Difference between revisions of "Main Page"
From Geoscience Paper of the Future
Highest Contributors
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==Before you start== | ==Before you start== | ||
| − | Learn the basics of how wikis work | + | '''Learn the basics of how wikis work''': |
| − | Some tips: | + | * [http://www.organicdatascience.org/framework/index.php/Quick_Guide_to_Using_a_Wiki Quick Guide to Using a Wiki] |
| + | * A detailed [//meta.wikimedia.org/wiki/Help:Contents User's Guide]. | ||
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| + | '''Some tips''': | ||
* You must be logged in before you can edit | * You must be logged in before you can edit | ||
* You can preview your changes before saving, look for the button at the bottom of the edit page | * You can preview your changes before saving, look for the button at the bottom of the edit page | ||
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* You can see all the prior versions of a page in the "history" tab at the top right of the page | * You can see all the prior versions of a page in the "history" tab at the top right of the page | ||
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== Quick Links == | == Quick Links == | ||
Revision as of 13:28, 20 February 2015
The Geoscience Paper of the Future (GPF) activity aims to demonstrate how papers will be published in the future, going beyond a PDF format and including software, datasets, and workflow all published in open and accessible ways that make the paper transparent, reproducible, and machine indexable. We refer to such a paper as a geoscience paper of the future, or GPF for short.
Before you start
Learn the basics of how wikis work:
- Quick Guide to Using a Wiki
- A detailed User's Guide.
Some tips:
- You must be logged in before you can edit
- You can preview your changes before saving, look for the button at the bottom of the edit page
- Add text or edit only above the line that says
<!-- Add any wiki Text above this Line --> <!-- Do NOT Edit below this Line -->
- You can see all the prior versions of a page in the "history" tab at the top right of the page
Quick Links
| Name | Affiliation | Research Area | Topic of the paper |
| Harmony Colella | Arizona State University | Geophysics and fault mechanics | TBD |
| Cedric David | NASA Jet Propulsion Laboratory | Hydrology and river modeling | River Network Routing on the NHDPlus Dataset |
| Ibrahim Demir | University of Iowa | Hydrology | Optimization and evaluation of hydrological network representation techniques for fast access and query in web-based system |
| Wally Fulweiler | Boston University | Coastal marine ecosystems and biogeochemistry | A long-term data set of direct sediment N2 fluxes in a temperate estuary in Rhode Island |
| Leif Karlstrom & Lay Kuan Loh | University of Oregon & Carnegie Mellon University | Volcanology and fluid mechanics | Spectral clustering of spatial point clouds for volcanic vents and associated attributes |
| Kim Miller | Columbia University/Lamont Observatory | Earth surface processes | Effects of intermittency on delta dynamics |
| Heath Mills | University of Houston Clear Lake | Marine geomicrobiology | Molecular Characterization of Water Column Microbial Populations within the Northern Gulf of Mexico Hypoxic Zone |
| Suzanne Pierce | University of Texas Austin | Hydrogeology | Collaborative decision support for water management |
| Jordan Read & Luke Winslow | US Geological Survey | Ecology and physical limnology | Lake catchment modeling |
| Mimi Tzeng | Dauphin Island Sea Lab | Marine biology | Egress of Juvenile Gray Snapper, Lutjanus griseus, from New River, North Carolina |
| Sandra Villamizar | University of California Merced | River ecohydrology | Using whole stream metabolism to assess the response of river ecosystems to flow disturbance events - The case of the San Joaquin River restoration effort. |
| Xuan Yu | University of Delaware | Hydrogeology | A semidiscrete finite volume formulation for multiprocess watershed simulation |
Acknowledgments
This activity is organized by the GeoSoft project as part of the [1] EarthCube initiative of the US National Science Foundation.
