Distribution, genesis and age of the Schlagwasser breccia (Warstein anticline, Rhenish massif)

Autoria(s): Clausen, Claus-Dieter; Leuteritz, Klaus
Cobertura

MEDIAN LATITUDE: 51.445151 * MEDIAN LONGITUDE: 8.434634 * SOUTH-BOUND LATITUDE: 51.431270 * WEST-BOUND LONGITUDE: 8.376910 * NORTH-BOUND LATITUDE: 51.451210 * EAST-BOUND LONGITUDE: 8.522950
Data(s)

28/10/1989
Resumo

The name "Schlagwasser breccia" is a synopsis of several debris flows in the Warstein area, which can be derived from the Warstein carbonate platform and the Scharfenberg reef. Though only locally developed, the breccia is important for the understanding of paleogeography and sedimentology in the Eastern Sauerland. Considering this breccia some gravitational-resedimentary slide movements between a high, consisting of reef carbonates, and a basin with flinz beds can be pointed out. From the uppermost Middle Devonian to the lowermost Lower Carboniferous several slides yielded the sedimentary components building up the 30 to 50 m thick polymict breccia. Some breccias were redeposited repeatedly as can be verified by different conodont maxima in single samples. Supplying area was the western part of the Warstein high, from which the slide masses glided off to the East and Southeast, more seldom to the West and Westsouthwest. All conodont zones from the upper Middle Devonian up to the lowermost Carboniferous could be identified in the Schlagwasser breccia. Therefore, an uninterrupted continuous sedimentation must have been prevalent in the supplying area; today this area nearly is denuded of flinz beds and cephalopod limestones. The slide masses spread transgressively to the East up to a substratum consisting of different units as massive limestone, flinz beds and cephalopod limestone; they are overlapped by Hangenberg beds, alum schists and siliceous rocks of the Lower Carboniferous. Parts of the substratum were transported during the progress of the slide masses. Proximal and distal parts of the flow masses can be distinguished by the diameter of the pebbles. Graded bedding and banking structures are marked only rarely. Way of transport was up to 3 km. Differently aged slide masses do not always overlap, but are placed side by side, too. Usually the slide masses do not spread out upon a greater area during sedimentation, but form closely limited debris flows. Synsedimentary fracturing and tilting of the reef platform, epirogenetic movements and seaquakes caused the slides. The entire formation period of the breccia includes about 20 millions of years. The longevity of the events points to solid paleomorphological situations around the eastern margin of the carbonate platform.
Formato

application/zip, 6 datasets
Identificador

https://doi.pangaea.de/10.1594/PANGAEA.854427

doi:10.1594/PANGAEA.854427
Idioma(s)

en
Publicador

PANGAEA
Relação

Amirie, Ghullam Hussein Bares; Clausen, Claus-Dieter; Friman, Lars; Korn, Dieter; Leuteritz, Klaus; Rescher, Konrad; Stritzke, Rüdiger; Wilder, Heinz; Ziegler, Willi (1989): Das Oberdevon des Rheinischen Schiefergebirges - Datierung und Grenzziehung als Grundlage für Fazies und Paläogeographie. Fortschritte in der Geologie von Rheinland und Westfalen, 35, 413 pp, hdl:10013/epic.46073.d001
Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted
Fonte

Supplement to: Clausen, Claus-Dieter; Leuteritz, Klaus (1989): Verbreitung, Entstehung und Alter der Schlagwasserbreccie (Warsteiner Sattel, Rheinisches Schiefergebirge). Fortschritte in der Geologie von Rheinland und Westfalen, 35, 261-308, hdl:10013/epic.46073.d003
Palavras-Chave #A. asymmetricus; A. buckeyensis; A. buekeyensis; A. curvata; A. gigas; A. ioides; A. lobata; A. rotundiloba rotundiloba; A. sinelamina; A. triangularis; Ancyrodella buckeyensis; Ancyrodella buekeyensis; Ancyrodella curvata; Ancyrodella gigas; Ancyrodella ioides; Ancyrodella lobata; Ancyrodella rotundiloba rotundiloba; Ancyrognathus asymmetricus; Ancyrognathus sinelamina; Ancyrognathus triangularis; B. aculeatus aculeatus; B. costatus; B. jugosus; B. spinulicostatus; B. stabilis; B. ultimus; B. ziegleri; Bispathodus aculeatus aculeatus; Bispathodus costatus; Bispathodus jugosus; Bispathodus spinulicostatus; Bispathodus stabilis; Bispathodus ultimus; Bispathodus ziegleri; Comment; Event; Hindeodella sp.; I. brevis; I. comutus; I. cornutus; I. difficilis; I. nodosus; Icriodus brevis; Icriodus comutus; Icriodus cornutus; Icriodus difficilis; Icriodus nodosus; l. cornutus; l. nodosus; Label; lcriodus cornutus; lcriodus nodosus; N. sublaevis; Nothognathella sublaevis; Ozarkodina sp.; P. asymmetricus asymmetricus; P. asymmetricus ovalis; P. asymmetricus ssp.; P. collinsoni; P. crepida; P. cristatus; P. decorosus; P. delicatula clarki; P. delicatula delicatula; P. dengleri; P. dentilineatus; P. disparilis; P. gigas; P. glabra distorta; P. glabra glabra; P. glabra lepta; P. glabra pectinata; P. gracilis gonioclymeniae; P. gracilis gracilis; P. gracilis sigmoidalis; P. kockeli; P. latifossatus; P. linguiformis klapperi; P. linguiformis linguiformis; P. linguiformis ssp.; P. margin. marginifera; P. marginifera marginifera; P. marglflifera marginifera; P. minuta minuta; P. minuta schleizia; P. nodocostatus; P. ocatinodosus; P. ordinatus; P. ovatinodosus; P. perlobata grossi; P. perlobata schindewolfi; P. proversa; P. punctata; P. quadiantinodosa quadrantinodosa; P. quadrantinodosa inflexa; P. quadrantinodosa inflexoidea; P. quadrantinodosalobata; P. quadrantinodosa marginifera; P. quadrantinodosa quadrantinodosa; P. rhomboidea; P. rugosa ampla; P. rugosa postera; P. rugosa trachytera; P. rugosus; P. styriacus; P. subperlobata; P. subrecta; P. tenuipunctata; P. termini; P. transitans; P. triangularis; P. triangulus triangulus; P. unicomis; P. unicornis; P. varcus; P. vogesi; P. xylus xylus; Palmatolepis crepida; Palmatolepis delicatula clarki; Palmatolepis delicatula delicatula; Palmatolepis disparilis; Palmatolepis gigas; Palmatolepis glabra distorta; Palmatolepis glabra glabra; Palmatolepis glabra lepta; Palmatolepis glabra pectinata; Palmatolepis gracilis gonioclymeniae; Palmatolepis gracilis gracilis; Palmatolepis gracilis sigmoidalis; Palmatolepis marginifera marginifera; Palmatolepis marglflifera marginifera; Palmatolepis minuta minuta; Palmatolepis minuta schleizia; Palmatolepis perlobata grossi; Palmatolepis perlobata schindewolfi; Palmatolepis proversa; Palmatolepis punctata; Palmatolepis quadiantinodosa quadrantinodosa; Palmatolepis quadrantinodosa inflexa; Palmatolepis quadrantinodosa inflexoidea; Palmatolepis quadrantinodosalobata; Palmatolepis quadrantinodosa marginifera; Palmatolepis quadrantinodosa quadrantinodosa; Palmatolepis rhomboidea; Palmatolepis rugosa ampla; Palmatolepis rugosa postera; Palmatolepis rugosa trachytera; Palmatolepis subperlobata; Palmatolepis subrecta; Palmatolepis tenuipunctata; Palmatolepis termini; Palmatolepis transitans; Palmatolepis triangularis; Palmatolepis unicomis; Palmatolepis unicornis; Polygnathus asymmetricus asymmetricus; Polygnathus asymmetricus ovalis; Polygnathus asymmetricus ssp.; Polygnathus cristatus; Polygnathus decorosus; Polygnathus dengleri; Polygnathus latifossatus; Polygnathus linguiformis klapperi; Polygnathus linguiformis linguiformis; Polygnathus linguiformis ssp.; Polygnathus nodocostatus; Polygnathus ocatinodosus; Polygnathus ordinatus; Polygnathus ovatinodosus; Polygnathus rugosus; Polygnathus styriacus; Polygnathus varcus; Polygnathus vogesi; Polygnathus xylus xylus; Protognathodus collinsoni; Protognathodus kockeli; Protognathodus sp.; Pseudopolygnathus dentilineatus; Pseudopolygnathus triangulus triangulus; S. anchorais; S. crenulata; S. duplicata; S. hermanni; S. pietzneri; S. praesulcata; S. sulcata; S. velifer; S. wittekindti; Sample code/label; Scaliognathus anchorais; Scaphignathus velifer; Schmidtognathus hermanni; Schmidtognathus pietzneri; Schmidtognathus wittekindti; sensu lato; Siphonadella duplicata; Siphonadella praesulcata; Siphonadella sp.; Siphonodella crenulata; Siphonodella duplicata; Siphonodella praesulcata; Siphonodella sulcata
Tipo

Dataset
Acesso ao item digital