The Eocene‐Oligocene Transition in the South‐Western Neo‐Tethys (Tunisia): Astronomical Calibration and Paleoenvironmental Changes

Abstract: A detailed biostratigraphic, chemostratigraphic, and chronostratigraphic study was carried out in the South‐Western margin of the Neo‐Tethys ocean (Tunisia) covering the Eocene‐Oligocene interval to report potential paleoenvironmental and paleoclimatic changes associated with the growth of the Antarctic ice sheet (AIS). The studied section consists of marls and limestones extending from the Helicosphaera compacta nannofossil Zone (CNE21) to the Reticulofenestra umbilicus Zone (CNO2). The Bc of Clausicoccus sub… Show more

“…11). The negative δ 13 C values in the terminal Eocene (between 11.5 and 18 m) correspond to a similar negative excursion which has been recorded in many other areas worldwide (Barrera et al, 1993;Salamy and Zachos, 1999;Zachos et al, 2001;Pälike et al, 2006;Coxall and Pearson, 2007;Armstrong et al, 2016;Messaoud et al, 2020) and therefore likely represents a global-scale signal. The Eocene-Oligocene transition, covering the uppermost Belaya Glina Formation and the basal part of the Maikop Group, is characterized by a short-term positive shift in δ 13 C by about 0.8 ‰.…”

“…Above this interval, the δ 13 C record for the Pacific, Atlantic and Southern oceans (Salamy and Zachos, 1999;Zachos et al, 2001;Pälike et al, 2006;Coxall and Pearson, 2007;Armstrong et al, 2016) and the southern NeoTethys (Tunisia: Messaoud et al, 2020) tend towards positive values during the early Oligocene. In the Chirkey section, this interval is marked by abrupt fluctuations in δ 13 C of about 1.2 ‰, indicating environmental instability.…”

Stratigraphy, Sedimentology and Geochemistry of the Oligocene – Lower Miocene Maikop Group in Dagestan, Ne Caucasus

“…11). The negative δ 13 C values in the terminal Eocene (between 11.5 and 18 m) correspond to a similar negative excursion which has been recorded in many other areas worldwide (Barrera et al, 1993;Salamy and Zachos, 1999;Zachos et al, 2001;Pälike et al, 2006;Coxall and Pearson, 2007;Armstrong et al, 2016;Messaoud et al, 2020) and therefore likely represents a global-scale signal. The Eocene-Oligocene transition, covering the uppermost Belaya Glina Formation and the basal part of the Maikop Group, is characterized by a short-term positive shift in δ 13 C by about 0.8 ‰.…”

“…Above this interval, the δ 13 C record for the Pacific, Atlantic and Southern oceans (Salamy and Zachos, 1999;Zachos et al, 2001;Pälike et al, 2006;Coxall and Pearson, 2007;Armstrong et al, 2016) and the southern NeoTethys (Tunisia: Messaoud et al, 2020) tend towards positive values during the early Oligocene. In the Chirkey section, this interval is marked by abrupt fluctuations in δ 13 C of about 1.2 ‰, indicating environmental instability.…”

Stratigraphy, Sedimentology and Geochemistry of the Oligocene – Lower Miocene Maikop Group in Dagestan, Ne Caucasus

“…Grain size stratigraphic trend ( ning or coarsening) is a strong sequence stratigraphic tool to identify progradation and retrogradation trends in homogenous sedimentary Formations (Frugone-Álvarez et al, 2017; Macquaker et al, 2007;Thöle et al, 2019;Ver Straeten et al, 2011). Determining regular stratigraphic variations in monotonous mudstone's inorganic/organic geochemistry has lately been utilized to create sequence stratigraphic frameworks (Messaoud et al, 2020;Thöle et al, 2019). HH-XRF is an analytical method to determine the chemical composition of metal, cement, and oil, along with mining (mineralogy and geology), and for environmental analysis of water and waste materials (Chatellier et al, 2015;Hosseininejad et al, 2013;Löwemark et al, 2011;Rush, 2010;Thöle et al, 2019;Zhang et al, 2017).…”

Geochemistry and cyclostratigraphy of homogeneous deposits using high-resolution hand-held X-ray Fluorescence: Outcrop to subsurface correlation, sequence stratigraphy, and constraints on hiatuses (middle-Upper Eocene, Tunisia)

Middle–upper eocene sediments and sea-level dynamics in central Tunisia