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Organische Mikrofossilien (Chlorophyta, Acritarcha, Sporae diversae, Scolecodonten) aus den Schichten des Streichengrundes, Unterdevon, im Raum Guttenberg-Kupferberg des Frankenwaldes.

Aus einer SE von Guttenberg im Frankenwald auftretenden Abfolge von bisher zur ordovizischen Randschieferserie gezählten grauen Schiefern und Tuffiten, den "Streichengrund-Schichten", wird eine reiche Assoziation organischer Mikrofossilien mit einem unterdevonisehen (Unter-Ems) Ablagerungsalter und mit aufgearbeitetem Unterordovizium (Ober-Arenig) beschrieben. Diese umfaßt 11 Arten der Chlorophyten, 44 Arten der Acritarchen - davon neu Uncillisphaera spinifurcillata 11. sp., sowie 42 Taxa der Sporae dispersae und Scolecodonten. Die somit als tektonische Schuppe innerhalb der ordovizischen Randschieferserie liegenden Streichengrund-Schichten stellen eine im Frankenwald bisher unbekannte Fazieseinheit des Unterdevon dar, die mit ihren vulkanischen Anteilen bayerische, mit ihren klastischen Anteilen thüringische Züge besitzt. Lithologische Vergleiche mit den in streichender Verlängerung nach S hin auftretenden dunklen Schiefern der stratiformen Lagerstätte von Kupferberg legen ein Unterdevon-Alter auch für diese Einheit nahe.From aseries of grey shales and tuffites, the "Streichengrund beds" whieh erop out SE of Guttenberg in the Frankenwald, a rieh assodation of organic microfossils is described. It comprises 11 species of chlorophytes, 44 species of acritarchs, including the new species Uncinisphaera spinifurcillata n. sp., 41 taxa of the Sporae dispersae, and scolecodonts. The mieroflora of the Streichengrund beds, which were considered so far to represent apart of the Ordovician Randschiefer, indicates a Lower Devonian (early Emsian) age of deposition and also contains reworked Lower Ordovician (Upper Arenigian) components. Therefore the Streichengrund beds occur within the Randschiefer as a tectonically isolated wedge. They represent a lithologie unit unknown so far in the Lower Devonian of the Frankenwald and can be considered to be a transitional fades between the vo\canically influenced Bavarian and the siliciclastic Thuringian Lower Devonian facies of the Frankenwald. Because the dark shales containing the stratiform ore deposit of Kupferberg are situated in the prolongation of a strike of and are lithologically very comparable to the Streichengrund beds, a Lower Devonian age is inferred for these deposits, too

The Schilfsandstein and its flora–arguments for a humid mid-Carnian episode?

Data sets of Palynomorph Eco Group (PEG) and Macroplant Eco Group (MEG) analyses

Hydrogen sulphide poisoning of shallow seas following the end-Triassic extinction

The evolution of complex life over the past 600 million years was disrupted by at least five mass extinctions, one of which occurred at the close of the Triassic period. The end-Triassic extinction corresponds to a period of high atmospheric-CO2 concentrations caused by massive volcanism and biomass burning; most extinction scenarios invoke the resulting environmental perturbations in accounting for the loss of marine and terrestrial biodiversity. Here we reconstruct changes in Tethyan shallow marine ecosystems and ocean redox chemistry from earliest Jurassic (Hettangian)-aged black shales from Germany and Luxemburg. The shales contain increased concentrations of the biomarker isorenieratane, a fossilized pigment from green sulphur bacteria. The abundance of green sulphur bacteria suggests that the photic zone underwent prolonged periods of high concentrations of hydrogen sulphide. This interval is also marked by the proliferation of green algae, an indicator of anoxia. We conclude that the redox changes in the entire water column reflect sluggish circulation in marginal regions of the Tethys Ocean. We suggest that the resultant repeated poisoning of shallow epicontinental seas-hotspots of Mesozoic biodiversity-with hydrogen sulphide may have slowed the recovery of marine ecosystems during the Early Jurassic

Palynology of Triassic–Jurassic boundary sections in northern Switzerland

A first palynostratigraphic scheme of Upper Triassic deposits in northern Switzerland was established based on spore-pollen associations and dinoflagellate cyst records from the upper part of the Upper Triassic Klettgau Formation and the lower part of the Lower Jurassic Staffelegg Formation. Drill cores from the Adlerberg region (Basel Tabular Jura) and from Weiach (northern part of Canton Zurich) as well as from an outcrop at the Chilchzimmersattel (Basel Folded Jura) were studied and five informal palynological associations are distinguished. These palynological associations correlate with palynological association of the Central European Epicontinental Basin and the Tethyan realm and provide a stratigraphic framework for the uppermost Triassic sediments in northern Switzerland. Throughout the uppermost Triassic to Jurassic palynological succession a remarkable prominence of Classopollis spp. is observed. Besides Classopollis spp. the three Rhaetian palynological associations A to C from the Upper Triassic Belchen Member include typical Rhaetian spore-pollen and dinoflagellate taxa (e.g., Rhaetipollis germanicus, Geopollis zwolinskae, Rhaetogonyaulax rhaetica, and Dapcodinium priscum). Association B differs from association A in a higher relative abundance of the sporomorph taxa Perinopollenites spp. and the consistent occurrence of Granuloperculatipollis rudis and Ricciisporites tuberculatus. Spore diversity is highest in the late Rhaetian palynological association C and includes Polypodiisporites polymicroforatus. A Rhaetian age for the Belchen Member is confirmed by palynological associations A–C, but there is no record of the latest Rhaetian and the earliest Jurassic. In contrast to the Rhaetian palynological associations the Early Jurassic associations W and D include Pinuspollenites spp., Trachysporites fuscus (in association W), and Ischyosporites variegatus. In the view of the end-Triassic mass extinction and contemporaneous environmental changes the described palynofloral succession represents the pre-extinction phase (associations A and B) including a distinct transgression, the extinction phase (association C) associated with a regression, and the post-extinction phase (association W)