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1. Polar bear's range dynamics and survival in the Holocene

   https://doi.org/10.1016/j.quascirev.2023.108277  

   Seppä, Heikki; Seidenkrantz, Marit-Solveig; Caissie, Beth; Macias-Fauria, Marc (October 2023, Quaternary Science Reviews)

   Polar bear (Ursus maritimus) is the apex predator of the Arctic, largely dependent on sea-ice. The expected disappearance of the ice cover of the Arctic seas by the mid 21st century is predicted to cause a dramatic decrease in the global range and population size of the species. To place this scenario against the backdrop of past distribution changes and their causes, we use a fossil dataset to investigate the polar bear’s past distribution dynamics during the Late Glacial and the Holocene. Fossil results indicate that during the last deglaciation, polar bears were present at the southwestern margin of the Scandinavian Ice Sheet, surviving until the earliest Holocene. There are no Arctic polar bear findings from 8,000-6,000 years ago (8-6 ka), the Holocene’s warmest period. However, fossils that date from 8-9 ka and 5-6 ka suggest that the species likely survived this period in cold refugia located near the East Siberian Sea, northern Greenland and the Canadian Archipelago. Polar bear range expansion is documented by an increase in fossils during the last 4,000 years in tandem with cooling climate and expanding Arctic sea ice. The results document changes in polar bear’s distribution in response to Late Glacial and Holocene Arctic temperature and sea ice trends. 

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2. Whole Community Metatranscriptomes and Lipidomes Reveal Diverse Responses Among Antarctic Phytoplankton to Changing Ice Conditions

   https://doi.org/10.3389/fmars.2021.593566  

   Bowman, Jeff S; Van_Mooy, Benjamin_A S; Lowenstein, Daniel P; Fredricks, Helen F; Hansel, Colleen M; Gast, Rebecca; Collins, James R; Couto, Nicole; Ducklow, Hugh W (February 2021, Frontiers in Marine Science)

   The transition from winter to spring represents a major shift in the basal energy source for the Antarctic marine ecosystem from lipids and other sources of stored energy to sunlight. Because sea ice imposes a strong control on the transmission of sunlight into the water column during the polar spring, we hypothesized that the timing of the sea ice retreat influences the timing of the transition from stored energy to photosynthesis. To test the influence of sea ice on water column microbial energy utilization we took advantage of unique sea ice conditions in Arthur Harbor, an embayment near Palmer Station on the western Antarctic Peninsula, during the 2015 spring–summer seasonal transition. Over a 5-week period we sampled water from below land-fast sea ice, in the marginal ice zone at nearby Palmer Station B, and conducted an ice removal experiment with incubations of water collected below the land-fast ice. Whole-community metatranscriptomes were paired with lipidomics to better understand how lipid production and utilization was influenced by light conditions. We identified several different phytoplankton taxa that responded similarly to light by the number of genes up-regulated, and in the transcriptional complexity of this response. We applied a principal components analysis to these data to reduce their dimensionality, revealing that each of these taxa exhibited a strikingly different pattern of gene up-regulation. By correlating the changes in lipid concentration to the first principal component of log fold-change for each taxa we could make predictions about which taxa were associated with different changes in the community lipidome. We found that genes coding for the catabolism of triacylglycerol storage lipids were expressed early on in phytoplankton associated with aFragilariopsis kerguelensisreference transcriptome. Phytoplankton associated with aCorethron pennatumreference transcriptome occupied an adjacent niche, responding favorably to higher light conditions thanF. kerguelensis. Other diatom and dinoflagellate taxa had distinct transcriptional profiles and correlations to lipids, suggesting diverse ecological strategies during the polar winter–spring transition. 

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3. A zooarchaeological analysis of bear (Ursus spp.) remains from two archaeological sites in Unalaska, Alaska (4700 BP - 2500 BP)

   https://doi.org/10.18739/A25T3G219  

   Parker, Lillian (January 2024, NSF Arctic Data Center)

   This dataset contains information about bear specimens (Ursus spp.) identified from two archaeological sites in Unalaska, Alaska: Margaret Bay (UNL-048, 4700 Before Present (BP)) and Amaknak Bridge (UNL-050, 2500 BP). The material is accessioned at the Museum of the Aleutians in Unalaska. Zooarchaeological data included are three dimensional scans (OBJ, MTL, and JPG files for rendering in MeshLab software) and digital photographs. 3D scans were obtained by using a DAVID SLS-3 HD Structured White Light 3D Scanner at the University of Oklahoma Laboratories of Molecular Anthropology and Microbiome Research (LMAMR). Photographs were taken with a Nikon D3400 24.2-megapixel DX format DSLR camera. Zooarchaeological analyses were performed to investigate how bears came to be in Unalaska Bay, a region where bears do not currently live. It has been suggested that this assemblage is evidence of Neoglacial expansion of sea ice in the region and subsequent range expansion of polar bears. Our goals here were to assess whether the bears can be distinguished to species and determine whether these animals were harvested locally and represent a range expansion. The results suggest that bears are very difficult to distinguish using morphological characteristics alone: we argue there is likely a mix of brown and polar bear in this small assemblage, but that morphological analyses alone are inadequate for reconstructing bear distribution in this context. However, the age profiles and butchery patterns do suggest that bears were harvested locally, and we contend that expanding Neoglacial sea ice facilitated their presence around Unalaska Island. 

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4. Ocean-excited plate waves in the Ross and Pine Island Glacier Ice Shelves

   https://doi.org/doi:/10.1017/jog.2018.66  

   Chen, Z. (July 2018, Journal of Glaciology)

   ABSTRACT. Ice shelves play an important role in buttressing land ice from reaching the sea, thus restrain- ing the rate of grounded ice loss. Long-period gravity-wave impacts excite vibrations in ice shelves that can expand pre-existing fractures and trigger iceberg calving. To investigate the spatial amplitude vari- ability and propagation characteristics of these vibrations, a 34-station broadband seismic array was deployed on the Ross Ice Shelf (RIS) from November 2014 to November 2016. Two types of ice-shelf plate waves were identified with beamforming: flexural-gravity waves and extensional Lamb waves. Below 20 mHz, flexural-gravity waves dominate coherent signals across the array and propagate land- ward from the ice front at close to shallow-water gravity-wave speeds (∼70 m s−1). In the 20–100 mHz band, extensional Lamb waves dominate and propagate at phase speeds ∼3 km s−1. Flexural- gravity and extensional Lamb waves were also observed by a 5-station broadband seismic array deployed on the Pine Island Glacier (PIG) ice shelf from January 2012 to December 2013, with flexural wave energy, also detected at the PIG in the 20–100 mHz band. Considering the ubiquitous presence of storm activity in the Southern Ocean and the similar observations at both the RIS and the PIG ice shelves, it is likely that most, if not all, West Antarctic ice shelves are subjected to similar gravity- wave excitation. 

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5. Growth and longevity of the Antarctic scallop Adamussium colbecki under annual and multiannual sea ice

   https://doi.org/doi:10.1017/S0954102020000322  

   Cronin, K.E.; Walker, S.E.; Mann, R.; Chute, A.S.; Long, M.C.; Bowser, S.S. (April 2020, Antarctic science)

   null (Ed.)

   Ecosystem engineers such as the Antarctic scallop (Adamussium colbecki) shape marine communities. Thus, changes to their lifespan and growth could have far-reaching effects on other organisms. Sea ice is critical to polar marine ecosystem function, attenuating light and thereby affecting nutrient availability. Sea ice could therefore impact longevity and growth in polar bivalves unless temperature is the overriding factor. Here, we compare the longevity and growth of A. colbecki from two Antarctic sites: Explorers Cove and Bay of Sails, which differ by sea-ice cover, but share similar seawater temperatures, the coldest on Earth (-1.97°C). We hypothesize that scallops from the multiannual sea-ice site will have slower growth and greater longevity. We found maximum ages to be similar at both sites (18–19 years). Growth was slower, with higher inter-individual variability, under multiannual sea ice than under annual sea ice, which we attribute to patchier nutrient availability under multiannual sea ice. Contrary to expectations, A. colbecki growth, but not longevity, is affected by sea-ice duration when temperatures are comparable. Recent dramatic reductions in Antarctic sea ice and predicted temperature increases may irrevocably alter the life histories of this ecosystem engineer and other polar organisms. 

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