The Cretaceous was a time of significant global change, particularly around the
Cenomanian-Turonian Boundary (CTB) (93.5 Ma). The mid-Cretaceous is considered to
mark a period of intense global warming related to widespread tectonic activity, leading to
periods of high sea level and no polar ice. This had great effects on the ocean's structure,
chemistry and circulation, and led to both extinction and diversification of biota.
At the time of the CTB a number of events occurred. Particularly well researched is the
oceanic anoxic event (OAE 2) and the organic-rich black shales deposited during this
interval. Associated with these organic-rich sediments is a positive carbon isotope
anomaly. This excursion has a distinct profile and has hence been used for global
correlation. There was also a significant extinction event, 26% of all genera disappeared
making it one on the five largest extinction events to have occurred in the last 100 my.
This study looks at a number of sites (ODP Sites 762, & 766 (Exmouth Plateau), Aksudere
(in the Crimea), Flaine (French Alps) and Rio Mondego (Portugal)), at a range of
palaeodepths from epicontinental seas to abyssal plains. These sites were chosen from both
the northern and southern hemispheres, giving a range of sites spanning all faunal realms.
Each site was analysed at a high resolution for foraminiferal and isotopic analysis, along
with TOC, trace element and Rock Eval analysis where necessary, in order to understand
the events surrounding the CTB, their effects, and the timings of them at each location to
ultimately produce a global palaeodepth model of the CTB. It is clear that a record of OAE
2 is seen in all locations examined, both with or without organic rich sediments being
recorded.
At all locations a characteristic increase in 5'3C values is seen at the CTB, from -2 to 4%o.
The start of the 813C excursion is in the upper part of the Cenomanian R. cushmani Zone.
This is particularly well seen in the Crimea, a site on the northeastern Tethys margin at a
palaeodepth of -500m. Data from ODP Sites 762 and 766 also show similar carbon isotope
trends in both bulk and foraminiferal samples. These data do, however, also indicate a
degree of diagenetic alteration. Trace elements and SEM analysis of the foraminifera
enable a better understanding of the diagenesis at these sites and demonstrate the
importance of understanding diagenetic effects when looking at these materials. Taking
this into account, all sites studied show more negative values of 5180 over the CTB,
possibly indicating warming over this period.
Foraminiferal analysis of the localities has enabled correlation and timing of the isotopic
and depositional events globally, as well as giving further insight into the extinction and
diversification events seen. Increased productivity is evidenced at all sites and explains the
deposition of both the organic-rich sediments and the associated sediments. A stepwise
extinction and diversification of species is recorded as well as a progression from
oligotrophic competitive species opportunistic eutrophic species as the marine
environments changed and the oxygen minimum zone expanded. This is observed in
regions of organic rich sediment deposition and also settings where no organic matter was
deposited, such as Flaine and Portugal, indicating the global effect of changes in the ocean
structure, chemistry and circulation in all marine environments.
Date of Award | 2006 |
---|
Original language | English |
---|
Awarding Institution | |
---|
Foraminiferal and stable isotope investigation of the Cenomanian-Turonian extinction and oceanic anoxic event
Fisher, J. (Author). 2006
Student thesis: PhD