Link between complex internal structures and stratigraphy: Xradia – ZEISS MicroXCT-400 of genus Sphaerogypsina Galloway 1933 (CROSBI ID 630393)
Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | međunarodna recenzija
Podaci o odgovornosti
Drobne, Katica ; Ćosović, Vlasta ; Hohenegger, Johann ; Čretnik, Janko ; Baumgartner-Mora, Claudia ; Robinson, Edward ; Rogl, Fred ; Ferrandez Canadell, Carles ; Zuschin, Martin ; Dolenec, Tadej
engleski
Link between complex internal structures and stratigraphy: Xradia – ZEISS MicroXCT-400 of genus Sphaerogypsina Galloway 1933
First, spherical to semi-spherical forms, ranging in diameter from 0.6 to 2 mm with a characteristic chess-board surface and common in Paleogene tropical shallow-water carbonates were described as bryozoans. Later, such forms were classified into the foraminiferal species Sphaerogypsina globulus. In a number of studies that followed, morphological variations of tests found in recent sediments and in rocks of different ages were reported (i.e. Miocene, Late Eocene and Recent). But, all globular gypsinids have been called S. globulus sensu lato because without detailed internal structural characterization, species identification of larger foraminifera is impossible. Without adequate test sections, making a link between Sphaerogypsina and stratigraphy was hampered, too. To obtain an oriented test section for the identification of Sphaerogypsina, which grows by adding chambers in alternated cycles, is difficult. Application of Xradia – ZEISS MicroXCT-400 on tests ranging from the Late Eocene (Hungary), Miocene (Austria) and Pliocene (Jamaica) to recent (Adriatic Sea, Red Sea and Atlantic) combined with studies of Middle Eocene (Jamaica, Venezuela) specimens performed by cathodoluminiscence and transmitted light microscope, document the complexity of test growth. Resolution on a micrometric scale displays the inner character such as the size and position of the embryonic chambers, size and shape of embryonic chambers, juvenile, adult and gerontic chamberlets, size of pores and radial stacked superimposed chamberlets. A biometric analysis of form reveals that: a) recent forms are smaller than fossil ones (Eocene A-forms attained up to 1.85 mm in diameter, Miocene 1.1 mm, recent ones vary from 0.56 to 0.9 mm) ; b) diameters of embryonic cycles have more or less constant values (Eocene of 0.21 mm, Miocene 0.21 mm and recent 0.19 to 0.28 mm) ; c) Miocene and Red Sea tests have the same values of protoconch and deuteroconch diameters, the Eocene test had the largest and the Adriatic form the smallest values ; d) the number of inserted radial stacks, varies according to the diameters of adult cycles. The position of embryonic apparatus wanders, from being at the centre to way off centre (with a different transition off centre). This study proved that differences in internal structures between the examined specimens ranging in age from Eocene, Neogene to Recent are of taxonomic importance and therefore fall within forms known as S. globulus more than one species exist (different genera are not excluded, however).
Sphaerogypsina; MicroXCT-400; Internal structures
nije evidentirano
nije evidentirano
nije evidentirano
nije evidentirano
nije evidentirano
nije evidentirano
Podaci o prilogu
86-86.
2015.
objavljeno
Podaci o matičnoj publikaciji
Berichte des Institutes für Erdwissenschaften Karl-Franzens-Universität Graz Band 21
Gülli, Elisabeth ; Piller, Werner E.
Graz: Institute of Earth Sciences, Department of Geology and Palaeontology, University of Graz
1608-8166
Podaci o skupu
2nd International Congress on Stratigraphy, STRATI 2015
poster
19.07.2015-23.07.2015
Graz, Austrija