PRESERVATION POTENTIAL OF BIOMARKERS FOR PALEOENVIRONMENTAL INVESTIGATIONS OF PERMIAN RED-BED EVAPORITES

2016 ◽  
Author(s):  
Dru Lockamy ◽  
◽  
Alison Olcott Marshall
Keyword(s):  
Preservation Potential ◽  
Red Bed

A comparative analysis of some Late Carboniferous basins of Variscan Europe

2007 ◽  
Vol 144 (3) ◽  
pp. 417-448 ◽  
Author(s):  
STANISLAV OPLUšTIL ◽  
CHRISTOPHER J. CLEAL
Keyword(s):  
Plant Diversity ◽  
Terrestrial Ecosystems ◽  
Vegetation Patterns ◽  
Vegetation Diversity ◽  
Current State ◽  
South Wales ◽  
Preservation Potential ◽  
Western Bohemia ◽  
Climatic Signals ◽  
Red Bed

Vegetation diversity and pattern changes, and their relation to tectono-sedimentary histories are compared between selected Euramerican Late Palaeozoic coalfields, to understand better the controls on the dynamics of the Pennsylvanian terrestrial ecosystems and to demonstrate the problems with comparing data from various basins. The analysis is based on data from the following basins of different geotectonic and palaeogeographical positions: the cratonic Pennines Basin, the foreland South Wales and Upper Silesia basins, and the fault-related Intra Sudetic and Central and Western Bohemia basins. The analysis indicates that complex factors are responsible for changes in plant diversity and vegetation patterns. These are related to climate, tectonics, preservation potential, sampling biases and the current state of revision of the flora in each basin. Plant diversity patterns in the basins differ because of local controls and/or the character and detail of the available data. Maximum diversity varies among the basins within the Langsettian and Duckmantian substages. Two apparent step-like drops in diversity were detected within coal-bearing strata of most basins: at the Duckmantian/Bolsovian boundary and at the Bolsovian/Asturian boundary. Further and more prominent falls are related to transitions from coal-bearing to non-coal-bearing (mostly red bed) strata or vice versa during Stephanian times. Interpretation of climatic signals recorded in the sedimentary successions indicates that Westphalian and middle Stephanian times were wet intervals, whereas early and late Stephanian times were drier.

Origin and provenance of some exotic blocks in lower Mesozoic red-bed basin deposits, southern Arizona

1979 ◽  
Vol 90 (4) ◽  
pp. 376 ◽  
Author(s):  
G. H. DAVIS ◽  
M. P. PHILLIPS ◽  
S. J. REYNOLDS ◽  
R. J. VARGA
Keyword(s):  
Red Bed

scholarly journals Preservation potential of keratin in deep time

PLoS ONE ◽  
2018 ◽  
Vol 13 (11) ◽  
pp. e0206569 ◽  
Author(s):  
Mary Higby Schweitzer ◽  
Wenxia Zheng ◽  
Alison E. Moyer ◽  
Peter Sjövall ◽  
Johan Lindgren
Keyword(s):  
Deep Time ◽  
Preservation Potential

scholarly journals Preservation potential of highstand coastal sedimentary bodies in a macrotidal basin: Example from the Bay of Mont-Saint-Michel, NW France

2007 ◽  
Vol 202 (4) ◽  
pp. 754-775 ◽  
Author(s):  
Isabelle Billeaud ◽  
Bernadette Tessier ◽  
Patrick Lesueur ◽  
Bruno Caline
Keyword(s):  
Preservation Potential

Preservation potential of foredunes in the stratigraphic record

2013 ◽  
Vol 165 ◽  
pp. 1265-1270 ◽  
Author(s):  
Eduardo G. Barboza ◽  
Maria Luiza C.C. Rosa ◽  
Sérgio R. Dillenburg ◽  
Luiz J. Tomazelli
Keyword(s):  
Preservation Potential ◽  
Stratigraphic Record

scholarly journals Time-Transgressive Salinic and Acadian Orogenesis, Magmatism and Old Red Sandstone Sedimentation in Newfoundland

2014 ◽  
Vol 41 (2) ◽  
pp. 138 ◽  
Author(s):  
Cees R. Van Staal ◽  
Alexandre Zagorevski ◽  
Vicki J. McNicoll ◽  
Neil Rogers
Keyword(s):  
Volcanic Rocks ◽  
Leading Edge ◽  
Foreland Basins ◽  
Red Beds ◽  
Deformation Front ◽  
Red Sandstone ◽  
Slab Breakoff ◽  
Accreted Terranes ◽  
Good Proxy ◽  
Red Bed

We propose an intimate relationship between Silurian terrestrial red bed sedimentation (Old Red Sandstone), slab breakoff-related magmatism and deformation in the Newfoundland Appalachians. Red bed sedimentation started during the Early Silurian, and records the progressive rise of the Salinic mountains in the tectonic hinterland of the orogen. The red beds were mainly deposited in molasse-style foreland basins in front of an east-propagating terminal Salinic deformation front. New U–Pb zircon dating of volcanic rocks interlayered with the Silurian red beds in key structural locations yielded ages ranging between 425 and 418 Ma, which, combined with the existing geochronological database, suggests that the sedimentary rocks are progressively younger from west to east and overstep the accreted Gondwana-derived terranes. We propose that deposition of the red beds is a good proxy for the time of cratonization of the accreted terranes. Eastward migration of the Salinic deformation front was accompanied by eastward-widening of a slab-breakoff-related asthenospheric window. The latter is interpreted to have formed due to a combination of progressive steepening of the down-going plate following entrance of the leading edge of the Gander margin and its eduction. Gander margin eduction (reversed subduction) is proposed to have been instigated by the trench migration of the Acadian coastal arc built upon the trailing edge of the Gander margin, which developed contemporaneously with the Salinic collision. The resultant thinning of the lithosphere beneath the Salinic orogen, built upon the leading edge of the Gander margin immediately prior to the onset of the Early Devonian Acadian orogeny, set the stage for generation of the widespread bloom of Acadian magmatism.SOMMAIRENous proposons qu’il y a eu une relation intime entre la sédimentation des couches rouges continentales au Silurien (vieux-grès-rouges), un magmatisme lié à une rupture de segments de croûte, et la déformation appalachienne à Terre-Neuve.  La sédimentation des couches rouges qui a débuté au début du Silurien témoigne du soulèvement progressif des monts saliniques de l’arrière-pays tectonique de l’orogène.  Les couches rouges se sont déposées sous forme de molasses dans des bassins d’avant-pays, à l’avant du front de déformation salinique terminale qui se déployait vers l’est.  De nouvelles datations U-Pb sur zircon de roches volcaniques interstratifiées avec des couches rouges siluriennes en des lieux structurels stratégiques montrent des âges qui varient entre 425 Ma et 418 Ma, ce qui, combiné aux bases de données géochronologiques existantes permet de penser que les roches sédimentaires sont progressivement plus jeunes d’ouest en est, et qu’elles surplombent les terranes accrétés du Gondwana.  Nous suggérons que les couches rouges sont de bons indicateurs temporels de la cratonisation des terranes accrétés.  La migration vers l’est du front de la déformation salinique a été accompagnée par un élargissement vers l’est d’une fenêtre asthénosphérique liée à une rupture de la croûte.  Cette dernière aurait été provoquée par la combinaison de l’enfoncement progressif de la plaque qui a suivi l’entrée du bord d’attaque de la marge de Gander, et son éduction.  Nous proposons que l’éduction (l’inverse de la subduction) de la marge de Gander a été provoquée par la migration de la fosse tectonique côtière acadienne, induite par la migration du bord d’attaque de la marge de Gander, contemporaine de la collision salinique.  L’amincissement de la lithosphère sous l’orogène salinique qui en a résulté, et qui s’est déployé au bord d’attaque de la marge de Gander juste avant l’enclenchement de l’orogénie acadienne au début du Dévonien, a préparé le terrain du déploiement à grande échelle du magmatisme acadien.

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