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Milankovitch-paced erosion in the southern Central Andes.

G Burch FisherLisa V LunaWilliam H AmidonDouglas W BurbankBas de BoerLennert B StapBodo BookhagenVincent GodardMichael E OskinRicardo N AlonsoErik TuenterLucas J Lourens
Published in: Nature communications (2023)
It has long been hypothesized that climate can modify both the pattern and magnitude of erosion in mountainous landscapes, thereby controlling morphology, rates of deformation, and potentially modulating global carbon and nutrient cycles through weathering feedbacks. Although conceptually appealing, geologic evidence for a direct climatic control on erosion has remained ambiguous owing to a lack of high-resolution, long-term terrestrial records and suitable field sites. Here we provide direct terrestrial field evidence for long-term synchrony between erosion rates and Milankovitch-driven, 400-kyr eccentricity cycles using a Plio-Pleistocene cosmogenic radionuclide paleo-erosion rate record from the southern Central Andes. The observed climate-erosion coupling across multiple orbital cycles, when combined with results from the intermediate complexity climate model CLIMBER-2, are consistent with the hypothesis that relatively modest fluctuations in precipitation can cause synchronous and nonlinear responses in erosion rates as landscapes adjust to ever-evolving hydrologic boundary conditions imposed by oscillating climate regimes.
Keyphrases
  • climate change
  • high resolution
  • mass spectrometry
  • ionic liquid