Linking uplift, erosion, and sedimentation using landscape evolution models: Madagascar since the Late Cretaceous
DOI: https://doi.org/10.1002/esp.5482
Persistent URL: http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/11306
Persistent URL: http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/11306
Supplement: https://tel.archives-ouvertes.fr/tel-01865476
Jiao, Ruohong; Braun, Jean; Delaunay, Antoine; Robin, Cécile; Guillocheau, François, 2022: Linking uplift, erosion, and sedimentation using landscape evolution models: Madagascar since the Late Cretaceous. In: Earth Surface Processes and Landforms, Band 48, 1: 215 - 229, DOI: 10.1002/esp.5482.
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We present a study to estimate the large‐scale landscape history of a continental margin, by establishing a source‐to‐sink volume balance between the eroding onshore areas and the offshore basins. Assuming erosion as the primary process for sediment production, we strive to constrain a numerical model of landscape evolution that balances the volumes of eroded materials from the continent and that deposited in the corresponding basins, with a ratio imposed for loss of erosion products. We use this approach to investigate the landscape history of Madagascar since the Late Cretaceous. The uplift history prescribed in the model is inferred from elevations of planation surfaces formed at various ages. By fitting the volumes of terrigenous sediments in the Morondava Basin along the west coast and the current elevation of the island, the landscape evolution model is optimized by constraining the erosion law parameters and ratios of sediment loss. The results include a best‐fit landscape evolution model, which features two major periods of uplift and erosion during the Late Cretaceous and the middle to late Cenozoic. The model supports suggestions from previous studies that most of the high topography of the island was constructed since the middle to late Miocene, and on the central plateau the erosion has not reached an equilibrium with the high uplift rates in the late Cenozoic. Our models also indicate that over the geological time scale a significant portion of materials eroded from Madagascar was not archived in the offshore basin, possibly consumed by chemical weathering, the intensity of which might have varied with climate. This paper uses a numerical landscape evolution model to reconstruct the topographic history of Madagascar since the Late Cretaceous. The model is optimised by balancing the volumes of onshore erosion and offshore sedimentation; the former is predicted with erosion laws and based on uplift history inferred from elevated planation surfaces. The modelling results suggest a significant volume loss of materials during the process from erosion to sedimentation, which is likely consumed by chemical weathering.
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Subjects:
chemical weatheringerosion
landscape evolution model
Madagascar
sedimentary basin
source to sink
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