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Automated Author Profile

Oevelen, Dick Van

Current S-Index

5.4

Sum of Dataset Indices for all datasets

Average Dataset Index per Dataset

0.9

Average Dataset Index per dataset

Total Datasets

6

Total datasets for this author

Average FAIR Score

25.3%

Average FAIR Score per dataset

Total Citations

5

Total citations to the author's datasets

Total Mentions

0

Total mentions of the author's datasets

S-Index Interpretation

S-Index Over Time

Cumulative Citations Over Time

Cumulative Mentions Over Time

Datasets

Metadata record for: The SCOC database, a large, open, and global database with sediment community oxygen consumption rates

This dataset contains key characteristics about the data described in the Data Descriptor The SCOC database, a large, open, and global database with sediment community oxygen consumption rates.
Contents:
1. human readable metadata summary table in CSV format 2. machine readable metadata file in JSON format

Versioning Note:Version 2 was generated when the metadata format was updated from JSON to JSON-LD. This was an automatic process that changed only the format, not the contents, of the metadata.

Authors

  • Stratmann, Tanja ;
  • Soetaert, Karline ;
  • Chih-Lin Wei ;
  • Yu-Shih Lin ;
  • Oevelen, Dick Van
1 Citation0 Mentions13% FAIR0.7 Dataset Index
10.6084/m9.figshare.9960131January 2020

Metadata record for: The SCOC database, a large, open, and global database with sediment community oxygen consumption rates

This dataset contains key characteristics about the data described in the Data Descriptor The SCOC database, a large, open, and global database with sediment community oxygen consumption rates.
Contents:
1. human readable metadata summary table in CSV format 2. machine readable metadata file in JSON format

Versioning Note:Version 2 was generated when the metadata format was updated from JSON to JSON-LD. This was an automatic process that changed only the format, not the contents, of the metadata.

Authors

  • Stratmann, Tanja ;
  • Soetaert, Karline ;
  • Chih-Lin Wei ;
  • Yu-Shih Lin ;
  • Oevelen, Dick Van
1 Citation0 Mentions85% FAIR2.4 Dataset Index
10.6084/m9.figshare.9960131.v2January 2020

Metadata record for: The SCOC database, a large, open, and global database with sediment community oxygen consumption rates

This dataset contains key characteristics about the data described in the Data Descriptor The SCOC database, a large, open, and global database with sediment community oxygen consumption rates.
Contents:
1. human readable metadata summary table in CSV format 2. machine readable metadata file in JSON format


Authors

  • Stratmann, Tanja ;
  • Soetaert, Karline ;
  • Chih-Lin Wei ;
  • Yu-Shih Lin ;
  • Oevelen, Dick Van
1 Citation0 Mentions13% FAIR0.7 Dataset Index
10.6084/m9.figshare.9960131.v1January 2019

Brown&al. Roy Soc Open Sci ESM Table 1 from Metabolic rates are significantly lower in abyssal Holothuroidea than in shallow-water Holothuroidea.

Table 1. Holothurian species-specific metabolic rates (RTMN = temperature- and mass-normalised molar oxygen consumption) with associated environmental data (CD = capture depth; MDO = minimum depth of occurence; O2 = annual mean in situ oxygen concentration; FMAX = maximum monthly mean in situ food availability; LMAX = maximum daily peak in situ light availability) and sources.

Authors

  • Brown, Alastair ;
  • Hauton, Chris ;
  • Stratmann, Tanja ;
  • Sweetman, Andrew ;
  • Oevelen, Dick Van ;
  • Jones, Daniel O. B.
1 Citation0 Mentions13% FAIR0.7 Dataset Index
10.6084/m9.figshare.6269000January 2018

Brown&al. Roy Soc Open Sci ESM Table 1 from Metabolic rates are significantly lower in abyssal Holothuroidea than in shallow-water Holothuroidea

Table 1. Holothurian species-specific metabolic rates (RTMN = temperature- and mass-normalised molar oxygen consumption) with associated environmental data (CD = capture depth; MDO = minimum depth of occurence; O2 = annual mean in situ oxygen concentration; FMAX = maximum monthly mean in situ food availability; LMAX = maximum daily peak in situ light availability) and sources.

Authors

  • Brown, Alastair ;
  • Hauton, Chris ;
  • Stratmann, Tanja ;
  • Sweetman, Andrew ;
  • Oevelen, Dick Van ;
  • Jones, Daniel O. B.
1 Citation0 Mentions13% FAIR0.7 Dataset Index
10.6084/m9.figshare.6269000.v1January 2018

Brown&al. Roy Soc Open Sci ESM Table 1 from Metabolic rates are significantly lower in abyssal Holothuroidea than in shallow-water Holothuroidea.

Table 1. Holothurian species-specific metabolic rates (RTMN = temperature- and mass-normalised molar oxygen consumption) with associated environmental data (CD = capture depth; MDO = minimum depth of occurence; O2 = annual mean in situ oxygen concentration; FMAX = maximum monthly mean in situ food availability; LMAX = maximum daily peak in situ light availability) and sources.

Authors

  • Brown, Alastair ;
  • Hauton, Chris ;
  • Stratmann, Tanja ;
  • Sweetman, Andrew ;
  • Oevelen, Dick Van ;
  • Jones, Daniel O. B.
0 Citations0 Mentions13% FAIR0.3 Dataset Index
10.6084/m9.figshare.6269000.v2January 2018