Berggren, William A; van den Borch, C C; Sclater, John G (2005): Planktic foraminifera abundance of Hole 22-215 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.240024
Always quote citation above when using data! You can download the citation in several formats below.
Related to:
DSDP (1989): Data from the Deep Sea Drilling Project. Sediment, hard rock and reference files. National Geophysical Data Center, National Environmental Satellite, Data and Information Service, National Oceanic and Atmospheric Administration, U.S. Department of Commerce, 1, CD-ROM
Waterman, Lee S; Veevers, John J; Thompson, Robert W; Pimm, Anthony C; McGowran, Brian; Johnson, D; Hekinian, Roger; Gartner, Stefan; von der Borch, Christopher C; Sclater, John G (1974): Initial Reports of the Deep Sea Drilling Project. Initial Reports of the Deep Sea Drilling Project, U.S. Government Printing Office, XXII, 890 pp, https://doi.org/10.2973/dsdp.proc.22.1974
Further details:
Paleontology data base - background and methods. hdl:10013/epic.32352.d001
Project(s):
Deep Sea Drilling Project (DSDP)
Coverage:
Latitude: -8.121700 * Longitude: 86.791700
Date/Time Start: 1972-02-13T00:00:00 * Date/Time End: 1972-02-13T00:00:00
Minimum DEPTH, sediment/rock: 85.71 m * Maximum DEPTH, sediment/rock: 145.71 m
Event(s):
22-215 * Latitude: -8.121700 * Longitude: 86.791700 * Date/Time: 1972-02-13T00:00:00 * Elevation: -5309.0 m * Penetration: 175 m * Recovery: 116 m * Location: Indian Ocean//BASIN * Campaign: Leg22 * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL) * Comment: 20 cores; 175 m cored; 0 m drilled; 66.3 % recovery
Comment:
Relative abundance: D = dominant, A = abundant, C = common, F = few, R = rare, T = trace, P = present (numerical values are abundance in percent)
Parameter(s):
# | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
---|---|---|---|---|---|---|
1 | DEPTH, sediment/rock | Depth sed | m | Geocode | ||
2 | Sample code/label | Sample label | Berggren, William A | DSDP/ODP/IODP sample designation | ||
3 | Foraminifera, planktic abundance | Foram plankt | Berggren, William A | |||
4 | Stratigraphy | Stratigraphy | Berggren, William A | |||
5 | Acarinina coalingensis | A. coalingensis | Berggren, William A | Abundance estimate | ||
6 | Acarinina mckannai | A. mckannai | Berggren, William A | Abundance estimate | ||
7 | Acarinina pseudotopilensis | A. pseudotopilensis | Berggren, William A | Abundance estimate | ||
8 | Acarinina soldadoensis | A. soldadoensis | Berggren, William A | Abundance estimate | ||
9 | Acarinina soldadoensis angulosa | A. soldadoensis angulosa | Berggren, William A | Abundance estimate | ||
10 | Acarinina wilcoxensis | A. wilcoxensis | Berggren, William A | Abundance estimate | ||
11 | Chiloguembelina wilcoxensis | C. wilcoxensis | Berggren, William A | Abundance estimate | ||
12 | Morozovella abundocamerata | M. abundocamerata | Berggren, William A | Abundance estimate | ||
13 | Morozovella aequa | M. aequa | Berggren, William A | Abundance estimate | ||
14 | Morozovella albeari | M. albeari | Berggren, William A | Abundance estimate | ||
15 | Morozovella angulata | M. angulata | Berggren, William A | Abundance estimate | ||
16 | Morozovella broedermanni | M. broedermanni | Berggren, William A | Abundance estimate | ||
17 | Morozovella convexa | M. convexa | Berggren, William A | Abundance estimate | ||
18 | Morozovella formosa gracilis | M. formosa gracilis | Berggren, William A | Abundance estimate | ||
19 | Morozovella marginodentata | M. marginodentata | Berggren, William A | Abundance estimate | ||
20 | Morozovella occlusa | M. occlusa | Berggren, William A | Abundance estimate | ||
21 | Morozovella subbotinae | M. subbotinae | Berggren, William A | Abundance estimate | ||
22 | Morozovella velascoensis | M. velascoensis | Berggren, William A | Abundance estimate | ||
23 | Planorotalites chapmani | P. chapmani | Berggren, William A | Abundance estimate | ||
24 | Planorotalites pseudomenardii | P. pseudomenardii | Berggren, William A | Abundance estimate | ||
25 | Subbotina patagonica | S. patagonica | Berggren, William A | Abundance estimate | ||
26 | Subbotina quadrata | S. quadrata | Berggren, William A | Abundance estimate | ||
27 | Subbotina triangularis | S. triangularis | Berggren, William A | Abundance estimate | ||
28 | Subbotina velascoensis | S. velascoensis | Berggren, William A | Abundance estimate |
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
237 data points
Data
1 Depth sed [m] | 2 Sample label | 3 Foram plankt | 4 Stratigraphy | 5 A. coalingensis | 6 A. mckannai | 7 A. pseudotopilensis | 8 A. soldadoensis | 9 A. soldadoensis angulosa | 10 A. wilcoxensis | 11 C. wilcoxensis | 12 M. abundocamerata | 13 M. aequa | 14 M. albeari | 15 M. angulata | 16 M. broedermanni | 17 M. convexa | 18 M. formosa gracilis | 19 M. marginodentata | 20 M. occlusa | 21 M. subbotinae | 22 M. velascoensis | 23 P. chapmani | 24 P. pseudomenardii | 25 S. patagonica | 26 S. quadrata | 27 S. triangularis | 28 S. velascoensis |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
85.71 | 22-215-10-2,70-72 | A | Lower eocene | A | C | D | D | A | F | F | A | A | D | ||||||||||||||
87.39 | 22-215-10-3,88-90 | A | Lower eocene | A | C | D | D | A | C | A | C | A | A | D | R | ||||||||||||
93.71 | 22-215-11-1,70-72 | A | Lower eocene | A | C | D | D | C | F | D | A | C | C | C | |||||||||||||
95.21 | 22-215-11-2,70-72 | A | Lower eocene | C | F | D | D | C | D | C | C | C | D | ||||||||||||||
96.71 | 22-215-11-3,70-72 | A | Lower eocene | C | F | D | D | F | F | C | F | F | A | F | |||||||||||||
98.21 | 22-215-11-4,70-72 | A | Lower eocene | F | D | A | F | R | A | C | F | A | F | ||||||||||||||
99.71 | 22-215-11-5,70-72 | A | Lower eocene | D | D | D | F | R | C | R | F | A | A | ||||||||||||||
101.21 | 22-215-11-6,70-72 | A | Lower eocene | D | D | D | R | C | R | F | A | D | |||||||||||||||
104.71 | 22-215-12-2,70-72 | A | Upper paleocene | C | D | R | D | R | |||||||||||||||||||
106.21 | 22-215-12-3,70-72 | C | Upper paleocene | C | F | F | |||||||||||||||||||||
106.21 | 22-215-12-3,70-72 | F | |||||||||||||||||||||||||
107.71 | 22-215-12-4,70-72 | C | Upper paleocene | C | R | C | |||||||||||||||||||||
109.21 | 22-215-12-5,70-72 | F | Upper paleocene | F | R | ||||||||||||||||||||||
110.71 | 22-215-12-6,70-72 | A | Upper paleocene | F | C | F | F | R | C | ||||||||||||||||||
114.21 | 22-215-13-2,70-72 | A | Upper paleocene | C | R | R | F | F | D | C | |||||||||||||||||
115.71 | 22-215-13-3,70-72 | A | Upper paleocene | C | F | R | A | F | |||||||||||||||||||
122.21 | 22-215-14-1,70-72 | A | Upper paleocene | D | R | F | C | R | C | R | D | D | |||||||||||||||
125.21 | 22-215-14-3,70-72 | A | Upper paleocene | A | F | R | F | C | D | D | |||||||||||||||||
126.74 | 22-215-14-4,73-75 | A | Upper paleocene | A | R | R | A | F | |||||||||||||||||||
128.21 | 22-215-14-5,70-72 | A | Upper paleocene | D | C | F | F | D | D | ||||||||||||||||||
129.71 | 22-215-14-6,70-72 | A | Upper paleocene | A | F | R | F | F | A | A | |||||||||||||||||
133.21 | 22-215-15-2,70-72 | C | Upper paleocene | C | F | ||||||||||||||||||||||
134.71 | 22-215-15-3,70-72 | C | Upper paleocene | F | |||||||||||||||||||||||
142.71 | 22-215-16-2,70-72 | A | Upper paleocene | D | F | C | A | R | |||||||||||||||||||
145.71 | 22-215-16-4,70-72 | A | Upper paleocene | R | C | R | F | F | C | C |