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Variability of El Niño/Southern Oscillation activity at millennial timescales during the Holocene epoch (2002)

Seltzer, Geoffrey O. ; Rodbell, Donald T. ; Anderson, David M. ; [et al.]

[s.l.] : Macmillian Magazines Ltd.

Nature 420 (2002), S. 162-165

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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 variability of El Niño/Southern Oscillation (ENSO) during the Holocene epoch, in particular on millennial timescales, is poorly understood. Palaeoclimate studies have documented ENSO variability for selected intervals in the Holocene, but most records are either too short or ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/nature01194

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Age determination of late Quaternary sediment cores from the South Tasman Rise

Moy, Christopher M ; Howard, William R ; Gagan, Michael K

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In: Supplement to: Moy, Andrew D; Howard, William R; Gagan, Michael K (2006): Late Quaternary palaeoceanography of the Circumpolar Deep Water from the South Tasman Rise. Journal of Quaternary Science, 21(7), 763-777, https://doi.org/10.1002/jqs.1067

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Publication Date: 2023-05-12

Description: We use sediment cores from the South Tasman Rise (STR) to reconstruct deep- water circulation in the southwest Pacific sector of the Southern Ocean. Sediment cores MD972106 (45° 09' S, 146° 17' E, 3310 m water depth) and GC34 (45° 06' S, 147° 45' E, 4002 m water depth) preserve records covering the last 160 kyr, with chronology controlled by calibrated accelerator mass spectrometry radiocarbon dates and benthic foraminiferal d18O tied to SPECMAP. The STR benthic foraminiferal d13C records provide new d13C values for Southern Ocean deep water spanning the last 160 kyr at sites unlikely to be affected by variations in productivity. The records establish that glacial benthic foraminifera (Cibicidoides spp.) d13C values are lower relative to interglacial values and are comparable to previous glacial benthic d13C records in the Indian and Pacific sectors of the Southern Ocean. Comparisons of the benthic foraminiferal d13C time series at the STR are made with the equatorial Pacific (V19-30 and Site 846) and the equatorial Atlantic (GeoB1115). The similarity of benthic d13C records at the STR to the equatorial Pacific suggest the Southern Ocean deep-water mass closely tracked those of the deep Pacific, and the presence of a d13C gradient between the STR and the equatorial Atlantic suggests there was continual production of northern source deep water over the past 160 kyr.

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Format: application/zip, 2 datasets

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(Table 2) Age determination of sediment cores MD97-2106 and RS_147_GC34

Moy, Christopher M ; Howard, William R ; Gagan, Michael K

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Publication Date: 2023-06-27

Keywords: Age, 14C AMS; Age, 14C calibrated; Age, dated; Age, dated material; Age, dated standard deviation; Age, maximum/old; Age, minimum/young; Calendar age; CALYPSO; Calypso Corer; DEPTH, sediment/rock; Event label; GC; Gravity corer; IMAGES III - IPHIS; Marion Dufresne (1995); MD106; MD972106; MD97-2106; RS_147_GC34; Sample ID; South Tasman Rise

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Format: text/tab-separated-values, 69 data points

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(Table 3) Stratigraphic control and tie points for sediment cores MD92-106 and RS_147_GC34

Moy, Christopher M ; Howard, William R ; Gagan, Michael K

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Publication Date: 2023-06-27

Keywords: Age model; CALYPSO; Calypso Corer; Datum level; DEPTH, sediment/rock; Event label; GC; Gravity corer; IMAGES III - IPHIS; Marion Dufresne (1995); MD106; MD972106; MD97-2106; RS_147_GC34; South Tasman Rise

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Format: text/tab-separated-values, 62 data points

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Sea surface temperature reconstruction for the Southwest Pacific Ocean (2013)

Cortese, Giuseppe ; Dunbar, Gavin B ; Carter, Lionel ; [et al.]

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In: Supplement to: Cortese, Giuseppe; Dunbar, Gavin B; Carter, Lionel; Scott, George H; Bowen, M; Bostock, Helen C; Crundwell, Martin P; Hayward, Bruce William; Howard, William R; Martínez, José Ignacio; Moy, Christopher M; Neil, Helen L; Sabaa, Ashwaq T; Sturm, Arne (2013): Southwest Pacific Ocean response to a warmer world: Insights from Marine Isotope Stage 5e. Paleoceanography, 28(3), 585-598, https://doi.org/10.1002/palo.20052

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Publication Date: 2023-11-08

Description: Paleoceanographic archives derived from 17 marine sediment cores reconstruct the response of the Southwest Pacific Ocean to the peak interglacial, Marine Isotope Stage (MIS) 5e (ca. 125 ka). Paleo-Sea Surface Temperature (SST) estimates were obtained from the Random Forest model-an ensemble decision tree tool-applied to core-top planktonic foraminiferal faunas calibrated to modern SSTs. The reconstructed geographic pattern of the SST anomaly (maximum SST between 120 and 132 ka minus mean modern SST) seems to indicate how MIS 5e conditions were generally warmer in the Southwest Pacific, especially in the western Tasman Sea where a strengthened East Australian Current (EAC) likely extended subtropical influence to ca. 45°S off Tasmania. In contrast, the eastern Tasman Sea may have had a modest cooling except around 45°S. The observed pattern resembles that developing under the present warming trend in the region. An increase in wind stress curl over the modern South Pacific is hypothesized to have spun-up the South Pacific Subtropical Gyre, with concurrent increase in subtropical flow in the western boundary currents that include the EAC. However, warmer temperatures along the Subtropical Front and Campbell Plateau to the south suggest that the relative influence of the boundary inflows to eastern New Zealand may have differed in MIS 5e, and these currents may have followed different paths compared to today.

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Format: application/zip, 2 datasets

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Geochemical composition and radiocarbon ages of cores from Lago Fugnano, Tierra del Fuego (2010)

Waldmann, Nicolas D ; Ariztegui, Daniel ; Anselmetti, Flavio S ; [et al.]

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In: Supplement to: Waldmann, Nicolas D; Ariztegui, Daniel; Anselmetti, Flavio S; Austin, James A Jr; Moy, Christopher M; Stern, C; Recasens, Cristina; Dunbar, Robert B (2010): Holocene climatic fluctuations and positioning of the Southern Hemisphere westerlies in Tierra del Fuego (54° S), Patagonia. Journal of Quaternary Science, 25(7), 1063-1075, https://doi.org/10.1002/jqs.1263

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Publication Date: 2024-01-03

Description: Recent advances in the chronology and the palaeoclimatic understanding of Antarctic ice core records point towards a larger heterogeneity of latitudinal climate fluctuations than previously thought. Thus, realistic palaeoclimate reconstructions rely in the development of a tight array of well-constrained records with a dense latitudinal coverage. Climatic records from southernmost South America are critical cornerstones to link these Antarctic palaeoclimatic archives with their South American counterparts. At 54° S on the Island of Tierra del Fuego, Lago Fagnano is located in one of the most substantially and extensively glaciated regions of southernmost South America during the Late Pleistocene. This elongated lake is the largest (~110km long) and non-ice covered lake at high southern latitudes. A multi-proxy study of selected cores allows the characterisation of a Holocene sedimentary record. Detailed petrophysical, sedimentological and geochemical studies of a complete lacustrine laminated sequence reveal variations in major and trace elements, as well as organic content, suggesting high variability in environmental conditions. Comparison of these results with other regional records allows the identification of major known late Holocene climatic intervals and the proposal for a time for the onset of the Southern Westerlies in Tierra del Fuego. These results improve our understanding of the forcing mechanisms behind climate change in southernmost Patagonia.

Keywords: International Polar Year (2007-2008); IPY

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Format: application/zip, 2 datasets

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(Table 1) Geochemical composition of the tephra layers found in Lago Fagnano cores LF06-PC12 and LF06-PC16, Tierra del Fuego (2010)

Waldmann, Nicolas D ; Ariztegui, Daniel ; Anselmetti, Flavio S ; [et al.]

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Publication Date: 2024-01-03

Keywords: Barium; Caesium; Cerium; Dysprosium; Erbium; Europium; Event label; Gadolinium; Hafnium; Holmium; Lanthanum; Lead; LF06-PC12; LF06-PC16; Lutetium; Manganese; Micro X-ray fluorescence (µ-XRF); Neodymium; Niobium; PC; Piston corer; Praseodymium; Rubidium; Samarium; Sample type; Strontium; Tantalum; Terbium; Thorium; Thulium; Tierra del Fuego, South America; Titanium; Uranium; Ytterbium; Yttrium; Zirconium

Type: Dataset

Format: text/tab-separated-values, 58 data points

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(Table 2) Radiocarbon and calibrated ages of Lago Fagnano core LF06-PC16, Tierra del Fuego (2010)

Waldmann, Nicolas D ; Ariztegui, Daniel ; Anselmetti, Flavio S ; [et al.]

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Publication Date: 2024-01-03

Keywords: Age, 14C AMS; Age, dated; Age, dated material; Age, dated standard deviation; Calendar age; Calendar age, standard deviation; DEPTH, sediment/rock; Laboratory; LF06-PC16; PC; Piston corer; Sample ID; Tierra del Fuego, South America; δ13C

Type: Dataset

Format: text/tab-separated-values, 22 data points

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(Table S1) Planktonic foraminifera abundances for the 1223 surface sediment stations used in this study (2013)

Cortese, Giuseppe ; Dunbar, Gavin B ; Carter, Lionel ; [et al.]

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Publication Date: 2024-02-29

Keywords: 06MT15_2; 39KL; 47KL; 54KL; 7SL; 90-594_Site; Agassiz; Agulhas Basin; Agulhas Ridge; All5423P; AMPH-011P; AMPH-012G; AMPH-013G; AMPH-016G; AMPH-017G; AMPH-019G; AMPH01AR; AMPH-021G; AMPH-022G; AMPH-023G; AMPH-024G; AMPHITRITE; Angola Basin; ANTIPODE; ANTIPROD; ANT-IX/4; ANTP-226G; ANTP-231G; ANT-VI/3; ANT-VIII/3; ANT-X/4; ANT-X/5; ANT-X/6; ANT-XI/2; ANT-XI/4; APSARA2; APSARA4; AR1-117; AR1-119; AR1-144; AR2-113; AR2-117; AR2-128; AR2-136; AR3-25; AR3-38; AR3-45; AR4-55; AR4-56; AR4-63; Argo; Atlantic Indik Ridge; Atlantic Ocean; Atlantic Ridge; BC; Beella digitata; Bounty Trough, Southwest Pacific; Box corer; Brazil Basin; Candeina nitida; CAP-2-1BG; CAP-3HG; CAP-4BG; CAP-5HG; CAP-6HG; Cape Basin; Cardno Seamount; CH10098P; CH10-98; CIRCE; CIRCE-239; COMPCORE; Composite Core; Congo Fan; CTD, memory; CTD/Rosette; CTD-M; CTD-RO; D206; D84; Depth, bathymetric; DEPTH, sediment/rock; Discovery Seamount; DODO; DODO-117PG; DODO-119PG; DODO-121PB; DODO-126P; DODO-130G; DODO-144G; DODO-173G; DODO-191; DODO-192G; DODO-193; DODO-194; DODO-220V; DW013; DW017; DW026; DW034; DW035; DW036; DW048; DW050; DW058; DW074; DW079; DW082; DW123; DW130; DW134; DW137; DWD-123; DWD-130; DWD-134; DWD-137G; DWD-13HH; DWD-15BG; DWD-17; DWD-26; DWD-34HG; DWD-35HH; DWD-36HG; DWD-48HG; DWD-50HG; DWD-58HH; DWD-74; DWD-79; DWD-82; DWD-89HH; East Brazil Basin; Eastern Equatorial Pacific; Eastern Rio Grande Rise; eastern Romanche Fracture Zone; ELT11.010; ELT11.064; ELT11.089; ELT-1110; ELT-1164; ELT-1189; ELT-1246; Equatorial Atlantic; ERDC; ERDC-092BX; ERDC-102BX; ERDC-108BX; ERDC-112BX; ERDC-120BX; ERDC-123BX; ERDC-125BX; ERDC-128BX; ERDC-129BX; ERDC-131BX; F104; F111; F137; F149; Falkland Islands; FFC; Foraminifera, planktic; Free fall corer; GC; Genesis III, RR9702A; GeoB10008-4; GeoB10010-1; GeoB10022-6; GeoB10024-3; GeoB10025-3; GeoB10026-2; GeoB10027-3; GeoB10028-4; GeoB10029-3; GeoB10031-3; GeoB10033-3; GeoB10034-3; GeoB10036-3; GeoB10038-3; GeoB10039-3; GeoB10040-3; GeoB10041-3; GeoB10042-2; GeoB10044-3; GeoB10047-1; GeoB10049-5; GeoB10050-1; GeoB10058-1; GeoB10059-1; GeoB10061-5; GeoB10063-5; GeoB10064-5; GeoB10065-9; GeoB10067-5; GeoB10068-2; GeoB10069-4; GeoB1009-3; GeoB1015-2; GeoB1017-3; GeoB1025-2; GeoB1026-2; GeoB1027-2; GeoB1028-4; GeoB1029-1; GeoB1030-3; GeoB1031-2; GeoB1032-2; GeoB1033-3; GeoB1034-2; GeoB1035-3; GeoB1036-3; GeoB1039-1; GeoB1040-3; GeoB1041-1; GeoB1104-4; GeoB1105-4; GeoB1106-4; GeoB1108-7; GeoB1109-3; GeoB1110-4; GeoB1111-3; GeoB1112-4; GeoB1113-4; GeoB1114-4; GeoB1116-2; GeoB1117-2; GeoB1203-2; GeoB1204-3; GeoB1207-2; GeoB1208-1; GeoB1209-1; GeoB1210-3; GeoB1211-1; GeoB1215-1; GeoB1216-2; GeoB1217-1; GeoB1218-1; GeoB1220-2; GeoB1306-1; GeoB1307-2; GeoB1308-1; GeoB1309-3; GeoB1310-1; GeoB1311-2; GeoB1312-3; GeoB1313-1; GeoB1314-2; GeoB1403-2; GeoB1407-7; GeoB1408-3; GeoB1413-2; GeoB1414-2; GeoB1415-1; GeoB1418-1; GeoB1419-1; GeoB1420-1; GeoB1702-6; GeoB1704-1; GeoB1705-2; GeoB1710-2; GeoB1711-5; GeoB1712-2; GeoB1713-6; GeoB1716-2; GeoB1719-5a; GeoB1720-4; GeoB1721-4; GeoB1722-3; GeoB1725-1; GeoB1728-3; GeoB1729-1; GeoB2004-1; GeoB2016-3; GeoB2019-2; GeoB2021-4; GeoB7115-1; GeoB7121-1; GeoB7122-2; GeoB7123-1; GeoB7127-1; GeoB7129-1; GeoB7130-1; GeoB7131-1; GeoB7132-1; GeoB7133-1; GeoB7134-1; GeoB7135-1; GeoB7136-1; GeoB7137-2; GeoB7138-1; GeoB7139-1; GeoB7140-1; GeoB7141-1; GeoB7142-2; GeoB7143-1; GeoB7144-1; GeoB7145-1; GeoB7146-1; GeoB7147-1; GeoB7148-1; GeoB7149-1; GeoB7150-1; GeoB7152-1; GeoB7153-1; GeoB7154-2; GeoB7156-1; GeoB7172-3; GeoB7174-2; GeoB7175-4; GeoB7177-2; GeoB7179-1; GeoB7180-1; GeoB7181-1; GeoB7182-1; GeoB7183-1; GeoB7186-1; GeoB7187-1; GeoB7189-1; GeoB7190-1; GeoB7191-1; GeoB7192-1; GeoB7193-1; GeoB7194-1; GeoB7195-1; GeoB7197-1; GeoB7207-1; GeoB7209-2; GeoB7211-1; GeoB7212-1; GeoB7213-1; GeoB7214-1; Giant box corer; GIK16772-1; GIK16773-2; GIK16774-3; GIK16868-2; GIK16870-1; GIK16871-1; GIK16872-1; GKG; Globigerina bulloides; Globigerina falconensis; Globigerinella adamsi; Globigerinella aequilateralis; Globigerinella calida; Globigerinita glutinata; Globigerinita iota; Globigerinita uvula; Globigerinoides conglobatus; Globigerinoides ruber; Globigerinoides sacculifer; Globigerinoides tenellus; Globoconella inflata; Globoquadrina conglomerata; Globorotaloides hexagonus; Glomar Challenger; Grab; GRAB; Gravity corer; Gravity corer (Kiel type); GS900937; GS900938; GS900940; Guinea Basin; H211; H347; Hikurangi margin; Hirsutella hirsuta; Hirsutella scitula; Hirsutella theyeri; Horizon; Hunter Channel; Indian Ocean; Islas Orcadas; KL; KR88-01; KR88-03; KR88-05; KR88-06; KR88-07; KR88-10; KR88-11; KR88-12; KR88-13; LATITUDE; Leg90; LONGITUDE; LSDA; LSDA-103V; LSDA-106G; LSDA-107GB; LSDA-113G; LSDA-117G; LSDA-128G; LSDA-129G; LSDA-131G; LSDA-133GB; LSDA-136G; LSDH; LSDH-009V; LSDH-025V; LSDH-033G; LSDH-038V; LSDH-058G; LSDH-062G; LSDH-064PG; LSDH-065G; LSDH-066PG; LSDH-067P; LSDH-068P; LSDH-068PG; LSDH-076P; LSDH-076PG; LSDH-077G; LSDH-078P; LSDH-079P; LUSIAD-A; LUSIAD-H; M12/1; M15/2; M16/1; M20/2; M23/1; M6/5; M6/6; M70-PC-49; M9/4; Marion Dufresne (1972); MD00; MD38; MD65; MD73023; MD73026; MD73029; MD76-005; MD76-009; MD76-010; MD76-011; MD79-254; MD79-257; MD79-260; MD79-261; MD79275; MD79277; MD80-304; MD84-568; MD84-569; MD85663; MD85668; MD88-770; MD88-774; MD88-795; MD90-937; MD90-938; MD90-940; MD94-02; MD94-06; MD94-07; MD94-107; ME0005A; ME0005A-29MC2; Melville; Menardella menardii; Meteor (1986); Meteor Rise; MG3; MIC; Mid Atlantic Ridge; MiniCorer; MONS01AR-MONS08AR; MONSOON; MSN; MSN-104P; MSN-126G; MSN-128G; MSN-135PG; MSN-136G; MSN-137GP; MSN-138G; MSN-45G; MSN-55G; MSN-56PG; MSN-63G; MSN-90G; MSN-92PG; MSN-93G; MUC; MultiCorer; Multiple opening/closing net; Namibia Continental Margin; Namibia continental slope; NEMO; Neogloboquadrina dutertrei; Neogloboquadrina pachyderma dextral; Neogloboquadrina pachyderma sinistral; NOVA05AR-053P; NOVA-A; NOVA-A36; NOVA-A40; NOVA-A53; NOVA-H20; off Chile; off Gabun; Orbulina universa; OSIRIS4; OSIRIS I; P69; PABESIA; Pacific Ocean; PC; Piston corer; Piston corer (BGR type); PLDS-001G; PLDS-1; Pleiades; Polarstern; PROA; PROA-048G; PROA-057G; PROA-066G; PROA-067G; PROA-083P; PROA-084PG; PROA-085P-2; PROA-086PG; PROA-118G; PROA-122G; PROA-124G1; PS12; PS12/557; PS16; PS16/278; PS16/284; PS16/294; PS16/334; PS16/337; PS16/342; PS16/345; PS16/351; PS1654-1; PS1754-2; PS1756-6; PS1759-1; PS1775-5; PS1776-6; PS1777-7; PS1778-1; PS1779-3; PS18; PS18/231; PS18/232; PS18/239; PS18/241; PS18/242; PS18/243; PS18/244; PS18/260; PS18/261; PS18/262; PS18/263; PS18/264; PS2075-3; PS2076-1; PS2083-1; PS2084-2; PS2085-1; PS2086-3; PS2087-1; PS2102-2; PS2103-2; PS2104-1; PS2105-2; PS2106-1; PS21 06AQANTX_4; PS22; PS22/842; PS22/850; PS22/851; PS22/852; PS22/853; PS22/899; PS22/902; PS22/908; PS22/947; PS22/973; PS22 06AQANTX_5; PS2230-1; PS2241-1; PS2242-1; PS2343-1; PS2351-1; PS2352-1; PS2353-2; PS2354-1; PS2366-1; PS2367-1; PS2368-1; PS2372-1; PS2376-1; PS2487-2; PS2489-4; PS2494-1; PS2495-1; PS2496-2; PS2498-2; PS2499-1; PS2500-1; PS2505-1; PS2507-1; PS2508-1; PS2518-2; PS2520-1; PS2557-2; PS2560-4; PS28; PS28/236; PS28/256; PS28/289; PS28/293; PS28/298; PS28/304; PS28/314; PS28/316; PS28/342; PS28/347; PS28/350; PS28/395; PS28/408; PS30; PS30/004; PS30/023; PUCK; Pulleniatina obliquiloculata; Q200; Q203; Q208; Q215; Q216; Q217; Q220; Q575; Q582; Q585; Q859; R657; RC08; RC08-102; RC08-16; RC08-18; RC08-22; RC08-23; RC08-27; RC08-28; RC08-39; RC08-40; RC08-41; RC08-46; RC08-50; RC08-51; RC08-52; RC08-53; RC08-60; RC08-61; RC08-62; RC08-63; RC08-64; RC08-69; RC08-77; RC08-91; RC08-93; RC09; RC09-104; RC09-110; RC09-112; RC09-121; RC09-124; RC09-125; RC09-126; RC09-127; RC09-128; RC09-129; RC09-131; RC09-132; RC09-133; RC09-134; RC09-139; RC09-140; RC09-143; RC09-144; RC09-147; RC09-150; RC10; RC10-114; RC10-115; RC10-117; RC10-131; RC10-135; RC10-139; RC10-140; RC10-141; RC10-142; RC10-143; RC10-144; RC11; RC11-103; RC11-106; RC11-111; RC11-116; RC11-117; RC11-118; RC1112; RC11-120; RC11-121;

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Format: text/tab-separated-values, 51295 data points

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Diatom valve abundances and biogenic opal concentrations of IODP Site 341-U1417 (2021)

Müller, Juliane ; Romero, Oscar E ; Cowan, Ellen A ; [et al.]

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Publication Date: 2024-05-18

Keywords: 341-U1417; AGE; COMPCORE; Composite Core; DEPTH, sediment/rock; Diatom valves, per unit sediment mass; Exp341; Gulf of Alaska; Integrated Ocean Drilling Program / International Ocean Discovery Program; IODP; Joides Resolution; Mid Pleistocene Transition; Opal, biogenic silica; Southern Alaska Margin: Tectonics, Climate and Sedimentation

Type: Dataset

Format: text/tab-separated-values, 506 data points

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