Mizur Formation
The Mizur Formation is a geological formation that outcrops in North Ossetia–Alania in the North Caucasus, representing a series of marginal marine to coastal layers with terrestrial influence. It is of Late Pliensbachian (Lower Jurassic) age.[2] It is notable as the only major unit with preserved dinosaur footprints of various orders not yet ascribed to any concrete ichnogenus.[3]
Mizur Formation | |
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Stratigraphic range: Late Pliensbachian ~Domerian Substage | |
Type | Geological Formation |
Sub-units | Fytyn, Faraskat and Mizur members |
Underlies | Unnamed Toarcian-Aalenian Layers |
Overlies | Sadon Formation |
Lithology | |
Primary | Sandstone |
Other | Kaolinite, conglomerates, gravelstones, quartzsandstones |
Location | |
Coordinates | 42°51'02.1"N 44°03'25.3"E |
Region | North Ossetia–Alania |
Country | Russia |
Type section | |
Named for | The Town of Mizur |
Named by | Beznosov[1] |
Mizur Formation (Russia) |
Stratigraphy
Fytyn Member
The Fytyn member represent the older layers of the formation, and depending on the outcrop, it overlies the eroded surface of Paleozoic granites or crystalline schists, or the Sinemurian–lower Pliensbachian volcanosedimentary rocks of the Sadon Formation.[4] This member is composed mostly of the product of the regional erosion of older layers — conglomerates, gravelstones, quartz sandstones, and others — that were deposited in a mostly continental setting. It is up to a few dozen meters thick.[4]
Faraskat Member
In some outcrops the Fytyn Member is absent, as result of a regional uplift, with the sedimentary material transported from this area to central parts of the Greater Caucasus. Such material ended up accumulating on the Kistin Formation (Sinemurian–lower Pliensbachian), a unit that underlies in some sections the Faraskat Member.[4] The Faraskat section began its deposition when the local layers were accompanied by a slow subsidence of the land and sedimentation on the previously denuded area.[5] The Faraskat sequence represents the first proper coastal deposit in the unit and is composed by a mixture of coarse material, as well as wood fragments and siderite, with some layers being highly bioturbated.[4]
Mizur Member
The transition between the Faraskat and Mizur members is gradual, forming a large sedimentary cycle from clayey to sandstone-dominated rocks.[2] This layer represents the last unit of the formation and is dominated by fine-grained sandstone horizons, often low-angle crossbedding and scarce fine ripple marks, in contrast to the abundant large wave ripples.[2] This layers have abundant fragments of terrestrial vegetation in a highly oxidized state. The sedimentation peculiarities of the Mizur layers indicate their accumulation within a relatively wide and shallow shelf.[2] This layer is the only that has provided dinosaur footprints, as well ammonites and other invertebrates.[3]
Environment
The Mizur Member contains numerous fragments of plants — stems, wood, and leaves — suggesting a clear influence of nearby emerged settings. The vegetation in the coeval exposures along the Caucasus and adjacent regions were covered by coniferous forests with abundant underliying Bennettitales.[6] The spores and pollen in the sediments are dominated by bennettitales, which likely grew on nearshore lowlands.[7] The region hosts pollen of several plant groups, notably the Pinaceae, Podocarpaceae, Araucariaceae, with other such as Ginkgoaceae being less common. Beyond trees, the lowlands were covered by thermophilic ferns (Cibitium, Mattonia, Coniopteris), lycophytes (Selaginella), and horsetails (Neocalamites).[7] Invertebrate faunas are linked with the Mediterranean faunal region, with isotope ratios in some specimens (belemnites and brachiopods) yielding estimated average annual temperatures in the North Caucasian–Transcaucasian region of 21.4–23.5 °C; that is, a subtropical humid climate.[8][9]
Fossil content
Ammonites
Genus | Species | Location | Section | Material | Notes | Images |
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An ammonite, type member of the family Amaltheidae within Ammonitida. This genus is the main one used to gauge the depositional age of the local layers. |
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Dinosauria
Genus | Species | Location | Section | Material | Notes | Images |
---|---|---|---|---|---|---|
Dinosauropedida[3] |
Dinosauropedida ichnog. indeterminate |
|
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Footprints |
Dinosaur footprints, unassigned to any concrete ichnogenus. A poorly preserved trackway composed of three tracks whose appearance is completely different to that of any other specimen recovered from the unit. |
|
Sauropodomorphidia[3] |
Sauropodomorphidia ichnog. indeterminate |
|
|
Footprints |
Possible sauropodomorph footprints, unassigned to any concrete ichnogenus. A clear tridactyl track 12 cm wide is distinguished among several hollows. |
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Theropodipedia[3] |
Theropodipedia ichnog. indeterminate |
|
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Footprints |
Possible theropod footprints, unassigned to any concrete ichnogenus. Theropod tracks include several types, from small to medium specimens. Some alterations near the tracks have been interpreted as derived from displaced sediments moved by the dinosaur upper limb during a search for burrowing organisms. |
|
Carnosauripodoidei[3] |
Carnosauripodoidei ichnog. indeterminate |
|
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Footprints |
Possible tetanuran footprints, unassigned to any concrete ichnogenus. A relatively large single dinosaur track (35‒40 cm wide), its distinctive fingerprints diverging at an angle of 30°‒35° are characteristic of large Jurassic predatory theropods. |
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Ornithischipida[3] |
Ornithischipida ichnog. indeterminate |
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Footprints |
Possible ornithischian footprints, unassigned to any concrete ichnogenus. A series of tracks whose relatively small size (15 cm) and the close position of the left and right limbs suggest they belong to a small herbivorous ornithopod |
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See also
- List of fossiliferous stratigraphic units in Russia
- Sorthat Formation, Denmark
- Neringa Formation, Lithuania
- Pliensbachian formations
- Blanowice Formation, Southern Poland
- Clarens Formation, South Africa
- Fernie Formation, Canada
- Hasle Formation, Denmark
- Kota Formation, India
- Los Molles Formation, Argentina
- Mawson Formation, Antarctica
- Rotzo Formation, Italy
- Whiteaves Formation, British Columbia
- Navajo Sandstone, Utah
- Kandreho Formation, Madagascar
- Kota Formation, India
- Cattamarra Coal Measures, Australia
References
- Beznosov, N.V.; Kazakova, V.P.; Leonov, Yu.G.; Pan-ov, D.I. (1960). "Stratigraphy of the Lower and Middle Jurassicrocks in the central North Caucasus". In Materialy Po Geologiigazonosnykh Raionov SSSR (Materials on the Geology of Gas-Bearing Regions in the Soviet Union. 18 (2): 109–191.
- Gavrilov, Yu. O (1994). "Lower and Middle Jurassic deltaic sedi-mentary complex in the NE Caucasus: Communication 1.Sedimentological aspects of the deltaic complex formation". Litol. Polezn. Iskop. 4 (1): 77–104.
- Gavrilov, Yuri O. (2020). "Dinosaur Footprints in Terrigenous Sediments on the Early Jurassic Shelf of the Central North Caucasus: Sedimentological and Paleoecological Settings". Lithology and Mineral Resources. 55 (5): 345–354. doi:10.1134/S002449022005003X. S2CID 221569067. Retrieved 12 December 2021.
- Panov, D.I. (1997). "Stratigraphy of the Lower and Middle Jurassicrocks in the central North Caucasus (Digor–Ossetia zone)". Byull. Mosk. O-va Ispyt. Prir., Otd. Geol. 72 (5): 46–55.
- SSSR, Paleogeografiya (1975). Ob"yasnitel'naya zapiska k atlasu li-tologo-paleogeograficheskikh kart SSSR (Paleogeography of the Soviet Union: Explanatory Note to the Atlas of Litho-logic–Paleogeographic Maps of the Soviet Union). Moscow: Nedra.
- Vakhrameev, V.A.; Vasina, R.A. (1959). "The Lower Jurassic and Aalenian f lora in the North Caucasus". Paleontol. Zh. 3 (1): 125‒133.
- Vakhrameev, V.A.; Krasilov, V.A. (1961). "The Domerian f lorain the North Caucasus". Paleontol. Zh. 3 (1): 103–108.
- Yasamanov, N.A. (1973). "Temperatures in the habitat of Jurassic–Cretaceous brachiopods, cephalopods, and bivalve mol-luscs in the western Transcaucasian basin". Geokhimiya. 5 (2–3): 746‒754.
- Yasamanov, N.A . (1978). Landshaftno-klimaticheskie usloviyayury, mela i paleogena Yuga SSSR (Jurassic, Cretaceous,and Paleogene Landscape-Climate Conditions in theSouthern Soviet Union). Moscow: Nedra.