Hirnantian (latest Ordovician) glaciations and their consequences for the Oslo Region, Norway, with a revised lithostratigraphy for the Langøyene Formation in the inner Oslofjorden area

Bockelie, Johan Fredrik; Baarli, B. Gudveig; Johnson, Markes E.

doi:10.17850/njg97-2-01

Cited by 6 publications

(8 citation statements)

References 23 publications

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“…Marginal Laurentia: Girvan, Scotland (Harper, 1981(Harper, , 2006. Baltica: Jämtland (Dahlqvist et al, 2010), Scania (Koren et al 2003), Siljan (Suzuki et al, 2009;Ebbestad et al, 2015;Kröger et al, 2015), and Västergötland (Bergström, 1968;Bergström and Bergström, 1996), Sweden; Oslo-Asker Region, Norway (Cocks, 1982;Brenchley and Cocks, 1982;Bockelie et al, 2017); Estonia-Latvia (Harper and Hints, 2016;Hints and Harper, 2015); Holy Cross Mountains, Poland (Masiak et al, 2003). Avalonia: Meifod, C Wales (Brenchley et al, 2006;Schmitz and Bergström, 2007;Blackett et al, 2009); Bala, N Wales (Temple, 1965;Brenchley and Cullen, 1984;Vandenbroucke et al, 2008); Westmorland, N England (Temple, 1968;Wright, 1985Wright, , 1988Cocks, 2008), UK.…”

Section: Correlation With Part Of the M Extraordinarius Biozonementioning

confidence: 99%

The latest Ordovician Hirnantian brachiopod faunas: New global insights

Jiayu

Harper

Huang

et al. 2020

Earth-Science Reviews

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Section: Correlation With Part Of the M Extraordinarius Biozonementioning

confidence: 99%

The latest Ordovician Hirnantian brachiopod faunas: New global insights

Jiayu

Harper

Huang

et al. 2020

Earth-Science Reviews

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“…In South China, Hirnantian black graptolitic shales are well developed, and shelly strata have been widely considered as being represented only by the early to mid‐Hirnantian Kuanyinchiao Formation (and its stratigraphic equivalents) deposited during the major Hirnantian glaciation, as indicated by the presence of typical Hirnantia fauna (Rong et al, ; Zhan, Liu, Percival, Jin, & Li, ). In shallow‐water carbonate platforms from low‐latitude regions, for example, Laurentia and Baltica, shelly fossils are dominant, and graptolites are either absent or very rare (e.g., Ainsaar, Truumees, & Meidla, ; Bergström et al, ; Bockelie, Baarli, & Johnson, ; Copper, Jin, & Desrochers, ; Kröger et al, ; Mauviel & Desrochers, ; Wang, Zhan, Huang, & Percival, ).…”

Section: Introductionmentioning

confidence: 99%

Exploring the end‐Ordovician extinctions in Hirnantian near‐shore carbonate rocks of northern Guizhou, SW China: A refined stratigraphy and regional correlation

et al. 2018

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Richly fossiliferous Hirnantian shelly strata of near‐shore facies in northern Guizhou, South China, known as the Kuanyinchiao Formation, superbly record glacioeustatic sea‐level fluctuations and benthic faunal turnover. Recent studies of the temporal and spatial distribution of these carbonates and shelly fossils permit a critical stratigraphic revision and establishment of a robust regional stratigraphic correlation. The formation is revised to include three informal subdivisions, that is, units A, B, and C, in ascending order. Unit B of the formation typically is dominated by peloidal or oolitic grainstones, and unit C is composed of skeletal wackestone and calcareous mudstone, both units sharing distinctive coral and brachiopod faunas. This contrasts sharply with unit A of the formation, consisting of mudstone, silty mudstone, or calcareous mudstone, that yields the cool‐water Hirnantia fauna and associated coral fauna. In view of the presence of carbonate ooids and peloids, rugose corals, and a distinctive brachiopod assemblage, all indicative of warm‐water conditions, unit B, as well as unit C yielding the same shelly fauna, is interpreted as representing postglacial sedimentation immediately following the major Hirnantian glaciation, thus marking a significant climatic shift. Similar warm‐water carbonate rocks have been recognized in a number of regions along the margin of the Qianzhong Oldland, including Bijie, Renhuai, Tongzi, and Fenggang of northern Guizhou. Such a vast distribution area of these rocks indicates that postglacial carbonates are more widespread on the Yangtze Platform of South China than previously thought, providing a rare window into rocks and fossils of the survival interval immediately following the extinction event associated with the Hirnantian glacial episodes.

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“…persculptus Biozone or earliest Rhuddanian on the islands and coastal areas. Deposition first commenced in the Coronograptus cyphus Biozone, late Rhuddanian, inland far to the west in Asker at Olledalen (Bockelie et al, 2017). The base of the overlying Spirodden Member is correlated to the topmost part of the Lagarograptus acinaces Biozone in Asker (Fig.…”

Section: Geological Settingmentioning

confidence: 99%

“…The Central Oslo region also has gaps in the record, however, the gaps are quite short at some localities. The region in the beginning of Hirnantian was a coastal area with incised valleys and had a varied topography (Bockelie et al, 2017). When the sea level started to rise again at the base of the Metabolograptus persculptus Biozone near the middle Hirnantian age (Bergström et al, 2009), a rich and laterally variable brachiopod fauna was present from the beginning of the transgressive depositions already in latest Hirnantian.…”

Section: Introductionmentioning

confidence: 99%

Plectatrypinae and other ribbed atrypides succeeding the end Ordovician extinction event, Central Oslo Region, Norway

Baarli

2020

J. Paleontol.

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Strata of the Solvik Formation in the central Oslo Region (upper Hirnantian through most of Aeronian) are very fossiliferous and provide a good record relating to the survival and recovery faunas after the end-Ordovician mass extinctions. The ribbed atrypide fauna is especially rich with 21 species present. Samples from most of these taxa have been sectioned to reveal internal structures for taxonomic study. Of these, 13 species belong to the family Atrypidae, three of which are described in the present paper; Dihelictera engerensis n. sp., Gotatrypa vettrensis n. sp., and Rhinatrypa henningsmoeni n. gen. The family Atrypidae follows a global pattern of recovery with an increase in diversity registered in upper Rhuddanian and further diversification in Aeronian strata. The focus of this paper is the family Atrypinidae, which shows a different pattern. They are common and fairly diverse near the base of the Rhuddanian in deeper waters and rare further up, especially in the Aeronian. One new genus, Bockeliena, and two new species, Plectatrypa rindi and Euroatrypa? sigridi are defined. The relationship between the subfamilies Spirigerininae and Plectatrypinae is clarified through thin sections of material from the Ordovician/Silurian boundary layers. The plectatrypids originated in Baltica through transitional species found in upper Katian to Hirnantian strata leading from the cosmopolitan Eospirigerina to the Plectatrypa lineage with imbricate ribbing and, separately, to Bockeliena and others with lamellose, widely spaced ornamentation. The Oslo Region probably acted as a nexus for survival and spread of brachiopods after the end-Ordovician mass extinction. UUID: http://zoobank.org/95340b41-5537-4192-9338-211a2940bea8.

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Hirnantian (latest Ordovician) glaciations and their consequences for the Oslo Region, Norway, with a revised lithostratigraphy for the Langøyene Formation in the inner Oslofjorden area

Cited by 6 publications

References 23 publications

The latest Ordovician Hirnantian brachiopod faunas: New global insights

The latest Ordovician Hirnantian brachiopod faunas: New global insights

Exploring the end‐Ordovician extinctions in Hirnantian near‐shore carbonate rocks of northern Guizhou, SW China: A refined stratigraphy and regional correlation

Plectatrypinae and other ribbed atrypides succeeding the end Ordovician extinction event, Central Oslo Region, Norway

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