Paleoenvironmental model for Eocene foraminiferal limestones of the Adriatic carbonate platform (Istrian Peninsula)

Ćosović, Vlasta; Drobne, Katica; Moro, Alan

doi:10.1007/s10347-004-0006-9

Cited by 154 publications

(82 citation statements)

References 30 publications

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“…3) North Adriatic platform (38°N) The Palaeogene succession of the North Adriatic platform reveals the existence of larger benthic foraminifera-dominated assemblages without corals during the Ypresian and Lutetian (Cosovic et al 2004;Zamagni et al 2008). The first coral records after the Palaeocene-Eocene Thermal Maximum point to the uppermost Lutetian (SBZ 16; Cosovic et al 2004).…”

Section: Circum-tethyan Carbonate Platform Evolution During the Palaementioning

confidence: 99%

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Circum-Tethyan carbonate platform evolution during the Palaeogene: the Prebetic platform as a test for climatically controlled facies shifts

HÖNTZSCH¹,

SCHEIBNER²,

BROCK³

et al. 2013

Turkish J Earth Sci

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Section: Circum-tethyan Carbonate Platform Evolution During the Palaementioning

confidence: 99%

“…The first coral records after the Palaeocene-Eocene Thermal Maximum point to the uppermost Lutetian (SBZ 16; Cosovic et al 2004). A significant increase in coral abundance is recorded from the Early Oligocene in successions in Slovenia and in the Po Basin (Nebelsick et al 2005).…”

Section: Circum-tethyan Carbonate Platform Evolution During the Palaementioning

confidence: 99%

Circum-Tethyan carbonate platform evolution during the Palaeogene: the Prebetic platform as a test for climatically controlled facies shifts

HÖNTZSCH¹,

SCHEIBNER²,

BROCK³

et al. 2013

Turkish J Earth Sci

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“…The presence of large and numerous discocyclinids is usually interpreted as an indication of a stable, normal marine environment (Cosovic et al, 2004), and it is generally accepted that larger individuals are commonly found in environments characterized by optimal conditions for a given species (Cosovic and Drobne, 1995). Discocyclinids were described from Eocene carbonates of northern Italy in association with nummulites from the upper part of the outer shelf (Bassi, 2005), while in more distal environments, discocyclinids which could presumably tolerate water depths of up to 100 m were dominant (Geel, 2000).…”

Section: A3 Bioclastic Extraclastic Grainstonementioning

confidence: 99%

“…In the Tethyan region, large accumulations of LBF were generally associated with ramp settings (Buxton and Pedley, 1989) and the relative distribution of different foraminifers across carbonate ramps was used as a valuable tool in paleoenvironmental and paleobathimetric reconstructions (Cosovic et al, 2004;Barattolo et al, 2007). The distribution patterns of fossil LBF were mainly investigated by means of extrapolating environmental proxies gained from extant foraminifers (Beavington-Penney and Racey, 2004) in an attempt to derive parameters such as nutrient and oxygen availability, water chemistry and depth, hydrodynamic energy, and substrate type and stability (Murray, 2001).…”

Section: Introductionmentioning

confidence: 99%

“…Test size and shape is influenced both by the depositional environment, and for a given species by the position that individuals occupy on the carbonate ramp in relation to the limits of their characteristic depth range. Optimal conditions are indicated by large, lenticular morphologies, while smaller, flattened tests are characteristic for communities living close to the extremes of their characteristic depth range (Geel, 2000;Cosovic et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

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Microfacies Analysis of Upper Eocene Shallow-water Carbonates from the Rodnei Mountains (N Romania)

Sahy¹,

Săsăran²,

Tămaș³

2008

Studia UBB, Geologia

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ABSTRACT.A Priabonian carbonate ramp developed in the NW Rodnei Mountains as a part of a Paleogene sedimentary cover that overlies the metamorphic basement of the Eastern Carpathians (N Romania). Two sections, namely Iza Valley and B trâna Spring, were sampled at different locations along the carbonate ramp. The deposits accumulated in a shallow environment, in which relative sea level change is seen as the main controlling factor of facies distribution. A shore face middle ramp inner ramp transition was recorded in both sections. Associations of large benthic foraminifers and high siliciclastic input are the dominant features in the northern part of the ramp, while in the south corals and coralline algae thrived in an environment characterized by low hydrodynamic energy and clastic input. A 4-5 m thick intercalation identified in the middle ramp deposits of both studied sections shows a temporary change in fossil assemblages, with foraminifers almost completely replaced by red algae and rhodoliths, and extensive bioturbation caused by ostracods and gastropods. Towards the top of the carbonate deposits, large bivalve colonies and an increase in clastic input indicate a relative sea-level fall, which ultimately led to the cessation of carbonate sedimentation and the deposition of black shales on a basin-wide scale during the Lower Oligocene.

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Depositional environments and sources for the middle Eocene Fulra Limestone Formation, Kachchh Basin, western India: Evidences from facies analysis, mineralogy, and geochemistry

Srivastava

Singh

2018

Geological Journal

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The middle Eocene Fulra Limestone Formation of the Kachchh Basin, western India was investigated to interpret depositional environments and sources of limestones based on facies analysis, mineralogy, and major, trace, and rare earth elements (REEs) geochemistry. Facies stacking pattern of the Fulra Limestone Formation exhibits an overall shallowing-upward sedimentary succession developed in the middle to inner ramp to lagoonal set-up. Staining of the thin sections and X-ray diffraction patterns show dominance of calcite mineral. The CaO, ranging from 40.45% to 49.69%, is the dominant oxide among the major oxides followed by SiO 2 (4.04-10.3%). The dominance of CaO over MgO suggests that the major mineral phase has been calcite and no dolomitization occurred during the deposition of the Fulra limestone. The low proportion of SiO 2 and Al 2 O 3 suggests low siliciclastic input during the precipitation of the Fulra limestone that is confirmed by the positive correlation of ∑REE with Al 2 O 3 , Fe 2 O 3 , Ni, Th, Sc, and Y and the negative correlation of SiO 2 , Al 2 O 3 , and Sr with CaO. The average value of REE contents in the Fulra Limestone Formation are lower (*16.02 ppm) than the average value of typical marine carbonates (*28 ppm). The Post-Archean Australian Shale-normalized REE + Y patterns of the Fulra limestone exhibit seawater like shale-normalized REE + Y pattern, whereas slightly lower average value of Y/Ho ratio (34.60) than the typical seawater value (~44-74) suggests modification of the seawater, to some extent, by input of freshwater in a coastal environment. The REEs of the Fulra Limestone Formation have similarity with the carbonates of the Arabian Sea and/or shallow marine carbonates with exception of a few elements. It is envisaged from this study that the Fulra limestone was deposited in a shallow marine to coastal set-up where mixing of the continental material in seawater was feasible.

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Paleoenvironmental model for Eocene foraminiferal limestones of the Adriatic carbonate platform (Istrian Peninsula)

Cited by 154 publications

References 30 publications

Circum-Tethyan carbonate platform evolution during the Palaeogene: the Prebetic platform as a test for climatically controlled facies shifts

Circum-Tethyan carbonate platform evolution during the Palaeogene: the Prebetic platform as a test for climatically controlled facies shifts

Microfacies Analysis of Upper Eocene Shallow-water Carbonates from the Rodnei Mountains (N Romania)

Depositional environments and sources for the middle Eocene Fulra Limestone Formation, Kachchh Basin, western India: Evidences from facies analysis, mineralogy, and geochemistry

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