Difference between revisions of "Main Page/Start here"
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== Types of Data/Discipline in the Earth Sciences == | == Types of Data/Discipline in the Earth Sciences == | ||
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Geoscience/Earth Science: | Geoscience/Earth Science: | ||
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Atmospheric and space weather science | Atmospheric and space weather science | ||
* o Aeronomy | * o Aeronomy | ||
* o Astronomy | * o Astronomy | ||
− | |||
* o Atmospheric chemistry | * o Atmospheric chemistry | ||
− | |||
* o Air quality | * o Air quality | ||
− | |||
* o Atmospheric modeling | * o Atmospheric modeling | ||
− | |||
* o Atmospheric physics | * o Atmospheric physics | ||
− | |||
* o Atmospheric science | * o Atmospheric science | ||
− | |||
* o Heliophysics | * o Heliophysics | ||
− | |||
* o Meteorology | * o Meteorology | ||
− | |||
* o Radio astronomy | * o Radio astronomy | ||
− | |||
* o Space physics | * o Space physics | ||
− | |||
* o Space weather | * o Space weather | ||
Biology and ecology | Biology and ecology | ||
− | |||
* o Biodiversity studies | * o Biodiversity studies | ||
* o Ecosystem studies | * o Ecosystem studies | ||
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Climate science | Climate science | ||
− | o Climate simulation | + | |
− | Critical zone science | + | * o Climate simulation |
− | o Agronomy | + | * o Critical zone science |
+ | * o Agronomy | ||
+ | |||
+ | |||
Geology | Geology | ||
− | |||
* o Coastal processes | * o Coastal processes | ||
* o Geochronology | * o Geochronology | ||
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Geochemistry | Geochemistry | ||
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* o Biogeochemistry | * o Biogeochemistry | ||
* o Petrology | * o Petrology | ||
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Geophysics | Geophysics | ||
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* o Geodesy | * o Geodesy | ||
* o Geodynamics | * o Geodynamics | ||
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Hydrology | Hydrology | ||
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* o Hydrogeosciences | * o Hydrogeosciences | ||
* o Hydrology | * o Hydrology | ||
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Oceanography | Oceanography | ||
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* o Biological oceanography | * o Biological oceanography | ||
* o Chemical oceanography | * o Chemical oceanography | ||
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Physical geography | Physical geography | ||
− | * o Geospatial | + | * o Geospatial Polar |
− | Polar | ||
− | |||
* o Cryosphere | * o Cryosphere | ||
* o Polar glaciology | * o Polar glaciology | ||
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Social science | Social science | ||
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* o Anthropology | * o Anthropology | ||
* o Economics | * o Economics | ||
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Other science | Other science | ||
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* o Interdisciplinary geoscience | * o Interdisciplinary geoscience | ||
* o Earth system modeling | * o Earth system modeling | ||
− | |||
− | |||
Information/Cyber Science & Technology: | Information/Cyber Science & Technology: | ||
Computer Science | Computer Science | ||
− | |||
* o Algorithms | * o Algorithms | ||
* o Computer science | * o Computer science | ||
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Cyberinfrastructure | Cyberinfrastructure | ||
− | o Cyberinfrastructure and hardware engineer | + | |
− | o Cyberinfrastructure software engineer and programmer | + | * o Cyberinfrastructure and hardware engineer |
− | o High performance computing | + | * o Cyberinfrastructure software engineer and programmer |
− | o Informatics/information systems | + | * o High performance computing |
− | o System design | + | * o Informatics/information systems |
+ | * o System design | ||
+ | |||
+ | |||
Data manager/data services | Data manager/data services | ||
− | |||
* o Data management | * o Data management | ||
* o Data science | * o Data science | ||
Line 152: | Line 136: | ||
* o Satellite processing | * o Satellite processing | ||
* o System integration | * o System integration | ||
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Observational data: | Observational data: |
Revision as of 06:15, October 3, 2014
A Wiki for the Best Practices in Data Publication in the Earth and Environmental Sciences
Goals and Objectives
The best practices for data publication, builds on a successful initiative started in 2007 by EarthChem, to develop and promote best practices for the reporting of geochemical data in scholarly articles and data systems. It is a community-based initiative, conceived by editors, publishers, and operators of data facilities at a series of workshops organized by IEDA (Integrated Earth Data Applications) and EarthChem at major scientific conferences. It is an effort to foster and facilitate communication and knowledge exchange among editors and publishers of Earth Science journals as well as data facilities. Our goal is to develop and promote best practices for scholarly publishing, with an emphasis on data publication in support of open access policies.
Types of Data/Discipline in the Earth Sciences
Geoscience/Earth Science:
Atmospheric and space weather science
- o Aeronomy
- o Astronomy
- o Atmospheric chemistry
- o Air quality
- o Atmospheric modeling
- o Atmospheric physics
- o Atmospheric science
- o Heliophysics
- o Meteorology
- o Radio astronomy
- o Space physics
- o Space weather
Biology and ecology
- o Biodiversity studies
- o Ecosystem studies
- o Geobiology
- o Marine microbiology
- o Microbial studies
- o Population studies
Climate science
- o Climate simulation
- o Critical zone science
- o Agronomy
Geology
- o Coastal processes
- o Geochronology
- o Geomorphology
- o Glaceology
- o Paleobiology
- o Paleoclimate
- o Paleomagnetism
- o Paleoontology
- o Sedimentology
- o Stratigraphy
- o Structural geology
- o Tectonics
Geochemistry
- o Biogeochemistry
- o Petrology
- o Volcanology
Geophysics
- o Geodesy
- o Geodynamics
- o Geophysics
- o Marine geophysics
- o Seismology
Hydrology
- o Hydrogeosciences
- o Hydrology
- o Limnology
- o Watershed dynamics
- o Water resources
- o Water cycles
Oceanography
- o Biological oceanography
- o Chemical oceanography
- o Coastal oceanography
- o Ocean biogeochemistry
- o Oceanography
- o Oceanography modeling
- o Paleooceanography
- o Physical oceanography
Physical geography
- o Geospatial Polar
- o Cryosphere
- o Polar glaciology
- o Polar oceanography
- o Polar atmospheric science
- o Polar space physics
- o Polar geology
- o Polar geophysics
- o Polar geochemistry
- o Polar biology and ecology
- o Antarctic astronomy
- o Polar engineering
Social science
- o Anthropology
- o Economics
- o Human geography
- o Institutional/organizational science
- o Psychology
- o Sociology
Other science
- o Interdisciplinary geoscience
- o Earth system modeling
Information/Cyber Science & Technology: Computer Science
- o Algorithms
- o Computer science
- o Computational science
- o Geographic information science
- o Modeling
- o Numerical modeling
- o Risk modeling
- o Visualization sciences
Cyberinfrastructure
- o Cyberinfrastructure and hardware engineer
- o Cyberinfrastructure software engineer and programmer
- o High performance computing
- o Informatics/information systems
- o System design
Data manager/data services
- o Data management
- o Data science
- o Data services/assimilation
- o Disaster assessment
- o Remote sensing
- o Satellite processing
- o System integration
Observational data:
- Sample specific data: e.g., biogeochemical data
- Spatial data: e.g., seismic data, optical data
- Temporal data: e.g., meteorological and hydrological data
Analytical data: mostly sample specific, e.g., geochemistry
Experimental data:
- Sample specific: e.g., experimental petrology,
- Hypothesis oriented: e.g., biogeochemical experiments
Recommended Practices for Data Publication
Using the discipline of geochemistry as an example:
- Data Accessibility and Format
Access to the complete data is a fundamental requirement for the reproducibility of scientific results.
All NEW geochemical data used in a publication must be made available for future use by:
- submission to an accessible, persistent source such as a public database or data archive (for example, personal web sites are not persistent data archives), if it exists for the specific data type, or by
- listing the data explicitly in a data table associated with the publication.
The data must be available in downloadable format.
For chemical abundance data of samples, elemental or oxide abundance data must be given unless a compelling reason can be provided; elemental abundance ratios are acceptable only if the compositional data do not exist. Isotope ratios are, of course, acceptable.
Data should be reported in a tabular format.
Data must always be available as a downloadable file in a format that can be easily converted into spreadsheet format (for example, .csv, .txt). The file should include units for the listed measured values. This means that if a publication contains a data table in the main text or a pdf or image version of the data table as an electronic supplement, the data in the table(s) must also be available in a downloadable form that can be easily converted to a spreadsheet.
- Data Quality Information
Proper documentation of data quality is essential.
Proper documentation of data quality is fundamental for comparison of research results and estimation of uncertainty. Authors must provide sufficient information (metadata) about the analytical process and reproducibility of measurement in order that the data quality can be properly evaluated. Correction procedures need to be clearly presented. This information is necessary to allow for scholarly reproduction of the results. Basic metadata such as analytical technique, lab, and values measured on reference materials need to accompany the data. If possible, metadata should be provided in standardized tabular format to facilitate access to this information for editors, reviewers, readers, and data managers.
Analytical metadata must be provided for each measured parameter.
If a parameter has been analyzed by more than one method, each method must be documented separately. If possible, this information should be provided in a tabular format.
General analytical metadata include:
- Analytical technique (e.g. ICP, XRF, EMP)
- Laboratory (name of department/lab & institution)
- Analytical accuracy & reproducibility
- a. Name(s) and measured value(s) of (internationally recognized) reference standard(s) measured as unknown sample
- b. Estimated uncertainty of reference standard measurement, and, if applicable, number of measurements
Method specific metadata must include, as appropriate to the method:
- Fractionation correction
- Standardization (Normalization)
- Total procedural blank
- Detection limit
- Calibration
The list below identifies some of the metadata sets that are relevant for geochemical data:
I. Bulk Elemental Analyses (e.g. AAS, HPLC, ICPAES, ICPMS, INAA, XRF)
- Standardization (Normalization)
- Total procedural blank
- Detection limit
II. In-situ Elemental Analyses (e.g. EMP, SIMS, LA-ICPMS)
- Standardization (Normalization)
- Detection limit
- Calibration
III. Bulk Isotopic Analyses (e.g. TIMS, MC-ICPMS)
- Standardization (Normalization)
- Fractionation correction
- Total procedural blank
- Detection limit
IV. In-situ Isotope Analyses (e.g. SIMS, LA-MC-ICPMS, LA-ICPMS)
- Standardization (Normalization)
- Detection limit
- Normalization
- Fractionation correction
- Sample Information
The geochemical data addressed in this policy are tied to samples. Essential information about the samples must be provided in order to allow for proper identification of their origin and type, and to trace their analytical history.
Sample specific metadata should include, if availalble:
- Sample name or global unique identifications: global unique identifiers such as the International Geo Sample Number (IGSN) can be unambiguously referenced to a sample. The IGSN is a global unique 9-digit alphanumeric unique identifier provided and administered by SESAR (System for Earth Sample Registration). It is used together with a person’s or institution’s sample name to ensure unambiguous identification of a sample. IGSNs can be obtained from SESAR by submitting sample metadata. This allows a complete analytical profile of a sample to be established that includes data generated at different times or in different labs, and reported in different publications.
- Sample location: all natural samples for which data are reported require, if possible, information about the sample location, including latitude and longitude (if these are unknown, approximate coordinates obtained by using Google Earth would suffice). Marine samples require a depth below sea level. If applicable, the position of a sample within a stratigraphic section or within a core should be reported.
- Sample classification: samples should be classified (e.g. lithology for rocks and sediments, species for minerals and fossils and age).
- Sampling information such as the cruise or field program (if applicable)
Resources for Data Publication
- Earth System Science Data Journal data policy
- NERC data policy
- GANSEKI data policy
- USGS data publishing policy
- Policy from ICSU's Committee on Data for Science and Technology
- Center for Open Science (COS) data policy
- PLoS One data policy
- ICPSR data deposit guide
- The Data Verse Network Project data policy
Recommended Practices for Data Citations
Data citation is an evolving but increasingly important scientific practice. We see several important purposes of data citation:
- To aid scientific reproducibility through direct, unambiguous reference to the precise data used in a particular study.
- To provide fair credit for data creators or authors, data stewards, and other critical people in the data production and curation process.
- To ensure scientific transparency and reasonable accountability for authors and stewards.
- To aid in tracking the impact of data set and the associated data center through reference in scientific literature.
- To help data authors verify how their data are being used.
- To help future data users identify how others have used the data.
The core required elements of a citation from ESIP:
- Author(s)--the people or organizations responsible for the intellectual work to develop the data set. The data creators.
- Release Date--when the particular version of the data set was first made available for use (and potential citation) by others.
- Version-- the precise version of the data used. Careful version tracking is critical to accurate citation.
- Title-- the formal title of the data set
- Archive and/or Distributor-- the organization distributing or caring for the data, ideally over the long term.
- Locator/Identifier-- this could be a URL but ideally it should be a persistent service, such as a DOI, Handle or ARK, that resolves to the current location of the data in question.
- Access Date and Time-- because data can be dynamic and changeable in ways that are not always reflected in release dates and versions, it is important to indicate when on-line data were accessed.
- Additional fields can be added as necessary to credit other people and institutions, etc. Additionally, it is important to provide a scheme for users to indicate the precise subset of data that were used. This could be the temporal and spatial range of the data, the types of files used, a specific query id, or other ways of describing how the data were subsetted.
- Importance: Data should be considered legitimate, citable products of research. Data citations should be accorded the same importance in the scholarly record as citations of other research objects, such as publications.
- Credit and attribution: Data citations should facilitate giving scholarly credit and normative and legal attribution to all contributors to the data, recognizing that a single style or mechanism of attribution may not be applicable to all data. For example: data citations should provide sufficient information to identify cited data reference within included reference list;
- Evidence: In scholarly literature, whenever and wherever a claim relies upon data, the corresponding data should be cited; e.g., citations should be in close proximity to the claims relying on the data;
- Unique Identification: A data citation should include a persistent method for identification that is machine actionable, globally unique, and widely used by a community
- Access: Data citations should facilitate access to the data themselves and to such associated metadata, documentation, code, and other materials, as are necessary for both humans and machines to make informed use of the referenced data.
- Persistent: Unique identifiers, and metadata describing the data, and its disposition, should persist -- even beyond the lifespan of the data they describe;
- Specificity and verification: Data citation should facilitate access to the data themselves and to such associated metadata, documentation, code, and other material, thus, citation metadata should include additional information that can help identify specific portion of the data related supporting that claim. For example, versions or timeslice information should be supplied with any updated or dynamic dataset;
- Flexibility and interoperability: Data citation should be sufficiently flexible to accommodate the variant practices among communities, but should not differ so much that they compromise interoperability of data citation practices across communities.
Example reference citations:
- Author, year, article title, journal, publisher, DOI
- Author, year, book title, publisher, ISBN
Example data citations:
- Cline, D., R. Armstrong, R. Davis, K. Elder, and G. Liston. 2002, Updated 2003. CLPX-Ground: ISA snow depth transects and related measurements ver. 2.0. Edited by M. Parsons and M. J. Brodzik. National Snow and Ice Data Center. Data set accessed 2008-05-14 at http://dx.doi.org/10.5060/D4MW2F23z
- Author, year dataset title, data repository or archive, version, global persistant identifier
- The plots shown in Figure X show the distribution of selected measures from the main data [author(s), year, portion of subset used]
Resources for Data Citation
- ESIP Data Citation Guidelines
- Force 11 Data Citation Principles
- Datacite
- CODATA
- Digital Curation Center
Index of Data Facilities
Geochemical data
Astronomical data
Seismological data
Meteorological and hydrological data
- Unidata - NCAR
- CUAHSI hydrological database
- EarthChem
- Smithsonian
- Gulf of Mexico Research Initiative
- NERC data centers
- NASA
- NOAA
Map data
Comprehensive data repository
Publishers in the Earth and Environmental Sciences
Data Journals
- Geoscience data journal - Wiley
- Earth System Science Data
- GeoRes - Elsevier
- Earth and Space Science - AGU
- Scientific Data - Nature
Publishers for scholarly articles