# Bismarck Sea Geochemistry Data Over the Last 350 Kyr and New Globally Distributed Sr/Ca Core-top Data #----------------------------------------------------------------------- # World Data Service for Paleoclimatology, Boulder # and # NOAA Paleoclimatology Program #----------------------------------------------------------------------- # Template Version 4.0 # Encoding: UTF-8 # NOTE: Please cite original publication, NOAA Landing Page URL, dataset and publication DOIs (where available), and date accessed when using downloaded data. # If there is no publication information, please cite investigator, study title, NOAA Landing Page URL, and date accessed. # # Description/Documentation lines begin with '#' followed by a space # Data lines have no '#' # # NOAA_Landing_Page: https://www.ncei.noaa.gov/access/paleo-search/study/39727 # Landing_Page_Description: NOAA Landing Page of this file's parent study, which includes all study metadata. # # Study_Level_JSON_Metadata: https://www.ncei.noaa.gov/pub/data/metadata/published/paleo/json/noaa-ocean-39727.json # Study_Level_JSON_Description: JSON metadata of this data file's parent study, which includes all study metadata. # # Data_Type: Paleoceanography # # Dataset_DOI: 10.25921/a22s-2v78 # # Science_Keywords: Warm Pool, Last Glacial Maximum, Last Interglacial, Heinrich Events, Glacial, Interglacial, biogeochemical cycles, carbon cycle, abrupt climate change #--------------------------------------- # Resource_Links # # Data_Download_Resource: https://www.ncei.noaa.gov/pub/data/paleo/contributions_by_author/lawson2024/lawson2024-srca-coretop.txt # Data_Download_Description: NOAA Template File; Benthic Sr/Ca Core-top Data # #--------------------------------------- # Contribution_Date # Date: 2024-09-05 #--------------------------------------- # File_Last_Modified_Date # Date: 2025-04-18 #--------------------------------------- # Title # Study_Name: Bismarck Sea Geochemistry Data Over the Last 350 Kyr and New Globally Distributed Sr/Ca Core-top Data #--------------------------------------- # Investigators # Investigators: Lawson, V.J. (https://orcid.org/0000-0003-3200-6194); Rosenthal, Y. (https://orcid.org/0000-0002-7546-6011); Bova, S.C. (https://orcid.org/0000-0002-5064-8775); Bu, K.(https://orcid.org/0009-0004-1097-6426); Lambert, J.(https://orcid.org/0000-0002-0687-1064); Linsley, B. K. (https://orcid.org/0000-0003-2085-0662) #--------------------------------------- # Description_Notes_and_Keywords # Description: International Ocean Discovery Program Expedition 363 Sites U1486 and U1487. Work on the isotopes from U1487 was supported by US Science Support Program Post- Expedition Activity Awards for Exp. 363 to B.K.L. It was also supported by a funding from the Lamont-Doherty Earth Observatory Climate Center to B.K.L. and J.E.L. Support for B.K.L.’s time was partially provided by the Vetlesen Foundation via a gift to the Lamont-Doherty Earth Observatory. #--------------------------------------- # Publication # Authors: Lawson, V.J., Y. Rosenthal, S. C. Bova, J. Lambert, B. K. Linsley, K. Bu, V. J. Clementi, A. Elmore, E. L. McClymont # Published_Date_or_Year: 2024 # Published_Title: Controls on Sr/Ca, S/Ca, and Mg/Ca in Benthic Foraminifera: Implications for the Carbonate Chemistry of the Pacific Ocean Over the Last 350 ky # Journal_Name: Geochemistry, Geoophysics, Geosystems # Volume: 25 # Edition: # Issue: 8 # Pages: # Report_Number: e2024GC011508 # DOI: 10.1029/2024GC011508 # Online_Resource: https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2024GC011508 # Full_Citation: # Abstract: Boron to calcium (B/Ca) records in benthic foraminifera, used for reconstructing the carbonate ion saturation state (ΔCO3) of the deep ocean, suggest that carbon sequestration in the Southern Pacific contributed to lowering atmospheric CO2 during the last glacial interval. However, the spatial and temporal extent of this storage is debated due to limited ΔCO3 records. To increase available ΔCO3 records, we explored using strontium and sulfur to calcium (Sr/Ca, S/Ca) in Planulina wuellerstorfi as additional proxies for ΔCO3 based on comparison with paired B/Ca down-core records from Pacific Sites U1486 (1,332 m depth) and U1487 (874 m depth) cored during the International Ocean Discovery Program Expedition 363. The Sr/Ca and S/Ca records from P. wuellerstorfi closely covary with the B/Ca-derived ΔCO3 records. Temperature, reconstructed using Uvigerina peregrina magnesium to calcium (Mg/Ca), has no discernible effect on Sr/Ca, whereas S/Ca also varies with Mg/Ca in both U. peregrina and P. wuellerstorfi, suggesting an additional temperature effect. Mg/Ca records from P. wuellerstorfi are affected by both temperature and ΔCO3. We assess calibrations of Sr/Ca to ΔCO3 for the Atlantic, Pacific, and Indian Oceans and recommend using the down-core rather than core-top calibrations as they yield consistent sensitivity, though with offsets, in all ocean basins. Reconstructing Pacific ΔCO3 records from sites U1486, U1487, and DSDP 593, we demonstrate the benefit of using Sr/Ca as an additional ΔCO3 proxy to assess the contribution of the Southern Pacific to the increase of atmospheric CO2 at glacial terminations. #--------------------------------------- # Publication # Authors: Lambert, J.E., Gibson, K.A., Linsley, B.K.,Bova, S.C., Rosenthal, Y., and Surprenant, M. # Published_Date_or_Year: 2022 # Published_Title: Equatorial Pacific bulk sediment d15N supports a secular increase in Southern Ocean nitrate utilization after the mid-Pleistocene Transition # Journal_Name: Quaternary Science Reviews # Volume: 278 # Edition: # Issue: # Pages: # Report_Number: 107348 # DOI: 10.1016/j.quascirev.2021.107348 # Online_Resource: # Full_Citation: # Abstract: #--------------------------------------- # Publication # Authors: Lambert, J. E., Linsley, B. K., Abell, J. T., Bova, S. C., Winckler, G., Rosenthal, Y., et al. # Published_Date_or_Year: 2023 # Published_Title: Obliquity-driven subtropical forcing of the thermocline after 240 ka in the southern sector of the Western Pacific Warm Pool # Journal_Name: Palaeogeography, Palaeoclimatology, Palaeoecology # Volume: 278 # Edition: # Issue: # Pages: # Report_Number: 107348 # DOI: 10.1016/j.palaeo.2023.111578 # Online_Resource: # Full_Citation: # Abstract: #--------------------------------------- # Publication # Authors: Bainbridge, A. E. # Published_Date_or_Year: 1981 # Published_Title: GEOSECS Atlantic expedition, Volume 1, hydrographic data # Journal_Name: National Science Foundation # Volume: # Edition: # Issue: # Pages: # Report_Number: # DOI: # Online_Resource: # Full_Citation: # Abstract: #--------------------------------------- # Publication # Authors: Broecker, W.S., Spence, D.W., and Craig, H. # Published_Date_or_Year: 1982 # Published_Title: GEOSECS Pacific expedition Volume 3, hydrographic data # Journal_Name: National Science Foundation # Volume: # Edition: # Issue: # Pages: # Report_Number: # DOI: # Online_Resource: # Full_Citation: # Abstract: #--------------------------------------- # Publication # Authors: Weiss, R.F., Broecker, W.S., Craig, H., and Spencer, D.W. # Published_Date_or_Year: 1983 # Published_Title: GEOSECS Indian Ocean Expedition Volume 5, hydrographic data # Journal_Name: National Science Foundation # Volume: # Edition: # Issue: # Pages: # Report_Number: # DOI: # Online_Resource: # Full_Citation: # Abstract: #--------------------------------------- # Publication # Authors: Tachikawa, K., Cartapanis, O., Vidal, L., Beaufort, L., Barlyaeva, T., and Bard, E. # Published_Date_or_Year: 2011 # Published_Title: The precession phase of hydrological variability in the Western Pacific Warm Pool during the past 400 ka # Journal_Name: Quaternary Science Reviews # Volume: 25-26 # Edition: # Issue: # Pages: 3716-3727 # Report_Number: # DOI: 10.1016/j.quascirev.2011.09.016 # Online_Resource: # Full_Citation: # Abstract: #--------------------------------------- # Publication # Authors: Lisiecki, L.E., and Raymo, M.E. # Published_Date_or_Year: 2005 # Published_Title: A Pliocene-Pleistocene stack of 57 globally distributed benthic d18O records # Journal_Name: Paleoceanography # Volume: 20 # Edition: # Issue: 1 # Pages: # Report_Number: PA1003 # DOI: 10.1029/2004PA001071 # Online_Resource: # Full_Citation: # Abstract: #--------------------------------------- # Publication # Authors: Chapman, P. # Published_Date_or_Year: 1998 # Published_Title: The World Ocean Circulation Experiment (WOCE) # Journal_Name: Marine Technology Society Journal # Volume: # Edition: # Issue: 32 # Pages: 23-36 # Report_Number: # DOI: # Online_Resource: # Full_Citation: # Abstract: #--------------------------------------- # Publication # Authors: Sharp, J.D., Pierrot, D., Humphreys, M.P., Epitalon, J.-M., Orr, J.C., Lewis, E., and Wallace, D.W.R. # Published_Date_or_Year: 2020 # Published_Title: CO2SYS.v3 (No. CO2-system-Extd, v3.0) # Journal_Name: MathWorks # Volume: # Edition: # Issue: # Pages: # Report_Number: # DOI: # Online_Resource: # Full_Citation: # Abstract: #--------------------------------------- # Funding_Agency # Funding_Agency_Name: US National Science Foundation # Grant: OCE-1834208 #--------------------------------------- # Site_Information # Site_Name: Global Ocean Sites # Location: Global Ocean # Northernmost_Latitude: 90 # Southernmost_Latitude: -50 # Easternmost_Longitude: 180 # Westernmost_Longitude: -180 # Elevation_m: #--------------------------------------- # Data_Collection # Collection_Name: Benthic Sr/Ca Core-top Lawson2024 # First_Year: # Last_Year: # Time_Unit: # Core_Length_m: # Parameter_Keywords: trace metals in carbonates # Notes: Benthic foraminiferal Sr/Ca from a globally distributed collection of core tops is paired with modern ΔCO3 data from GEOSECS Atlantic, Pacific, and Indian Ocean Expeditions (Bainbridge, 1981; Broecker et al., 1982; Weiss et al., 1983). #--------------------------------------- # Chronology_Information # Chronology: #--------------------------------------- # Variables # PaST_Thesaurus_Download_Resource: https://www.ncei.noaa.gov/access/paleo-search/skos/past-thesaurus.rdf # PaST_Thesaurus_Download_Description: Paleoenvironmental Standard Terms (PaST) Thesaurus terms, definitions, and relationships in SKOS format. # # Data variables follow that are preceded by "##" in columns one and two. # Variables list, one per line, shortname-tab-var components: what, material, error, units, seasonality, data type, detail, method, C or N for Character or Numeric data) # ## Core sample identification,,,,,paleoceanography,,,C,core name ## Ocean notes,,,,,paleoceanography,,,C,ocean of core ## Region notes,,,,,paleoceanography,,,C,region of ocean ## Species notes,,,,,paleoceanography,,,C,species used ## Depth collection water depth,,,meter,,paleoceanography,,,N,meters below sea level ## Temperature temperature,sea water,,degree Celsius,,instrumental,,,N,Temperature from the closest station with data near the collection water depth. Stations from the World Ocean Circulation Experiment (Chapman 1998); data from GEOSECS Atlantic+Pacific+Indian Ocean Expeditions (Bainbridge 1981; Broecker et al. 1982; Weiss et al. 1983). ## DCO3 calcite saturation state,sea water,,micromole per kilogram,,instrumental,,,N,DeltaCO3 calculated using CO2SYS.v3 (Sharp et al. 2020) from temperature and alkalinity and total dissolved inorganic carbon from the closest station with data near the collection water depth. Stations from the World Ocean Circulation Experiment (Chapman 1998); data from GEOSECS Atlantic+Pacific+Indian Ocean Expeditions (Bainbridge 1981; Broecker et al. 1982; Weiss et al. 1983). ## Sr/Ca strontium/calcium,benthic foraminifer,,millimole per mole,,paleoceanography,,,N,Analysis run at Rutgers Inorganic Analytical Laboratory ## Latitude latitude,,,degree north,,paleoceanography,,,C, ## Longitude longitude,,,degree east,,paleoceanography,,,C, #------------------------ # Data: # Data lines follow (have no #) # Data line format - tab-delimited text, variable short name as header # Missing_Values: Core Ocean Region Species Depth Temperature DCO3 Sr/Ca Latitude Longitude EN66.010 GGC Atlantic Sierra Leone Rise C. kullenbergi 3527 2.46 20.20 1.15 6° 39' N 21° 54' W EN66.010 GGC Atlantic Sierra Leone Rise P. wuellerstorfi 3527 2.46 20.20 1.26 6° 39' N 21° 54' W EN66.016 GGC Atlantic Sierra Leone Rise P. wuellerstorfi 3152 2.62 25.70 1.33 5° 28' N 21° 08' W EN66.021 GGC Atlantic Sierra Leone Rise C. kullenbergi 3995 2.42 13.00 1.17 4° 14' N 20° 38' W EN66.021 GGC Atlantic Sierra Leone Rise P. wuellerstorfi 3995 2.42 13.00 1.27 4° 14' N 20° 38' W EN66.026 GGC Atlantic Sierra Leone Rise P. wuellerstorfi 4745 2.27 -0.40 1.17 3° 05' N 20° 01' W EN66.029 GGC Atlantic Sierra Leone Rise C. kullenbergi 5104 2.20 -7.40 1.22 2° 28' N 19° 46' W EN66.029 GGC Atlantic Sierra Leone Rise P. wuellerstorfi 5104 2.20 -7.40 1.21 2° 28' N 19° 46' W EN66.029 GGC Atlantic Sierra Leone Rise P. wuellerstorfi 5104 2.20 -7.40 1.25 2° 28' N 19° 46' W EN66.029 GGC Atlantic Sierra Leone Rise P. wuellerstorfi 5104 2.20 -7.40 1.12 2° 28' N 19° 46' W EN66.032 GGC Atlantic Sierra Leone Rise P. wuellerstorfi 5003 2.19 -7.70 1.16 2° 28' N 19° 44' W EN66.044 GGC Atlantic Sierra Leone Rise C. kullenbergi 3428 2.53 21.70 1.13 5° 16' N 21° 43' W EN66.044 GGC Atlantic Sierra Leone Rise P. wuellerstorfi 3428 2.53 21.70 1.27 5° 16' N 21° 43' W KNR 110.084 BC Atlantic Ceara Rise C. kullenbergi 2947 2.75 38.30 1.28 4° 22' N 43° 31' W KNR 110.086 BC Atlantic Ceara Rise P. wuellerstorfi 3320 2.56 29.00 1.31 4° 27' N 43° 29' W KNR 110.086 BC Atlantic Ceara Rise P. wuellerstorfi 3320 2.56 29.00 1.31 4° 27' N 43° 29' W KNR 110.088 BC Atlantic Ceara Rise P. wuellerstorfi 2952 2.75 38.20 1.35 4° 38' N 43° 39' W KNR 110.090 BC Atlantic Ceara Rise P. wuellerstorfi 3654 2.45 20.70 1.31 4° 43' N 43° 25' W KNR 110.090 BC Atlantic Ceara Rise C. kullenbergi 3654 2.45 20.70 1.34 4° 43' N 43° 25' W KNR 110.090 BC Atlantic Ceara Rise P. wuellerstorfi 3654 2.45 20.70 1.31 4° 43' N 43° 25' W KNR 110.092 BC Atlantic Ceara Rise P. wuellerstorfi 3882 2.40 15.00 1.23 4° 46' N 43° 17' W KNR 110.092 BC Atlantic Ceara Rise P. wuellerstorfi 3882 2.40 15.00 1.27 4° 46' N 43° 17' W KNR 110.092 BC Atlantic Ceara Rise P. wuellerstorfi 3882 2.40 15.00 1.27 4° 46' N 43° 17' W KNR 110.092 BC Atlantic Ceara Rise P. wuellerstorfi 3882 2.40 15.00 1.23 4° 46' N 43° 17' W KNR 110.094 BC Atlantic Ceara Rise P. wuellerstorfi 4107 1.52 9.30 1.26 4° 53' N 43° 05' W KNR 110.096 BC Atlantic Ceara Rise P. wuellerstorfi 4427 0.91 1.40 1.20 5° 09' N 43° 59' W KNR 110.099 BC Atlantic Ceara Rise P. wuellerstorfi 4643 1.05 -4.00 1.22 4° 22' N 43° 44' W KNR 64 5PC Atlantic North West Atlantic C. kullenbergi 3047 3.70 28.30 1.20 16° 31.2' N 74° 48.6' W PS 2073-1 MC Atlantic Southern Ocean P. wuellerstorfi 4692 0.92 -23.30 1.13 39° 35' S 14° 34' E PS 2081-1 MC Atlantic Southern Ocean P. wuellerstorfi 4794 0.67 -25.30 1.12 42° 42' S 12° 12' E PS 2083-1 MC Atlantic Southern Ocean C. kullenbergi 1955 2.31 26.42 1.22 46° 22' S 7° 02' E PS 2106-1 MC Atlantic Southern Ocean C. kullenbergi 912 3.34 41.69 1.20 41° 51' S 0° 06' E PS 2108-1 MC Atlantic Southern Ocean P. wuellerstorfi 4920 0.40 -27.30 1.08 39° 50' S 1° 02' E OC205-2 BC48 Atlantic Little Bahama Banks C. pachyderma 580 13.31 101.40 1.41 26° 14.4' N 77° 40.8' W OC205-2 BC48 Atlantic Little Bahama Banks C. pachyderma 580 13.31 101.40 1.44 26° 14.4' N 77° 40.8' W OC205-2 BC48 Atlantic Little Bahama Banks C. pachyderma 580 13.31 101.40 1.50 26° 14.4' N 77° 40.8' W OC205-2 BC48 Atlantic Little Bahama Banks C. pachyderma 580 13.31 101.40 1.44 26° 14.4' N 77° 40.8' W OC205-2 BC48 Atlantic Little Bahama Banks C. pachyderma 580 13.31 101.40 1.42 26° 14.4' N 77° 40.8' W OC205-2 BC48 Atlantic Little Bahama Banks C. pachyderma 580 13.31 101.40 1.52 26° 14.4' N 77° 40.8' W OC205-2 BC51 Atlantic Little Bahama Banks C. pachyderma 830 8.20 72.40 1.32 26° 13.8' N 77° 42.0' W OC205-2 BC52 Atlantic Little Bahama Banks C. pachyderma 668 11.49 91.60 1.41 26° 14.4' N 77° 41.4' W OC205-2 BC52 Atlantic Little Bahama Banks C. pachyderma 668 11.49 91.60 1.46 26° 14.4' N 77° 41.4' W OC205-2 BC52 Atlantic Little Bahama Banks C. pachyderma 668 11.49 91.60 1.39 26° 14.4' N 77° 41.4' W OC205-2 BC54 Atlantic Little Bahama Banks C. pachyderma 1043 5.34 58.90 1.47 26° 11.4' N 77° 42.6' W OC205-2 BC57 Atlantic Little Bahama Banks C. pachyderma 1243 4.50 52.10 1.44 26° 09.6' N 77° 43.2' W OC205-2 BC57 Atlantic Little Bahama Banks P. wuellerstorfi 1243 4.50 52.10 1.43 26° 09.6' N 77° 43.2' W OC205-2 BC59 Atlantic Little Bahama Banks P. wuellerstorfi 1477 4.20 43.90 1.40 26° 15' N 77° 73' W OC205-2 BC69 Atlantic Little Bahama Banks C. pachyderma 735 9.86 83.27 1.43 26° 13.8' N 77° 41.4' W OC205-2 BC76 Atlantic Little Bahama Banks C. pachyderma 529 14.20 110.80 1.56 26° 13.8' N 77° 39.6' W OC205-2 BC76 Atlantic Little Bahama Banks C. pachyderma 529 14.20 110.80 1.59 26° 13.8' N 77° 39.6' W OC205-2 BC77 Atlantic Little Bahama Banks C. pachyderma 433 16.55 125.50 1.57 26° 13.8' N 77° 39.6' W OC205-2 BC79 Atlantic Little Bahama Banks C. pachyderma 301 18.38 147.70 1.55 26° 13.8' N 77° 39.0' W OC205-2 BC79 Atlantic Little Bahama Banks C. pachyderma 301 18.38 147.70 1.64 26° 13.8' N 77° 39.0' W OC205-2 BC79 Atlantic Little Bahama Banks C. pachyderma 301 18.38 147.70 1.63 26° 13.8' N 77° 39.0' W OC205-2 BC79 Atlantic Little Bahama Banks C. pachyderma 301 18.38 147.70 1.64 26° 13.8' N 77° 39.0' W OC205-2 BC79 Atlantic Little Bahama Banks C. pachyderma 301 18.38 147.70 1.58 26° 13.8' N 77° 39.0' W PLDS 66 BC Eq. Pacific Ontong Java Plateau P. wuellerstorfi 3496 1.48 -1.17 1.20 0° 57' N 104° 06' E PLDS 72 BC Eq. Pacific Ontong Java Plateau P. wuellerstorfi 3626 1.42 -2.33 1.20 1° 01' N 109° 16' E PLDS 77 BC Eq. Pacific Ontong Java Plateau P. wuellerstorfi 4366 1.47 -9.68 1.14 1° 04' N 119° 56' E P1-92-AR B7 Atlantic Arctic Ocean P. wuellerstorfi 1055 -1.00 43.82 1.25 74° 49.22' N 157° 33.48'W P1-92-AR B8 Atlantic Arctic Ocean P. wuellerstorfi 1402 -1.00 40.61 1.25 74° 49.42' N 157° 25.54'W P1-93-AR B5 Atlantic Arctic Ocean P. wuellerstorfi 1942 -1.00 35.25 1.35 74° 44.44' N 157° 23.50'W P1-94-AR B17 Atlantic Arctic Ocean P. wuellerstorfi 2217 -1.00 32.34 1.33 81° 16.20' N 178° 58.20' W P1-94-AR B19 Atlantic Arctic Ocean P. wuellerstorfi 2400 -1.00 30.33 1.34 82° 27.00' N 175° 45.60' W P1-93-AR B10 Atlantic Arctic Ocean P. wuellerstorfi 3365 -1.00 17.51 1.21 74° 44.48' N 157° 11.36'W P1-93-AR B10 Atlantic Arctic Ocean P. wuellerstorfi 3365 -1.00 14.69 1.25 74° 44.48' N 157° 11.36'W P1-94-AR B23 Atlantic Arctic Ocean P. wuellerstorfi 3535 -1.00 13.25 1.17 85° 54.00' N 166° 49.80'W KN177-2 MC-21 Atlantic Norwegian Sea P. wuellerstorfi 2640 -0.90 25.90 1.28 64° 01.62' N 1° 07.41' W KN177-2 MC-21 Atlantic Norwegian Sea P. wuellerstorfi 2640 -0.90 25.90 1.27 64° 01.62' N 1° 07.41' W KN177-2 MC-21 Atlantic Norwegian Sea P. wuellerstorfi 2640 -0.90 25.90 1.33 64° 01.62' N 1° 07.41' W KN177-2 MC-50 Atlantic Norwegian Sea P. wuellerstorfi 1906 -0.80 34.79 1.38 63° 27.17' N 1° 13.92' E KN177-2 MC-14 Atlantic Norwegian Sea P. wuellerstorfi 965 -0.60 44.60 1.46 62° 29.47' N 1° 10.80' E KN177-2 MC-27 Atlantic Norwegian Sea P. wuellerstorfi 3341 -0.87 18.26 1.23 64° 30.57' N 3° 30.03' W KN177-2 MC-24 Atlantic Norwegian Sea P. wuellerstorfi 3036 -0.80 18.25 1.23 64° 18.13' N 2° 20.40' W KN177-2 MC-14 Atlantic Norwegian Sea P. wuellerstorfi 965 -0.52 44.60 1.34 62° 29.47' N 1° 10.80' E KN177-2 MC-21 Atlantic Norwegian Sea P. wuellerstorfi 2640 -0.90 25.90 1.28 64° 01.62' N 1° 07.42' W KN177-2 MC-50 Atlantic Norwegian Sea P. wuellerstorfi 1906 -0.80 34.79 1.34 63° 27.17' N 1° 13.92' E KN177-2 MC-50 Atlantic Norwegian Sea P. wuellerstorfi 1906 -0.80 34.79 1.38 63° 27.17' N 1° 13.92' E KN177-2 MC-27 Atlantic Norwegian Sea P. wuellerstorfi 3341 -0.87 18.26 1.25 64° 30.57' N 3° 30.03' W KN177-2 MC-24 Atlantic Norwegian Sea P. wuellerstorfi 3036 -0.80 18.25 1.26 64° 18.13' N 2° 20.40' W KN177-2 MC-21 Atlantic Norwegian Sea P. wuellerstorfi 2640 -0.90 25.90 1.30 64° 01.62' N 1° 07.42' W KN177-2 MC-24 Atlantic Norwegian Sea P. wuellerstorfi 3036 -0.80 18.25 1.23 64° 18.13' N 2° 20.40' W KN177-2 MC-27 Atlantic Norwegian Sea P. wuellerstorfi 3341 -0.85 13.96 1.22 64° 30.57' N 3° 30.03' W KN177-2 MC-45 Atlantic Norwegian Sea P. wuellerstorfi 2799 -0.89 22.76 1.28 64° 20.33' N 0° 26.05' W KN177-2 MC-48 Atlantic Norwegian Sea P. wuellerstorfi 2402 -0.91 29.04 1.31 64° 00.42' N 0° 26.10' E KN177-2 MC-50 Atlantic Norwegian Sea P. wuellerstorfi 1906 -0.80 34.79 1.34 63° 27.17' N 1° 13.92' E KN178 MC-14 Atlantic Cape Hatteras P. wuellerstorfi 2602 3.00 39.60 1.26 35° 55.87' N 74° 06.16' W KN178 MC-8 Atlantic Cape Hatteras P. wuellerstorfi 2997 2.48 34.20 1.25 35° 51.46' N 73° 52.06' W KN178 MC-76 Atlantic Cape Hatteras P. wuellerstorfi 3065 2.40 32.50 1.26 39° 06.30' N 68° 48.01' W KN178 MC-5 Atlantic Cape Hatteras P. wuellerstorfi 3382 2.20 26.90 1.21 35° 49.46' N 73° 34.89' W KN178 MC-4 Atlantic Cape Hatteras P. wuellerstorfi 3865 2.20 18.40 1.17 36° 07.40' N 72° 16.79' W KN178 MC-1 Atlantic Cape Hatteras P. wuellerstorfi 3979 2.20 17.40 1.19 36° 07.21' N 72° 17.52' W DGoMB MT4-4 Atlantic Gulf of Mexico P. wuellerstorfi 1402 4.36 57.31 1.34 27° 49.65' N 89° 09.97' W DGoMB MT5-1 Atlantic Gulf of Mexico P. wuellerstorfi 2275 4.27 43.12 1.29 27° 19.57' N 88° 40.17' W DGoMB MT6-5 Atlantic Gulf of Mexico P. wuellerstorfi 2743 4.31 32.60 1.26 27° 00.08' N 87° 59.93' W DGoMB NB2-5 Atlantic Gulf of Mexico P. wuellerstorfi 1530 4.30 52.58 1.36 27° 07.97' N 92° 00.02' W DGoMB NB3-2a Atlantic Gulf of Mexico P. wuellerstorfi 1875 4.26 47.64 1.25 26° 33.27' N 91° 49.50' W DGoMB NB4-2 Atlantic Gulf of Mexico P. wuellerstorfi 2050 4.26 45.72 1.28 26° 14.97' N 92° 23.47' W DGoMB RW3-4 Atlantic Gulf of Mexico P. wuellerstorfi 1330 4.41 54.89 1.35 27° 00.27' N 95° 29.85' W DGoMB RW4-2 Atlantic Gulf of Mexico P. wuellerstorfi 1580 4.29 50.49 1.35 26° 44.93' N 95° 14.67' W DGoMB RW5-3 Atlantic Gulf of Mexico P. wuellerstorfi 1620 4.29 49.60 1.30 26° 30.02' N 95° 00.00' W DGoMB RW6-1 Atlantic Gulf of Mexico P. wuellerstorfi 3015 4.34 26.22 1.26 26° 00.13' N 94° 29.37' W DGoMB S36-3 Atlantic Gulf of Mexico P. wuellerstorfi 1826 4.34 47.88 1.33 28° 55.16' N 87° 40.22' W DGoMB S38-4 Atlantic Gulf of Mexico P. wuellerstorfi 2630 4.30 35.22 1.30 28° 16.78' N 87° 19.65' W DGoMB S39-2 Atlantic Gulf of Mexico P. wuellerstorfi 3000 4.33 26.61 1.25 27° 29.68' N 86° 59.88' W DGoMB S40-3 Atlantic Gulf of Mexico P. wuellerstorfi 2972 4.33 27.25 1.26 27° 50.28' N 86° 45.03' W DGoMB S41-1 Atlantic Gulf of Mexico P. wuellerstorfi 2974 4.33 27.23 1.26 28° 00.72' N 86° 34.18' W DGoMB W4-5 Atlantic Gulf of Mexico P. wuellerstorfi 1460 4.33 56.56 1.36 26° 43.83' N 93° 19.18' W DGoMB W5-4 Atlantic Gulf of Mexico P. wuellerstorfi 2745 4.31 32.57 1.26 26° 16.05' N 93° 19.95' W DGoMB W6-3 Atlantic Gulf of Mexico P. wuellerstorfi 3150 4.35 23.94 1.21 24° 59.75' N 93° 18.55' W DGoMB C4-5 Atlantic Gulf of Mexico P. wuellerstorfi 1470 4.32 54.96 1.36 27° 27.02' N 89° 45.72' W BJ8-03 81 MC Pacific Indonesia P. wuellerstorfi 361 9.10 36.70 1.38 1° 43.6' S 117° 22.6' E BJ8-03 16 MC Pacific Indonesia P. wuellerstorfi 409 8.75 31.30 1.40 7° 19.5' S 115° 10.9' E BJ8-03 33 MC Pacific Indonesia P. wuellerstorfi 505 7.50 27.60 1.28 3° 53.2' S 119° 26.7' E BJ8-03 88 MC Pacific Indonesia P. wuellerstorfi 532 7.20 26.30 1.38 0° 39.0' N 118° 43.0' E BJ8-03 22 MC Pacific Indonesia P. wuellerstorfi 1189 4.00 14.60 1.29 5° 12.1' S 117° 28.8' E BJ8-03 26 MC Pacific Indonesia P. wuellerstorfi 1943 3.50 8.20 1.30 4° 26.9' S 117° 44.3' E BJ8-03 86 MC Pacific Indonesia P. wuellerstorfi 2442 3.50 2.90 1.25 0° 13.1' N 118° 27.4' E BJ8-03 61 MC Pacific Indonesia C. pachyderma 292 10.00 42.27 1.27 3° 52.0' S 119° 28.0' E BJ8-03 45 MC Pacific Indonesia C. pachyderma 332 9.30 37.95 1.25 3° 54.2' S 119° 29.4' E BJ8-03 58 MC Pacific Indonesia C. pachyderma 347 9.20 37.83 1.28 3° 52.3' S 119° 27.7' E BJ8-03 81 MC Pacific Indonesia C. pachyderma 361 9.10 36.72 1.30 1° 43.6' S 117° 22.6' E BJ8-03 56 MC Pacific Indonesia C. pachyderma 405 8.80 31.37 1.31 3° 52.7' S 119° 27.5' E BJ8-03 16 MC Pacific Indonesia C. pachyderma 409 8.75 31.33 1.33 7° 19.5' S 115° 10.9' E BJ8-03 20 MC Pacific Indonesia C. pachyderma 419 8.30 31.25 1.33 6° 46.2' S 116° 58.5' E BJ8-03 79 MC Pacific Indonesia C. pachyderma 440 7.90 31.08 1.32 1° 44.5' S 117° 23.5' E BJ8-03 31 MC Pacific Indonesia C. pachyderma 459 7.80 28.93 1.36 3° 53.0' S 119° 27.2' E BJ8-03 69 MC Pacific Indonesia C. pachyderma 485 7.60 27.71 1.24 3°34.4' S 119° 24.4' E BJ8-03 33 MC Pacific Indonesia C. pachyderma 505 7.50 27.55 1.26 3° 53.2' S 119° 26.7' E BJ8-03 33 MC Pacific Indonesia C. pachyderma 505 7.50 27.55 1.24 3° 53.2' S 119° 26.7' E BJ8-03 88 MC Pacific Indonesia C. pachyderma 532 7.20 26.33 1.31 0° 39.0' N 118° 43.0' E BJ8-03 35 MC Pacific Indonesia C. pachyderma 565 7.00 24.05 1.26 3° 53.2' S 119° 26.1' E BJ8-03 49 MC Pacific Indonesia C. pachyderma 676 6.40 21.12 1.26 3° 53.4' S 119° 24.9' E BJ8-03 140 MC Pacific Indonesia C. pachyderma 755 5.90 19.45 1.29 6° 04.8' S 120° 08.4' E BJ8-03 24 MC Pacific Indonesia C. pachyderma 832 5.40 16.79 1.31 5° 03.9' S 117° 26.9' E BJ8-03 138 MC Pacific Indonesia C. pachyderma 827 5.30 16.83 1.34 6° 09.0' S 120° 05.4' E BJ8-03 29 MC Pacific Indonesia C. pachyderma 987 4.50 14.43 1.24 3°53.6' S 119° 22.2' E BJ8-03 72 Pacific Indonesia C. pachyderma 1552 3.75 14.17 1.21 2° 01.1' S 117° 35.4' E BJ8-03 26 MC Pacific Indonesia C. pachyderma 1943 3.50 8.24 1.20 4° 26.9' S 117° 44.3' E BJ8-03 45 MC Pacific Indonesia C. pachyderma 332 9.30 37.95 1.28 3° 54.2' S 119° 29.4' E BJ8-03 65 MC Pacific Indonesia C. pachyderma 334 9.30 37.94 1.31 3° 34.2' S 119° 24.6' E BJ8-03 58 MC Pacific Indonesia C. pachyderma 347 9.20 37.83 1.30 3° 52.3' S 119° 27.7' E BJ8-03 67 MC Pacific Indonesia C. pachyderma 401 8.90 31.40 1.30 3° 34.5' S 119° 24.1' E BJ8-03 67 MC Pacific Indonesia C. pachyderma 401 8.90 31.40 1.26 3° 34.5' S 119° 24.1' E BJ8-03 56 MC Pacific Indonesia C. pachyderma 405 8.80 31.37 1.30 3° 52.7' S 119° 27.5' E BJ8-03 33 MC Pacific Indonesia C. pachyderma 505 7.50 27.55 1.25 3° 53.2' S 119° 26.7' E BJ8-03 77 MC Pacific Indonesia C. pachyderma 525 7.30 26.39 1.27 1° 44.3' S 117° 24.8' E BJ8-03 35 MC Pacific Indonesia C. pachyderma 565 7.00 24.05 1.25 3° 53.2' S 119° 26.1' E BJ8-03 49 MC Pacific Indonesia C. pachyderma 676 6.40 21.12 1.21 3° 53.4' S 119° 24.9' E BJ8-03 138 MC Pacific Indonesia C. pachyderma 827 5.30 16.83 1.30 6° 09.0' S 120° 05.4' E BJ8-03 53 MC Pacific Indonesia C. pachyderma 868 5.20 16.47 1.21 3° 53.5' S 119° 23.3' E BJ8-03 72 Pacific Indonesia C. pachyderma 1552 3.80 14.17 1.19 2° 01.1' S 117° 35.4' E RR05-03 MC-22 Pacific New Zealand P. wuellerstorfi 1682 2.40 16.09 1.36 42° 27.72' S 177° 50.17' W RR05-03 MC-76 Pacific New Zealand P. wuellerstorfi 1165 3.15 22.32 1.36 36° 57.50' S 176° 35.50' E RR05-03 MC-92 Pacific New Zealand P. wuellerstorfi 1818 2.30 15.70 1.31 36° 57.90' S 177° 26.38' E RR05-03 MC-102 Pacific New Zealand P. wuellerstorfi 2055 2.12 13.87 1.32 36° 51.98' S 177° 20.92' E RR05-03 MC-133 Pacific New Zealand P. wuellerstorfi 1407 2.66 18.36 1.32 36° 24.02' S 176° 34.05' E RR05-03 MC-118 Pacific New Zealand P. wuellerstorfi 2252 2.04 15.71 1.29 36° 22.63' S 177° 00.27' E RR05-03 MC-26 Pacific New Zealand P. wuellerstorfi 2418 1.91 12.40 1.28 42° 04.47' S 177° 37.57' W RR05-03 MC-38 Pacific New Zealand P. wuellerstorfi 4375 1.20 -14.90 1.15 39° 56.47' S 176° 13.43' W RR05-03 MC-106 Pacific New Zealand P. wuellerstorfi 2472 1.87 12.00 1.22 36° 44.00' S 177° 35.00' E RR05-03 MC-82 Pacific New Zealand P. wuellerstorfi 1623 2.45 16.30 1.31 36° 44.23' S 176° 38.30' E RR05-03 MC-92 Pacific New Zealand P. wuellerstorfi 1818 2.29 15.70 1.32 36° 57.90' S 177° 26.38' E RR05-03 MC-102 Pacific New Zealand P. wuellerstorfi 2055 2.12 13.90 1.28 36° 51.98' S 177° 20.92' E