Abstract
Mass movements are common on the continental slope, affecting not only the subsequent sea floor morphology but often substantially modifying the underlying deposits. Various styles of substrate interaction have been recognised, representing the various degrees of involvement of the underlying material and its incorporation into the mass movement. This work presents a new style of basal interaction not previously described. Based on the morphology of the basal surface of a mass transport deposit, this can be recognised both in seismic data and in an outcrop analogue. A subsurface example, from an ca 100 m thick mass transport deposit located in Santos Basin, offshore Brazil, displays a basal surface with spoon-shaped scours or scoops. These scoops are of the order of tens up to 400 m in maximum dimension, where masses of underlying sediment have been removed and incorporated into the mass movement. Outcrops used for this work are located in La Rioja Province, Western Argentina, where the study involves a well-exposed ca 200 m thick mass transport deposit that crops out continuously over 7 km. Its basal surface is incised irregularly into the underlying sandstones, incorporating the blocks of sandstone into the mass movement. The striking similarities observed between outcrop examples and the northern Santos Basin suggest that they can be effective analogues, facilitating a comprehensive understanding of mass transport deposit dynamics across diverse basin environments.
| Original language | English |
|---|---|
| Pages (from-to) | 708-719 |
| Number of pages | 12 |
| Journal | The Depositional Record |
| Volume | 10 |
| Issue number | 5 |
| Early online date | 17 Apr 2024 |
| DOIs | |
| Publication status | Published - 18 Nov 2024 |
Bibliographical note
We thank Agencia Nacional do Petroleo, Gas e Biocombustíveis (ANP) for providing the seismic data and dGB Earth Science for providing the OpendTect Pro licence. J.P.M thanks the CONICET and finally, we also thank Imaged Reality Ltda and Claudia Ruiz-Graham for the use of Stratbox® for 3D models outcrop characterisation. We extend our gratitude to reviewers Mattia Marini and Claus Fallgatter for their valuable suggestions.Data Availability Statement
The authors do not have permission to share data.Funding
This work was financially supported by Petróleo Brasileiro S/A (Petrobras) through the RD&I clause of contracts for exploration, development and production of oil and natural gas (grants 2016/00284-7 and 2022/00142-9). We thank Agencia Nacional do Petroleo, Gas e Biocombustíveis (ANP) for providing the seismic data and dGB Earth Science for providing the OpendTect Pro licence. V.S.R.A thanks Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES, Brazil) and Petrobras (grant 2016/00284-7) for the scholarship. F.F.V. thanks the Brazilian Council for Scientific and Technological Development (CNPq) for the research fellowship (grant 303119/2020-9). J.P.M thanks the CONICET and finally, we also thank Imaged Reality Ltda and Claudia Ruiz-Graham for the use of Stratbox® for 3D models outcrop characterisation. We extend our gratitude to reviewers Mattia Marini and Claus Fallgatter for their valuable suggestions. The authors state financial support from Petrobras, grants 2016/00284\u20107 and 2022/00142\u20109.
| Funders | Funder number |
|---|---|
| Petróleo Brasileiro S/A | 2016/00284‐7, 2022/00142‐9 |
| Conselho Nacional de Desenvolvimento Científico e Tecnológico | 303119/2020‐9 |
Keywords
- deepwater
- mass transport deposits
- Paganzo Basin
- Santos Basin