Sebastiano Doss
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View article: Subduction kinematics and carbonate platform interactions
Subduction kinematics and carbonate platform interactions Open
Data and snapshot of workflows enabling reproduction of results Any further updates to analysis workflow will be here: https://github.com/sabinz/DCO-Modelling-of-Deep-Time-Atmospheric-Carbon-Flux-from-Subduction-Zone-Interactions
View article: Subduction and carbonate platform interactions
Subduction and carbonate platform interactions Open
Plate tectonics, as the unifying theory in Earth sciences, controls the functioning of important planetary processes on geological timescales. Here, we present an open‐source workflow that interrogates community digital plate tectonic reco…
View article: Subduction kinematics and carbonate platform interactions
Subduction kinematics and carbonate platform interactions Open
Data and snapshot of workflows enabling reproduction of results Any further updates to analysis workflow will be here: https://github.com/sabinz/DCO-Modelling-of-Deep-Time-Atmospheric-Carbon-Flux-from-Subduction-Zone-Interactions
View article: Subduction kinematics and carbonate platform interactions
Subduction kinematics and carbonate platform interactions Open
Data and snapshot of workflows enabling reproduction of results Any further updates to analysis workflow will be here: https://github.com/sabinz/DCO-Modelling-of-Deep-Time-Atmospheric-Carbon-Flux-from-Subduction-Zone-Interactions
View article: The influence of carbonate platform interactions with subduction zone volcanism on palaeo-atmospheric CO <sub>2</sub> since the Devonian
The influence of carbonate platform interactions with subduction zone volcanism on palaeo-atmospheric CO <sub>2</sub> since the Devonian Open
The CO2 liberated along subduction zones through intrusive/extrusive magmatic activity and the resulting active and diffuse outgassing influences global atmospheric CO2. However, when melts derived from subduction zones intersect buried ca…
View article: Arc volcanism, carbonate platform evolution and palaeo-atmospheric CO <sub>2</sub> : Components and interactions in the deep carbon cycle
Arc volcanism, carbonate platform evolution and palaeo-atmospheric CO <sub>2</sub> : Components and interactions in the deep carbon cycle Open
Carbon dioxide (CO2) liberated at arc volcanoes that intersect buried carbonate platforms plays a larger role in influencing atmospheric CO2 than those active margins lacking buried carbonate platforms. This study investigates the contribu…
View article: Supplementary material to "Arc volcanism, carbonate platform evolution and palaeo-atmospheric CO <sub>2</sub> : Components and interactions in the deep carbon cycle"
Supplementary material to "Arc volcanism, carbonate platform evolution and palaeo-atmospheric CO <sub>2</sub> : Components and interactions in the deep carbon cycle" Open
SupplementsFigure S1: Filtering and resampling of raw proxy-CO2 data (purple crosses).One median value was taken for each time step that displayed multiple observations.The result (blue) has one atmospheric CO2 (ppm) value per time step.Th…
View article: DCO-Modelling-of-Deep-Time-Atmospheric-Carbon-Flux-from-Subduction-Zone-Interactions: Plate Models & Minor Edits
DCO-Modelling-of-Deep-Time-Atmospheric-Carbon-Flux-from-Subduction-Zone-Interactions: Plate Models & Minor Edits Open
EarthByte DCO-commissioned project, Spatio-temporal modelling of deep time atmospheric carbon flux from subduction zone interactions, specifically addresses this goal by using plate reconstructions and cutting-edge, open-source community f…