptic-scale subsidence, played a critical role in enhancing convective instability in the surface warm sector. This work underscores the importance of cataloging these events for purposes of examining (and potentially enhancing) predictability. Significance StatementThe first half of December 2021 recorded one of the most active cool-season severe weather periods in the United States, resulting in two billion-dollar convective outbreaks on 10 and 15 December. This study links these extreme events to upstream dynamical processes over the North Pacific, including extratropical cyclogenesis, the recurvature of Typhoon Nyatoh, and the retraction of the North Pacific jet. These processes amplified downstream flow and configured synoptic environments favorable for severe weather across the United States. Additionally, anomalously warm Gulf of America/Gulf of Mexico sea surface temperatures enhanced convective instability. By identifying these key precursors, this work highlights the potential for improved anticipation of extended-range severe weather likelihood—particularly during the cool season—when such events remain rare but highly impactful. 

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