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Type: | Resource | |
Storage: | The size of this resource is 168.2 KB | |
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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Views: | 639 |
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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
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Content
readme.md
Read me for 'Deep root activity overprints weathering of petrogenic organic carbon in shale' dataset
All of the methods, figures, and results from this dataset can be found in the publication:
Tune, A. K., Druhan, J. L., Lawrence, C. R., & Rempe, D. M. (2023). Deep root activity overprints weathering of petrogenic organic carbon in shale. Earth and Planetary Sciene Letters,
Please see the github repository at (https://github.com/alisontune/OCox_shale_weathering) for the code used to analyze these datasets.
File information:
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) all_sample_incubation.csv
This file contains CO2 concentrations from incubation experiments that incubated bulk material collected during VMS installation. This material included rock chip and fines.
2) rock_chip_incubation.csv
This file contains CO2 concentrations from incubation experiments that incubated rock chips collected during VMS installation. Fines were removed from the rock chips via air flow.
3) bulk_density_vms.xlsx
This file contains bulk density measurements of rock chips collected during VMS installation.
4) ERCZO_miner_published_edit.xlsx
This file contains elemetal analysis and tau data from Gu et al. 2020
5) mineral_database_vms_oxides.xlsx
This file contins elemental oxide analysis from VMS materials collected during installation produced by Bureau Veritas.
6) mineral_database_vms.xlsx
This file contains elemental weight percents of VMS materials collected during installation derived from the elemental oxide data
7) new_radio_gas.xlsx
This file contains CO2(g), O2(g), 13CO2, and 14CO2 concentrations from VMS gas samples
8) new_radio_solid.xlsx
This file contians C, 13C, and 14C concentrations of material collected during VMS installation.
9) water_content_schmidt2020.xlsx
This file contains water content measurements from Schmidt et al 2020 and calculated gas diffusivity coefficients.
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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