Dachstein Formation 📖 Wikipedia

Dachstein Formation
Dachstein Formation
Stratigraphic range: Norian-Rhaetian; ~221–202 Ma PreꞒ Ꞓ O S D C P T J K Pg N
	Well bedded Dachstein limestones forming a distinctively stepped profile with clearly defined boundaries on the face of the Mitterhorn (2,506 m) in the Lofer Alps.
Type	Formation
Lithology
Primary	Limestone
Location
Coordinates	47°36′N 14°00′E / 47.6°N 14.0°E
Approximate paleocoordinates	25°24′N 17°36′E / 25.4°N 17.6°E
Region	Styria, Veszprém, Bessuno, Brescia,; South Tyrol
Country	Austria, Germany, Hungary, Italy,; Slovakia, Slovenia, Switzerland
Type section
Named for	Dachstein Mountains
Named by	Friedrich Simony
	Dachstein Formation (Alps)

The Dachstein Formation or Dachstein Limestone (German: Dachsteinkalk) is a lithostratigraphic term for a geologic formation of Triassic age. It is a carbonate sequence which forms prominent features in the Northern Limestone Alps and also crops out over a number of Tethyan mountain ranges in Austria, Germany, Hungary, Italy, Switzerland, Slovakia and Slovenia.

The Dachstein limestone was first formally described by the Austrian geologist Friedrich Simony in the 19th century, the type locality is the Dachstein Massif in the southern Salzkammergut region of Austria.^[1]

Age and characteristics

edit

The Triassic age of the Dachstein Formation can be established by the identification of characteristic fossils found within it. Because the Dachstein Limestone is a lithostratigraphic unit the time of deposition (in Ma before present) may be somewhat variable from place to place but in general terms deposition started in the late Carnian and continued through the Norian and into the Rhaetian stages of the Late Triassic period.^[1]

The sequence reaches 1800m in thickness and can be sub-divided into (i) well bedded limestones and (ii) a more massive facies, the massive limestone passes laterally southwards into the well bedded limestone which often includes thick and abundantly fossiliferous reef limestones.^[2]

The reef limestones

edit

The Dachstein reefs were connected to lagoonal areas by narrow back-reef belts which now display massive to thick bedded limestones with ooids, oncoids and other coated grains, algae and reef debris.^[1] The patch reefs and detrital limestones had a very rich fauna and flora, more than 50 species have been identified in the reef framework with at least the same number as benthonic reef-dwellers.^[1]

The bedded limestone

edit

The bedded limestone is the most widespread facies and this unit is layered on the scale of metres to tens of metres. The thickness of the layers and the clearly defined boundaries often produces a distinctively stepped or banded appearance so the layering can be visible from significant distances in large cliff faces. There is evidence of shallow water cyclic sedimentation,^[2]^(p17) the details of the layered units and their cyclical nature was first described by Alfred G. Fischer^[3] and the cycling beds are commonly referred to as Lofer cyclothems (after the excellent exposures in the Lofer facies of the Lofer Mountains).^[4]

The sequence as a whole has been interpreted as having formed in a peritidal setting with the cyclic units comprising lagoonal limestones, thin layers of variegated argillaceous material, thin layers of intertidal to supratidal laminated dolomites and dolomitic limestone.^[1] The cylicity has been attributed to periodic fluctuations of sea-level, superimposed on the general subsidence. An amplitude of up to 15 m and a periodicity of 20,000 to 100,000 years has been inferred for each cycle.^[1] It has been suggested that the sea-level changes were orbitally controlled and can be interpreted by Milankovitch processes.^[4]

Palaeogeography and structure

edit

The sequence was deposited on the NW margin of the Alpine Tethys.^[4] The Dachstein reefs fringed the lagoons of the inner Dachstein platform and they generally faced the open oceanic basin to the south.^[5]

The rock units overlying the Dachstein carbonates generally sit uncomformably on the carbonates and at many places the Triassic-Jurassic boundary is missing because of the stratigraphic gap.^[5] Various reasons have been suggested to explain why the deposition of Dachstein carbonates ceased, amongst the mechanisms suggested are (a) a tectonically-driven platform drowning event terminating shallow marine platform sedimentation (the onset of extensional tectonics) (b) a cessation of carbonate production due to emergence caused by a significant sea level fall (c) changes in ocean chemistry caused by the end-Triassic extinction which led to a change in carbonate production and the ecological collapse of reefs.^[5]

In the field the Dachstein limestones commonly show broad open flexures on the scale of hundreds of metres. Detailed lithological and palaeontological examination shows that there is significant repetition of units indicating that the sequence is built of a pile of near-horizontal thrust sheets, although there is very limited disturbance along the contact between the sheets and they are not intensely folded.^[2]

Parts of the Dachstein Platform are now preserved in various tectonic units disrupted during the Alpine orogeny, significant elements occur in the Austroalpine nappes of the Northern Limestone Alps, other parts are in the Transdanubian Mountains of Hungary^[5] and the Julian Alps.^[6]

Fossil content

edit

Fossils dated to the Norian and Rhaetian stages of the Late Triassic are particularly well represented^[7]^[8] and the Dachstein limestone of the Northern Limestone Alps has become a classical palaeontological study site because of the exceptionally diverse Norian-Rhaetian reef biota.^[1]

A cross section of a *Megalodon* bivalve as typically seen in the Dachstein Limestone

A commonly observed fossil is the Megalodon (bivalve) which can be as large as 20cm across.^[9] Among others fossils reported from the formation are:

Reptiles

Mystriosuchus planirostris^[10]

Invertebrates

References

edit

^ ^a ^b ^c ^d ^e ^f ^g ^h Sylvain Richoz (ed.). "Field trips in the Eastern and Southern Alps (Austria, Italy): 2nd International Congress on Stratigraphy" (PDF). Berichte der Geologischen. 111. ISSN 1017-8880. Retrieved 24 July 2025.
^ ^a ^b ^c Oxburgh, E.R. (1968). The Geology of the Eastern Alps. The Geologists Association. ISBN 978-0-913312-33-9. Retrieved 22 July 2025.
^ Fischer, Alfred G. (1964). D.F. Merriam (ed.). "Symposium on cyclic sedimentation: The Lofer Cyclothems of the Alpine Triassic". Bulletin of the Kansas Geological Survey. 169: 107–149. Retrieved 22 July 2025.
^ ^a ^b ^c Schwarzacher, W. (2005). "The stratification and cyclicity of the Dachstein Limestone in Lofer, Leogang and Steinernes Meer (Northern Calcareous Alps, Austria)". Sedimentary Geology. 181 (1–2): 93–106. Bibcode:2005SedG..181...93S. doi:10.1016/j.sedgeo.2005.07.001. Retrieved 24 July 2025.
^ ^a ^b ^c ^d Pálfy, József; Kovács, Zsófia; Demény, Attila; Vallner, Zsolt (2021). "End-Triassic crisis and "unreefing" led to the demise of the Dachstein carbonate platform: A revised model and evidence from the Transdanubian Range, Hungary". Global and Planetary Change. 199 103428. Bibcode:2021GPC...19903428P. doi:10.1016/j.gloplacha.2021.103428. hdl:10831/82812. Retrieved 24 July 2025.
^ Celarc, B.; Kolar-Jurkovsek, T. (2008). "The Carnian Norian basin- platform system of the Martuljek Mountain Group (Julian Alps, Slovenia): progradation of the Dachstein carbonate platform". Geol. Carpath. 59: 211–224. Retrieved 24 July 2025.
^ Dachsteinkalk at Fossilworks.org
^ Dachstein limestones at Fossilworks.org
^ Kovacs, Sandor; Sudar, Milan; Gradinaru, Eugen; Gawlick, Hans-Jürgen; Karamata, Stefan; Haas, Janos; Pero, Csaba; Gaetani, Maurizio; Mello, Jan; Polak, Marian; Aljinovic, Dunja; Ogorelic, Bogdan; Kolar-Jurkovsek, Tea; Kolar-Jurkovsek, Bogdan; Buser, Stanko (2011). "Triassic evolution of the tectonostratigraphic units in the Circum-Pannonian region" (PDF). Jahrbuch der Geologischen Bundesanstalt. 151 (3): 199–280. ISSN 0016-7800. Retrieved 1 August 2025.
^ Buffetaut, É (1993). "Phytosaurs in time and space". Paleontologia Lombardia. Nuova serie. 2: 39–44.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m Gazdzicki, A.; Kozur, H.; Mock, R. (1979). "The Norian-Rhaetian boundary in the light of micropaleontological data". Geologija. 22: 71–112.
^ ^a ^b ^c ^d ^e ^f Frech, F (1912). "Neue Zweischaler und Brachiopoden aus der Bakonyer Trias - New bivalves and brachiopods from the Bakony Trias". Resultate der Wissenschaftlichen Erforschung des Balatonsees, II Band: Paläontologie der Umgebung des Balatonsees. 1: 1–138.

Bibliography

edit

Buffetaut, É (1993), "Phytosaurs in time and space", Paleontologia Lombardia, Nuova serie, 2: 39–44
Vörös, A (1981), "A survey of the Rhaetian (Upper Triassic) Bivalvia from Borzavár (Bakony Mts., Hungary)", Annales Historico-Naturales Musei Nationalis Hungarici, 73: 33–54
Gazdzicki, A.; Kozur, H.; Mock, R. (1979), "The Norian-Rhaetian boundary in the light of micropaleontological data", Geologija, 22: 71–112
Frech, F (1912), "Neue Zweischaler und Brachiopoden aus der Bakonyer Trias - New bivalves and brachiopods from the Bakony Trias", Resultate der Wissenschaftlichen Erforschung des Balatonsees, II Band: Paläontologie der Umgebung des Balatonsees, 1: 1–138

[ICS-1] ^ ^a ^b ^c ^d ^e ^f ^g ^h Sylvain Richoz (ed.). "Field trips in the Eastern and Southern Alps (Austria, Italy): 2nd International Congress on Stratigraphy" (PDF). Berichte der Geologischen. 111. ISSN 1017-8880. Retrieved 24 July 2025.

[ERO-2] Oxburgh, E.R. (1968). The Geology of the Eastern Alps. The Geologists Association. ISBN 978-0-913312-33-9. Retrieved 22 July 2025.

[3] Fischer, Alfred G. (1964). D.F. Merriam (ed.). "Symposium on cyclic sedimentation: The Lofer Cyclothems of the Alpine Triassic". Bulletin of the Kansas Geological Survey. 169: 107–149. Retrieved 22 July 2025.

[Sch-4] Schwarzacher, W. (2005). "The stratification and cyclicity of the Dachstein Limestone in Lofer, Leogang and Steinernes Meer (Northern Calcareous Alps, Austria)". Sedimentary Geology. 181 (1–2): 93–106. Bibcode:2005SedG..181...93S. doi:10.1016/j.sedgeo.2005.07.001. Retrieved 24 July 2025.

[TransD-5] Pálfy, József; Kovács, Zsófia; Demény, Attila; Vallner, Zsolt (2021). "End-Triassic crisis and "unreefing" led to the demise of the Dachstein carbonate platform: A revised model and evidence from the Transdanubian Range, Hungary". Global and Planetary Change. 199 103428. Bibcode:2021GPC...19903428P. doi:10.1016/j.gloplacha.2021.103428. hdl:10831/82812. Retrieved 24 July 2025.

[6] Celarc, B.; Kolar-Jurkovsek, T. (2008). "The Carnian Norian basin- platform system of the Martuljek Mountain Group (Julian Alps, Slovenia): progradation of the Dachstein carbonate platform". Geol. Carpath. 59: 211–224. Retrieved 24 July 2025.

[FWAT-7] Dachsteinkalk at Fossilworks.org

[FWSK-8] Dachstein limestones at Fossilworks.org

[9] Kovacs, Sandor; Sudar, Milan; Gradinaru, Eugen; Gawlick, Hans-Jürgen; Karamata, Stefan; Haas, Janos; Pero, Csaba; Gaetani, Maurizio; Mello, Jan; Polak, Marian; Aljinovic, Dunja; Ogorelic, Bogdan; Kolar-Jurkovsek, Tea; Kolar-Jurkovsek, Bogdan; Buser, Stanko (2011). "Triassic evolution of the tectonostratigraphic units in the Circum-Pannonian region" (PDF). Jahrbuch der Geologischen Bundesanstalt. 151 (3): 199–280. ISSN 0016-7800. Retrieved 1 August 2025.

[Buffetaut1993-10] Buffetaut, É (1993). "Phytosaurs in time and space". Paleontologia Lombardia. Nuova serie. 2: 39–44.

[Gazdzicki1979-11] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m Gazdzicki, A.; Kozur, H.; Mock, R. (1979). "The Norian-Rhaetian boundary in the light of micropaleontological data". Geologija. 22: 71–112.

[Frech1912-12] ^ ^a ^b ^c ^d ^e ^f Frech, F (1912). "Neue Zweischaler und Brachiopoden aus der Bakonyer Trias - New bivalves and brachiopods from the Bakony Trias". Resultate der Wissenschaftlichen Erforschung des Balatonsees, II Band: Paläontologie der Umgebung des Balatonsees. 1: 1–138.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

Dachstein Formation 📖 Wikipedia

Contents

Age and characteristics

The reef limestones

The bedded limestone

Palaeogeography and structure

Fossil content

See also

References

Bibliography

📚 Artikel Terkait di Wikipedia

Hoher Dachstein

Dachstein Mountains

Salzkammergut

Totes Gebirge

Northern Limestone Alps

Dachstein Chapel

Triglav

Steinernes Meer

Indoxxi: Era Baru Streaming Film Online, Evolusi dari LK21, Layarkaca21, IDLIX, dan Rebahin

Menggantikan Estafet LK21 dan Layarkaca21

Menyempurnakan Pengalaman IDLIX dan Rebahin

Kesimpulan: Destinasi Streaming Ultimate

Dachstein Formation
Stratigraphic range: Norian-Rhaetian ~221–202 Ma PreꞒ Ꞓ O S D C P T J K Pg N
Well bedded Dachstein limestones forming a distinctively stepped profile with clearly defined boundaries on the face of the Mitterhorn (2,506 m) in the Lofer Alps.
Type	Formation
Lithology
Primary	Limestone
Location
Coordinates	47°36′N 14°00′E / 47.6°N 14.0°E / 47.6; 14.0
Approximate paleocoordinates	25°24′N 17°36′E / 25.4°N 17.6°E / 25.4; 17.6
Region	Styria, Veszprém, Bessuno, Brescia, South Tyrol
Country	Austria, Germany, Hungary, Italy, Slovakia, Slovenia, Switzerland
Type section
Named for	Dachstein Mountains^[1]
Named by	Friedrich Simony
Dachstein Formation (Alps)