Cyclostratigraphy of the Early to Middle Triassic of the Southern North Sea (CASP.BSSC.3)
This study will explore the potential for climatically controlled sedimentary cycles to be used as a high-order correlation tool within the Bunter Sandstone storage complex. The Bunter Sandstone Formation and adjacent units were deposited under a monsoonal climate, which was sensitive to the effects of Milankovitch cyclicity. Sedimentary cycles reflecting variable precipitation over ~100 kyr periods are evident throughout the equivalent Buntsandstein Group of northwest Germany (Fig. 1). Despite lateral facies variations, such cycles are traceable in wireline logs over considerable distances. However, their correlation potential for the Early to Middle Triassic of the Southern North Sea is hitherto unexplored.
This project will develop a biostratigraphically-calibrated cyclostratigraphy for the Bunter Sandstone CO2 storage complex in the UK and Dutch sectors of the Southern North Sea, and will build upon the palynostratigraphic zonation developed in Projects 1 and 2 (CASP.BSSC.1 & 2). The study will focus on up to 40 selected wells and will involve sedimentological, XRF and wireline log data to identify and correlate sedimentary cycles across the region. The cyclostratigraphic framework will enhance correlation potential, and contribute to the understanding of lateral connectivity and heterogeneity in the reservoir and seal intervals. This study is further supported by accompanying projects that will seek to understand the climatic and sedimentological controls on reservoir and seal development within the Bunter Sandstone storage complex and its application for CO2 sequestration.
Results will be delivered via an interim data release with an associated presentation for client companies and a final technical report containing an integrated cyclostratigraphic framework for the Lower to Middle Triassic of the Southern North Sea, facies and palaeoenvironmental interpretations for selected wells, well-log correlation panels encompassing up to 40 wells from the UK and Dutch sectors, and XRF data for up to 10 selected wells studied by complementary projects within the Bunter Sandstone Storage Complex research theme. It will conclude with a client workshop during which all data and interpretations will be presented and discussed.
The project will launch at the beginning of July 2022 and has a planned duration of 22 months.
Contact(s): Niall Paterson for further information about this research and licensing options.
- How Projects are Designed
- Project History
- Black Sea Project 2019-2021
- Flood Basalt Impact on Hydrocarbon Systems Project 2019-2021
- Dinarides-Hellenides Project 2018-2020
- Late Cretaceous Arctic Source Rock Project 2018-2019
- Barents Shelf Provenance Project 2017-2019
- Uralian Provenance Project 2017-2019
- North Atlantic Margins Evolution Project (NAME) 2017-2019
- Flood Basalt Impact on Hydrocarbon Systems Project 2016-2018
- Black Sea Project 2016-2018
- Mudrock Seals in CO2 Storage Systems Thematic Research
- Bunter Sandstone Storage Complex Thematic Research
- A palynozonation of the Bunter Sandstone CO2 storage complex: onshore analogue study (CASP.BSSC.1)
- Palynostratigraphy of the Bunter Sandstone CO2 storage complex in the Southern North Sea (CASP.BSSC.2)
- Cyclostratigraphy of the Early to Middle Triassic of the Southern North Sea (CASP.BSSC.3)
- Reservoir composition and diagenesis (CASP.BSSC.4)
- Controls on Bunter Sandstone composition (CASP.BSSC.5)
- Uppermost Permian to Middle Triassic seals – onshore analogue study (CASP.BSSC.6)
- Uppermost Permian to Middle Triassic seals – UK and Dutch offshore wells study (CASP.BSSC.7)
- Reactions and Flow of CO2 Fluid in Compositionally Immature Sandstones Thematic Research
- The Impact of Volcaniclastic Rocks on CO2 Storage Thematic Research
- Data Packages
- Geological Collections and Data