Vikinghøgda Formation
The Vikinghøgda Formation is a geologic formation in Svalbard, Norway. It preserves fossils dating back to the Early Triassic (Griesbachian-Spathian) period.[1] It is split into three members, from oldest to youngest: the Deltadalen Member (Induan), Lusitaniadalen Member (Smithian), and Vendomdalen Member (Spathian). The formation can be found in central and southern Spitsbergen, as well as the smaller islands of Barentsøya and Edgeøya. The type locality is positioned in the vicinity of Vikinghøgda and Sticky Keep, two low peaks along the southeast edge of the Sassendalen valley in Spitsbergen. The two upper members of the Vikinghøgda Formation were previously grouped together as the Sticky Keep Formation.[2][3]
Vikinghøgda Formation | |
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Stratigraphic range: Induan-Olenekian (Griesbachian-Spathian) ~ | |
Type | Formation |
Unit of | Sassendalen Group |
Sub-units | Deltadalen Member, Lusitaniadalen Member, Vendomdalen Member |
Underlies | Botneheia Formation |
Overlies | Kapp Starostin Formation |
Lithology | |
Primary | Mudstone, siltstone |
Other | Shale, sandstone |
Location | |
Approximate paleocoordinates | 42.2°N 10.4°E |
Region | Svalbard |
Country | ![]() |
![]() ![]() Vikinghøgda Formation (Svalbard) |
Subunits
The Vikinghøgda Formation is formed by fine-grained marine sediments, such as mudstones, shales, siltstones, and fine sandstones. There is a trend of finer sediments, deeper waters, and higher organic content through the formation. Though fossils are only abundant in the middle part (Lusitaniadalen Member) of the formation, index fossils can be found throughout the whole formation. The Vikinghøgda Formation is one of the better records of Early Triassic chronostratigraphy in the Boreal realm, owing to a combination of continuous sedimentation, distinctive index fossils, palynomorph stratigraphy, magnetostratigraphy,[2][4] and trace metal cyclostratigraphy.[5]
Deltadalen Member
The Deltadalen Member is named after the small stream valley which runs between Vikinghøgda and Sticky Keep. The member consists of about 70 meters of silty shales and fine sandstones, lying above the eroded surface of the Permian-age Kapp Starostin Formation. Some of the sandstone beds may be glauconitic or hummocky, and calcareous nodules may be present.[2] Fossils are rare and restricted to these nodules, though they include a variety of silicified ammonoids, conodonts, bivalves, and gastropods.[6] Some index fossils have biostratigraphic significance, such as the ammonoid Otoceras boreale and the conodonts Neogondolella carinata and Neospathodus svalbardensis. These species constrain the member to the Induan stage, between the early Griesbachian and early Dienerian substages. The sandiest intervals can be found at the base and the top of the member. The depositional environment is reconstructed as a shallow marine setting influenced by storms and nearby deltaic sediments.[2]
The Deltadalen Member has been equated with two other Induan-age formations in its vicinity: the Vardebukta Formation (exposed in western Spitsbergen) and the Havert Formation (under the Barents Sea).[2]
A 2020 study reported that the Permian-Triassic boundary occurs near the start of the Deltadalen Member. This was supported by several lines of evidence. The conodont Hindeodus parvus, which defines the base of the Triassic, was reported from a sediment layer 4.1 meters above the base of the member. An overlying tephra bed was dated to 252.13 ± 0.62 Ma via U-Pb radiometric dating, an age which is congruent with other reported estimates for the boundary.[5]
Lusitaniadalen Member
The Lusitaniadalen Member is named after a glacier on the western flank of Vikinghøgda. The member is about 90 meters thick, mostly composed of laminated silty mudstones. Sandstone beds are less common, though when they occur, they are hummocky. Fossiliferous calcareous nodules are abundant in the sandstone-bearing layers, encasing well-preserved fossils of both invertebrates and vertebrates. The ammonoid index fossils Euflemingites romunderi and Wasatchites tardus indicate that the Lusitaniadalen Member was deposited during the Smithian substage of the Olenekian stage. Fish and amphibian fossils have also been found in this member, particularly at the "Fish Niveau" bonebed. The depositional environment corresponds to a deeper and calmer conditions, indicative of a major transgression (sea level rise) affecting the continental shelf.[2]
The Lusitaniadalen Member has been equated with the Iskletten Member of the Tvillingodden Formation (in western Spitsbergen) and the lower part of the Klappmyss Formation (under the Barents Sea). It has also been previously described as the Iskletten Member of the Sticky Keep Formation.[2]
Vendomdalen Member
Dark shale (laminated mudstone) dominates the 90-meter-thick Vendomdalen Member, though silty yellowish dolomitic beds also occur. Very large dolomite nodules or lenses, some over a meter in width, can also be found in this member. However, fossil-bearing concretions are rarer and more deformed than in the Lusitaniadalen Member. Fossils include abundant bivalves and Spathian ammonoid index fossils, such as Bajarunia euomphala, Keyserlingites subrobustus, and Parasibirites elegans.[2] Marine reptile and fish bonebeds also occur in the Vendomdalen Member, the two most prominent being the older "Grippia Niveau" and younger "Lower Saurian Niveau".[7][8][9][10] The Vendomdalen Member corresponds to the deepest part of the continental shelf, with high organic matter deposition and no influence from storm events.[2]
The Vendomdalen Member has been equated with the Kaosfjellet Member of the Tvillingodden Formation (in western Spitsbergen) and the upper part of the Klappmyss Formation (under the Barents Sea). It has also been previously described as the Kaosfjellet Member of the Sticky Keep Formation.[2]
Paleobiota
Reptiles
Color key
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Notes Uncertain or tentative taxa are in small text; |
Reptiles of the Vikinghøgda Formation | ||||
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Taxon / Genus | Species | Subunit | Notes | Images |
Cymbospondylus | C. sp. | Vendomdalen Member (Lower Saurian Niveau) | A large basal ichthyosaur[7][10] | |
Reptilia | indet. | Vendomdalen Member (Grippia Niveau) | An indeterminate reptile fossil (SVT 203) previously referred to Grippia longirostris. Postcranial proportions differ from all known ichthyosauromorphs, and may instead suggest affinities with Helveticosaurus or placodonts.[11] | |
Grippia | G. longirostris | Vendomdalen Member (Grippia Niveau) | A small basal ichthyopterygian[7] | |
Ichthyopterygia | sp. | Lusitaniadalen Member (Fish Niveau),[12] Vendomdalen Member[13] | Indeterminate ichthyopterygian remains. Pelagic-adapted ichthyopterygian fossils from the Lusitaniadalen Member are the oldest known from Svalbard and the world.[12] | |
Isfjordosaurus | I. minor | Vendomdalen Member (Lower Saurian Niveau) | An enigmatic ichthyosauromorph, possibly a hupehsuchian or basal ichthyopterygian[7] | |
Merriamosaurus | M. hulkei | Vendomdalen Member (Lower Saurian Niveau) | An ichthyopterygian based on forelimb fossils, initially described under the preoccupied name Rotundopteryx hulkei. Most likely a junior synonym of Pessopteryx nisseri.[7] | |
Omphalosaurus | O. nisseri | Vendomdalen Member (Lower Saurian Niveau) | Weathered jaw fragments and other omphalosaurid-like fossils of uncertain validity, some of which have also been named as O. merriami or referred to Pessopteryx nisseri.[7] | |
O. sp.[13] | Vendomdalen Member (Grippia and Lower Saurian Niveaus) | Some fossils referred to Omphalosaurus appear to legitimately belong to the genus.[13] | ||
Pessopteryx | P. nisseri | Vendomdalen Member (Lower Saurian Niveau) | A large shastasaurid-like ichthyosaur, previously utilized as a chimera encompassing various ichthyopterygian fossils from the Lower Saurian Niveau.[7][10] | |
Quasianosteosaurus | Q. vikinghoegdai | Vendomdalen Member (Grippia Niveau) | A medium-sized ichthyopterygian[7] | |
Svalbardosaurus | S. crassidens | Vendomdalen Member (Grippia Niveau) | A dubious tetrapod based on large teeth initially referred to ichthyosaurs, but more likely belonging to temnospondyl amphibians.[7] |
Amphibians
Color key
|
Notes Uncertain or tentative taxa are in small text; |
Temnospondyls of the Vikinghøgda Formation | ||||
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Taxon / Genus | Species | Subunit | Notes | Images |
Aphaneramma | A. rostratum | Lusitaniadalen Member (Fish Niveau) | A long-snouted lonchorhynchine trematosaurid[14] | |
Boreosaurus | B. thorslundi | Lusitaniadalen Member (Fish Niveau) | A brachyopid or rhytidosteid[14] | |
Lyrocephaliscus | L. euri | Lusitaniadalen Member (Fish Niveau) | A trematosaurine trematosaurid, formerly known as Lyrocephalus.[14] | |
Peltostega | P. erici | Lusitaniadalen Member (Fish Niveau) | A rhytidosteid[14] | |
Platystega | P. depressa | Lusitaniadalen Member (Fish Niveau) | A trematosaurine trematosaurid[14] | |
Tertrema | T. acuta | Lusitaniadalen Member (Fish Niveau) | A relatively short-snouted trematosaurid, possibly a lonchorhynchine[15] | |
Sassenisaurus | S. spitzbergensis | Lusitaniadalen Member (Fish Niveau) | Possibly an early capitosaur[14] |
Fish
A diverse fish assemblage has been described from the "Sticky Keep Formation", including lungfish, coelacanths, chondrosteans, and hybodont sharks.[16][9]
References
- Vikinghøgda Formation at Fossilworks.org
- Mørk, Atle; Elvebakk, Geir; Forsberg, Arne W.; Hounslow., Mark W.; Nakrem., Hans Arne; Vigran, Jorunn Os; Weitschat, Wolfgang (1999). "The type section of the Vikinghøgda Formation: a new Lower Triassic unit in central and eastern Svalbard". Polar Research. 18 (1): 51–82. doi:10.1111/j.1751-8369.1999.tb00277.x. ISSN 0800-0395.
- Hurum, Jørn Harald; Engelschiøn, Victoria S.; Økland, Inghild; Bratvold, Janne; Ekeheien, Christina P.; Roberts, Aubrey J.; Delsett, Lene Liebe; Hansen, Bitten B.; Mørk, Atle; Nakrem, Hans Arne; Druckenmiller, Patrick S.; Hammer, Øyvind (2018-10-04). "The history of exploration and stratigraphy of the Early to Middle Triassic vertebrate-bearing strata of Svalbard (Sassendalen Group, Spitsbergen)". Norwegian Journal of Geology. 98 (2): 165–174. doi:10.17850/njg98-2-04.
- Hounslow, M. W.; Peters, C.; Mork, A.; Weitschat, W.; Vigran, J. O. (2008-09-01). "Biomagnetostratigraphy of the Vikinghogda Formation, Svalbard (Arctic Norway), and the geomagnetic polarity timescale for the Lower Triassic". Geological Society of America Bulletin. 120 (9–10): 1305–1325. doi:10.1130/B26103.1. ISSN 0016-7606.
- Zuchuat, V.; Sleveland, A. R. N.; Twitchett, R. J.; Svensen, H. H.; Turner, H.; Augland, L. E.; Jones, M. T.; Hammer, Ø.; Hauksson, B. T.; Haflidason, H.; Midtkandal, I.; Planke, S. (2020-09-15). "A new high-resolution stratigraphic and palaeoenvironmental record spanning the End-Permian Mass Extinction and its aftermath in central Spitsbergen, Svalbard". Palaeogeography, Palaeoclimatology, Palaeoecology. 554: 109732. doi:10.1016/j.palaeo.2020.109732. ISSN 0031-0182.
- Foster, William J.; Danise, Silvia; Twitchett, Richard J. (2017-10-03). "A silicified Early Triassic marine assemblage from Svalbard". Journal of Systematic Palaeontology. 15 (10): 851–877. doi:10.1080/14772019.2016.1245680. ISSN 1477-2019.
- Maxwell, Erin E.; Kear, Benjamin P. (2013). "Triassic ichthyopterygian assemblages of the Svalbard archipelago: a reassessment of taxonomy and distribution". GFF. 135 (1): 85–94. doi:10.1080/11035897.2012.759145. ISSN 1103-5897.
- Hansen, Bitten Bolvig; Hammer, Øyvind; Nakrem, Hans Arne (2018-10-04). "Stratigraphy and age of the Grippia niveau bonebed, Lower Triassic Vikinghøgda Formation, Spitsbergen" (PDF). Norwegian Journal of Geology. 98 (2): 175–187. doi:10.17850/njg98-2-02.
- Bratvold, Janne; Delsett, Lene Liebe; Hurum, Jørn Harald (2018-10-04). "Chondrichthyans from the Grippia bonebed (Early Triassic) of Marmierfjellet, Spitsbergen". Norwegian Journal of Geology. 98 (2): 189–217. doi:10.17850/njg98-2-03.
- Engelschiøn, Victoria Sjøholt; Delsett, Lene Liebe; Roberts, Aubrey Jane; Hurum, Jørn Harald (2018-10-04). "Large-sized ichthyosaurs from the Lower Saurian niveau of the Vikinghøgda Formation (Early Triassic), Marmierfjellet, Spitsbergen". Norwegian Journal of Geology. 98 (2): 239–265. doi:10.17850/njg98-2-05.
- Motani, Ryosuke (2000). "Skull of Grippia longirostris : no contradiction with a diapsid affinity for the Ichthyopterygia". Palaeontology. 43 (1): 01–14. doi:10.1111/1475-4983.00115.
- Kear, Benjamin P.; Engelschiøn, Victoria S.; Hammer, Øyvind; Roberts, Aubrey J.; Hurum, Jørn H. (2023). "Earliest Triassic ichthyosaur fossils push back oceanic reptile origins". Current Biology. 33 (5): R178–R179. doi:10.1016/j.cub.2022.12.053.
- Ekeheien, Christina Pokriefke; Delsett, Lene Liebe; Roberts, Aubrey Jane; Hurum, Jørn Harald (2018-10-04). "Preliminary report on ichthyopterygian elements from the Early Triassic (Spathian) of Spitsbergen". Norwegian Journal of Geology. 98 (2): 219–238. doi:10.17850/njg98-2-07.
- Kear, Benjamin P.; Poropat, Stephen F.; Bazzi, Mohamad (2016). "Late Triassic capitosaurian remains from Svalbard and the palaeobiogeographical context of Scandinavian Arctic temnospondyls". Geological Society, London, Special Publications. 434 (1): 113–126. doi:10.1144/SP434.11. ISSN 0305-8719.
- Slodownik, Miriam A.; Mörs, Thomas; Kear, Benjamin P. (2021). "Reassessment of the Early Triassic trematosaurid temnospondyl Tertrema acuta from the Arctic island of Spitsbergen". Journal of Vertebrate Paleontology. 41 (1): e1900209. doi:10.1080/02724634.2021.1900209. ISSN 0272-4634.
- Cox, C. B.; Smith, David G. (1973). "A review of the Triassic vertebrate faunas of Svalbard". Geological Magazine. 110 (5): 405–418. doi:10.1017/S0016756800036190. ISSN 0016-7568.