/* DATA DESCRIPTION: Citation: Ellis, C Howard; Ingle, James C; Karig, Daniel E (2005): Nannofossil abundance of Hole 31-299. PANGAEA, https://doi.org/10.1594/PANGAEA.249735 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 Ingle, James C; Karig, Daniel E; Bouma, D E; Ellis, C Howard; Haile, N S; Koizumi, I; Moore, J Casey; Ujiie, H; Watanabe, T; White, S M; Yasuii, M; Ling, Hsin Yi (1975): Initial Reports of the Deep Sea Drilling Project. U. S. Government Printing Office, XXXI, 927 pp, https://doi.org/10.2973/dsdp.proc.31.1975 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: 39.494700 * LONGITUDE: 137.661800 DATE/TIME START: 1973-07-26T00:00:00 * DATE/TIME END: 1973-07-26T00:00:00 MINIMUM DEPTH, sediment/rock: 9.10 m * MAXIMUM DEPTH, sediment/rock: 531.20 m Event(s): 31-299 * LATITUDE: 39.494700 * LONGITUDE: 137.661800 * DATE/TIME: 1973-07-26T00:00:00 * ELEVATION: -2599.0 m * Penetration: 532 m * Recovery: 173.5 m * LOCATION: North Pacific/Japan Sea * CAMPAIGN: Leg31 (URI: https://doi.org/10.2973/dsdp.proc.31.1975) * BASIS: Glomar Challenger (URI: http://www-odp.tamu.edu/glomar.html) * METHOD/DEVICE: Drilling/drill rig (DRILL) * COMMENT: 36 cores; 342 m cored; 18.5 m drilled; 50.4 % 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: Ellis, C Howard * METHOD/DEVICE: DSDP/ODP/IODP sample designation (URI: hdl:10013/epic.27914.d001) Preservation (Preserv) * PI: Ellis, C Howard * COMMENT: G=good, M=moderate, P=poor Stratigraphy (Stratigraphy) * PI: Ellis, C Howard Braarudosphaera bigelowii (B. bigelowii) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate Coccolithus pelagicus (C. pelagicus) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate Cyclococcolithina leptopora (C. leptopora) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate Emiliania annula (E. annula) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate Emiliania huxleyi (E. huxleyi) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate Emiliania ovata (E. ovata) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate Gephyrocapsa aperta (G. aperta) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate Gephyrocapsa caribbeanica (G. caribbeanica) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate Gephyrocapsa doronicoides (G. doronicoides) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate Gephyrocapsa oceanica (G. oceanica) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate Helicopontosphaera kamptneri (H. kamptneri) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate Umbilicosphaera cricota (U. cricota) * PI: Ellis, C Howard * METHOD/DEVICE: Abundance estimate License: Creative Commons Attribution 3.0 Unported (CC-BY-3.0) (URI: https://creativecommons.org/licenses/by/3.0/) Size: 218 data points */ Depth sed [m] Sample label Preserv Stratigraphy B. bigelowii C. pelagicus C. leptopora E. annula E. huxleyi E. ovata G. aperta G. caribbeanica G. doronicoides G. oceanica H. kamptneri U. cricota 9.10 31-299-1-CC P Holocene R R R 11.51 31-299-2-2,50-51 P Holocene A R R 17.10 31-299-2-CC M Holocene R R C C 25.10 31-299-3-CC M Holocene R F F R 34.60 31-299-4-CC M Holocene R R R R F R 45.60 31-299-5-CC M Holocene R F R R C F F R R 52.46 31-299-6-4,45-46 G Holocene C R C F A 55.10 31-299-6-CC M Holocene R F R C C A 68.13 31-299-8-2,12-13 M Holocene R R R F 71.10 31-299-8-CC M Holocene R F F C 83.60 31-299-9-CC P Upper pleistocene R R R 87.56 31-299-10-2,55-56 M Upper pleistocene R F R R R R R F 90.21 31-299-10-4,20-21 M Upper pleistocene F F R R 93.10 31-299-10-CC P Upper pleistocene F R R F 104.20 31-299-11-CC P Upper pleistocene R R R 115.71 31-299-13-2,20-21 M Upper pleistocene R R F 121.60 31-299-13-CC M Upper pleistocene R R 125.03 31-299-14-2,2-3 P Upper pleistocene F R 131.10 31-299-14-CC M Upper pleistocene R 135.06 31-299-15-2,55-56 M Upper pleistocene R R R 138.11 31-299-15-4,60-61 P Lower pleistocene R R R R 140.60 31-299-15-CC P Lower pleistocene R R R R 147.81 31-299-16-4,80-81 P Lower pleistocene R R 148.60 31-299-16-CC P Lower pleistocene R R R 154.26 31-299-17-2,75-76 P Lower pleistocene F R R F R 158.10 31-299-17-CC P Lower pleistocene R F F R 163.72 31-299-18-2,71-72 P Lower pleistocene R R 204.61 31-299-22-4,60-61 P Lower pleistocene R R 205.60 31-299-22-CC P Lower pleistocene R R R R R 209.60 31-299-23-CC P Lower pleistocene R R 239.10 31-299-26-CC P Lower pleistocene R R R 330.60 31-299-30-CC P Lower pleistocene R R 531.20 31-299-38-6,119-120 P R