Difference between revisions of "Main Page"

From Geoscience Paper of the Future
Jump to: navigation, search
Highest Contributors
(Quick Links: corrected my intended project)
Line 1: Line 1:
  
 
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.
 
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.
 
== Using this Wiki ==
 
'''Learn the basics of how wikis work''':
 
 
* [[Quick_Guide_to_Using_a_Wiki | Quick Guide to Using a Wiki]]
 
* A detailed [//meta.wikimedia.org/wiki/Help:Contents 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
 
 
  <nowiki><!-- Add any wiki Text above this Line -->
 
 
  <!-- Do NOT Edit below this Line --></nowiki>
 
 
* You can see all the prior versions of a page in the "history" tab at the top right of the page
 
  
 
== Quick Links ==
 
== Quick Links ==
Line 90: Line 73:
 
| A semidiscrete finite volume formulation for multiprocess watershed simulation
 
| A semidiscrete finite volume formulation for multiprocess watershed simulation
 
|}
 
|}
 +
 +
== Using this Wiki ==
 +
'''Learn the basics of how wikis work''':
 +
 +
* [[Quick_Guide_to_Using_a_Wiki | Quick Guide to Using a Wiki]]
 +
* A detailed [//meta.wikimedia.org/wiki/Help:Contents 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
 +
 +
  <nowiki><!-- Add any wiki Text above this Line -->
 +
 +
  <!-- Do NOT Edit below this Line --></nowiki>
 +
 +
* You can see all the prior versions of a page in the "history" tab at the top right of the page
  
 
== Acknowledgments ==
 
== Acknowledgments ==
  
 
This activity is organized by the [http://www.geosoft-earthcube.org GeoSoft project] as part of the [http://www.earthcube.org] EarthCube initiative of the US National Science Foundation.
 
This activity is organized by the [http://www.geosoft-earthcube.org GeoSoft project] as part of the [http://www.earthcube.org] EarthCube initiative of the US National Science Foundation.

Revision as of 18:03, 25 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.

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 Physical Oceanography Fisheries Oceanography of Coastal Alabama (FOCAL): A Subset of a Time-Series of Hydrographic and Current Data from a Permanent Moored Station Outside Mobile Bay (13 Apr to 18 May 2011)
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

Using this Wiki

Learn the basics of how wikis work:

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

Acknowledgments

This activity is organized by the GeoSoft project as part of the [1] EarthCube initiative of the US National Science Foundation.