/* DATA DESCRIPTION: Citation: Muller, C; Talwani, Manik; Udintsev, Gleb B (2005): Nannofossil abundance of Hole 38-338. PANGAEA, https://doi.org/10.1594/PANGAEA.250676 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 White, Stan; Warnke, Detlef A; Nilsen, T H; Müller, Carla; Morris, D A; Kharin, Gennady S; Faas, Richard W; Caston, V S D; Bjorklund, Kjell R; Talwani, Manik; Udintsev, Gleb B (1976): Initial Reports of the Deep Sea Drilling Project. Initial Reports of the Deep Sea Drilling Project, U.S. Government Printing Office, XXXVIII, 1256 pp, https://doi.org/10.2973/dsdp.proc.38.1976 Further details: Paleontology data base - background and methods (URI: hdl:10013/epic.32352.d001) Project(s): Deep Sea Drilling Project (DSDP) (URI: http://www.deepseadrilling.org/) Coverage: LATITUDE: 67.785200 * LONGITUDE: 5.387700 DATE/TIME START: 1974-08-14T00:00:00 * DATE/TIME END: 1974-08-14T00:00:00 MINIMUM DEPTH, sediment/rock: 0.00 m * MAXIMUM DEPTH, sediment/rock: 353.93 m Event(s): 38-338 * LATITUDE: 67.785200 * LONGITUDE: 5.387700 * DATE/TIME: 1974-08-14T00:00:00 * ELEVATION: -1297.0 m * Penetration: 437 m * Recovery: 207.8 m * LOCATION: North Atlantic/Norwegian Sea/PLATEAU * CAMPAIGN: Leg38 (URI: https://doi.org/10.2973/dsdp.proc.38.1976) * BASIS: Glomar Challenger (URI: http://www-odp.tamu.edu/glomar.html) * METHOD/DEVICE: Drilling/drill rig (DRILL) * COMMENT: 45 cores; 427.5 m cored; 0 m drilled; 48.6 % 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): DEPTH, sediment/rock [m] (Depth sed) * GEOCODE Sample code/label (Sample label) * PI: Muller, C * METHOD/DEVICE: DSDP/ODP/IODP sample designation (URI: hdl:10013/epic.27914.d001) Stratigraphy (Stratigraphy) * PI: Muller, C Braarudosphaera bigelowii (B. bigelowii) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Chiasmolithus altus (C. altus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Chiasmolithus solitus (C. solitus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Coccolithus abisectus (C. abisectus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Coccolithus eopelagicus (C. eopelagicus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Coccolithus pelagicus (C. pelagicus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Cyclococcolithus floridanus (C. floridanus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Cyclococcolithus leptoporus (C. leptoporus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Cyclococcolithus luminis (C. luminis) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Dictyococcites dictyodus (D. dictyodus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Discoaster deflandrei (D. deflandrei) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Discoaster lodoensis (D. lodoensis) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Discolithina desueta (D. desueta) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Discolithina fimbriata (D. fimbriata) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Discolithina pulchra (D. pulchra) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Discolithina sp. (Discolithina sp.) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Discoasteroides kuepperi (D. kuepperi) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Emiliania huxleyi (E. huxleyi) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Gephyrocapsa ericsonii (G. ericsonii) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Helicosphaera carteri (H. carteri) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Helicosphaera euphratis (H. euphratis) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Helicosphaera recta (H. recta) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Imperiaster obscurus (I. obscurus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Markalius inversus (M. inversus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Marthasterites tribrachiatus (M. tribrachiatus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Pseudoemiliania lacunosa (P. lacunosa) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Reticulofenestra clatrata (R. clatrata) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Reticulofenestra lockeri (R. lockeri) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Reticulofenestra pseudoumbilicus (R. pseudoumbilicus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Sphenolithus moriformis (S. moriformis) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Sphenolithus radians (S. radians) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Syracosphaera pulchra (S. pulchra) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Toweius eminens (T. eminens) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Zygolithus dubius (Z. dubius) * PI: Muller, C * METHOD/DEVICE: Abundance estimate Zygolithus protenus (Z. protenus) * PI: Muller, C * METHOD/DEVICE: Abundance estimate License: Creative Commons Attribution 3.0 Unported (CC-BY-3.0) (URI: https://creativecommons.org/licenses/by/3.0/) Size: 251 data points */ Depth sed [m] Sample label Stratigraphy B. bigelowii C. altus C. solitus C. abisectus C. eopelagicus C. pelagicus C. floridanus C. leptoporus C. luminis D. dictyodus D. deflandrei D. lodoensis D. desueta D. fimbriata D. pulchra Discolithina sp. D. kuepperi E. huxleyi G. ericsonii H. carteri H. euphratis H. recta I. obscurus M. inversus M. tribrachiatus P. lacunosa R. clatrata R. lockeri R. pseudoumbilicus S. moriformis S. radians S. pulchra T. eminens Z. dubius Z. protenus 0.00 38-338-1-1 Quaternary T A A F R 1.46 38-338-1-1,145-146 Quaternary F R F R 1.77 38-338-1-2,26-27 Quaternary A A R T 4.25 38-338-1-3,124-125 Quaternary A A A F T 12.98 38-338-2-3,47-48 Quaternary A F A 15.60 38-338-2-CC Quaternary A R A T 21.84 38-338-3-2,133-134 Quaternary A R A T 23.04 38-338-3-3,103-104 Quaternary A T T 40.49 38-338-5-2,98-99 Quaternary R R R T 41.24 38-338-5-3,23-24 Quaternary T T R 56.60 38-338-6-CC Quaternary R T 187.74 38-338-19-5,123-124 Upper oligocene A R F R F 191.26 38-338-20-1,126-127 Upper oligocene A A A R R T F 193.21 38-338-20-3,20-21 Upper oligocene T A A R T R F R 195.51 38-338-20-4,100-101 Upper oligocene F A A A A T A A 197.01 38-338-20-5,100-101 Upper oligocene A A F T A R A 200.18 38-338-21-1,67-68 Upper oligocene A A A A F R R A R 209.36 38-338-22-0,35-36 Upper oligocene A A A R A R A T 217.84 38-338-22-6,93-94 Upper oligocene R F A F A T F A 219.43 38-338-23-1,63-64 Upper oligocene R R A A 226.47 38-338-23-6,17-18 Upper oligocene A F A R A R T A R 228.31 38-338-24-1,30-31 Upper oligocene F F A R A T F A A 235.84 38-338-24-6,33-34 Upper oligocene R F A R A A F T 238.91 38-338-25-1,140-141 Upper oligocene F R A A A T 247.68 38-338-26-1,67-68 Upper oligocene A R F A A 304.61 38-338-32-1,60-61 Lower eocene R T T F F T T F 308.84 38-338-32-4,33-34 Lower eocene T F F A A R R A T 309.46 38-338-32-4,95-96 Lower eocene T R T F A T A T F A 318.61 38-338-33-4,60-61 Lower eocene R R T R R R R T 322.60 38-338-33-CC Lower eocene T R T F R F T T R A 353.93 38-338-37-2,92-93 Lower eocene T R