Shilov, Valery; Rea, David K; Basov, Ivan A; Shipboard Scientific Party (2005): Range table from radiolarians in ODP Hole 145-882A [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.315720
Always quote citation above when using data! You can download the citation in several formats below.
Related to:
ODP/TAMU (2005): JANUS Database. Ocean Drilling Program, Texas A&M University, College Station TX 77845-9547, USA; (data copied from Janus 2005-02 to 2005-06), http://www-odp.tamu.edu/database/
Rea, David K; Basov, L A; Janecek, Thomas R; Palmer-Julson, Amanda; et al. (1993): Proceedings of the Ocean Drilling Program|145 Initial Reports. Proceedings of the Ocean Drilling Program, Ocean Drilling Program, 145, 1040 pp, https://doi.org/10.2973/odp.proc.ir.145.1993
Project(s):
Ocean Drilling Program (ODP)
Coverage:
Latitude: 50.363300 * Longitude: 167.600000
Date/Time Start: 1992-07-08T10:30:00 * Date/Time End: 1992-08-05T17:45:00
Minimum DEPTH, sediment/rock: 85.09 m * Maximum DEPTH, sediment/rock: 398.82 m
Event(s):
145-882A * Latitude: 50.363300 * Longitude: 167.600000 * Date/Time Start: 1992-08-05T17:45:00 * Date/Time End: 1992-07-08T10:30:00 * Elevation: -3255.0 m * Penetration: 398.3 m * Recovery: 411.2 m * Location: North Pacific Ocean * Campaign: Leg145 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 42 cores; 398.3 m cored; 0 m drilled; 103.2 % recovery
Parameter(s):
# | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
---|---|---|---|---|---|---|
1 | DEPTH, sediment/rock | Depth sed | m | Geocode | ||
2 | Depth, composite | Depth comp | mcd | Shilov, Valery | ||
3 | Sample code/label | Sample label | Shilov, Valery | DSDP/ODP/IODP sample designation | ||
4 | Radiolarians abundance | Rad abund | Shilov, Valery | Abundance estimate | ||
5 | Radiolarian preservation | Rad preserv | Shilov, Valery | Abundance estimate | ||
6 | Stichocorys sp. | Stichocorys sp. | Shilov, Valery | Abundance estimate | Var. P | |
7 | Lipmanella redondoensis | L. redondoensis | Shilov, Valery | Abundance estimate | ||
8 | Cornutella profunda | C. profunda | Shilov, Valery | Abundance estimate | ||
9 | Botryostrobus aquilonaris | B. aquilonaris | Shilov, Valery | Abundance estimate | ||
10 | Axoprunum acquilonius | A. acquilonius | Shilov, Valery | Abundance estimate | ||
11 | Stichocorys delmontensis | S. delmontensis | Shilov, Valery | Abundance estimate | ||
12 | Sphaeropyle robusta | S. robusta | Shilov, Valery | Abundance estimate | ||
13 | Botryostrobus auritus/australis group | B. auritus/australis gr | Shilov, Valery | Abundance estimate | ||
14 | Stylosphaera angelina | S. angelina | Shilov, Valery | Abundance estimate | ||
15 | Diplocyclas cornutoides | D. cornutoides | Shilov, Valery | Abundance estimate | ||
16 | Lychnocanium nipponicum | L. nipponicum | Shilov, Valery | Abundance estimate | ||
17 | Lithocarpium titan | L. titan | Shilov, Valery | Abundance estimate | ||
18 | Androcyclas heteroporos | A. heteroporos | Shilov, Valery | Abundance estimate | ||
19 | Eucyrtidium cienkowskii | E. cienkowskii | Shilov, Valery | Abundance estimate | ||
20 | Cyrtocapsella tetrapera | C. tetrapera | Shilov, Valery | Abundance estimate | ||
21 | Diplocyclas davisiana | D. davisiana | Shilov, Valery | Abundance estimate | ||
22 | Comment | Comment | Shilov, Valery | Abundance estimate |
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
303 data points
Data
1 Depth sed [m] | 2 Depth comp [mcd] | 3 Sample label | 4 Rad abund | 5 Rad preserv | 6 Stichocorys sp. | 7 L. redondoensis | 8 C. profunda | 9 B. aquilonaris | 10 A. acquilonius | 11 S. delmontensis | 12 S. robusta | 13 B. auritus/australis gr | 14 S. angelina | 15 D. cornutoides | 16 L. nipponicum | 17 L. titan | 18 A. heteroporos | 19 E. cienkowskii | 20 C. tetrapera | 21 D. davisiana | 22 Comment |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
85.09 | 85.09 | 145-882A-9H-CC,12 | A | G | R | C | R | R | C | A | R | rR | A | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||
94.68 | 94.68 | 145-882A-10H-CC,16 | F | M | R | R | F | F | from Leg 145 SR; Ch 5; Table 1; p 96 | ||||||||||||
104.12 | 104.12 | 145-882A-11H-CC,19 | R | G | R | R | rR | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
113.79 | 113.79 | 145-882A-12H-CC,23 | R | G | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | ||||||||||||||
123.05 | 123.05 | 145-882A-13H-CC,14 | F | G | F | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
132.37 | 132.37 | 145-882A-14H-CC,0 | R | G | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
141.61 | 141.61 | 145-882A-15H-CC,6 | R | G | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | ||||||||||||||
151.53 | 151.53 | 145-882A-16H-CC,9 | R | G | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | ||||||||||||||
161.08 | 161.08 | 145-882A-17H-CC,17 | R | M | R | R | F | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
170.88 | 170.88 | 145-882A-18H-CC,25 | R | M | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
180.18 | 180.18 | 145-882A-19H-CC,25 | R | M | R | R | R | F | from Leg 145 SR; Ch 5; Table 1; p 96 | ||||||||||||
189.32 | 189.32 | 145-882A-20H-CC,24 | R | M | R | R | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||
199.31 | 199.31 | 145-882A-21H-CC,23 | R | M | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
208.79 | 208.79 | 145-882A-22H-CC,24 | R | M | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
218.31 | 218.31 | 145-882A-23H-CC,21 | R | M | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
227.79 | 227.79 | 145-882A-24H-CC,20 | R | G | R | R | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||
237.22 | 237.22 | 145-882A-25H-CC,20 | R | G | R | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | ||||||||||||
246.77 | 246.77 | 145-882A-26H-CC,20 | R | G | R | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | ||||||||||||
256.15 | 256.15 | 145-882A-27H-CC,21 | R | G | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
265.68 | 265.68 | 145-882A-28H-CC,10 | R | G | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||||
275.36 | 275.36 | 145-882A-29H-CC,27 | R | G | rR | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
284.21 | 284.21 | 145-882A-30H-CC,21 | R | G | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||||
294.22 | 294.22 | 145-882A-31H-CC,25 | R | G | rR | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
303.84 | 303.84 | 145-882A-32H-CC,20 | R | G | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
312.65 | 312.65 | 145-882A-33H-CC,15 | R | G | R | R | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||
322.69 | 322.69 | 145-882A-34H-CC,23 | F | G | R | rR | F | ? | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||
331.98 | 331.98 | 145-882A-35H-CC,8 | R | G | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
341.68 | 341.68 | 145-882A-36H-CC,26 | F | G | R | R | R | F | R | R | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||
350.84 | 350.84 | 145-882A-37H-CC,24 | R | M | R | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | ||||||||||||
360.54 | 360.54 | 145-882A-38H-CC,24 | R | G | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | |||||||||||||
369.32 | 369.32 | 145-882A-39H-CC,27 | R | G | R | R | R | R | R | R | F | R | from Leg 145 SR; Ch 5; Table 1; p 96 | ||||||||
379.76 | 379.76 | 145-882A-40H-CC,20 | R | G | R | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | ||||||||||||
389.35 | 389.35 | 145-882A-41H-CC,30 | R | G | R | R | R | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 | ||||||||||
398.82 | 398.82 | 145-882A-42H-CC,24 | R | G | R | R | R | R | R | from Leg 145 SR; Ch 5; Table 1; p 96 |