GLORIA — GEOMAR Library Ocean Research Information Access

1

Electronic Resource

Altabet, Mark A. ; Francois, Roger ; Murray, David W. ; [et al.]

[s.l.] : Nature Publishing Group

Nature 373 (1995), S. 506-509

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] The 15N/14N ratio of particulate organic matter sinking out of the surface ocean is principally a function of the 〈〉15N (in %o relative to atmospheric N2: see Fig. 2 legend) of source nitrate (NOJ, transported vertically from subsurface waters) and iso-topic fractionation occurring during ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/373506a0

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Yu, Ein-Fen ; Francois, Roger ; Bacon, Michael P.

[s.l.] : Nature Publishing Group

Nature 379 (1996), S. 689-694

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] Today, the ocean thermohaline circulation transports half of the 231Pa produced by radioactive decay in the Atlantic Ocean water column to the Southern Ocean. This export respectively imparts low and high 231Pa/230Th ratios to the surface sediments of ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/379689a0

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Compilation of 231Protactinium/230 Thorium excess ratios in various surface sediment samples from the South Atlantic (1999)

Walter, Hans-Jürgen ; Rutgers van der Loeff, Michiel M ; Francois, Roger

PANGAEA

In: Supplement to: Walter, Hans-Jürgen; Rutgers van der Loeff, Michiel M; Francois, Roger (1999): Reliability of the 231Pa/230Th Activity Ratio as a Tracer for Bioproductivity of the Ocean. In: Fischer, G & Wefer, G (eds.), Use of Proxies in Paleoceanography - Examples from the South Atlantic, Springer, Berlin, Heidelberg, 393-408

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Publication Date: 2023-03-16

Description: In large areas of the world's oceans, there is a relationship between the mass flux of particulate matter and the unsupported 231Pa/230Th (xs231Pa/xs230Th) activity ratio of recent sediments. This observation forms the basis for using the xs231Pa/xs230Th ratio as a proxy for past changes in export productivity. However, a simple relationship between xs231Pa/xs 230Th ratio and particle flux requires that the water residence time in an ocean basin is far in excess of the scavenging residence time of 231Pa, and that the composition of sinking particles maintains a strong preference for the adsorption of 230Th over 231Pa with a constant 230Th/231Pa fractionation factor (F). The best correlation between xs231Pa/xs230Th ratio and mass flux is found in the Pacific Ocean. In the Atlantic, the contrast in the xs231Pa/xs230Th ratios between open ocean (low flux regions) and ocean margins (high flux regions) is much less pronounced due to the shorter residence time of deep water, resulting in less effective boundary scavenging of 231Pa. In the Southern Ocean, south of the Polar Front, there is no more a simple relationship between xs231Pa/xs230Th and particle flux. This is a result of a southward decrease in F, probably reflecting the increased opal content of sinking particles. Opal does not fractionate 231Pa and 230Th significantly. This lack of fractionation results in high xs231Pa/xs230Th ratios in opal-dominated regions, even in areas of very low particle fluxes such as the Weddell Sea. The xs231Pa/xs230Th ratio can therefore only be used as a paleoproductivity proxy if, in the time interval of interest, changes in the basin ventilation rate and differential scavenging of both radionuclides due to changes in the chemical composition of particulate matter can be excluded.

Keywords: AWI_MarGeoChem; compiled data; Depth, bottom/max; Depth, top/min; LATITUDE; LONGITUDE; Marine Geochemistry @ AWI; MULT; Multiple investigations; Protactinium-231/Thorium-230 excess; Protactinium-231/Thorium-230 excess, standard deviation; Reference/source; Sample code/label; see reference(s); SFB261; South Atlantic in Late Quaternary: Reconstruction of Budget and Currents; SURWalter1999

Type: Dataset

Format: text/tab-separated-values, 1917 data points

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Calcium carbonate global LGM Burial rate data (1998)

Catubig, Nina R ; Archer, David E ; Francois, Roger ; [et al.]

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In: Supplement to: Catubig, Nina R; Archer, David E; Francois, Roger; deMenocal, Peter B; Howard, William R; Yu, Ein-Fen (1998): Global deep-sea burial rate of calcium carbonate during the last glacial maximum. Paleoceanography, 13(3), 298-310, https://doi.org/10.1029/98PA00609

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Publication Date: 2024-02-29

Description: Global databases of calcium carbonate concentrations and mass accumulation rates in Holocene and last glacial maximum sediments were used to estimate the deep-sea sedimentary calcium carbonate burial rate during these two time intervals. Sparse calcite mass accumulation rate data were extrapolated across regions of varying calcium carbonate concentration using a gridded map of calcium carbonate concentrations and the assumption that accumulation of noncarbonate material is uncorrelated with calcite concentration within some geographical region. Mean noncarbonate accumulation rates were estimated within each of nine regions, determined by the distribution and nature of the accumulation rate data. For core-top sediments the regions of reasonable data coverage encompass 67% of the high-calcite (〉75%) sediments globally, and within these regions we estimate an accumulation rate of 55.9 ± 3.6 x 10**11 mol/yr. The same regions cover 48% of glacial high-CaCO3 sediments (the smaller fraction is due to a shift of calcite deposition to the poorly sampled South Pacific) and total 44.1 ± 6.0 x 10**11 mol/yr. Projecting both estimates to 100 % coverage yields accumulation estimates of 8.3 x 10**12 mol/yr today and 9.2 x 10**12 mol/yr during glacial time. This is little better than a guess given the incomplete data coverage, but it suggests that glacial deep sea calcite burial rate was probably not considerably faster than today in spite of a presumed decrease in shallow water burial during glacial time.

Keywords: 0055PG; 0082PG; 0091PG; 113-694; 113-697; 114-699; 114-701; 114-702; 114-704; 115-708A; 115-716B; 117-722B; 117-728A; 119-737; 119-739; 119-740; 119-741; 119-742; 119-743; 119-745; 120-751A; 19-183; 19-193; 20-194; 20-195; 20-196; 21-204; 22-211; 22-213; 22-215; 26-256; 26-257; 280; 28-267; 28-268; 28-269; 28-270; 30-285; 31-290; 31-291; 31-298; 32-307; 32-311; 34-321; 5-32; 56-434; 60-452; 60-460; 60-461; 63-472; 63-473; 6-45A; 6-46; 6-52; 6-59; 7-65; 7-66; 7-67; 85-572_Site; 85-572A; 85-574; 86-576; 86-578; 86-579; 86-580; 86-581; A150/180; A152-118; A156-3; A156-4; A164-24; A164-5; A164-6; A16-46; A164-61; A16-461; A167-13; A167-14; A173-13; A173-4; A179-15; A180-15; A180-16; A180-32; A180-39; A180-47; A180-48; A180-56; A180-72; A180-73; A180-74; A180-76; A180-9; A18-39; A18-72; A18-73; A240-ML; Albatross IV (1963); Antarctic Ocean; Antarctic Ocean/BASIN; Antarctic Ocean/CONT RISE; Antarctic Ocean/PLAIN; APSARA1; APSARA2; APSARA4; Arabian Sea; AT_II-107_65; ATII_USA; Atlantic Ocean; Atlantis II (1963); BC; Box corer; CH8X; CHN82-04; CHN82-11; CHN82-15; CHN82-20; COMPCORE; Composite Core; core_59; core_60; DRILL; Drilling/drill rig; ELT14; ELT14.006-PC; ELT17; ELT17.009-PC; ELT45; ELT45.009-PC; ELT45.024-PC; ELT45.027-PC; ELT45.029-PC; ELT45.032-PC; ELT45.063-PC; ELT45.064-PC; ELT45.071-PC; ELT45.074-PC; ELT48; ELT48.003-PC; ELT48.006-PC; ELT48.011-PC; ELT48.013-PC; ELT48.022-PC; ELT48.027-PC; ELT48.029-PC; ELT49; ELT49.008-PC; ELT49.017-PC; ELT49.018-PC; ELT49.021-PC; ELT49.023-PC; ELT50; ELT50.013-PC; ELT50.017-PC; Eltanin; EN06601; EN066-10GGC; EN066-16GGC; EN066-17GGC; EN066-21GGC; EN066-23PG; EN066-24PG; EN066-26GGC; EN066-29GGC; EN066-32GGC; EN066-36GGC; EN066-39GGC; EN066-39PG; EN066-43GGC; EN066-44GGC; EN066-47PG; EN77-29; Endeavor; ENXX; Equatorial Pacific; ERDC; ERDC-079BX; ERDC-092BX; ERDC-102BX; ERDC-129BX; GC; Glomar Challenger; Gravity corer; IC-5; India; Indian Ocean; Indian Ocean//BASIN; IO1578-4; Jean Charcot; Joides Resolution; KN11002; KN708-1; Knorr; KNR110-55; KNR110-82; KNR110-91; KS7703; Lakshadweep Sea; Leg113; Leg114; Leg115; Leg117; Leg119; Leg120; Leg19; Leg20; Leg21; Leg22; Leg26; Leg28; Leg30; Leg31; Leg32; Leg34; Leg5; Leg56; Leg6; Leg60; Leg63; Leg7; Leg85; Leg86; Marion Dufresne (1972); MD13; MD38; MD77-202; MD82-424; MD84-527; MD84-529; MD84-551; MD84-552; MD84-562; MD88-769; MD88-770; MD88-773; MD88-787; Melville; MN76-01, Pleiades; NGR9; NODC-0418; North Atlantic; North Pacific; North Pacific/ABYSSAL FLOOR; North Pacific/BASIN; North Pacific/CONT RISE; North Pacific/Gulf of California/CONT RISE; North Pacific/Philippine Sea/RIDGE; North Pacific/Philippine Sea/TRENCH; North Pacific/Philippine Sea/TROUGH; North Pacific/PLAIN; North Pacific/PLATEAU; North Pacific/RIDGE; North Pacific/SEAMOUNT; North Pacific/SEDIMENT POND; North Pacific/TRENCH; North Pacific/TROUGH; off NW Africa; OSIRIS III; Pacific Ocean; PC; Piston corer; PLDS-130P; PLDS-130PG; PLDS-4; Prydz Bay; RAMA; RAMA03WT; RAMA-44P; RC01; RC0101-RC0102; RC01-2; RC08; RC08-145; RC08-18; RC08-39; RC08-43; RC08-48; RC08-63; RC08-71; RC08-78; RC08-79; RC08-89; RC08-92; RC08-94; RC09; RC09-110; RC09-124; RC09-126; RC09-129; RC09-139; RC09-161; RC09-162; RC09-225; RC09-49; RC10; RC10-139; RC10-140; RC10-159; RC10-160; RC10-161; RC10-171; RC10-179; RC10-181; RC10-182; RC10-203; RC10-206; RC10-216; RC10-288; RC10-289; RC10-50; RC10-97; RC11; RC11-114; RC11-118; RC11-119; RC1112; RC11-120; RC11-121; RC11-170; RC11-171; RC11-172; RC11-179; RC11-193; RC11-195; RC11-209; RC11-21; RC11-210; RC11-213; RC11-220; RC11-230; RC11-26; RC11-76; RC11-77; RC11-78; RC11-80; RC11-83; RC11-86; RC11-91; RC11-94; RC11-96; RC11-97; RC12; RC12-103; RC12-107; RC12-109; RC12-121; RC12-176; RC12-179; RC12-225; RC12-227; RC12-234; RC12-241; RC12-267; RC12-289; RC12-291; RC12-294; RC12-328; RC12-340; RC12-341; RC12-343; RC12-344; RC12-361; RC12-401; RC12-412; RC12-413; RC12-416; RC12-419; RC12-63; RC12-65; RC12-66; RC13; RC13-113; RC13-151; RC13-152; RC13-153; RC13-159; RC13-189; RC13-190; RC13-205; RC13-210; RC13-227; RC13-228; RC13-229; RC13-243; RC13-251; RC13-253; RC13-254; RC13-255; RC13-256; RC13-259; RC13-261; RC13-263; RC13-271; RC13-273; RC13-275; RC13-38; RC13-63; RC13-81; RC14; RC14-106; RC14-11; RC14-29; RC14-35; RC14-39; RC14-7; RC14-9; RC14-99; RC15; RC15-23; RC15-52; RC15-61; RC15-93; RC15-94; RC15-98; RC17; RC17-113; RC17-184; RC17-194; RC17-196; RC17-197; RC17-60; RC17-61; RC17-63; RC17-69; RC17-73; RC17-98; RC23; RC23-50BX1; RC23-52BX1; RC23-53BX1; RC23-54BX1; RC23-61BX1; RE05; RE05-34; RE05-36; RE05-54; RE5-034; RE5-036; RE5-054; Rehoboth; RIVER; Robert Conrad; Sampling river; SDSE_090; SDSE_092; South Atlantic; South Atlantic Ocean; Southern East Pacific Rise; South Indian Ocean; South Indian Ridge, South Indian Ocean; South Pacific; South Pacific/BASIN; South Pacific/TRENCH; SP8-4; SwedishDeepSeaExpedition; TC; Thomas Washington; Trigger corer; V04; V04-1; V04-32; V04-8; V12; V12-122; V14; V14-101; V14-102; V14-77; V14-81; V15; V15-157; V15-168; V16; V16-114; V16-115; V16-122; V16-205; V16-25; V16-36; V17; V17-165; V17-178; V17-42; V17-43; V17-44; V18; V18-110; V18-222; V18-312; V18-318; V18-337; V18-68; V19; V19-178; V19-185; V19-188; V19-19; V19-201; V19-202; V19-204; V19-21; V19-240; V19-248; V19-25; V19-27; V19-28; V19-281; V19-282; V19-283; V19-291; V19-30; V19-305; V19-309; V19-41; V19-53; V19-55; V19-65; V19-96; V20; V20-102; V20-103; V20-104; V20-105; V20-107; V20-108; V20-109; V20-119; V20-121; V20-122; V20-123; V20-124; V20-126; V20-129; V20-170; V20-175; V20-212; V20-227; V20-228; V20-241; V20-242; V20-68; V20-74; V20-79; V20-81; V20-82; V20-85; V20-86; V20-87; V20-88; V20-92; V20-95; V20-96; V20-97; V20-98; V21; V21-145; V21-146; V21-148; V21-150; V21-151; V21-171; V21-173; V21-174; V21-175; V21-178; V21-212; V21-214; V21-29; V21-30; V21-33; V21-59; V22; V22-108; 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; V23-73; V23-74; V23-81; V23-82; V23-83; V23-84; V23-91; V23-98; V24; V24-1; V24-109; V24-166; V24-203; V24-221; V24-229; V24-235; V24-237; V24-240; V24-55; V24-58; V24-59; V24-62; V25; V25-21; V25-42; V25-44; V25-56; V25-59; V25-60; V25-75; 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; V27-221; 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; V28-129; V28-14; V28-177; V28-179; V28-185; V28-203; V28-229; V28-230; V28-235; V28-238; V28-239; V28-249; V28-255; V28-294; V28-304; V28-35; V28-38; V28-56; V28-59; V28-89; V29; V29-105; V29-144; V29-15; V29-153; V29-172; V29-173; V29-174; V29-177; V29-178; V29-179; V29-180; V29-183; V29-192; V29-206; V29-210; V29-219; V29-29; V29-30; V29-48; V29-84; V29-86; V29-87; V29-89; V29-90; V30; V30-100; V30-101; V30-36; V30-40; V30-41; V30-41k; V30-49; V30-51; V30-51k; V30-88; V30-93; V30-96; V30-97; V30-99; V31; V31-166; V31-178; V32; V32-102; V32-109; V32-126; V32-8; V34; V34-101; V34-109; V34-111; V34-34; V34-48; V34-51; V34-53; V34-54; V34-55; V34-87; V34-89; V34-91; V34-92; Vema; VNTR01; VNTR01-49GC; W12; W26; W48K; W53K; W8402A; W8402A-14; W8709A; W8709A-1; W8709A-13; W8709A-8; W8803B; W8803B-51GC; WAH-8-2; Wecoma; Weddell Sea; WW21; X164021; X164032; X164041; X164051; X164061; X164071; X164081; X164101; X164111; X164121; X164131; X164151; X164161; X164171; X164222; X164241; X164251; X164263; X164282; X164291; X164301; X164311; X164321; Y70-5; Y70-5-64; Yaquina

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(Appendix 1) Compilation of calcium carbonate concentrations from deep sea sediments during the Holocene (1998)

Catubig, Nina R ; Archer, David E ; Francois, Roger ; [et al.]

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Publication Date: 2024-02-29

Keywords: 113-694; 113-697; 114-699; 114-701; 114-702; 114-704; 119-737; 119-739; 119-740; 119-741; 119-742; 119-743; 119-745; 19-183; 19-193; 20-194; 20-195; 20-196; 21-204; 22-211; 22-213; 22-215; 26-256; 26-257; 280; 28-267; 28-268; 28-269; 28-270; 30-285; 31-290; 31-291; 31-298; 32-307; 32-311; 34-321; 5-32; 56-434; 60-452; 60-460; 60-461; 63-472; 63-473; 6-45A; 6-46; 6-52; 6-59; 7-65; 7-66; 7-67; 85-572A; 85-574; 86-576; 86-578; 86-579; 86-580; 86-581; 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; A180-47; A180-48; A180-56; A180-72; A180-73; A180-74; A180-76; A180-9; A240-ML; Albatross IV (1963); Antarctic Ocean; Antarctic Ocean/BASIN; Antarctic Ocean/CONT RISE; Antarctic Ocean/PLAIN; APSARA1; APSARA2; APSARA4; Atlantic Ocean; BC; Box corer; Calcium carbonate; COMPCORE; Composite Core; core_59; core_60; DEPTH, sediment/rock; DRILL; Drilling/drill rig; Elevation of event; ELT14; ELT14.006-PC; ELT17; ELT17.009-PC; ELT45; ELT45.029-PC; ELT49; ELT49.018-PC; ELT49.021-PC; ELT49.023-PC; Eltanin; Equatorial Pacific; Event label; GC; Glomar Challenger; Gravity corer; IC-5; India; Indian Ocean; Indian Ocean//BASIN; IO1578-4; Joides Resolution; Latitude of event; Leg113; Leg114; Leg119; Leg19; Leg20; Leg21; Leg22; Leg26; Leg28; Leg30; Leg31; Leg32; Leg34; Leg5; Leg56; Leg6; Leg60; Leg63; Leg7; Leg85; Leg86; Longitude of event; Marion Dufresne (1972); MD38; MD82-424; MD84-527; MD84-551; MD84-562; MD88-769; MD88-770; MD88-773; MD88-787; Melville; Method/Device of event; MN76-01, Pleiades; NGR9; NODC-0418; North Pacific; North Pacific/ABYSSAL FLOOR; North Pacific/BASIN; North Pacific/CONT RISE; North Pacific/Gulf of California/CONT RISE; North Pacific/Philippine Sea/RIDGE; North Pacific/Philippine Sea/TRENCH; North Pacific/Philippine Sea/TROUGH; North Pacific/PLAIN; North Pacific/PLATEAU; North Pacific/RIDGE; North Pacific/SEAMOUNT; North Pacific/SEDIMENT POND; North Pacific/TRENCH; North Pacific/TROUGH; off NW Africa; Pacific Ocean; PC; Piston corer; PLDS-130P; PLDS-4; Prydz Bay; RAMA; RAMA03WT; RAMA-44P; RC08; RC08-145; RC08-18; RC08-78; RC08-92; RC08-94; RC09; RC09-110; RC09-126; RC09-129; RC09-161; RC09-162; RC09-225; RC09-49; RC10; RC10-139; RC10-140; RC10-216; RC10-288; RC10-289; RC11; RC1112; RC11-120; RC11-121; RC11-170; RC11-209; RC11-21; RC11-210; RC11-230; RC11-26; RC11-76; RC11-77; RC11-78; RC11-80; RC11-83; RC11-86; RC11-91; RC12; RC12-107; RC12-109; RC12-121; RC12-225; RC12-234; RC12-241; RC12-267; RC12-289; RC12-291; RC12-294; RC12-328; RC12-412; RC12-413; RC12-416; RC12-419; RC12-63; RC12-65; RC12-66; RC13; RC13-189; RC13-190; RC13-205; RC13-210; RC13-227; RC13-228; RC13-229; RC13-243; RC13-251; RC13-253; RC13-254; RC13-255; RC13-256; RC13-259; RC13-261; RC13-271; RC13-273; RC13-275; RC13-38; RC14; RC14-11; RC14-35; RC15; RC15-93; RC15-94; RC15-98; RC17; RC17-184; RC17-194; RC17-196; RC17-197; RC17-60; RC17-98; RC23; RC23-50BX1; RC23-52BX1; RC23-53BX1; RC23-54BX1; RC23-61BX1; RE5-034; RE5-036; RE5-054; Reference/source; RIVER; Robert Conrad; Sampling river; SDSE_090; SDSE_092; South Atlantic; South Atlantic Ocean; Southern East Pacific Rise; South Indian Ocean; South Pacific; South Pacific/BASIN; South Pacific/TRENCH; SP8-4; SwedishDeepSeaExpedition; TC; Thomas Washington; Trigger corer; V04; V04-1; V04-32; V04-8; V12; V12-122; V15; V15-157; V15-168; V16; V16-122; V16-205; V16-25; V16-36; V17; V17-165; V17-178; V17-42; V17-43; V17-44; V18; V18-110; V18-222; V18-318; V18-337; V19; V19-178; V19-185; V19-201; V19-240; V19-248; V19-25; V19-28; V19-281; V19-282; V19-283; V19-291; V19-30; V19-309; V19-41; V19-53; V19-55; V20; V20-103; V20-123; V20-124; V20-126; V20-129; V20-170; V20-212; V20-227; V20-228; V20-241; V20-242; V21; V21-146; V21-151; V21-171; V21-214; V21-30; V21-33; V22; V22-108; 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; 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; V24-109; V24-221; V24-229; V24-235; V24-237; V24-240; V24-55; V24-58; V24-59; V24-62; V25; V25-21; V25-42; V25-44; V25-56; V25-59; V25-60; V25-75; 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; V27-221; 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; V28-177; V28-179; V28-185; V28-229; V28-230; V28-238; V28-255; V28-294; V28-35; V28-38; V28-56; V28-59; V28-89; V29; V29-105; V29-144; V29-153; V29-173; V29-174; V29-177; V29-178; V29-179; V29-180; V29-183; V29-192; V29-206; V29-210; V29-219; V29-29; V29-30; V29-48; V29-84; V29-87; V29-89; V29-90; 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; V32; V32-102; V32-109; V34; V34-101; V34-34; V34-53; V34-54; V34-89; Vema; VNTR01; VNTR01-49GC; W12; W26; W48K; W53K; W8402A; W8402A-14; W8709A; W8709A-1; W8709A-13; W8709A-8; Wecoma; Weddell Sea; WW21; Y70-5; Y70-5-64; Yaquina

Type: Dataset

Format: text/tab-separated-values, 788 data points

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(Appendix 1) Compilation of calcium carbonate concentrations from deep sea sediments during the last glacial maximum (1998)

Catubig, Nina R ; Archer, David E ; Francois, Roger ; [et al.]

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Publication Date: 2024-02-29

Keywords: 113-694; 113-697; 114-699; 114-701; 114-702; 114-704; 115-716B; 117-722B; 117-728A; 119-737; 119-739; 119-740; 119-741; 119-742; 119-743; 119-745; 120-751A; 19-183; 19-193; 20-194; 20-195; 20-196; 21-204; 22-211; 22-213; 22-215; 26-256; 26-257; 280; 28-267; 28-268; 28-269; 28-270; 30-285; 31-290; 31-291; 31-298; 32-307; 32-311; 34-321; 5-32; 56-434; 60-452; 60-460; 60-461; 63-472; 63-473; 6-45A; 6-46; 6-52; 6-59; 7-65; 7-66; 7-67; 85-572A; 85-574; 86-576; 86-578; 86-579; 86-580; 86-581; 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; A180-47; A180-48; A180-56; A180-72; A180-73; A180-74; A180-76; A180-9; A240-ML; AGE; Albatross IV (1963); Antarctic Ocean; Antarctic Ocean/BASIN; Antarctic Ocean/CONT RISE; Antarctic Ocean/PLAIN; APSARA1; APSARA2; APSARA4; Arabian Sea; Atlantic Ocean; BC; Box corer; Calcium carbonate; COMPCORE; Composite Core; core_59; core_60; DEPTH, sediment/rock; DRILL; Drilling/drill rig; Elevation of event; ELT14; ELT14.006-PC; ELT17; ELT17.009-PC; ELT45; ELT45.029-PC; ELT49; ELT49.017-PC; ELT49.018-PC; ELT49.021-PC; ELT49.023-PC; Eltanin; EN77-29; Endeavor; ENXX; Equatorial Pacific; Event label; GC; Glomar Challenger; Gravity corer; IC-5; India; Indian Ocean; Indian Ocean//BASIN; IO1578-4; Joides Resolution; Lakshadweep Sea; Latitude of event; Leg113; Leg114; Leg115; Leg117; Leg119; Leg120; Leg19; Leg20; Leg21; Leg22; Leg26; Leg28; Leg30; Leg31; Leg32; Leg34; Leg5; Leg56; Leg6; Leg60; Leg63; Leg7; Leg85; Leg86; Longitude of event; Marion Dufresne (1972); MD13; MD38; MD77-202; MD82-424; MD84-527; MD84-529; MD84-551; MD84-562; MD88-769; MD88-770; MD88-773; MD88-787; Melville; Method/Device of event; MN76-01, Pleiades; NGR9; NODC-0418; North Pacific; North Pacific/ABYSSAL FLOOR; North Pacific/BASIN; North Pacific/CONT RISE; North Pacific/Gulf of California/CONT RISE; North Pacific/Philippine Sea/RIDGE; North Pacific/Philippine Sea/TRENCH; North Pacific/Philippine Sea/TROUGH; North Pacific/PLAIN; North Pacific/PLATEAU; North Pacific/RIDGE; North Pacific/SEAMOUNT; North Pacific/SEDIMENT POND; North Pacific/TRENCH; North Pacific/TROUGH; off NW Africa; OSIRIS III; Pacific Ocean; PC; Piston corer; PLDS-130P; PLDS-4; Prydz Bay; RAMA; RAMA03WT; RAMA-44P; RC08; RC08-145; RC08-18; RC08-43; RC08-48; RC08-63; RC08-78; RC08-79; RC08-89; RC08-92; RC08-94; RC09; RC09-110; RC09-124; RC09-126; RC09-129; RC09-139; RC09-161; RC09-162; RC09-225; RC09-49; RC10; RC10-139; RC10-140; RC10-216; RC10-288; RC10-289; RC10-50; RC10-97; RC11; RC11-114; RC11-118; RC11-119; RC1112; RC11-120; RC11-121; RC11-170; RC11-172; RC11-179; RC11-209; RC11-21; RC11-210; RC11-213; RC11-220; RC11-230; RC11-26; RC11-76; RC11-77; RC11-78; RC11-80; RC11-83; RC11-86; RC11-91; RC11-94; RC11-96; RC11-97; RC12; RC12-103; RC12-107; RC12-109; RC12-121; RC12-179; RC12-225; RC12-227; RC12-234; RC12-241; RC12-267; RC12-289; RC12-291; RC12-294; RC12-328; RC12-340; RC12-341; RC12-343; RC12-344; RC12-361; RC12-401; RC12-412; RC12-413; RC12-416; RC12-419; RC12-63; RC12-65; RC12-66; RC13; RC13-113; RC13-151; RC13-152; RC13-153; RC13-159; RC13-189; RC13-190; RC13-205; RC13-210; RC13-227; RC13-228; RC13-229; RC13-243; RC13-251; RC13-253; RC13-254; RC13-255; RC13-256; RC13-259; RC13-261; RC13-263; RC13-271; RC13-273; RC13-275; RC13-38; RC13-63; RC13-81; RC14; RC14-106; RC14-11; RC14-35; RC14-39; RC14-99; RC15; RC15-23; RC15-52; RC15-61; RC15-93; RC15-94; RC15-98; RC17; RC17-113; RC17-184; RC17-194; RC17-196; RC17-197; RC17-60; RC17-61; RC17-63; RC17-69; RC17-73; RC17-98; RC23; RC23-50BX1; RC23-52BX1; RC23-53BX1; RC23-54BX1; RC23-61BX1; RE5-034; RE5-036; RE5-054; Reference/source; RIVER; Robert Conrad; Sampling river; SDSE_090; SDSE_092; South Atlantic; South Atlantic Ocean; Southern East Pacific Rise; South Indian Ocean; South Indian Ridge, South Indian Ocean; South Pacific; South Pacific/BASIN; South Pacific/TRENCH; SP8-4; SwedishDeepSeaExpedition; TC; Thomas Washington; Trigger corer; V04; V04-1; V04-32; V04-8; V12; V12-122; V14; V14-101; V14-102; V14-77; V14-81; V15; V15-157; V15-168; V16; V16-114; V16-115; V16-122; V16-205; V16-25; V16-36; V17; V17-165; V17-178; V17-42; V17-43; V17-44; V18; V18-110; V18-222; V18-312; V18-318; V18-337; V18-68; V19; V19-178; V19-185; V19-188; V19-19; V19-201; V19-202; V19-204; V19-21; V19-240; V19-248; V19-25; V19-27; V19-28; V19-281; V19-282; V19-283; V19-291; V19-30; V19-309; V19-41; V19-53; V19-55; V19-65; V20; V20-103; V20-121; V20-122; V20-123; V20-124; V20-126; V20-129; V20-170; V20-175; V20-212; V20-227; V20-228; V20-241; V20-242; V21; V21-146; V21-151; V21-171; V21-212; V21-214; V21-29; V21-30; V21-33; V21-59; V22; V22-108; 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; V23; V23-100; V23-145; V23-23; V23-42; V23-58; V23-59; V23-60; V23-73; V23-74; V23-81; V23-82; V23-83; V23-84; V23-91; V23-98; V24; V24-1; V24-109; V24-166; V24-203; V24-221; V24-229; V24-235; V24-237; V24-240; V24-55; V24-58; V24-59; V24-62; V25; V25-21; V25-42; V25-44; V25-56; V25-59; V25-60; V25-75; 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; V27-221; 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; V28-129; V28-14; V28-177; V28-179; V28-185; V28-203; V28-229; V28-230; V28-235; V28-238; V28-249; V28-255; V28-294; V28-304; V28-35; V28-38; V28-56; V28-59; V28-89; V29; V29-105; V29-144; V29-15; V29-153; V29-173; V29-174; V29-177; V29-178; V29-179; V29-180; V29-183; V29-192; V29-206; V29-210; V29-219; V29-29; V29-30; V29-48; V29-84; V29-86; V29-87; V29-89; V29-90; 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; V32; V32-102; V32-109; V32-126; V34; V34-101; V34-109; V34-111; V34-34; V34-48; V34-51; V34-53; V34-54; V34-55; V34-87; V34-89; V34-91; V34-92; Vema; VNTR01; VNTR01-49GC; W12; W26; W48K; W53K; W8402A; W8402A-14; W8709A; W8709A-1; W8709A-13; W8709A-8; Wecoma; Weddell Sea; WW21; Y70-5; Y70-5-64; Yaquina

Type: Dataset

Format: text/tab-separated-values, 978 data points

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(Appendix 2) Compilation of mass accumulation rates from deep sea sediments during the Holocene (1998)

Catubig, Nina R ; Archer, David E ; Francois, Roger ; [et al.]

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Publication Date: 2024-02-29

Keywords: 0055PG; 0082PG; 0091PG; 115-708A; 280; 85-572_Site; 85-574; A150/180; A152-118; A16-46; A16-461; A18-39; A18-72; A18-73; Accumulation rate, mass; Accumulation rate, non carbonate; Albatross IV (1963); APSARA2; APSARA4; AT_II-107_65; ATII_USA; Atlantic Ocean; Atlantis II (1963); BC; Box corer; Calcium carbonate; CH8X; CHN82-04; CHN82-11; CHN82-15; CHN82-20; COMPCORE; Composite Core; core_59; core_60; DEPTH, sediment/rock; DRILL; Drilling/drill rig; Elevation of event; ELT45; ELT45.009-PC; ELT45.024-PC; ELT45.027-PC; ELT45.029-PC; ELT45.032-PC; ELT45.063-PC; ELT45.064-PC; ELT45.071-PC; ELT45.074-PC; ELT48; ELT48.003-PC; ELT48.006-PC; ELT48.011-PC; ELT48.013-PC; ELT48.022-PC; ELT48.027-PC; ELT48.029-PC; ELT49; ELT49.008-PC; ELT50; ELT50.013-PC; ELT50.017-PC; Eltanin; EN06601; EN066-10GGC; EN066-16GGC; EN066-17GGC; EN066-21GGC; EN066-23PG; EN066-24PG; EN066-26GGC; EN066-29GGC; EN066-32GGC; EN066-36GGC; EN066-39GGC; EN066-39PG; EN066-43GGC; EN066-44GGC; EN066-47PG; Endeavor; ERDC; ERDC-079BX; ERDC-092BX; ERDC-102BX; ERDC-129BX; Event label; GC; Glomar Challenger; Gravity corer; Jean Charcot; Joides Resolution; KN11002; KN708-1; Knorr; KNR110-55; KNR110-82; KNR110-91; KS7703; Latitude of event; Leg115; Leg85; Longitude of event; Marion Dufresne (1972); MD38; MD84-527; MD84-552; MD88-773; Melville; Method/Device of event; MN76-01, Pleiades; NODC-0418; North Atlantic; North Pacific; North Pacific/TROUGH; Opal, biogenic silica; Pacific Ocean; PC; Piston corer; PLDS-130PG; PLDS-4; RC01; RC0101-RC0102; RC01-2; RC08; RC08-39; RC08-71; RC10; RC10-159; RC10-160; RC10-161; RC10-171; RC10-179; RC10-181; RC10-182; RC10-203; RC10-206; RC11; RC1112; RC11-120; RC11-121; RC11-170; RC11-171; RC11-193; RC11-195; RC11-209; RC11-210; RC11-76; RC11-78; RC11-80; RC12; RC12-176; RC12-225; RC12-289; RC12-294; RC12-412; RC12-413; RC12-416; RC12-63; RC12-65; RC12-66; RC13; RC13-113; RC13-227; RC13-228; RC13-229; RC13-254; RC13-259; RC13-271; RC14; RC14-106; RC14-29; RC14-35; RC14-7; RC14-9; RC15; RC15-93; RC15-94; RC17; RC17-69; RC17-98; RE05; RE05-34; RE05-36; RE05-54; RE5-036; Reference/source; Rehoboth; Robert Conrad; SDSE_090; SDSE_092; Southern East Pacific Rise; South Indian Ocean; South Indian Ridge, South Indian Ocean; South Pacific; SwedishDeepSeaExpedition; Thomas Washington; V04; V04-1; V16; V16-25; V17; V17-165; V18; V18-318; V19; V19-185; V19-240; V19-305; V19-96; V20; V20-102; V20-103; V20-104; V20-105; V20-107; V20-108; V20-109; V20-119; V20-241; V20-242; V20-68; V20-74; V20-79; V20-81; V20-82; V20-85; V20-86; V20-87; V20-88; V20-92; V20-95; V20-96; V20-97; V20-98; V21; V21-145; V21-148; V21-150; V21-171; V21-173; V21-174; V21-175; V21-178; V22; V22-108; V22-174; V22-186; V22-188; V22-197; V22-86; V23; V23-100; V23-145; V23-23; V23-82; V23-83; V23-84; V23-98; V24; V24-55; V24-58; V24-59; V24-62; V25; V25-59; V25-60; V26; V26-176; V26-41; V26-46; V27; V27-17; V27-178; V27-19; V27-20; V27-263; V27-264; V27-265; V27-267; V28; V28-238; V28-239; V29; V29-172; V29-179; V29-48; V29-84; V29-87; V30; V30-36; V30-40; V30-41k; V30-49; V30-51k; V30-88; V30-93; V30-97; V32; V32-8; V34; V34-53; Vema; W8402A; W8402A-14; W8803B; W8803B-51GC; WAH-8-2; Wecoma; X164021; X164032; X164041; X164051; X164061; X164071; X164081; X164101; X164111; X164121; X164131; X164151; X164161; X164171; X164222; X164241; X164251; X164263; X164282; X164291; X164301; X164311; X164321; Y70-5; Y70-5-64; Yaquina

Type: Dataset

Format: text/tab-separated-values, 927 data points

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CN of diatom-bound organic matter in surface sediments (1999)

Sigman, Daniel M ; Altabet, Mark A ; Francois, Roger ; [et al.]

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In: Supplement to: Sigman, Daniel M; Altabet, Mark A; Francois, Roger; McCorkle, Daniel C; Gaillard, Jean-Francois (1999): The isotopic composition of diatom-bound nitrogen in Southern Ocean sediments. Paleoceanography, 14(2), 118-134, https://doi.org/10.1029/1998PA900018

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Publication Date: 2023-12-12

Description: Treatment of diatom microfossils from Southern Ocean sediments with hot perchloric acid leaves a "diatom-bound" N fraction which is 0-4 per mil lower in d15N than the bulk sediment, typically 3 per mil lower in recent Antarctic diatom ooze. Results from Southern Ocean surface sediments indicate that early diagenetic changes in bulk sediment N content and d15N are not reflected in diatom-bound N, suggesting that diatom-bound N is physically protected from early diagenesis by the microfossil matrix. A meridional transect of multicores from the Indian sector of the Southern Ocean shows a northward increase in the d15N of diatom-bound N, suggesting that diatom-bound d15N, like bulk sedimentary d15N, varies with nitrate utilization in the overlying surface waters. The d15N of diatom-bound N is 3-4 per mil higher in glacial age Antarctic sediments than in Holocene sediments, supporting the hypothesis, previously based on bulk sediment d15N, that nitrate utilization in the surface Antarctic was higher during the last ice age. While there are important uncertainties, the inferred range of utilization changes could potentially explain the entire ~80 ppm amplitude of observed glacial/interglacial variations in atmospheric CO2.

Keywords: 09070100; ANTARES-I_KBE3; ANTARES-I_KTB11; ANTARES-I_KTB13; ANTARES-I_KTB16; ANTARES-I_KTB19; ANTARES-I_KTB21; ANTARES-I_KTB5; ANTARES-I_KTB6; ANTARES-I,35MF75_1; Carbon/Nitrogen ratio; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; Event label; Latitude of event; Longitude of event; Marion Dufresne (1972); MD75; MUC; MultiCorer; Nathaniel B. Palmer; NBP9604; NBP9604-02-2; Southern Ocean

Type: Dataset

Format: text/tab-separated-values, 27 data points

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