How do sea-level curves influence modeled marine terrace sequences?
- de Gelder, Gino
- Jara-Muñoz, Julius
- Melnick, Daniel
- Fernández-Blanco, David
- Rouby, Hélène
- Pedoja, Kevin
- Husson, Laurent
- Armijo, Rolando
- Lacassin, Robin
DOIAbstract
(IF 4.12; Q1)International audienceSequences of uplifted marine terraces are widespread and reflect the interaction between climatic and tectonic processes at multiple scales, yet their analysis is typically biased by the chosen sea-level (SL) curve. Here we explore the influence of Quaternary SL curves on the geometry of marine terrace sequences using landscape evolution models (LEMs). First, we modeled the young, rapidly uplifting sequence at Xylokastro (Corinth Rift; <240 ka; ∼1.5 mm/yr), which allowed us to constrain terrace ages, model parameters, and best-fitting SL curves. Models that better reproduced the terraced topography used a glacio-isostatically adjusted SL curve based on coral data (for ∼125 ka), and a eustatic SL curve base...
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