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  • Abies; Algal association; Araliaceoipollenites sp.; Artemisiaepollenites sp.; Botryococcus; Carpinuspollenites carpinoides; Caryapollenites sp.; CDRILL; Celtipollenites intrastructurus; Cercidiphyllites minimireticulatus; Chenopodipollis sp.; Compositae undifferentiated; Core drilling; Cyperaceaepollis sp.; DEPTH, sediment/rock; Ephedripites spp.; Ericipites spp.; Faguspollenites verus; Graminidites sp.; Green algae; Halophilic-xerophilic association; Ilexpollenites margaritatus; Inaperturopollenites spp.; Intratriporopollenites instructus; Juglandipollis sp.; Laevigatosporites haardtii; Leiotriletes sp.; Mesophytic understorey plant association + aquatic plants; Momipites punctatus; Monocolpopollenites sp.; Ovoidites; Perinomonoletes sp.; Periporopollenites sp.; Picea/Pinus undifferentiated; Platycaryapollenites sp.; Podocarpidites sp.; Polycolpopollenites hexaradiatus; Polyporopollenites spp.; Polyvestibulopollenites verus; Pterocaryapollenites sp.; Sample code/label; Sigmopollis sp.; Sparganiaceaepollenites sp.; Spores, trilete undifferentiated; Stereisporites sp.; SUBO_18; Swamp forest association; Temperate mixed mesophytic forest canopy association; Tetracolporopollenites sp.; Tetraporina; Triatriopollenites spp.; Tricolpopollenites asper; Tricolpopollenites liblarensis; Tricolpopollenites retiformis; Tricolporopollenites cingulum; Tricolporopollenites edmundii; Tricolporopollenites marcodurensis; Tricolporopollenites microreticulatus; Tricolporopollenites parmularius; Tricolporopollenites pseudocingulum; Tricolporopollenites retimuratus; Tricolporopollenites striatoreticulatus; Tricolporopollenites wackersdorfensis; Triporopollenites rhenanus; Trivestibulopollenites betuloides; Varia; Verrucatosporites spp.; Vitispollenites tener; Warm temperate forest association  (1)
  • Carbonates; Sulfur; Isotopes; Organic materials; Crystals; Paleoclimatology; Paleoenvironments; Quartz  (1)
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  • 1
    facet.materialart.
    Unknown
    Relative frequencies of spore, pollen and algal taxa in core SUBO 18 (Enkingen) (2017)
    PANGAEA
    Details
    Publication Date: 2023-07-10
    Keywords: Abies; Algal association; Araliaceoipollenites sp.; Artemisiaepollenites sp.; Botryococcus; Carpinuspollenites carpinoides; Caryapollenites sp.; CDRILL; Celtipollenites intrastructurus; Cercidiphyllites minimireticulatus; Chenopodipollis sp.; Compositae undifferentiated; Core drilling; Cyperaceaepollis sp.; DEPTH, sediment/rock; Ephedripites spp.; Ericipites spp.; Faguspollenites verus; Graminidites sp.; Green algae; Halophilic-xerophilic association; Ilexpollenites margaritatus; Inaperturopollenites spp.; Intratriporopollenites instructus; Juglandipollis sp.; Laevigatosporites haardtii; Leiotriletes sp.; Mesophytic understorey plant association + aquatic plants; Momipites punctatus; Monocolpopollenites sp.; Ovoidites; Perinomonoletes sp.; Periporopollenites sp.; Picea/Pinus undifferentiated; Platycaryapollenites sp.; Podocarpidites sp.; Polycolpopollenites hexaradiatus; Polyporopollenites spp.; Polyvestibulopollenites verus; Pterocaryapollenites sp.; Sample code/label; Sigmopollis sp.; Sparganiaceaepollenites sp.; Spores, trilete undifferentiated; Stereisporites sp.; SUBO_18; Swamp forest association; Temperate mixed mesophytic forest canopy association; Tetracolporopollenites sp.; Tetraporina; Triatriopollenites spp.; Tricolpopollenites asper; Tricolpopollenites liblarensis; Tricolpopollenites retiformis; Tricolporopollenites cingulum; Tricolporopollenites edmundii; Tricolporopollenites marcodurensis; Tricolporopollenites microreticulatus; Tricolporopollenites parmularius; Tricolporopollenites pseudocingulum; Tricolporopollenites retimuratus; Tricolporopollenites striatoreticulatus; Tricolporopollenites wackersdorfensis; Triporopollenites rhenanus; Trivestibulopollenites betuloides; Varia; Verrucatosporites spp.; Vitispollenites tener; Warm temperate forest association
    Type: Dataset
    Format: text/tab-separated-values, 455 data points
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    DATA PANGAEA
  • 2
    facet.materialart.
    Unknown
    A Rare Glimpse of Paleoarchean Life: Geobiology of an Exceptionally Preserved Microbial Mat Facies from the 3.4 Ga Strelley Pool Formation, Western Australia. (2018)
    Details
    Publication Date: 2021-03-29
    Description: Paleoarchean rocks from the Pilbara Craton of Western Australia provide a variety of clues to the existence of early life on Earth, such as stromatolites, putative microfossils and geochemical signatures of microbial activity. However, some of these features have also been explained by non-biological processes. Further lines of evidence are therefore required to convincingly argue for the presence of microbial life. Here we describe a new type of microbial mat facies from the 3.4 Ga Strelley Pool Formation, which directly overlies well known stromatolitic carbonates from the same formation. This microbial mat facies consists of laminated, very fine-grained black cherts with discontinuous white quartz layers and lenses, and contains small domical stromatolites and wind-blown crescentic ripples. Light- and cathodoluminescence microscopy, Raman spectroscopy, and time of flight-secondary ion mass spectrometry (ToF-SIMS) reveal a spatial association of carbonates, organic material, and highly abundant framboidal pyrite within the black cherts. Nano secondary ion mass spectrometry (NanoSIMS) confirmed the presence of distinct spheroidal carbonate bodies up to several tens of μm that are surrounded by organic material and pyrite. These aggregates are interpreted as biogenic. Comparison with Phanerozoic analogues indicates that the facies represents microbial mats formed in a shallow marine environment. Carbonate precipitation and silicification by hydrothermal fluids occurred during sedimentation and earliest diagenesis. The deciphered environment, as well as the δ13C signature of bulk organic matter (-35.3‰), are in accord with the presence of photoautotrophs. At the same time, highly abundant framboidal pyrite exhibits a sulfur isotopic signature (δ34S = +3.05‰; Δ33S = 0.268‰; and Δ36S = -0.282‰) that is consistent with microbial sulfate reduction. Taken together, our results strongly support a microbial mat origin of the black chert facies, thus providing another line of evidence for life in the 3.4 Ga Strelley Pool Formation.
    Description: Open-Access Publikationsfonds 2016
    Keywords: Carbonates; Sulfur; Isotopes; Organic materials; Crystals; Paleoclimatology; Paleoenvironments; Quartz ; 551
    Language: English , English
    Type: article , publishedVersion
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    CITATION GEO-LEO
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