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| Created: | Jan 05, 2022 at 6:28 p.m. | |
| Last updated: | Feb 08, 2023 at 3:13 a.m. | |
| Citation: | See how to cite this resource | |
| Content types: | Single File Content |
| Sharing Status: | Public |
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Abstract
Dataset required to replicate analysis in the manuscript "In-situ observations of organic carbon oxidation in shale regolith and implications for bedrock weathering". Here we provide:
1) CO2 concentrations from incubation experiments using bulk material collected during VMS installation `all_sample_incubation.csv`
2) CO2 concentrations from incubation experiments using rock chips collected during VMS installation `rock_chip_incubation.csv`
3) bulk density measurements from rock chips collected during VMS installation `bulk_density_vms.xlsx`
4) mineral and tau data from Gu et al. 2020 `ERCZO_miner_published_edit.xlsx`
5) elemental oxide analysis from VMS materials collected during installation produced by Bureau Veritas `mineral_database_vms_oxides.xlsx`
6) elemental weight percents of VMS materials collected during installation derived from the elemental oxide data `mineral_database_vms.xlsx`
7) CO2(g), O2(g), 13CO2, and 14CO2 concentrations from VMS gas samples `new_radio_gas.xlsx`
8) C, 13C, and 14C concentrations of material collected during VMS installation `new_radio_solid.xlsx`
9) water content measurements from Schmidt et al 2020 and calculated gas diffusivity coefficients `water_content_schmidt2020.xlsx`
Please see the github repository at https://github.com/alisontune/OCox_shale_weathering for the code used to analyze these datasets.
Subject Keywords
Coverage
Spatial
Temporal
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Content
Related Resources
| The content of this resource is derived from | The temperature and relative rock moisture are derived from datasets curated by the Eel River Critical Observatory through the dendra.science platform. |
| The content of this resource is derived from | Gu, X., Rempe, D. M., Dietrich, W. E., West, A. J., Lin, T.-C., Jin, L., & Brantley, S. L. (2020). Chemical reactions, porosity, and microfracturing in shale during weathering: The effect of erosion rate. Geochimica Et Cosmochimica Acta, 269, 63–100. https://doi.org/10.1016/j.gca.2019.09.044 |
| The content of this resource is derived from | Schmidt, L., & Rempe, D. (2020). Quantifying dynamic water storage in unsaturated bedrock with borehole nuclear magnetic resonance. Geophysical Research Letters, 47(22). https://doi.org/10.1029/2020gl089600 |
| The content of this resource can be executed by | https://github.com/alisontune/OCox_shale_weathering |
Credits
Funding Agencies
This resource was created using funding from the following sources:
| Agency Name | Award Title | Award Number |
|---|---|---|
| Department of Energy, Office of Science Grant | DE-SC0019198 | |
| National Science Foundation Grant | Eel River Critical Zone Observatory | EAR 1331940 |
| National Science Foundation | Graduate Research Fellowship | |
| Geological Society of America | Graduate Student Research Grant |
Contributors
People or Organizations that contributed technically, materially, financially, or provided general support for the creation of the resource's content but are not considered authors.
| Name | Organization | Address | Phone | Author Identifiers |
|---|---|---|---|---|
| William Speiser | ||||
| Marshall Wolfe | ||||
| Philip Bennett | University of Texas | |||
| Daniel Breecker | University of Texas at Austin |
How to Cite
This resource is shared under the Creative Commons Attribution CC BY.
http://creativecommons.org/licenses/by/4.0/
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