2005
DOI: 10.1130/g21237.1
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Turnover of larger foraminifera during the Paleocene-Eocene Thermal Maximum and paleoclimatic control on the evolution of platform ecosystems

Abstract: Figure 1. Location map with studied sections projected on line perpendicular to direction of platform progradation. Contours indicate elevations of Galala Mountains. ABSTRACTThe larger-foraminifera turnover (LFT) during the Paleocene-Eocene transition constitutes an important step in Paleogene larger-foraminifera evolution, involving a rapid increase in species diversity, shell size, and adult dimorphism. A platform-to-basin transect in Egypt provides new data on timing and causal mechanisms through correlatio… Show more

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Cited by 139 publications
(106 citation statements)
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“…In this paper we use the nomenclature for the platform stages developed by Scheibner et al (2005) in the Galala Mountains (Egypt; Fig. 2).…”
Section: Tethyan Platform Evolutionmentioning
confidence: 99%
“…In this paper we use the nomenclature for the platform stages developed by Scheibner et al (2005) in the Galala Mountains (Egypt; Fig. 2).…”
Section: Tethyan Platform Evolutionmentioning
confidence: 99%
“…The massive transient temperature peak during the Palaeocene-Eocene thermal maximum caused a Tethyan-wide decline of coral communities. Palaeocene ranikothalids and miscellanids were replaced by Eocene nummulitids and alveolinids (Scheibner et al 2005). This evolutionary trend, known as larger foraminifera turnover, is directly linked to the negative carbon isotope excursion of the Palaeocene-Eocene thermal maximum (OrueEtxebarria et al 2001;Scheibner et al 2005).…”
Section: Early Eocenementioning
confidence: 99%
“…Palaeocene ranikothalids and miscellanids were replaced by Eocene nummulitids and alveolinids (Scheibner et al 2005). This evolutionary trend, known as larger foraminifera turnover, is directly linked to the negative carbon isotope excursion of the Palaeocene-Eocene thermal maximum (OrueEtxebarria et al 2001;Scheibner et al 2005). Carbonate shelves were now dominated by photo-autotrophic larger benthic foraminifera assemblages throughout the Tethys (third phase of the global communifty maturation cycle; Hottinger 2001; Tethyan platform stage III; Scheibner & Speijer 2008a, 2008b.…”
Section: Early Eocenementioning
confidence: 99%
“…The Paleocene exhibited a cooler climate than the Late Cretaceous. In the Early Paleocene, the absence of other reef-building, high-temperature tolerating organisms in the low latitudes, enabled larger foraminifera to occupy this vacant niche and rapidly evolve (Scheibner et al 2005). The Danian and Selandian mark the start of the recovery period for the larger foraminifera.…”
Section: Palaeogeographic Distribution Of the Paleogene Larger Foramimentioning
confidence: 99%
“…The breakdown of the stable oligotrophic environment of the larger benthic foraminifera resulted in the disappearance of most of the extreme K-strategists (Hottinger, 1983). The replacement of SBZ4 by SBZ5 faunas (see Chart 6.2), as indicated by the gradual disappearance of Paleocene taxa such Ranikothalia and Miscellanea and the rise of Nummulites and Alveolina, suggests that such an interruption may have taken place in platform environments at low-latitude continental margins (Scheibner et al, 2006;BouDagher-Fadel et al, 2015;Li et al 2016). The Early Eocene witnessed the appearance of many new larger foraminifera genera (85% of which were cosmopolitan).…”
Section: Palaeogeographic Distribution Of the Paleogene Larger Foramimentioning
confidence: 99%