The early cretaceous (late ryazanian - early hauterivian) ammonite fauna of north-east Greenland : taxonomy, biostratigraphy, and biogeography /

Alsen, Peter.

January 2006

Naturvidenskabelige doktorgrad--Naturvidenskabelige Fakultet--Københavns Universitet, 2006. / Contient un texte en anglais et son résumé en danois. Bibliogr. p. 127-136.

Integrated stratigraphy, palaeontology and facies analysis of the Cenomanian – Turonian (Upper Cretaceous) Galala and Maghra El Hadida formations of the western Wadi Araba, Eastern Desert, Egypt / Integrierte Stratigraphie, Paläontologie und Faziesanalyse der Galala- und Maghra El Hadida Formationen (Cenoman – Turon, Oberkreide) im westlichen Wadi Araba, Eastern Desert, Ägypten

Nagm, Emad Hamdy Mahmoud

January 2009

Four sections of the Galala and Maghra El Hadida formations on the footwalls of the slopes of the northern and southern Galala plateaus in Wadi Araba (Eastern Desert) have been measured and sampled in great detail. The Galala Formation is ranging in thickness from 55 to 95 meters. It unconformably overlies the Malha Formation which forms the base of the studied sections. The upper boundary of the Galala Formation is characterized by a major unconformity which separates it from the overlying the Maghra El Hadida Formation. The Galala Formation can be subdivided into five shallowing-upward cycles, each cycle starting with deep-lagoonal, marly-silty deposits at the base and grading into highly fossiliferous shallow-lagoonal limestones at the top. Only the basal part of the Galala Formation consists of unfossiliferous, greenish sandy siltstones intercalated with thin cross-bedded, bioturbated, fine- to medium-grained sandstones. Despite the lack of biostratigraphic markers in that lower part, its age can be assigned to the late Middle Cenomanian, since the conformably overlying strata contain the ammonite Neolobites vibrayeanus (D’ORBIGNY), the index marker of the early Upper Cenomanian which extends into the top of the formation. The measured thickness of the overlying Maghra El Hadida Formation is ranging from 59 to 118 meters. This formation starts with the Ghonima Member, introduced in this work to distinguish a brown, fine- to medium-grained calcareous sandstone unit in its lower part. The Ghonima Member is erosionally incised into the Galala Formation, explaining its strong lateral variability in thickness, ranging from 3 to 21 meters. It is mostly unfossiliferous except for irregular bioturbation in its upper part. The Ghonima Member is assigned to the middle Upper Cenomanian, based on its stratigraphic position between the lower Upper Cenomanian Neolobites vibrayeanus Zone and the overlying upper Upper Cenomanian Metoicoceras geslinianum and Vascoceras cauvini zones. This means that the lower part of the Maghra El Hadida Formation, about 20 – 30 m thick, accumulated during the latest Cenomanian and that the base of the formation does not coincide with the base of the Turonian as commonly believed. The overlying succession of the Maghra El Hadida Formation is characterized by an increase of carbonate content, represented by yellow, soft marls intercalated with fine-grained wacke- to packstones containing a highly fossiliferous ammonite assemblage of the upper Upper Cenomanian and Lower Turonian (zones of Vascoceras proprium, Choffaticeras spp., and Wrightoceras munieri). The Middle Turonian part of the Maghra El Hadida Formation consists of poorly fossiliferous, thick-bedded yellowish marls with upward-increasing silt content, showing occasional intercalations of medium- to coarse-grained sandstones with hummocky cross-stratification. The topmost part of the Maghra El Hadida Formation consists of brownish, medium-grained sandstones topped by fossiliferous marly limestones yielding the Upper Turonian zonal ammonite Coilopoceras requienianum (D’ORBIGNY). Based on sequence stratigraphic analyses, four complete 3rd order depositional sequences and the lower part of a fifth one, each bounded by major unconformities, can be recognized: depositional sequence DS WA 1 (upper Middle – lower Upper Cenomanian) includes the entire Galala Formation, while the Maghra El Hadida Formation comprises all the overlying depositional sequences: DS WA 2 (upper Upper Cenomanian – Lower Turonian) reaches from the base of the Metoicoceras geslinianum Zone to the top of Wrightoceras munieri Zone, DS WA 3 and DS WA 4 comprise the Middle Turonian, while Upper Turonian sequence DS WA 5 is not complete. The stratigraphic positions of the recognized sequence 2 boundaries SB WA 1 to SB WA 5 match well with contemporaneous sequence boundaries known from Europe and elsewhere. The stacking pattern of the basic cycles and bundles of the Galala Formation (5:1) and the Maghra El Hadida Formation (4:1) strongly suggest an orbital forcing by MILANKOVITCH periodicities. The Galala Formation is composed of five 5th-order bundles which equal to ~500 kyr, each bundle equals to ~100 kyr (short eccentricity). Every bundle has five basic (6th-order) cycles, each one representing ~20 kyr (precession). Based on this precession-short eccentricity syndrome, the accumulation rate of the Galala Formation therefore accounts for about 19 cm/kyr. The rate of sea-level fall at sequence boundary SB WA 2 (equivalent to the quasi-global mid-Late Cenomanian SB Ce V) estimated is with 35 cm/kyr which can be explained only by glacio-eustasy. The Upper Cenomanian and Lower Turonian part of the Maghra El Hadida Formation is considered to equal to ~1200 kyr, based on the existence of three 4th-order bundles with an inferred duration of ~400 kyr for each bundle (long eccentricity of the MILANKOVITCH Band). Every bundle consists of four basic cycles with a duration of ~100 kyr. This means that the upper Cenomanian part of the Maghra El Hadida Formation is equivalent to ~400 kyr, while the Lower Turonian (consisting of the two upper bundles) lasted 800 kyr. This matches well with the recently proposed 785 kyr duration of the Early Turonian (SAGEMAN et al., 2006; VOIGT et al., 2008) and contradicts the 1300 kyr according to the standard time scale of GRADSTEIN et al. (2004). According to this temporal constrains, the accumulation rate of the Maghra El Hadida Formation is about 4.25 cm/kyr. In addition, based on the cyclostratigraphic analysis, the range of the Early Turonian genus Choffaticeras (HYATT) is equivalent to ~325 kyr and morphological changes within its lineage can be quantified. The macrobenthos (bivalves, gastropods, echinoids) and cephalopods of the Galala and Maghra El Hadida formations were identified and illustrated in 24 figures. The ammonite taxonomy and palaeobiogeographic distribution is discussed in detail. Four genera and eight ammonite species are recorded from Egypt for the first time. The microfloral and -faunal assemblage identified in thin sections revealed two species of dasycladalean algae, two species of udoteacean algae, five species of benthic foraminifera, and two species of crustacean microcoprolites. The six facies types of the upper Middle – Upper Cenomanian Galala Formation document largely open-lagoonal, warm water conditions, while the depositional environment of the Upper Cenomanian – Turonian Maghra El Hadida Formation (16 facies types) is suggested to range from a deep-subtidal to intertidal.

Oberkreide

inegrierte Stratigraphie

Makrobenthos

Ammoniten

Faziesanalyse

Ägypten

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Biostratigraphy, lithostratigraphy, ammonite taxonomy and microfacies analysis of the Middle and Upper Jurassic of northeastern Iran / Biostratigraphie, Lithostratigraphie, Ammoniten-Taxonomie und Mikrofazies-Analyse des Mittel- und Oberjura in Nordost-Iran

Majidifard, Mahmoud Reza

January 2003

The Middle and Upper Jurassic sedimentary successions of Alborz in northern Iran and Koppeh Dagh in northeastern Iran comprise four formations; Dalichai, Lar (Alborz) and Chaman Bid, Mozduran (Koppeh Dagh). In this thesis, the biostratigraphy, lithostratigraphy, microfacies, depositional environments and palaeobiogeography of these rocks are discussed with special emphasis on the abundant ammonite fauna. They constitute a more or less continuous sequence, being confined by two tectonic events, one at the base, in the uppermost part of the Shemshak Formation (Bajocian), the so-called Mid-Cimmerian Event, the other one at the top (early Cretaceous), the so-called Late-Cimmerian Event. The lowermost unit constitutes the uppermost member of a siliciclastic and partly continental depositional sequence known as Shemshak Formation. It contains a fairly abundant ammonite fauna ranging in age from Aalenian to early Bajocian. The following unit (Dalichai Formation) begins everywhere with a significant marine transgression of late Bajocian age. The following four sections were measured: The Dalichai section (97 m) with three members; the Golbini-Jorbat composite section (449 m) with three members of the Dalichai Formation (414 m) and two members of the Lar Formation (414 m); the Chaman Bid section (1556 m) with seven members, and the Tooy-Takhtehbashgheh composite section (567 m) with three members of the Chaman Bid Formation (567 m) and four members of the Mozduran Formation (1092 m). Altogether, 80 species of ammonites from the Dalichai and Chaman Bid formations belonging to 30 genera and 16 families are described. Among the taxa Phylloceratidae are most abundant, followed by Ataxioceratidae, Perisphinctidae, and Cardioceratidae. Pachyceratidae are the least common family. The ammonite fauna is of low diversity and is concentrated in several levels. Some of the ammonite genera and species are recorded from Iran for the first time. These include Pachyceras lalandei, Cardioceras praecordatum, Microbajocisphinctes sp., Geyssantia geyssanti, Larcheria schilli, Passendorferia sp., Sequeirosia sp., Phanerostephanus subsenex, Nothostephanus sp., Nannostephanus cf. subcomutus, Parawedekindia callomoni, Physodoceras sp., Extrenodites sp.. Biostratigraphically, thirty ammonite zones have been recognized for the Middle and Upper Jurassic successions at the four studied sections. Based on ammonites, the Dalichai Formation ranges from the Upper Bajocian to Callovian (Dalichai section) and from the Upper Bajocian to Lower Tithonian (Golbini-Jorbat section), the Chaman Bid Formation ranges from the ?Bathonian to Lower Tithonian (Chaman Bid section) and from the Upper Bajocian to Middle Kimmeridgian (Tooy-Takhtehbashgheh section), the Lar Formation ranges from the Middle to Upper Tithonian (Golbini-Jorbat section), and the Mozduran Formation from the Upper Kimmeridgian to ?Tithonian. Forty-four Microfacies types are briefly described. They were grouped into 16 facies associations, which then were interpreted in terms of their palaeoenvironments. They are part of a carbonate system consisting of a platform and adjacent slope to basin. Five major environments are represented: Tidal flat, shelf lagoon, and platform margin barrier as parts of the carbonate platform, and slope to basin representing open marine conditions. The sediments of the Dalichai and Chaman Bid formations are the slope and basinal sediments of the diachronous Lar and Mozduran formations, which formed an extensive carbonate platform in the Middle and Upper Jurassic. / In der sedimentären Abfolge des Mittel- und Oberjura im Alborz (nördlicher Iran) und im Koppeh Dagh (nordöstlicher Iran) werden vier Formationen ausgeschieden: Dalichai- und Lar-Formation im Alborz und Chaman Bid- und Mozduran-Formation im Koppeh Dagh. Die Biostratigraphie, Lithostratigraphie, Mikrofazies, Ablagerungsbedingungen und Paläobiogeographie der Abfolgen werden diskutiert, unter besonderer Berücksichtigung der reichen Ammonitenfauna. Die Abfolgen stellen eine mehr oder wenig kontinuierliche sedimentäre Sequenz dar, die an der Basis und am Top von bedeutenden überregionalen tektonischen Unconfomities begrenzt wird, verursacht durch die Mittel-Cimmerischen Bewegungen im Bajoc und die Spät-Cimmerischen Bewegungen in der frühen Kreide. Die folgenden vier Profile wurden bearbeitet: das Dalichai-Typprofil (97 m) mit drei Membern; das zusammengesetzte Golbini-Jorbat-Profil (449 m) mit drei Membern der Dalichai-Formation (414 m) und zwei Membern der Lar-Formation (414 m); das Chaman Bid-Typprofil (1556 m) mit sieben Membern, und das zusammengesetzte Tooy-Takhtehbashgheh-Profil (567 m) mit drei Membern der Chaman Bid-Formation (567 m) und vier Membern der Mozduran-Formation (1092 m). Insgesamt werden 80 Ammonitenarten aus der Dalichai- und der Chaman Bid-Formation beschrieben, die zu 30 Gattungen und 16 Familien gehören. Die Phylloceratidae zeigen die höchste Abundanz, gefolgt von den Ataxioceratidae, Perisphinctidae und Cardioceratidae. Die Pachyceratidae sind die am wenigsten häufige Familie. Die Ammonitenfauna ist gering divers und an bestimmte Horizonte gebunden. Die folgenden Ammoniten-Gattungen und -Arten werden zum ersten mal aus dem Iran beschrieben: Pachyceras lalandei, Cardioceras praecordatum, Microbajocisphinctes sp., Geyssantia geyssanti, Larcheria schilli, Passendorferia sp., Sequeirosia sp., Phanerostephanus subsenex, Nothostephanus sp., Nannostephanus cf. subcomutus, Parawedekindia callomoni, Physodoceras sp., Extrenodites sp.. 30 Ammoniten-Biozonen konnten in der Mittel- bis Oberjura-Abfolge erkannt werden. Basierend auf der Ammoniten-Biostratigraphie kann die stratigraphische Reichweite der Formationen präzisiert werden: die Dalichai-Formation reicht vom Oberbajoc bis zum Callov (Dalichai-Profil) und vom Oberbajoc bis zum Untertithon (Golbini-Jorbat-Profil); die Chaman Bid-Formation reicht vom ?Bathon bis ins Untertithonian (Chaman Bid-Profil) und vom Oberbajoc bis Mittelkimmeridge (Tooy-Takhtehbashgheh-Profil); die Lar-Formation reicht vom Mittel- bis ins Obertithon (Golbini-Jorbat-Profil); die Mozduran-Formation reicht vom Oberkimmeridge bis zum ?Tithon. 44 Mikrofaziestypen, gruppiert in 16 Fazies-Assoziationen, werden kurz beschrieben und im Hinblick auf ihre Bildungsbedingungen interpretiert. Sie dokumentieren ein Karbonatsystem bestehend aus einer Plattform, einem Hang und einem Becken. Fünf Hauptablagerungsbereiche können ausgeschieden werden: Karbonatwatten, Schelflagune und Plattformrand als Teile der ehemaligen Karbopnatplattform sowie Hang und Becken des offenmarinen Bereiches. Die Sedimente der Dalichai- und Chaman Bid-Formationen repräsentieren Hang- und Becken-Sedimente einer sich diachron in Mittel- und Oberjura bildenden Karbonatplattform, die durch die Lar- und Mozduran-Formationen dokumentiert wird.

Chorasan

Jura <Geologie>

Ammoniten

Biostratigraphie

Lithostratigraphie

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