Multidimensional Analysis of Serpentinite Dehydration Networks and Implications for Volatile Flux in Subduction Zones
- 1Department of Earth Sciences, Utrecht University, Utrecht, Netherlands (a.t.arias@uu.nl)
- 2Department of Earth Science, University of Bergen, Norway
- 3Dipartimento di Scienze della Terra, Università di Genova, Italy
Subduction zones are principal pathways for the cycling of volatiles such as hydrogen and carbonfrom the Earth’s surface to the mantle and back to the atmosphere. This cycling has significant long-term effects on Earth’s climate. However, the processes that lead to volatile release during subduction and total volatile fluxes are poorly understood. In our study, we will quantify and characterize the network architecture of dehydration pathways exhibited as mineralized olivine-bearing metamorphic veins in the exhumed meta-serpentinites from the Erro-Tobbio unit, Italy [1]. Applying network analytical methods and graph theory both macroscopically and microscopically can provide the mode of propagation and describe the controlling factors affecting the evolution of these dehydration networks. Furthermore, multiscale observations can confirm the scalability of the vein network and if quantitative results such as permeability or volatile flux can be extrapolated to larger scales.
Along with 2-D network analysis, these vein networks will be analyzed in 3-dimensions using X-ray tomography and sophisticated machine-learning methods, such as generative adversarial networks. The results of both will be compared, which can then assure whether current machine-learning methods can effectively create statistically equivalent copies of these networks. Lastly, the synthesis of 2-D and 3-D multiscale results should provide meaningful parameters for accurate calculations of volatile flux during the dehydration of subducting slabs.
[1] Plümper et al. (2017) Nature Geoscience 10(2), 150-156.
How to cite: Arias, A., Beinlich, A., Eberhard, L., Scambelluri, M., and Plümper, O.: Multidimensional Analysis of Serpentinite Dehydration Networks and Implications for Volatile Flux in Subduction Zones , EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-2584, https://doi.org/10.5194/egusphere-egu22-2584, 2022.