Halokinetic modulation of sedimentary thickness and architecture: A numerical modelling approach

Autor: Christopher A.-L. Jackson, David M. Hodgson, Ian A. Kane, Mads Huuse, Zoë A. Cumberpatch, Leonardo Muniz Pichel, Ben Kilhams, Emma Finch
Rok vydání: 2021
Předmět:
Zdroj: Cumberpatch, Z A, Finch, E, Kane, I A, Pichel, L M, Jackson, C A L, Kilhams, B A, Hodgson, D M & Huuse, M 2021, ' Halokinetic modulation of sedimentary thickness and architecture : A numerical modelling approach ', Basin Research, vol. 33, no. 5, pp. 2572-2604 . https://doi.org/10.1111/bre.12569
Basin Research
Cumberpatch, Z A, Finch, E, Kane, I A, Pichel, L M, Jackson, C A L, Kilhams, B A, Hodgson, D M & Huuse, M 2021, ' Halokinetic modulation of sedimentary thickness and architecture: A numerical modelling approach ', Basin Research, vol. 33, no. 5, pp. 2572-2604 . https://doi.org/10.1111/bre.12569, https://doi.org/10.1111/bre.12569
ISSN: 1365-2117
0950-091X
Popis: Subsurface salt flow can deform overlying strata and influence contemporaneous sedimentary processes. Studying salt-sediment interactions is challenging in the subsurface due to poor imaging adjacent to salt, and in the field due to the dissolution of halite. Discrete Element Modelling provides an efficient and inexpensive tool to model stratigraphy and deformation around salt structures, which is advantageous over other modelling techniques as it realistically recreates brittle processes such as faulting. Six 2D experiments were run representing 4.6 Myr (46,000 timesteps) to determine the effect of salt growth on syn-kinematic stratigraphy. Halokinetic deformation of stratigraphic architecture was assessed by varying sediment input rates (slow, intermediate, and fast), and increasing and decreasing them through time. Results show the realistic formation and evolution of salt-related faults which define a zone of halokinetic influence, ~3 times the width of the initial diapir. Outside of this, pre- and syn-kinematic stratigraphy are undeformed. Within this zone, syn-kinematic strata are initially isolated into primary salt withdrawal basins, onlapping and thinning towards the salt-cored high. In most models, syn-kinematic strata eventually thin across and cover the diapir roof. Thinning rates are up to six times greater within 350 metres of the diapir, compared to further afield, and typically decrease upwards (with time) and laterally (with distance) from the diapir. Outputs are compared to a subsurface example from the Pierce field, UK North Sea, which highlights the importance of considering local fluctuations in diapir rise rate. These can create stratigraphic architectures that may erroneously be interpreted to represent ‘apparent’ increases/decreases in sedimentation rate. Exposed examples, such as the Bakio diapir, northern Spain, can be used to make inferences of the expected depositional facies, below model resolution. Our models aid prediction of sedimentary unit thickness and thinning rates, and can be used to test interpretations arising from incomplete or low-resolution subsurface and outcrop data when building geological models for subsurface energy.
Databáze: OpenAIRE