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Hydrothermal fluid flow modelling in homogeneous and stratified sedimentary basin (2019)

Galerne, Christophe ; Hasenclever, Jörg

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In: Supplement to: Galerne, Christophe; Hasenclever, Jörg (2019): Distinct degassing pulses during magma invasion in the stratified Karoo Basin – New insights from hydrothermal fluid flow modelling. Geochemistry, Geophysics, Geosystems, https://doi.org/10.1029/2018GC008120

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Publication Date: 2023-01-13

Description: The movies show the evolution in time of 2-D numerical model calculations investigating hydrothermal fluid flow around a cooling sills in a sedimentary basin. Each movie shows the evolution of a single variable for a specific model setup. The reported variables are: water fraction in the host rock (fH2O), mass of methane (mCH4), permeability (Perm), porosity (Phi), temperature (T), and TOC content of the host rock (TOC). S0: five reference simulations in simplified setups S1-S3 : The basin has been dissected in three regions with different basin depths. Each of these regions was investigated in a specific 2D modelling section which is refered to as setup S1, S2 and S3, respectively.

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Type: Dataset

Format: text/tab-separated-values, 24 data points

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Simulated changes in the carbon cycle using the BICYCLE model due to volcanic outgassing of CO2 (2017)

Hasenclever, Jörg ; Knorr, Gregor ; Rüpke, Lars H ; [et al.]

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In: Supplement to: Hasenclever, Jörg; Knorr, Gregor; Rüpke, Lars H; Köhler, Peter; Morgan, Jason Phipps; Garofalo, Kristin; Barker, Stephen; Lohmann, Gerrit; Hall, Ian R (2017): Sea level fall during glaciation stabilized atmospheric CO2 by enhanced volcanic degassing. Nature Communications, 8, 15867, https://doi.org/10.1038/ncomms15867

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Publication Date: 2023-01-13

Description: Paleo-climate records and geodynamic modelling indicate the existence of complex interactions between glacial sea level changes, volcanic degassing, and atmospheric CO2, which may have modulated the climate system's descent into the last ice age. Between ~85-70 ka, during an interval of decreasing axial tilt, the orbital component in global temperature records gradually declined, while atmospheric CO2, instead of continuing is long-term correlation with Antarctic temperature, remained relatively stable. Based on novel global geodynamic models and the joint interpretation of paleo-proxy data as well as biogeochemical simulations, we show that a sea level fall in this interval caused enhanced pressure-release melting in the uppermost mantle, which may have induced a surge in magma and CO2 fluxes from mid-ocean ridges and oceanic hotspot volcanoes. Our results reveal a hitherto unrecognised negative feedback between glaciation and atmospheric CO2 predominantly controlled by marine volcanism on multi-millennial (suborbital) timescales of ~ 5,000-15,000 years.

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Format: text/tab-separated-values, 10 data points

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