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  • 2020-2024  (29)
  • 2020-2023  (22)
Document type
Keywords
Publisher
Language
Years
Year
  • 1
    Online Resource
    Online Resource
    Impacts of plastic pollution in the ocean on marine species, biodiversity an ecosystems : study (2022)
    Berlin : WWF Germany
    Details Availability
    Keywords: Kunststoffabfall ; Meeresverschmutzung ; Artensterben
    Description / Table of Contents: Herausgeberinfo: A new report commissioned by WWF provides the most comprehensive account to date of the extent of plastic pollution in the world's oceans. comprehensive account of the extent of plastic pollution in the oceans. oceans, its impact on marine species and ecosystems, and how these trends are and the likely development of these trends in the future.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource (221 Seiten) , Illustrationen
    ISBN: 9783946211464
    URL: http://dx.doi.org/10.5281/zenodo.5898684
    DOI: 10.5281/zenodo.5898684
    Language: English
    Location Call Number Limitation Availability
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    GEOMAR CATALOGUE
    Link to Library Catalog
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  • 2
    Online Resource
    Online Resource
    Qualitätspakt Lehre - Vorhaben: "Studieneinstieg für heterogene Gruppen erfolgreich planen und nachhaltig sichern" (Steps) : Schlussbericht der zweiten Förderphase 2017 bis 2020 (2021)
    Düsseldorf : Hochschule Düsseldorf
    Details Availability
    Keywords: Forschungsbericht
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource (37 Seiten, 449,67 KB) , Diagramm
    URL: https://doi.org/10.2314/KXP:1839556641
    DOI: 10.2314/KXP:1839556641
    Language: German , English
    Note: Förderkennzeichen BMBF 01PL17049 , Unterschiede zwischen dem gedruckten Dokument und der elektronischen Ressource können nicht ausgeschlossen werden , Sprache der Zusammenfassung: Deutsch, Englisch
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    GEOMAR CATALOGUE
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  • 3
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    Recruit abundance on a long-term experiment (1999-2017) in the LTER observatory HAUSGARTEN (2021)
    PANGAEA
    Details
    Publication Date: 2023-07-10
    Description: These data represent the results of a long-term colonization experiment at the Long-Term Ecological Research observatory HAUSGARTEN. Recruitment panels were constructed from plastic and brick and deployed attached to a metal frame in 1999 at the station HG-IV (Arctic Ocean, 79 N, 04 E, 2500 m depth). The experiment was recovered in 2017. Following recovery, all invertebrates and foraminiferans on the panels were counted using a dissecting microscope on board R/V Polarstern and then saved in 95% ethanol. Species were identified by reference to published literature and taxonomic experts. Species richness was low compared to surrounding hard-bottom communities, indicating that Arctic benthic communities may take decades to develop.
    Keywords: Amphianthus sp.; Angle; ARK-XV/1; ARK-XXXI/3; Bathycrinus carpenterii; Bathyphellia margaritacea; Bivalvia; Cibicides sp.; Cibicidoides wuellerstorfi; Cladorhiza; Encrusting, large-grain tube; Foraminifera, benthic agglutinated; Foraminifera, benthic indeterminata; Gersemia rubiformis; Halisiphonia arctica, cover; Hausgarten; HG-IV_colonization_frame; invertebrate; Long-term Investigation at AWI-Hausgarten off Svalbard; Material; MF; Multi frame; North Greenland Sea; Number of individuals; Phakellia sp.; Plate; Polarstern; Porifera indeterminata; Position; PS108; PS108_30-1; PS108_30-1, PS55/001-1; PS55; PS55/001-1; recruitment; Remote operated vehicle; ROV; Serpulidae; Shannon Diversity Index; Simpson index of diversity; Species richness; Spirorbidae; Thenea abyssorum; Unknown; VICTOR; Victor6000 ROV; Worm tubes
    Type: Dataset
    Format: text/tab-separated-values, 957 data points
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    DATA PANGAEA
  • 4
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    Raw counts of scavengers observed on baited free fall landers during food fall studies in the Arctic deep sea during POLARSTERN cruise PS121 (2022)
    PANGAEA
    Details
    Publication Date: 2023-07-10
    Description: To investigate scavenging communities associated with carcasses of animals from the water column, we performed experimental food fall studies. We deployed baited camera landers with squid (Loligo vulgaris) and jellyfish (Periphylla periphylla) for 13-35 hours at ~2500 m depth in the Fram Strait at the deep sea Long Term Observatory HAUSGARTEN. The dataset includes all raw count data of scavengers on the food falls sorted by taxon based on image analysis annotation in BIIGLE. Scavengers included Eurythenes gryllus , Scopelocheirus and stegocephalid amphipods, various crustaceans and the gastropod Mohnia.
    Keywords: Amphipoda; Arctic; B_LANDER; baited camera traps; benthic community; Birsteiniamysis inermis; Bottom lander; Bythocaris spp.; carrion; cf. Stegocephalidae spp.; Chaetognatha; Copepoda; DATE/TIME; Deep sea; Deployment number; DEPTH, water; EG4; Elapsed time; Elpidia heckeri; Event label; File name; Gastropoda; Halirages cainae; HAUSGARTEN Long Term Observatory; HG4; Indeterminata; LATITUDE; LONGITUDE; Lycodes frigidus; Lycodes sp., juvenile; Lysianassidae sp.; Mohnia sp.; Munnopsidae; Mysida; N4; Neohela lamia; North Greenland Sea; Parasites, on fish; Parasites, on shrimp; Polarstern; PS121; PS121_11-10; PS121_30-5; PS121_41-5; PS121_43-5; PS121_7-1; Saduria megalura; scavenging; Shrimps; Specimen count; Station label; Treatment
    Type: Dataset
    Format: text/tab-separated-values, 61623 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 5
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    Microplastics in zooplankton samples from the the Fram Strait and the Arctic from July 2018 and August 2019 (2022)
    PANGAEA
    Details
    Publication Date: 2023-07-11
    Description: Zooplankton (amphipod and copepod) were collected using nets in the Fram Strait and the Arctic, in July 2018 and August 2019 for microplastic analysis. Water samples were also collected from the underway system and CTD alongside the August 2019 zooplankton samples (https://doi.pangaea.de/10.1594/PANGAEA.950239). All samples were initially digested using a homogenising solution and then filtered in preparation for Fourier Transform Infrared spectroscopy (FTIR) analysis in combination with an automated polymer identification approach (SIMPLE software) to identify polymer types, shape and size. Microplastics were also visualised using a microscope to further determine shape and size, particularly of fibres. Data collected on the microplastics found includes polymer type, shape, size, species ingestion and location.
    Keywords: Amphipoda; Arctic; Bioavailability; BONGO; Bongo net; copepod; CTD/Rosette; CTD-RO; Depth, bottom/max; Depth, top/min; Event label; Fourier Transform Infrared spectroscopy (FTIR) in combination with automated polymer identification [SIMPLE software]; FRAM; Fram Strait; FRontiers in Arctic marine Monitoring; FTIR SIMPLE software; James Clark Ross; JR18007; JR18007_11; JR18007_130; JR18007_57; JR18007_97; LATITUDE; Length, maximal; Light frame on-sight keyspecies investigation; LOKI; LONGITUDE; marine litter; microplastic ingestion; Microplastics; MSN; MSN150; Multiple opening/closing net; Multiple opening/closing net, 150 µm meshsize; Number of individuals; PARCA; Particle camera; Plastic pollution; Polarstern; Polymer; PS114; PS114_4-1; PS114_4-2; PS114_4-5; PS114_4-6; PS114_46-7; PS114_46-8; PS114_4-7; PS114_4-8; PS114_4-9; PS114_9-3; PS114_9-4; PS114_9-5; Quality level; Sample ID; Size fraction; Species; Species, unique identification; Species, unique identification (Semantic URI); Species, unique identification (URI); Type
    Type: Dataset
    Format: text/tab-separated-values, 704 data points
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    DATA PANGAEA
  • 6
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    Microplastics in water samples from the Fram Strait and the Arctic from July 2018 and August 2019 (2022)
    PANGAEA
    Details
    Publication Date: 2023-07-11
    Description: This dataset presents microplastics in water samples collected from the underway system and CTD alongside the August 2019 zooplankton samples presented in https://doi.pangaea.de/10.1594/PANGAEA.950296. These samples were initially digested using a homogenising solution and then filtered in preparation for Fourier Transform Infrared spectroscopy (FTIR) analysis in combination with an automated polymer identification approach (SIMPLE software) to identify polymer types, shape and size. Microplastics were also visualised using a microscope to further determine shape and size, particularly of fibres. Data collected on the microplastics found includes; polymer type, shape, size, species ingestion and location.
    Keywords: Amphipoda; Arctic; Bioavailability; BONGO; Bongo net; copepod; DEPTH, water; Event label; Fourier Transform Infrared spectroscopy (FTIR) in combination with automated polymer identification [SIMPLE software]; FRAM; Fram Strait; FRontiers in Arctic marine Monitoring; FTIR SIMPLE software; James Clark Ross; JR18007; JR18007_11; JR18007_57; JR18007_60; JR18007_75; JR18007_97; LATITUDE; Length, maximal; LONGITUDE; marine litter; microplastic ingestion; Microplastics; MSN150; Multiple opening/closing net, 150 µm meshsize; Plastic pollution; Polymer; Quality level; Size fraction; Type
    Type: Dataset
    Format: text/tab-separated-values, 368 data points
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    DATA PANGAEA
  • 7
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    Litter trends at three stations of the HAUSGARTEN observatory (2020)
    PANGAEA
    Details
    Publication Date: 2024-02-02
    Description: The deep sea is considered a major sink for debris even in regions as secluded as the Arctic Ocean. Here, we assess the variability of litter over a latitudinal gradient at the HAUSGARTEN observatory by adding imagery from the southernmost station S3 to previously published data from the northernmost station N3 and the central station HG-IV. The analysis includes footage of the seafloor from 2002 to 2017. Photographic surveys were analyzed to determine litter density, material composition, size and interactions with epibenthic fauna. Litter density clearly increased over time ranging between 813 ± 525 (SEM) and 6,717 ± 2,044 (SEM) items km-². The dominant material was plastic and small-sized items accounted for 63% of the litter in the observatory. N3 experienced the strongest increase in litter dominated by dark pieces of glass (41%). Interactions between litter and epibenthic megafauna were frequently observed (45% of items) in the form of entanglement with sponges or colonization by sea anemones.
    Keywords: Area; ARK-XVIII/1; ARK-XX/1; ARK-XXII/1c; ARK-XXIX/2.2; ARK-XXVI/2; ARK-XXVII/2; ARK-XXVIII/2; ARK-XXX/1.2; ARK-XXXI/2; Calculated; deep seafloor; Event label; Fauna interaction with litter; Hausgarten; HAUSGARTEN 2013; HG_IV; Image number/name; Interaction, megafauna; Interaction with litter, Actinia indeterminata; Interaction with litter, Actiniaria; Interaction with litter, Bathycrinus carpenterii; Interaction with litter, Bathyphellia margaritacea; Interaction with litter, Birsteiniamysis inermis; Interaction with litter, Bythocaris sp.; Interaction with litter, Caulophacus arcticus; Interaction with litter, Caulophacus debris; Interaction with litter, cf. Pachastrellidae; Interaction with litter, Cladorhiza gelida; Interaction with litter, Gersemia fruticosa; Interaction with litter, Holothuridae; Interaction with litter, Hormathiidae; Interaction with litter, Verum striolatum; Maria S. Merian; marine litter; Marine litter; Marine litter, fabric; Marine litter, food waste; Marine litter, glass; Marine litter, large items; Marine litter, medium items; Marine litter, metal; Marine litter, paper; Marine litter, plastic; Marine litter, plastic, fisheries; Marine litter, pottery; Marine litter, rope; Marine litter, rubber; Marine litter, small items; Marine litter, styrofoam; Marine litter, timber; Marine litter, unidentified; MSM29; MSM29_440-1; MSM29_445-1; N_3; N3; North Greenland Sea; Ocean Floor Observation System; OFOS; OFOS photographic survey with BIIGLE analysis; Persistent Identifier; plastic; Polarstern; PS107; PS107_2-20; PS107_36-6; PS107_6-12; PS62; PS62/161-3; PS66; PS66/106-1; PS66/120-1; PS66/127-4; PS70; PS70/164-1; PS70/170-1; PS70/202-1; PS78; PS78/143-2; PS78/171-1; PS78/182-1; PS80; PS80/176-1; PS80/179-3; PS80/193-1; PS85; PS85/461-1; PS85/474-1; PS93/048-8; PS93/050-11; PS93/062-1; PS93.2; PS99/041-11; PS99/042-10; PS99/056-1; PS99.2; S_3; S3; Station label; Type of interaction with litter, Actinia indeterminata; Type of interaction with litter, Actiniaria; Type of interaction with litter, Bathycrinus carpenterii; Type of interaction with litter, Bathyphellia margaritacea; Type of interaction with litter, Birsteiniamysis inermis; Type of interaction with litter, Bythocaris sp.; Type of interaction with litter, Caulophacus arcticus; Type of interaction with litter, Caulophacus debris; Type of interaction with litter, cf. Pachastrellidae; Type of interaction with litter, Cladorhiza gelida; Type of interaction with litter, Gersemia fruticosa; Type of interaction with litter, Holothuridae; Type of interaction with litter, Hormathiidae; Type of interaction with litter, Verum striolatum; Uniform resource locator/link to image; Year of imagery
    Type: Dataset
    Format: text/tab-separated-values, 889003 data points
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    DATA PANGAEA
  • 8
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    Microplastics and nanoplastics in the marine-atmosphere environment (2022)
    Nature Research
    Details
    Publication Date: 2024-02-07
    Description: The discovery of atmospheric micro(nano)plastic transport and ocean–atmosphere exchange points to a highly complex marine plastic cycle, with negative implications for human and ecosystem health. Yet, observations are currently limited. In this Perspective, we quantify the processes and fluxes of the marine-atmospheric micro(nano)plastic cycle, with the aim of highlighting the remaining unknowns in atmospheric micro(nano)plastic transport. Between 0.013 and 25 million metric tons per year of micro(nano)plastics are potentially being transported within the marine atmosphere and deposited in the oceans. However, the high uncertainty in these marine-atmospheric fluxes is related to data limitations and a lack of study intercomparability. To address the uncertainties and remaining knowledge gaps in the marine-atmospheric micro(nano)plastic cycle, we propose a future global marine-atmospheric micro(nano)plastic observation strategy, incorporating novel sampling methods and the creation of a comparable, harmonized and global data set. Together with long-term observations and intensive investigations, this strategy will help to define the trends in marine-atmospheric pollution and any responses to future policy and management actions.
    Type: Article , PeerReviewed
    Format: other
    Format: text
    Format: text
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 9
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    Impacts of plastic pollution in the oceans on marine species, biodiversity and ecosystems (2022)
    WWW Germany
    Details
    Publication Date: 2024-02-07
    Description: A new report commissioned by WWF provides the most comprehensive account to date of the extent to which plastic pollution is affecting the global ocean, the impacts it’s having on marine species and ecosystems, and how these trends are likely to develop in future. The report by researchers from the Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research (AWI) reveals a serious and rapidly worsening situation that demands immediate and concerted international action: ● Today almost every species group in the ocean has encountered plastic pollution, with scientists observing negative effects in almost 90% of assessed species. ● Not only has plastic pollution entered the marine food web, it is significantly affecting the productivity of some of the world’s most important marine ecosystems like coral reefs and mangroves. ● Several key global regions – including areas in the Mediterranean, the East China and Yellow Seas and Arctic sea ice – have already exceeded plastic pollution thresholds beyond which significant ecological risks can occur, and several more regions are expected to follow suit in the coming years. ● If all plastic pollution inputs stopped today, marine microplastic levels would still more than double by 2050 – and some scenarios project a 50-fold increase by 2100.
    Type: Book , NonPeerReviewed
    Format: text
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    OceanRep: Book
  • 10
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    OP-ed: Scientists: US needs to support a strong global agreement to curb plastic pollution. Plastic pollution needs more than voluntary, optional or market-led solutions. (2022)
    In:  EPIC3Environmental Health News
    Details
    Publication Date: 2022-03-01
    Repository Name: EPIC Alfred Wegener Institut
    Type: Miscellaneous , notRev
    Format: application/pdf
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    PAPER (OA)
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