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(Table 5) Carbon, nitrogen and phosphorus contents in bottom sediments of the Varna Gulf, Black Sea (1987)

Romankevich, Evgeny A ; Lyutsarev, Sergey V

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In: P.P. Shirshov Institute of Oceanology, Russian Academy of Sciences, Moscow

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Publication Date: 2024-05-15

Keywords: Archive of Ocean Data; ARCOD; Black Sea, Bulgaria; Bolg-shelf-1983; Calcium carbonate; Calculated from mass/volume; Carbon; Carbon, organic, total; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; Distance; Elevation of event; Event label; Latitude of event; Longitude of event; MULT; Multiple investigations; Nitrogen, organic; Phosphorus; Size fraction 〈 0.005 mm; VG-5; VG-6; VG-7; Water content, wet mass; Wet chemistry

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Format: text/tab-separated-values, 114 data points

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(Appendix) Stabile isotopes δ¹⁸O and δ¹³C for DSDP Sites 37-334, 49-408, and 49-410 and Holes 81-552A, 94-610E, and 94-611C (1987)

Keigwin, Lloyd D ; Aubry, Marie-Pierre ; Kent, Dennis V

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Publication Date: 2024-05-15

Keywords: 37-334_Site; 49-408_Site; 49-410_Site; 81-552A; 94-610E; 94-611C; Cibicidoides spp., δ13C; Cibicidoides spp., δ18O; COMPCORE; Composite Core; Deep Sea Drilling Project; DEPTH, sediment/rock; DRILL; Drilling/drill rig; DSDP; Elevation of event; Event label; Globigerina bulloides, δ13C; Globigerina bulloides, δ18O; Globigerinoides quadrilobatus, δ13C; Globigerinoides quadrilobatus, δ18O; Glomar Challenger; Latitude of event; Leg37; Leg49; Leg81; Leg94; Longitude of event; North Atlantic/BASIN; North Atlantic/PLATEAU; North Atlantic/RIDGE; Planulina wuellerstorfi, δ13C; Planulina wuellerstorfi, δ18O

Type: Dataset

Format: text/tab-separated-values, 3134 data points

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Distribution of calcium carbonate in Atlantic sediments from the last glacial (18 kyr) (1987)

Balsam, William L ; McCoy, F M J

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Publication Date: 2024-05-02

Keywords: A150/180; A152-118; A156-3; A156-4; A164-24; A164-5; A164-6; A164-61; A167-13; A167-14; A173-13; A173-4; A179-15; A180-15; A180-16; A180-32; A180-39; A180-47PC; A180-48PC; A180-56; A180-72; A180-73; A180-74; A180-76; A180-9; Atlantic Ocean; Barcelona Coast; Calcium carbonate; Cork Harbour; DEPTH, sediment/rock; Element analysis, Vacuum-gasometric (Jones & Kaiteris, 1983); Elevation of event; Event label; Guadiana Estuary; Himmerfjarden; Lamont-Doherty Earth Observatory, Columbia University; LATITUDE; LDEO; Limfjorden; LONGITUDE; Oder Estuary; PC; Pertuis Charentais; Piston corer; Quaternary Environment of the Eurasian North; QUEEN; RC08; RC08-145; RC08-18; RC09; RC09-225; RC09-49; RC10; RC10-288; RC10-289; RC11; RC1112; RC11-21; RC11-26; RC11-86; RC12; RC12-234; RC12-241; RC12-267; RC12-291; RC12-294; RC13; RC13-189; RC13-205; RC13-210; RC13-227; RC13-229; RC15; RC15-94; RE5-034; RE5-036; RE5-054; Robert Conrad; Scheldt Delta Estuary; SP008-004; Taranto Mare Piccolo; TC; Thau Lagoon; Trigger corer; V04; V04-1; V04-32; V04-8; V15; V15-157; V15-168; V16; V16-205; V16-25; V16-36; V17; V17-165; V17-178; V18; V18-110; V19; V19-240; V19-248; V19-281; V19-282; V19-283; V19-291; V19-309; V20; V20-212; V20-227; V20-228; V20-241; V20-242; V22; V22-168; V22-171; V22-172; V22-174; V22-177; V22-182; V22-186; V22-188; V22-196; V22-197; V22-219; V22-222; V22-234; V22-26; V22-38; V22-83; V22-86; V23; V23-100; V23-145; V23-23; V23-42; V23-58; V23-59; V23-60; V23-74; V23-81; V23-82; V23-83; V23-84; V23-91; V23-98; V24; V24-1; V24-221; V24-229; V24-235; V24-237; V24-240; V25; V25-21; V25-42; V25-44; V25-56; V25-59; V25-60; V26; V26-104; V26-175; V26-176; V26-177; V26-37; V26-41; V26-46; V26-63; V26-82; V27; V27-110; V27-116; V27-17; V27-171; V27-175; V27-178; V27-19; V27-20; V27-228; V27-232; V27-238; V27-239; V27-240; V27-248; V27-263; V27-264; V27-265; V27-267; V27-269; V27-46; V27-47; V27-60; V27-84; V27-85; V27-86; V28; V28-108; V28-14; V28-35; V28-38; V28-56; V28-59; V28-89; V29; V29-144; V29-153; V29-173; V29-174; V29-177; V29-178; V29-179; V29-180; V29-206; V29-210; V29-219; V30; V30-100; V30-101; V30-36; V30-40; V30-41; V30-49; V30-51; V30-96; V30-97; V30-99; V31; V31-166; V31-178; Vema

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Format: text/tab-separated-values, 178 data points

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Comparison of glacial/interglacial carbonate concentrations in Atlantic sediments (1987)

Balsam, William L ; McCoy, F M J

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In: Supplement to: Balsam, William L; McCoy, F M J (1987): Atlantic sediments: glacial/interglacial comparisons. Paleoceanography, 2(5), 531-542, https://doi.org/10.1029/PA002i005p00531

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Publication Date: 2024-05-02

Description: To assess the regional effects of glaciation on sedimentation in the Atlantic Ocean we compare sediment types, distributions, and rates between Recent (core top) and last glacial maximum (LGM: ~18,000 years B.P.) stratigraphic levels. Based upon smear slides and carbonate analyses in 178 cores we find that glacial age carbonate content is generally lower than Recent. During both the Recent and LGM, carbonate content shows an east/west asymmetry with western basins exhibiting lower carbonate values. Input of ice-rafted detritus into the North Atlantic during LGM time interrupts this topographic control on carbonate distribution considerably farther south than at present; in the South Atlantic this effect is minor. Comparison of LGM and Recent sediment distributions indicates that the LGM seafloor was dominated by biogenic oozes, calcareous clays, and clays, while the Recent is dominated by biogenic oozes and marls. Coarse-grained detritus is much more prevalent in LGM sediments, derived not only from glacial input but also from fluvial and aeolian sources. Sedimentation rates, calculated from LGM to Recent sediment thickness in cores, are 〈4 cm/1000 yr for most of the ocean. Higher rates are typical of the continental margin off the Amazon River, the North American Basin, and a small region off west equatorial Africa.

Keywords: A150/180; A152-118; A156-3; A156-4; A164-24; A164-5; A164-6; A164-61; A167-13; A167-14; A173-13; A173-4; A179-15; A180-15; A180-16; A180-32; A180-39; A180-47PC; A180-48PC; A180-56; A180-72; A180-73; A180-74; A180-76; A180-9; Atlantic Ocean; Barcelona Coast; Cork Harbour; Guadiana Estuary; Himmerfjarden; Lamont-Doherty Earth Observatory, Columbia University; LDEO; Limfjorden; Oder Estuary; PC; Pertuis Charentais; Piston corer; Quaternary Environment of the Eurasian North; QUEEN; RC08; RC08-145; RC08-18; RC09; RC09-225; RC09-49; RC10; RC10-288; RC10-289; RC11; RC1112; RC11-21; RC11-26; RC11-86; RC12; RC12-234; RC12-241; RC12-267; RC12-291; RC12-294; RC13; RC13-189; RC13-205; RC13-210; RC13-227; RC13-229; RC15; RC15-94; RE5-034; RE5-036; RE5-054; Robert Conrad; Scheldt Delta Estuary; SP008-004; Taranto Mare Piccolo; TC; Thau Lagoon; Trigger corer; V04; V04-1; V04-32; V04-8; V15; V15-157; V15-168; V16; V16-205; V16-25; V16-36; V17; V17-165; V17-178; V18; V18-110; V19; V19-240; V19-248; V19-281; V19-282; V19-283; V19-291; V19-309; V20; V20-212; V20-227; V20-228; V20-241; V20-242; V22; V22-168; V22-171; V22-172; V22-174; V22-177; V22-182; V22-186; V22-188; V22-196; V22-197; V22-219; V22-222; V22-234; V22-26; V22-38; V22-83; V22-86; V23; V23-100; V23-145; V23-23; V23-42; V23-58; V23-59; V23-60; V23-74; V23-81; V23-82; V23-83; V23-84; V23-91; V23-98; V24; V24-1; V24-221; V24-229; V24-235; V24-237; V24-240; V25; V25-21; V25-42; V25-44; V25-56; V25-59; V25-60; V26; V26-104; V26-175; V26-176; V26-177; V26-37; V26-41; V26-46; V26-63; V26-82; V27; V27-110; V27-116; V27-17; V27-171; V27-175; V27-178; V27-19; V27-20; V27-228; V27-232; V27-238; V27-239; V27-240; V27-248; V27-263; V27-264; V27-265; V27-267; V27-269; V27-46; V27-47; V27-60; V27-84; V27-85; V27-86; V28; V28-108; V28-14; V28-35; V28-38; V28-56; V28-59; V28-89; V29; V29-144; V29-153; V29-173; V29-174; V29-177; V29-178; V29-179; V29-180; V29-206; V29-210; V29-219; V30; V30-100; V30-101; V30-36; V30-40; V30-41; V30-49; V30-51; V30-96; V30-97; V30-99; V31; V31-166; V31-178; Vema

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Format: application/zip, 2 datasets

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Age model of sediment core V20-120 (Table 2) (1987)

Morley, Joseph J ; Pisias, Nicklas G ; Leinen, Margaret W

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In: Supplement to: Morley, Joseph J; Pisias, Nicklas G; Leinen, Margaret W (1987): Late Pleistocene time series of atmospheric and oceanic variables recorded in sediments from the subarctic Pacific. Paleoceanography, 2(1), 49-62, https://doi.org/10.1029/PA002i001p00049

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Publication Date: 2024-05-02

Description: Time series analyses of atmospheric and oceanic variables in a late Pleistocene record from the northwest Pacific show the complex relationship of the response of various segments of the climate system to changes in the earth's orbit. Most variance spectra of time series from this subarctic record contain frequency peaks with periods corresponding to at least one of the major orbital components of eccentricity, obliquity, or precession. Although the radiolarian faunal (water mass) assemblages have prominent spectral peaks with 41,000-year periods which are coherent with obliquity at this frequency, only the Transitional faunal assemblage contains variance focused at a frequency corresponding to the 100,000-year period of eccentricity. Three of these faunal time series also show variance concentrated at a frequency with a 20,000-year period. These three time series are not coherent at a 20,000-year frequency with either of the dominant spectral peaks of precession. They are coherent, however, with variations in the second harmonic of the obliquity cycle. Changes in obliquity apparently affect siliceous faunal abundances in the northwest Pacific region of this high-latitude site more than variations in eccentricity or precession. Maxima in the time series of quartz abundance occur during low values of eccentricity and high glacial ice volume. Because atmospheric winds serve as the major source of supply of quartz to the sediments at this site, these high quartz values reflect increased aridity at the source region. Except for short periods during interglacials, the characteristics of the surface waters in this region of the subarctic Pacific during much of the last 460,000 years were similar to those which exist today in the Sea of Okhotsk. The spectrum of winter sea surface temperature estimates, derived from siliceous microfaunal abundances, contains dominant frequency peaks at periods of 100,000, 41,000, and 23,000 years which are coherent with eccentricity, obliquity, and precession, respectively. Based upon the relationship of the Subarctic Front with the dominance of specific faunal asemblages, the front was positioned south of its present-day location throughout much of the late Pleistocene.

Keywords: Age model; Age model, composite; DEPTH, sediment/rock; Lamont-Doherty Earth Observatory, Columbia University; LDEO; PC; Piston corer; V20; V20-120; Vema

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Format: text/tab-separated-values, 16 data points

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Distribution of calcium carbonate in recent (0 kyr) surface sediment of the Atlantic (1987)

Balsam, William L ; McCoy, F M J

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Publication Date: 2024-05-02

Keywords: A150/180; A152-118; A156-3; A156-4; A164-24; A164-5; A164-6; A164-61; A167-13; A167-14; A173-13; A173-4; A179-15; A180-15; A180-16; A180-32; A180-39; A180-47PC; A180-48PC; A180-56; A180-72; A180-73; A180-74; A180-76; A180-9; Atlantic Ocean; Barcelona Coast; Calcium carbonate; Comment; Cork Harbour; DEPTH, sediment/rock; Element analysis, Vacuum-gasometric (Jones & Kaiteris, 1983); Elevation of event; Event label; Guadiana Estuary; Himmerfjarden; Lamont-Doherty Earth Observatory, Columbia University; LATITUDE; LDEO; Limfjorden; LONGITUDE; Oder Estuary; PC; Pertuis Charentais; Piston corer; Quaternary Environment of the Eurasian North; QUEEN; RC08; RC08-145; RC08-18; RC09; RC09-225; RC09-49; RC10; RC10-288; RC10-289; RC11; RC1112; RC11-21; RC11-26; RC11-86; RC12; RC12-234; RC12-241; RC12-267; RC12-291; RC12-294; RC13; RC13-189; RC13-205; RC13-210; RC13-227; RC13-229; RC15; RC15-94; RE5-034; RE5-036; RE5-054; Robert Conrad; Scheldt Delta Estuary; SP008-004; Taranto Mare Piccolo; TC; Thau Lagoon; Trigger corer; V04; V04-1; V04-32; V04-8; V15; V15-157; V15-168; V16; V16-205; V16-25; V16-36; V17; V17-165; V17-178; V18; V18-110; V19; V19-240; V19-248; V19-281; V19-282; V19-283; V19-291; V19-309; V20; V20-212; V20-227; V20-228; V20-241; V20-242; V22; V22-168; V22-171; V22-172; V22-174; V22-177; V22-182; V22-186; V22-188; V22-196; V22-197; V22-219; V22-222; V22-234; V22-26; V22-38; V22-83; V22-86; V23; V23-100; V23-145; V23-23; V23-42; V23-58; V23-59; V23-60; V23-74; V23-81; V23-82; V23-83; V23-84; V23-91; V23-98; V24; V24-1; V24-221; V24-229; V24-235; V24-237; V24-240; V25; V25-21; V25-42; V25-44; V25-56; V25-59; V25-60; V26; V26-104; V26-175; V26-176; V26-177; V26-37; V26-41; V26-46; V26-63; V26-82; V27; V27-110; V27-116; V27-17; V27-171; V27-175; V27-178; V27-19; V27-20; V27-228; V27-232; V27-238; V27-239; V27-240; V27-248; V27-263; V27-264; V27-265; V27-267; V27-269; V27-46; V27-47; V27-60; V27-84; V27-85; V27-86; V28; V28-108; V28-14; V28-35; V28-38; V28-56; V28-59; V28-89; V29; V29-144; V29-153; V29-173; V29-174; V29-177; V29-178; V29-179; V29-180; V29-206; V29-210; V29-219; V30; V30-100; V30-101; V30-36; V30-40; V30-41; V30-49; V30-51; V30-96; V30-97; V30-99; V31; V31-166; V31-178; Vema

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Format: text/tab-separated-values, 356 data points

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Der Teufelstisch bei Hinterweidenthal (1987)

Häfner, Friedrich ; Böhler, Wolfgang

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Publication Date: 2024-04-18

Description: Ausgangspunkt der Untersuchungen war die Erfordernis, die Standsicherheitsverhältnisse des Naturdenkmals Teufelstisch im Hinblick auf die Gefährdung seiner Besucher zu überprüfen. Für diese Beurteilung war es notwendig, das geometrisch komplizierte Gebilde meßtechnisch exakt zu erfassen; dies wurde durch die Photogrammetrie mit der erforderlichen Genauigkeit erreicht. Außerdem wurden Untersuchungen zur geologisch-petrographischen Beschaffenheit, den geotechnischen Eigenschaften der Gesteine, der Abwitterungsrate und den statischen Verhältnissen durchgeführt. Als Ergebnis läßt sich feststellen, daß in den nächsten Jahrzehnte neine ausreichende Standsicherheit des Teufelstisches gegeben und aufgrund des Verwitterungsfortschrittes keine wesentliche Änderung dieser Situation zu erwarten ist.

Description: Abstract: Starting point of the investigations was the requirement to study fhe stability of the natural monument "Teufelstisch" (near Hinterweidenthal, SW-Germany) concerning the endangering of its visitors. It was necessary to record the complicated geometric shape; this object was achieved with the required precision by means of photogrammetry. Furthermore investigations were carried through according the geological-petrographical structure, the geotechnical characteristics, the rate of weathering and the statics. As a result the stability of the "Teufelstisch" can be guaranteed for some decades. Looking to the rate of weathering no important change of the present situation can be expected.

Description: 1. Einleitung 2. Untersuchungsobjekt und Standort 3. Geologischer Aufbau 4. Petrographie 5. Photogrammetrische Vermessung 6. Abmessungen des Teufelstisches 7.Gesteinseigenschaften 8. Überlegungen zur Verwitterungsrate 9. Standsicherheitsbeurteilung Schriften

Description: research

Keywords: ddc:554.3 ; Buntsandstein ; Pfalz ; Verwitterung ; Naturdenkmal ; Petrographie ; Standsicherheit

Language: German

Type: doc-type:article , publishedVersion

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(Table 1) Elements at DSDP Section 93-605-66-1 (1987)

Klaver, G T

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In: Supplement to: Klaver, G T (1987): Geochemical search for the Cretaceous/Tertiary boundary in Hole 605, Leg 93. In: van Hinte, JE; Wise, SW Jr; et al. (eds.), Initial Reports of the Deep Sea Drilling Project, Washington (U.S. Govt. Printing Office), 93, 1057-1060, https://doi.org/10.2973/dsdp.proc.93.143.1987

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Publication Date: 2024-04-16

Description: The oldest sediments cored at Site 605 are upper Maestrichtian argillaceous limestone (Hole 605, Subunit VB). The terrigeneous silt content of the uppermost Maestrichtian is quite low, averaging about 3%, whereas the carbonate content is high, usually greater than 60%; the silt contains only traces of glauconite (Site 605 chapter, this volume). Within Subunit VB a K/T boundary was defined by planktonic foraminifers. It was expected to be spread over an extended vertical interval because of the continental margin depositional setting. Examination by the shipboard party showed that the K/T boundary occurs in Section 605-66-1, between 70 and 75 cm. At the contact, the foraminiferal Globigerina pseudobulloides Zone (PIc) and the Coccolith Cruciplacolithus primus Subzone (CPla) overlie, respectively, the Abathomphalus mayaroensis and Nephrolithus frequens zones (Site 605). However, the thin K/T boundary clay, which is always present in complete sections, was not found, indicating either that the K/T boundary clay was not present or, more likely, that it was washed away during the coring operation.

Keywords: 93-605; Antimony; Arsenic; Barium; Bromine; Caesium; Calcium; Cerium; Chromium; Cobalt; Copper; Deep Sea Drilling Project; DRILL; Drilling/drill rig; DSDP; DSDP/ODP/IODP sample designation; Europium; Glomar Challenger; Hafnium; Inductively coupled plasma atomic emission spectroscope (ICP-AES); Instrumental neutron activation analysis (INAA); Iron; Lanthanum; Leg93; Lutetium; Nickel; North Atlantic; Potassium; Rubidium; Samarium; Sample code/label; Scandium; Sodium; Strontium; Tantalum; Terbium; Thorium; Uranium; Ytterbium; Zinc; Zirconium

Type: Dataset

Format: text/tab-separated-values, 210 data points

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Shorebased measurements during the GEOSECS Pacific expedition (1987)

Östlund, H Gote ; Craig, Harmon C ; Broecker, Wallace S ; [et al.]

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Publication Date: 2024-03-19

Keywords: Barium; Bottle number; Caesium-137; Caesium-137, standard deviation; Campaign of event; Carbon dioxide; Cast number; Comment; CTD/Rosette; CTD-RO; Date/Time of event; DEPTH, water; Elevation of event; Event label; Gear; Geochemical Ocean Sections Study; GEOSECS; GEOSECS_Pacific_1; GEOSECS_Pacific_10; GEOSECS_Pacific_2; GEOSECS_Pacific_3; GEOSECS_Pacific_4; GEOSECS_Pacific_5; GEOSECS_Pacific_6; GEOSECS_Pacific_7; GEOSECS_Pacific_8; GEOSECS_Pacific_9; GEOSECS201; GEOSECS202; GEOSECS204; GEOSECS206; GEOSECS211; GEOSECS212; GEOSECS213; GEOSECS214; GEOSECS215; GEOSECS216; GEOSECS217; GEOSECS218; GEOSECS219; GEOSECS220; GEOSECS221; GEOSECS222; GEOSECS223; GEOSECS224; GEOSECS225; GEOSECS226; GEOSECS227; GEOSECS228; GEOSECS229; GEOSECS230; GEOSECS231; GEOSECS233; GEOSECS235; GEOSECS237; GEOSECS238; GEOSECS239; GEOSECS240; GEOSECS241; GEOSECS244; GEOSECS246; GEOSECS247; GEOSECS248; GEOSECS249; GEOSECS250; GEOSECS251; GEOSECS252; GEOSECS254; GEOSECS256; GEOSECS257; GEOSECS259; GEOSECS260; GEOSECS263; GEOSECS265; GEOSECS267; GEOSECS268; GEOSECS269; GEOSECS272; GEOSECS273; GEOSECS277; GEOSECS278; GEOSECS280; GEOSECS282; GEOSECS285; GEOSECS286; GEOSECS287; GEOSECS289; GEOSECS290; GEOSECS291; GEOSECS293; GEOSECS294; GEOSECS296; GEOSECS298; GEOSECS301; GEOSECS302; GEOSECS303; GEOSECS305; GEOSECS306; GEOSECS308; GEOSECS310; GEOSECS313; GEOSECS314; GEOSECS316; GEOSECS317; GEOSECS319; GEOSECS320; GEOSECS321; GEOSECS322; GEOSECS323; GEOSECS324; GEOSECS325; GEOSECS326; GEOSECS327; GEOSECS328; GEOSECS330; GEOSECS331; GEOSECS332; GEOSECS333; GEOSECS334; GEOSECS335; GEOSECS336; GEOSECS337; GEOSECS338; GEOSECS339; GEOSECS340; GEOSECS341; GEOSECS342; GEOSECS343; GEOSECS344; GEOSECS345; GEOSECS346; GEOSECS347; Helium; Helium, standard deviation; Latitude of event; Lead-210; Lead-210, dissolved; Lead-210, dissolved, standard deviation; Lead-210, particulate; Lead-210, particulate, standard deviation; Lead-210, standard deviation; Leg 1; Leg 10; Leg 2; Leg 3; Leg 4; Leg 5; Leg 6; Leg 7; Leg 8; Leg 9; Longitude of event; Melville; Neon; Neon, standard deviation; Pacific; Particle concentration; Particle concentration, standard deviation; Plutonium-239+240; Plutonium-239+240, standard deviation; Polonium-210, dissolved; Polonium-210, dissolved, standard deviation; Pressure, water; Radium-226; Radium-226, standard deviation; Radium-228; Radium-228, standard deviation; Salinity; Strontium-90; Strontium-90, standard deviation; Temperature, water; Thorium-228; Thorium-228, standard deviation; Tritium; Tritium, standard deviation; Δ Helium/Neon; Δ Helium/Neon, standard deviation; δ13C; δ14C; δ18O; δ18O, dissolved oxygen; δ Deuterium, water; δ Helium-3; δ Helium-3, standard deviation

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Format: text/tab-separated-values, 47581 data points

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Shorebased measurements during the GEOSECS Atlantic expedition (1987)

Östlund, H Gote ; Craig, Harmon C ; Broecker, Wallace S ; [et al.]

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Publication Date: 2024-03-19

Keywords: Barium; Bottle number; Caesium-137; Caesium-137, standard deviation; Campaign of event; Canarias Sea; Carbon dioxide; Cast number; Comment; CTD/Rosette; CTD-RO; Date/Time of event; DEPTH, water; Drake Passage; Elevation of event; Event label; Gear; Geochemical Ocean Sections Study; GEOSECS; GEOSECS_Atlantic_1; GEOSECS_Atlantic_2; GEOSECS_Atlantic_3; GEOSECS_Atlantic_4; GEOSECS_Atlantic_5; GEOSECS_Atlantic_6; GEOSECS_Atlantic_7; GEOSECS_Atlantic_8; GEOSECS_Atlantic_9; GEOSECS001; GEOSECS002; GEOSECS003; GEOSECS004; GEOSECS005; GEOSECS008; GEOSECS011; GEOSECS014; GEOSECS015; GEOSECS016; GEOSECS017; GEOSECS018; GEOSECS019; GEOSECS022; GEOSECS023; GEOSECS024; GEOSECS025; GEOSECS026; GEOSECS027; GEOSECS028; GEOSECS029; GEOSECS030; GEOSECS031; GEOSECS032; GEOSECS033; GEOSECS034; GEOSECS036; GEOSECS037; GEOSECS038; GEOSECS039; GEOSECS040; GEOSECS041; GEOSECS042; GEOSECS044; GEOSECS045; GEOSECS046; GEOSECS048; GEOSECS049; GEOSECS050; GEOSECS052; GEOSECS053; GEOSECS054; GEOSECS055; GEOSECS056; GEOSECS057; GEOSECS058; GEOSECS059; GEOSECS060; GEOSECS061; GEOSECS064; GEOSECS066; GEOSECS067; GEOSECS068; GEOSECS069; GEOSECS073; GEOSECS074; GEOSECS076; GEOSECS077; GEOSECS078; GEOSECS079; GEOSECS080; GEOSECS082; GEOSECS083; GEOSECS084; GEOSECS085; GEOSECS086; GEOSECS087; GEOSECS088; GEOSECS089; GEOSECS090; GEOSECS091; GEOSECS092; GEOSECS093; GEOSECS094; GEOSECS102; GEOSECS103; GEOSECS105; GEOSECS107; GEOSECS109; GEOSECS111; GEOSECS113; GEOSECS114; GEOSECS115; GEOSECS116; GEOSECS117; GEOSECS118; GEOSECS119; GEOSECS120; GEOSECS121; Greenland Sea; Helium; Helium, standard deviation; Iceland Sea; Knorr; Latitude of event; Lead-210; Lead-210, dissolved; Lead-210, dissolved, standard deviation; Lead-210, particulate; Lead-210, particulate, standard deviation; Lead-210, standard deviation; Leg 1; Leg 2; Leg 3; Leg 4; Leg 5; Leg 6; Leg 7; Leg 8; Leg 9; Longitude of event; Neon; Neon, standard deviation; North Atlantic; North Greenland Sea; Norwegian Sea; Particle concentration; Particle concentration, standard deviation; Plutonium-239+240; Plutonium-239+240, standard deviation; Pressure, water; Radium-226; Radium-226, standard deviation; Radium-228; Radium-228, standard deviation; Salinity; Scotia Sea; South Atlantic Ocean; Strontium-90; Strontium-90, standard deviation; Temperature, water; Thorium-228; Thorium-228, standard deviation; Tritium; Tritium, standard deviation; Δ Helium/Neon; Δ Helium/Neon, standard deviation; δ13C; δ14C; δ18O, dissolved oxygen; δ18O, water; δ Deuterium, water; δ Helium-3; δ Helium-3, standard deviation

Type: Dataset

Format: text/tab-separated-values, 41824 data points

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