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  • 1
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    Foreword to the thematic cluster: the Arctic in Rapid Transition — marine ecosystems (2015)
    Norwegian Polar Institute
    In:  Polar Research, 34 (30684).
    Details
    Publication Date: 2016-11-04
    Description: The Arctic is warming and losing sea ice. Happening at a much faster rate than previously expected, these changes are causing multiple ecosystem feedbacks in the Arctic Ocean. The Arctic in Rapid Transition (ART) initiative was developed by early-career scientists as an integrative, international, multidisciplinary, long-term pan-Arctic network to study changes and feedbacks among the physical and biogeochemical components of the Arctic Ocean and their ultimate impacts on biological productivity on different timescales. In 2012, ART jointly organized with the Association of Polar Early Career Scientists their second science workshop—Overcoming Challenges of Observation to Model Integration in Marine Ecosystem Response to Sea Ice Transitions—at the Institute of Oceanology, Polish Academy of Sciences, in Sopot. This workshop aimed to identify linkages and feedbacks between atmosphere–ice–ocean forcing and biogeochemical processes, which are critical for ecosystem function, land–ocean interactions and productive capacity of the Arctic Ocean. This special thematic cluster of Polar Research brings together seven papers that grew out of workgroup discussions. Papers examine the climate change impacts on various ecosystem elements, providing important insights on the marine ecological and biogeochemical processes on various timescales. They also highlight priority areas for future research.
    Type: Article , PeerReviewed
    Format: text
    DOI: 10.3402/polar.v34.30684
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 2
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    Arctic in Rapid Transition: Priorities for the future of marine and coastal research in the Arctic (2016)
    Elsevier
    In:  Polar Science, 10 (3). pp. 364-373.
    Details
    Publication Date: 2019-09-23
    Description: Understanding and responding to the rapidly occurring environmental changes in the Arctic over the past few decades require new approaches in science. This includes improved collaborations within the scientific community but also enhanced dialogue between scientists and societal stakeholders, especially with Arctic communities. As a contribution to the Third International Conference on Arctic Research Planning (ICARPIII), the Arctic in Rapid Transition (ART) network held an international workshop in France, in October 2014, in order to discuss high-priority requirements for future Arctic marine and coastal research from an early-career scientists (ECS) perspective. The discussion encompassed a variety of research fields, including topics of oceanographic conditions, sea-ice monitoring, marine biodiversity, land-ocean interactions, and geological reconstructions, as well as law and governance issues. Participants of the workshop strongly agreed on the need to enhance interdisciplinarity in order to collect comprehensive knowledge about the modern and past Arctic Ocean's geo-ecological dynamics. Such knowledge enables improved predictions of Arctic developments and provides the basis for elaborate decision-making on future actions under plausible environmental and climate scenarios in the high northern latitudes. Priority research sheets resulting from the workshop's discussions were distributed during the ICARPIII meetings in April 2015 in Japan, and are publicly available online.
    Type: Article , PeerReviewed
    Format: text
    DOI: 10.1016/j.polar.2016.04.005
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 3
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    Phosphorus sedimentary geochemistry from the Eurasian Arctic Margin (2020)
    PANGAEA
    Details
    Publication Date: 2023-05-22
    Description: The Arctic Ocean region is currently undergoing dramatic changes, which will likely alter the nutrient cycles that underpin Arctic marine ecosystems. Phosphate is a key limiting nutrient for marine life but gaps in our understanding of the Arctic phosphorus (P) cycle persist. In this study, we investigate the benthic burial and recycling of phosphorus using sediments and pore waters from the Eurasian Arctic margin, including the Barents Sea slope and the Yermak Plateau. Our results highlight that P is generally lost from sediments with depth during organic matter respiration. On the Yermak Plateau, remobilization of P results in a diffusive flux of P to the seafloor of between 96 and 261 μmol m−2 yr−1. On the Barents Sea slope, diffusive fluxes of P are much larger (1736–2449 μmol m−2 yr−1), but these fluxes are into near-surface sediments rather than to the bottom waters. The difference in cycling on the Barents Sea slope is controlled by higher fluxes of fresh organic matter and active iron cycling. As changes in primary productivity, ocean circulation and glacial melt continue, benthic P cycling is likely to be altered with implications for P imported into the Arctic Ocean Basin.
    Type: Dataset
    Format: application/zip, 3 datasets
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    DATA PANGAEA
  • 4
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    Porewater analysis (Iron and Phosphorus) from different sediment cores of the POLARSTERN cruise PS92 (2020)
    PANGAEA
    Details
    Publication Date: 2023-05-22
    Keywords: Arctic Ocean; ARK-XXIX/1, TRANSSIZ; BC; Box corer; Calculated; Date/Time of event; DEPTH, sediment/rock; Event label; ICP-OES; Iron; Iron/Phosphorus ratio; Latitude of event; Longitude of event; Multicorer with television; Phosphorus; Polarstern; PS92; PS92/019-19; PS92/027-15; PS92/031-13; PS92/039-5; PS92/040-1; PS92/043-20; PS92/046-15; PS92/047-20; PS92/056-5; Rhizon sampler; TVMUC
    Type: Dataset
    Format: text/tab-separated-values, 501 data points
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    DATA PANGAEA
  • 5
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    Reactive geochemistry from sediment cores of the POLARSTERN cruise PS92 (2020)
    PANGAEA
    Details
    Publication Date: 2023-05-22
    Keywords: Arctic Ocean; ARK-XXIX/1, TRANSSIZ; BC; Box corer; Date/Time of event; DEPTH, sediment/rock; Event label; Iron; Latitude of event; Longitude of event; Multicorer with television; Phosphorus/Iron ratio; Polarstern; PS92; PS92/019-19; PS92/027-15; PS92/031-13; PS92/039-5; PS92/040-1; PS92/043-20; PS92/046-15; PS92/047-20; PS92/056-5; TVMUC
    Type: Dataset
    Format: text/tab-separated-values, 88 data points
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    DATA PANGAEA
  • 6
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    Sediment analyis from different cores of the POLARSTERN cruise PS92 (2020)
    PANGAEA
    Details
    Publication Date: 2023-05-22
    Keywords: Aluminium; Arctic Ocean; ARK-XXIX/1, TRANSSIZ; BC; Box corer; Calculated; Carbon, organic, total; Carbon, organic total/Phosphorus ratio; Date/Time of event; DEPTH, sediment/rock; Event label; Iron; Latitude of event; Longitude of event; Multicorer with television; Phosphorus; Phosphorus/Aluminium ratio; Phosphorus/Iron ratio; Polarstern; PS92; PS92/019-19; PS92/027-15; PS92/039-5; PS92/046-15; PS92/056-5; TVMUC; X-ray fluorescence (XRF)
    Type: Dataset
    Format: text/tab-separated-values, 388 data points
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    DATA PANGAEA
  • 7
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    Benthic macrofauna and foraminifera (〉500 µm) diversity, abundance and biomass on the Northeast Greenland (NEG) shelf sediments during POLARSTERN cruise PS109 (2024)
    PANGAEA
    Details
    Publication Date: 2024-03-01
    Description: The samples have been collected with R/V Polarstern during PS109 between September and October 2017. Sediment was collected with a camera-equipped MUC (TV-MUC; diameter of 93mm; circle area 0.007 m2) or with a benthic lander (dimensions 20 cmx20 cm; square area 0.04 m²), sliced into 0-5 cm and 5-10 cm layers and subsequently sieved over a 500 µm mesh. Afterwards, the samples were fixed with 4 % seawater-buffered formaldehyde in Kautex bottles at room temperature. In the lab, samples were stained with Rose Bengal and macrofauna and foraminifera individuals were identified to the lowest taxonomic level possible, and the blotted wet formalin weight of macrofauna individuals was measured with a precision balance (DeltaRange XP56 or AX205; Mettler Toledo, Ohio, USA).
    Keywords: Arctic; ARK-XXXI/4; B_LANDER; Bottom lander; Counted; Date/Time of event; Elevation of event; Event label; FRAM; FRontiers in Arctic marine Monitoring; Latitude of event; Longitude of event; Macrobenthos; Macrofauna, number of species; Method/Device of event; Multicorer with television; NEW Polynya; Northeast Water Polynya; outflow shelf; Phylum; Polarstern; Polychaeta; PS109; PS109_105-1; PS109_107-1; PS109_115-3; PS109_122-1; PS109_125-2; PS109_129-1; PS109_139-2; PS109_139-3; PS109_154-1; PS109_19-4; PS109_36-3; PS109_45-3; PS109_45-4; PS109_68-1; PS109_69-1; PS109_76-2; PS109_84-2; PS109_85-1; PS109_93-2; Sample ID; sediment; species; species composition; Species distribution; Taxon/taxa; Taxon/taxa, unique identification; Taxon/taxa, unique identification (Semantic URI); Taxon/taxa, unique identification (URI); TVMUC; Weighted; Wet mass
    Type: Dataset
    Format: text/tab-separated-values, 3947 data points
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    DATA PANGAEA
  • 8
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    Benthos (2017)
    Conservation of Arctic Flora and Fauna (CAFF)
    In:  EPIC3State of the Arctic Marine Biodiversity Report, State of the Arctic Marine Biodiversity Report, Akureyri (Iceland), Conservation of Arctic Flora and Fauna (CAFF), pp. 85-107
    Details
    Publication Date: 2018-03-08
    Description: Currently, 〉 4,000 Arctic macro- and megabenthic species are known, representing the majority of Arctic marine faunal diversity. This estimate is expected to increase. • Benthic invertebrates are food to shes, marine mammals, seabirds and humans, and are commercially harvested. • Traditional Knowledge (TK) emphasizes the link between the benthic species and their predators, such as walrus, and their signi cance to culture. • Decadal changes in benthos biodiversity are observed in some well-studied regions, such as the Barents Sea and Chukchi Sea. • Drivers related to climate-change such as warming, ice decline and acidification are affecting the benthic community on a pan-Arctic scale, while drivers such as trawling, river/glacier discharge and invasive species have signficant impact on regional or local scales. • Increasing numbers of species are moving into, or shifting, their distributions in Arctic waters. These species will outcompete, prey on or offer less nutritious value as prey for Arctic species. • Current monitoring efforts have focused on macro- and megabenthic species, but have been confined to the Chukchi Sea and the Barents Sea. Efforts are increasing in waters of Greenland, Iceland, the Canadian Arctic, and in the Norwegian Sea. All other Arctic Marine Areas are lacking long-term benthic monitoring. • As a first step towards an international collaborative monitoring framework, we recommend to develop a time- and cost-effective, long-term and standardized monitoring of megabenthic communities in all Arctic regions with regular annual groundfish assessment surveys. Expanding monitoring on micro-, meio- and macrobenthic groups is encouraged.
    Repository Name: EPIC Alfred Wegener Institut
    Type: Inbook , peerRev
    Format: application/pdf
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    PAPER (OA)
  • 9
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    Benthic phosphorus cycling within the Eurasian marginal sea ice zone (2020)
    In:  EPIC3Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 378(2181), pp. 20190358, ISSN: 1364-503X
    Details
    Publication Date: 2020-10-15
    Repository Name: EPIC Alfred Wegener Institut
    Type: Article , peerRev
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  • 10
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    Trait-based approaches in rapidly changing ecosystems: A roadmap to the future polar oceans (2018)
    In:  EPIC3Ecological Indicators, 91, pp. 722-736, ISSN: 1470160X
    Details
    Publication Date: 2018-05-06
    Description: Polar marine regions are facing rapid changes induced by climate change, with consequences for local faunal populations, but also for overall ecosystem functioning, goods and services. Yet given the complexity of polar marine ecosystems, predicting the mode, direction and extent of these consequences remains challenging. Trait-based approaches are increasingly adopted as a tool by which to explore changes in functioning, but trait information is largely absent for the high latitudes. Some understanding of trait–function relationships can be gathered from studies at lower latitudes, but given the uniqueness of polar ecosystems it is questionable whether these relationships can be directly transferred. Here we discuss the challenges of using trait-based approaches in polar regions and present a roadmap of how to overcome them by following six interlinked steps: (1) forming an active, international research network, (2) standardizing terminology and methodology, (3) building and crosslinking trait databases, (4) conducting coordinated trait-function experiments, (5) implementing traits into models, and finally, (6) providing advice to management and stakeholders. The application of trait-based approaches in addition to traditional species-based methods will enable us to assess the effects of rapid ongoing changes on the functioning of marine polar ecosystems. Implementing our roadmap will make these approaches more easily accessible to a broad community of users and consequently aid understanding of the future polar oceans.
    Repository Name: EPIC Alfred Wegener Institut
    Type: Article , isiRev , info:eu-repo/semantics/article
    Format: application/pdf
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