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  • 1
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    Database Resources of the National Genomics Data Center, China National Center for Bioinformation in 2022 (2021)
    Oxford University Press
    Details
    Publication Date: 2021-10-28
    Description: The National Genomics Data Center (NGDC), part of the China National Center for Bioinformation (CNCB), provides a family of database resources to support global research in both academia and industry. With the explosively accumulated multi-omics data at ever-faster rates, CNCB-NGDC is constantly scaling up and updating its core database resources through big data archive, curation, integration and analysis. In the past year, efforts have been made to synthesize the growing data and knowledge, particularly in single-cell omics and precision medicine research, and a series of resources have been newly developed, updated and enhanced. Moreover, CNCB-NGDC has continued to daily update SARS-CoV-2 genome sequences, variants, haplotypes and literature. Particularly, OpenLB, an open library of bioscience, has been established by providing easy and open access to a substantial number of abstract texts from PubMed, bioRxiv and medRxiv. In addition, Database Commons is significantly updated by cataloguing a full list of global databases, and BLAST tools are newly deployed to provide online sequence search services. All these resources along with their services are publicly accessible at https://ngdc.cncb.ac.cn.
    Print ISSN: 0305-1048
    Electronic ISSN: 1362-4962
    Topics: Biology
    Published by Oxford University Press
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    PAPER CURRENT
  • 2
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    Palaeoceanographic data of sediment core MD01-2416
    PANGAEA
    In:  Supplement to: Maier, Edith; Chapligin, Bernhard; Abelmann, Andrea; Gersonde, Rainer; Esper, Oliver; Ren, Jian; Friedrichsen, Hans; Meyer, Hanno; Tiedemann, Ralf (2013): Combined oxygen and silicon isotope analysis of diatom silica from a deglacial subarctic Pacific record. Journal of Quaternary Science, 28(6), 571-581, https://doi.org/10.1002/jqs.2649
    Details
    Publication Date: 2023-05-12
    Description: We present an SiF4 separation line, coupled to a laser fluorination system, which allows for an efficient combined silica d18O and d30Si analysis (50 min per sample). The required sample weight of 1.5-2.0 mg allows for high-resolution isotope studies on biogenic opal. Besides analytical tests, the new instrumentation set-up was used to analyse two marine diatom fractions (〉63 µm, 10-20 µm) with different diatom species compositions extracted from a Bølling/Allerød-Holocene core section [MD01-2416, North-West (NW) Pacific] to evaluate the palaeoceanographic significance of the diatom isotopic signals and to address isotopic effects related to contamination and species-related isotope effects (vital and environmental effects). While d30Si offsets between the two fractions were not discernible, supporting the absence of species-related silicon isotope effects, systematic offsets occur between the d18O records. Although small, these offsets point to species-related isotope effects, as bias by contamination can be discarded. The new records strengthen the palaeoceanographic history during the last deglaciation in the NW Pacific characterized by a sequence of events with varying surface water structure and biological productivity. With such palaeoceanographic evolution it becomes unlikely that the observed systematic d18O offsets signal seasonal temperature variability. This calls for reconsideration of vital effects, generally excluded to affect d18O measurements.
    Keywords: AWI_Paleo; Paleoenvironmental Reconstructions from Marine Sediments @ AWI
    Type: Dataset
    Format: application/zip, 5 datasets
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    DATA PANGAEA
  • 3
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    Paleoceanography of sediment cores SO202-27-6 and MD01-2416
    PANGAEA
    In:  Supplement to: Maier, Edith; Méheust, Marie; Abelmann, Andrea; Gersonde, Rainer; Chapligin, Bernhard; Ren, Jian; Stein, Ruediger; Meyer, Hanno; Tiedemann, Ralf (2015): Deglacial subarctic Pacific surface water hydrography and nutrient dynamics and links to North Atlantic climate variability and atmospheric CO2. Paleoceanography, 30(7), 949-968, https://doi.org/10.1002/2014PA002763
    Details
    Publication Date: 2023-05-12
    Description: The glacial-to-Holocene evolution of subarctic Pacific surface water stratification and silicic acid (Si) dynamics is investigated based on new combined diatom oxygen (d18Odiat) and silicon (d30Sidiat) isotope records, along with new biogenic opal, subsurface foraminiferal d18O, alkenone-based sea surface temperature, sea ice, diatom, and core logging data from the NE Pacific. Our results suggest that d18Odiat values are primarily influenced by changes in freshwater discharge from the Cordilleran Ice Sheet (CIS), while corresponding d30Sidiat are primarily influenced by changes in Si supply to surface waters. Our data indicate enhanced glacial to mid Heinrich Stadial 1 (HS1) NE Pacific surface water stratification, generally limiting the Si supply to surface waters. However, we suggest that an increase in Si supply during early HS1, when surface waters were still stratified, is linked to increased North Pacific Intermediate Water formation. The coincidence between fresh surface waters during HS1 and enhanced ice-rafted debris sedimentation in the North Atlantic indicates a close link between CIS and Laurentide Ice Sheet dynamics and a dominant atmospheric control on CIS deglaciation. The Bølling/Allerød (B/A) is characterized by destratification in the subarctic Pacific and an increased supply of saline, Si-rich waters to surface waters. This change toward increased convection occurred prior to the Bølling warming and is likely triggered by a switch to sea ice-free conditions during late HS1. Our results furthermore indicate a decreased efficiency of the biological pump during late HS1 and the B/A (possibly also the Younger Dryas), suggesting that the subarctic Pacific has then been a source region of atmospheric CO2.
    Keywords: AWI_Paleo; Paleoenvironmental Reconstructions from Marine Sediments @ AWI
    Type: Dataset
    Format: application/zip, 14 datasets
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    DATA PANGAEA
  • 4
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    Mineralogy of sea-floor surface sediments, Sonne cruise SO202/1 to the North Pacific and Bering Sea (2016)
    PANGAEA
    In:  Supplement to: Wang, Rong; Biskaborn, Boris K; Ramisch, Arne; Ren, Jian; Zhang, Yongzhan; Gersonde, Rainer; Diekmann, Bernhard (2016): Modern modes of provenance and dispersal of terrigenous sediments in the North Pacific and the Bering Sea: Implications and perspectives for palaeoenvironmental reconstructions. Geo-Marine Letters, 36(4), 259-270, https://doi.org/10.1007/s00367-016-0445-7
    Details
    Publication Date: 2023-01-27
    Description: During expedition 202 of research vessel SONNE in 2009, 39 sea-floor surface sediments were sampled over a wide area across the North Pacific and the Bering Sea, which are well suited as reference archives of modern environmental processes. In this study, we used the samples to infer the documentation of land-ocean linkages of terrigenous sediment supply. We followed an integrated approach of grain-size analysis, bulk mineralogy, and clay mineralogy in combination with statistical data evaluation (end-member modelling of grain-size data, fuzzy-cluster analysis of mineralogical data), in order to identify the significant sources and modes of sediment transport in an overregional context. We also compiled literature data on clay mineralogy and updated those with the new data. Today, two processes of terrigenous sediment supply prevail in the study area: far-distant aeolian sediment supply to the pelagic North Pacific as well as hemipelagic sediment dispersal from nearby land sources by ocean currents along the continental margins and island arcs of the study area. The aeolian particles show the finest grain sizes (clay and fine silt), while the hemipelagic sediments have high abundances of sortable silt, particles 〉10 microns.
    Type: Dataset
    Format: application/zip, 3 datasets
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    DATA PANGAEA
  • 5
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    Paleoceanographic proxies of sediment core SO202-27-6 (2018)
    PANGAEA
    In:  Supplement to: Maier, Edith; Zhang, Xu; Abelmann, Andrea; Gersonde, Rainer; Mulitza, Stefan; Werner, Martin; Méheust, Marie; Ren, Jian; Chapligin, Bernhard; Meyer, Hanno; Stein, Ruediger; Tiedemann, Ralf; Lohmann, Gerrit (2018): North Pacific freshwater events linked to glacial ocean circulation changes. Nature, 559, 241-245, https://doi.org/10.1038/s41586-018-0276-y
    Details
    Publication Date: 2023-06-27
    Description: There is compelling evidence that episodic deposition of large volumes of freshwater into the oceans strongly influenced global ocean circulation and climate variability during glacial periods (Maslin et al., 1995, doi:10.1029/94PA03040; Kageyama et al., 2013, doi:10.5194/cp-9-935-2013). In the North Atlantic region, episodes of massive freshwater discharge to the North Atlantic Ocean were related to distinct cold periods known as Heinrich Stadials Maslin et al., 1995, doi:10.1029/94PA03040; Kageyama et al., 2013, doi:10.5194/cp-9-935-2013; Böhm et al., 2013, doi:10.1038/nature14059). By contrast, the freshwater history of the North Pacific region remains unclear, giving rise to persistent debates about the existence and possible magnitude of climate links between the North Pacific and North Atlantic oceans during Heinrich Stadials (Praetorius and Mix, 2014, doi:10.1126/science.1252000; Menviel et al., 2014, doi:10.1002/2013PA002542). Here we find that there was a strong connection between changes in North Atlantic circulation during Heinrich Stadials and injections of freshwater from the North American Cordilleran Ice Sheet to the northeastern North Pacific. Our record of diatom δ18O (a measure of the ratio of the stable oxygen isotopes 18O and 16O) over the past 50,000 years shows a decrease in surface seawater δ18O of two to three per thousand, corresponding to a decline in salinity of roughly two to four practical salinity units. This coincided with enhanced deposition of ice-rafted debris and a slight cooling of the sea surface in the northeastern North Pacific during Heinrich Stadials 1 and 4, but not during Heinrich Stadial 3. Furthermore, results from our isotope-enabled model (Werner et al., 2016, doi:10.5194/gmd-9-647-2016) suggest that warming of the eastern Equatorial Pacific during Heinrich Stadials was crucial for transmitting the North Atlantic signal to the northeastern North Pacific, where the associated subsurface warming resulted in a discernible freshwater discharge from the Cordilleran Ice Sheet during Heinrich Stadials 1 and 4. However, enhanced background cooling across the northern high latitudes during Heinrich Stadial 3 -the coldest period in the past 50,000 years (North Greenland Ice Core Project members, 2004, doi:10.1038/nature02805) -prevented subsurface warming of the northeastern North Pacific and thus increased freshwater discharge from the Cordilleran Ice Sheet. In combination, our results show that nonlinear ocean–atmosphere background interactions played a complex role in the dynamics linking the freshwater discharge responses of the North Atlantic and North Pacific during glacial periods.
    Keywords: AWI_Envi; AWI_Paleo; INOPEX; KAL; Kasten corer; North Pacific Ocean; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polar Terrestrial Environmental Systems @ AWI; SO202/1; SO202/1_27-6; Sonne
    Type: Dataset
    Format: application/zip, 11 datasets
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    DATA PANGAEA
  • 6
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    Diatom abundance in surface sediments of the northern North Pacific (2014)
    PANGAEA
    In:  Supplement to: Ren, Jian; Gersonde, Rainer; Esper, Oliver; Sancetta, Constance A (2014): Diatom distributions in northern North Pacific surface sediments and their relationship to modern environmental variables. Palaeogeography, Palaeoclimatology, Palaeoecology, 402, 81-103, https://doi.org/10.1016/j.palaeo.2014.03.008
    Details
    Publication Date: 2023-07-09
    Description: In order to map the modern distribution of diatoms and to establish a reliable reference data set for paleoenvironmental reconstruction in the northern North Pacific, a new data set including the relative abundance of diatom species preserved in a total of 422 surface sediments was generated, which covers a broad range of environmental variables characteristic of the subarctic North Pacific, the Sea of Okhotsk and the Bering Sea between 30° and 70°N. The biogeographic distribution patterns as well as the preferences in sea surface temperature of 38 diatom species and species groups are documented. A Q-mode factor analysis yields a three-factor model representing assemblages associated with the Arctic, Subarctic and Subtropical water mass, indicating a close relationship between the diatom composition and the sea surface temperatures. The relative abundance pattern of 38 diatom species and species groups was statistically compared with nine environmental variables, i.e. the summer sea surface temperature and salinity, annual surface nutrient concentration (nitrate, phosphate, silicate), summer and winter mixed layer depth and summer and winter sea ice concentrations. Canonical Correspondence Analysis (CCA) indicates 32 species and species groups have strong correspondence with the pattern of summer sea surface temperature. In addition, the total diatom flux data compiled from ten sediment traps reveal that the seasonal signals preserved in the surface sediments are mostly from spring through autumn. This close relationship between diatom composition and the summer sea surface temperature will be useful in deriving a transfer function in the subarctic North Pacific for the quantitative paleoceanographic and paleoenvironmental studies. The relative abundance of the sea-ice indicator diatoms Fragilariopsis cylindrus and F. oceanica of 〉20% in the diatom composition is used to represent the winter sea ice edge in the Bering Sea. The northern boundary of the distribution of F. doliolus in the open ocean is suggested to be an indicator of the Subarctic Front, while the abundance of Chaetoceros resting spores may indicate iron input from nearby continents and shelves and induced productivity events in the study area.
    Keywords: 2172; 2176; 2177; 2182; 2185; 2217; 2219; 2220; 2223; 2227; 2228; 2252; 2254; 2256; 2259; 2262; 2266; Academy of Science Rise; Achnanthes lanceolata; Achnanthes minutissima; Achnanthes spp.; Actinocyclus cf. octonarius; Actinocyclus curvatulus; Actinocyclus ochotensis; Actinocyclus octonarius; Actinocyclus oculatus; Actinocyclus sp.; Actinocyclus spp.; Actinoptychus senarius; Actinoptychus splendens; Actinoptychus vulgaris; Akademik A Nesmeyanov; Akademik M.A. Lavrentiev; Alveus marinus; Amphora spp.; Asteromphalus brookei; Asteromphalus hyalinus; Asteromphalus marylandicus; Asteromphalus robustus; Aulacoseira granulata; Aulacoseira spp.; AWI_Paleo; Azpeitia nodulifer; Azpeitia tabularis; Bacillaria paxillifer; Bacterosira bathyomphala; BB311-017; BB311-026; BB311-039; Bering Sea; Chaetoceros, resting spores; Chaetoceros atlanticus; Chaetoceros diadema, resting spores; Chaetoceros furcellatus; Cocconeis californica; Cocconeis costata; Cocconeis pellucida; Cocconeis placentula; Cocconeis scutellum; Cocconeis spp.; Coscinodiscus marginatus; Coscinodiscus oculus-iridis; Coscinodiscus radiatus; Counting, diatoms; CTD/Rosette; CTD-RO; Cyclotella litoralis; Cyclotella ocellata; Cyclotella spp.; Cyclotella striata; Cymbella spp.; Delphineis kippae; Delphineis spp.; Delphineis surirella; Denticula spp.; DEPTH, sediment/rock; Derugin Basin; Detonula confervacea, resting spores; Diatoma spp.; Diploneis bombus; Diploneis chersonensis; Diploneis litoralis; Diploneis smithii; Diploneis spp.; Eastern continental slope of Sakhalin; Eastern slope of Kurile Basin; Elevation of event; Entomoneis spp.; Eunotia curtagrunowii; Eunotia monodon; Eunotia spp.; Event label; Fallacia spp.; Fossula arctica; Fragilaria capucina; Fragilaria construens; Fragilaria martyi; Fragilaria spp.; Fragilariopsis atlantica; Fragilariopsis cf. oceanica; Fragilariopsis cylindrus; Fragilariopsis doliolus; Fragilariopsis oceanica; Fragilariopsis reginae-jahniae; Fragilariopsis spp.; GC; GE99/KOMEX_VI; GE99-10-2; GE99-1-2; GE99-12-3; GE99-1-3; GE99-2-2; GE99-38-3; GE99-4-3; GE99-5-1; GE99-5-2; GE99-6-2; GE99-6-3; Gomphonema spp.; Gramatophora angulosa; Gravity corer; Gulf of Alaska; Gyrosigma spp.; Hemidiscus cuneiformis; INOPEX; KAL; KALMAR II; Kashevarov Trough; Kasten corer; KOMEX; KOMEX I; KOMEX II; Kommandorsky Basin; Kronotsky Peninsula; Kurile Basin; La Perusa (Soya) Strait; Latitude of event; Licmophora spp.; Longitude of event; LV27/GREGORY; LV27-11-3; LV27-1-2; LV27-12-2; LV27-2-2; LV27-3-2; LV27-4-2; LV27-5-5; LV27-6-2; LV27-7-2; LV27-8-2; LV28; LV28-2-2; LV28-34-1; LV28-40-3; LV28-41-3; LV28-42-3; LV28-4-3; LV28-43-3; LV28-44-2; LV28-61-3; LV28-64-3; LV29-103-1; LV29-104-1; LV29-108-1; LV29-110-1; LV29-112-1; LV29-114-1; LV29-116-3; LV29-123-4; LV29-131-1; LV29-2; LV29-69-1; LV29-72-1; LV29-94-1; Marshal Gelovany; Meji Seamount; Melosira sol; MIC; MiniCorer; MSN; MUC; MultiCorer; Multicorer with television; Multiple opening/closing net; Navicula directa; Navicula kariana var. detersa; Navicula spp.; Navicula vulpina; Neodenticula cf. seminae; Neodenticula seminae; Nitzschia bicapitata; Nitzschia braarudii; Nitzschia delicatissima; Nitzschia kolaczeckii; Nitzschia pellucida; Nitzschia sicula; Nitzschia spp.; North Pacific Ocean; North-West Kurile basin slope; Odontella aurita; OK92; OK92_2172; OK92_2176; OK92_2177; OK92_2182; OK92_2185; OK92_2217; OK92_2219; OK92_2220; OK92_2223; OK92_2227; OK92_2228; OK92_2252; OK92_2254; OK92_2256; OK92_2259; OK92_2262; OK92_2266; Opephora spp.; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Paralia sulcata; Pauliella taeniata; Pleurosigma spp.; Porosira glacialis; Pos37B-04G; Pos37B-13G; Pos37B-19G; Pos37B-20G; Pos37B-21G; Pos37B-27G; Pos37B-28G; Pos37B-31G; Pos37B-35G; Pos37B-36G; Pos37B-39C(G); Pos37B-43C; Pos37B-47C; Pos37B-59G; Pos37B-62G; Proboscia subarctica; Pseudogomphonema kamtschaticum; Pseudogomphonema spp.; Pseudo-nitzschia seriata forma obtusa; Rhaphoneis amphiceros; Rhizosolenia bergonii; Rhizosolenia hebetata forma hebetata; Rhizosolenia hebetata forma semispina; Rhizosolenia setigera; Rhizosolenia spp.; Rhizosolenia styliformis; Roperia tesselata; Sakhalin shelf; Sakhalin shelf and slope; Sea of Okhotsk; Shirshov Ridge; SO178; SO178-10-4; SO178-11-4; SO178-12-4; SO178-1-3; SO178-13-3; SO178-14-4; SO178-22-1; SO178-29-1; SO178-3-3; SO178-58-1; SO178-72-1; SO178-78-3; SO178-86-3; SO178-9-3; SO201/2; SO201-2-08; SO201-2-11; SO201-2-113; SO201-2-126; SO201-2-13; SO201-2-68; SO201-2-76; SO201-2-79; SO201-2-83; SO201-2-90; SO201-2-99; SO202/1; SO202/1_01-3; SO202/1_02-4; SO202/1_03-4; SO202/1_04-3; SO202/1_05-3; SO202/1_06-2; SO202/1_07-2; SO202/1_08-1; SO202/1_09-2; SO202/1_10-2; SO202/1_11-1; SO202/1_12-2; SO202/1_13-4; SO202/1_14-5; SO202/1_15-4; SO202/1_18-1; SO202/1_19-5; SO202/1_21-2; SO202/1_22-1; SO202/1_23-4; SO202/1_24-2; SO202/1_25-1; SO202/1_28-1; SO202/1_29-5; SO202/1_31-5; SO202/1_32-5; SO202/1_33-5; SO202/1_34-4; SO202/1_36-6; SO202/1_37-1; SO202/1_38-1; SO202/1_39-2; SO202/1_40-2; SO202/1_41-3; SO202/1_42-3; SO202/1_45-2; Sonne; Southwestern Kamchatka slope; Stellarima stellaris; Stephanodiscus rotula forma minutula; Stephanopyxis turris; SU453-002; SU453-005; SU453-008; SU453-015; Tabularia investiens; Tabularia tabulata; Terpenia bay; Thalassionema nitzschioides; Thalassionema nitzschioides var. lanceolata; Thalassionema nitzschioides var. parva; Thalassiosira angulata; Thalassiosira antarctica var. borealis; Thalassiosira antarctica var. borealis, resting spores; Thalassiosira bioculata; Thalassiosira bulbosa; Thalassiosira constricta, resting spores; Thalassiosira eccentrica; Thalassiosira hyalina; Thalassiosira hyperborea; Thalassiosira leptopus; Thalassiosira lineata; Thalassiosira nordenskioeldii; Thalassiosira oestrupii; Thalassiosira pacifica; Thalassiosira rotula; Thalassiosira sp.; Thalassiosira spp.; Thalassiosira trifulta; Thalassiothrix longissima; TT031-009-011; TT039-018; TT042-AC288; TT042-AC290; TT042-AC294; TT042-AC306; TT053-AC007; TVMUC; W7605B; W7605B-09; W7905A; W7905A-111; W7905A-156; W7905A-160; W8508AA; W8508AA-09; W8809A; W8809A-13GC; W8809A-4GC; W9009A-22BC; Wecoma; West Kurile basin; West Kurile basin slope; Y70-3; Y70-3-48GRAV; Yaquina
    Type: Dataset
    Format: text/tab-separated-values, 22260 data points
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  • 7
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    (Table S2 B) Composition of purified diatom samples of the 10-20 µm fraction determined by light microscopy of sediment core MD01-2416 (2013)
    PANGAEA
    Details
    Publication Date: 2023-07-09
    Keywords: Actiniscus pentasterias; Actinocyclus curvatulus; Actinocyclus ochotensis; Actinocyclus oculatus; Actinoptychus senarius; AWI_Paleo; Biogenic silica, non-diatom; Contamination; Coscinodiscus marginatus; Coscinodiscus oculus-iridis; Coscinodiscus radiatus; Coscinodiscus spp.; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; Diatoms; Emperor Seamounts; Giant piston corer; GPC; IMAGES VII - WEPAMA; Marion Dufresne (1995); MD012416; MD01-2416; MD122; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Porosira glacialis; Radiolarians; Rhizosolenia hebetata; Silica, non-biogenic; Sponge spiculae; Stellarima stellaris; Stephanopyxis turris; Sum; Thalassiosira antarctica var. borealis; Thalassiosira spp.; Thalassiosira trifulta
    Type: Dataset
    Format: text/tab-separated-values, 504 data points
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    DATA PANGAEA
  • 8
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    X-ray fluorescence measurements on sediment core SO202/1_27-6 (2018)
    PANGAEA
    Details
    Publication Date: 2023-06-27
    Keywords: AGE; AWI_Envi; AWI_Paleo; Calcium; DEPTH, sediment/rock; INOPEX; Iron; KAL; Kasten corer; North Pacific Ocean; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polar Terrestrial Environmental Systems @ AWI; SO202/1; SO202/1_27-6; Sonne; X-ray fluorescence (XRF)
    Type: Dataset
    Format: text/tab-separated-values, 548 data points
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    DATA PANGAEA
  • 9
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    Ice rafted debris in sediment core SO202/1_27-6 (2018)
    PANGAEA
    Details
    Publication Date: 2023-06-27
    Keywords: AGE; AWI_Envi; AWI_Paleo; Counting 250-2000 µm fraction; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; Ice rafted debris; INOPEX; KAL; Kasten corer; North Pacific Ocean; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polar Terrestrial Environmental Systems @ AWI; SO202/1; SO202/1_27-6; Sonne
    Type: Dataset
    Format: text/tab-separated-values, 183 data points
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  • 10
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    Contamination of purified diatom samples with non-biogenic silicates estimated from SiO2 and Al2O3 percentages determined by EDS of sediment core SO202/1_27-6 (2018)
    PANGAEA
    Details
    Publication Date: 2023-06-27
    Keywords: AGE; Aluminium oxide; AWI_Envi; AWI_Paleo; Contamination; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; Energy dispersive X-ray fluorescence spectrometer (ED-XRF); INOPEX; KAL; Kasten corer; North Pacific Ocean; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polar Terrestrial Environmental Systems @ AWI; Reference/source; Silicon dioxide; SO202/1; SO202/1_27-6; Sonne
    Type: Dataset
    Format: text/tab-separated-values, 294 data points
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    DATA PANGAEA
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