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Fatty acid composition, and bacteria and meiofauna abundance in sediment cores PS71/013 and PS71/085 during POLARSTERN cruise ANT-XXIV/2 (2011)

Veit-Köhler, Gritta ; Guilini, Katja ; Peeken, Ilka ; [et al.]

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In: Supplement to: Veit-Köhler, Gritta; Guilini, Katja; Peeken, Ilka; Sachs, Oliver; Sauter, Eberhard-Jürgen; Würzberg, Laura (2011): Antarctic deep-sea meiofauna and bacteria react to the deposition of particulate organic matter after a phytoplankton bloom. Deep Sea Research Part II: Topical Studies in Oceanography, 58(19-20), 1983-1995, https://doi.org/10.1016/j.dsr2.2011.05.008

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Publication Date: 2024-06-28

Description: During the RV Polarstern ANT XXIV-2 cruise to the Southern Ocean and the Weddell Sea in 2007/2008, sediment samples were taken during and after a phytoplankton bloom at 52°S 0°E. The station, located at 2960 m water depth, was sampled for the first time at the beginning of December 2007 and revisited at the end of January 2008. Fresh phytodetritus originating from the phytoplankton bloom first observed in the water column had reached the sea floor by the time of the second visit. Absolute abundances of bacteria and most major meiofauna taxa did not change between the two sampling dates. In the copepods, the second most abundant meiofauna taxon after the nematodes, the enhanced input of organic material did not lead to an observable increase of reproductive effort. However, significantly higher relative abundances of meiofauna could be observed at the sediment surface after the remains of the phytoplankton bloom reached the sea floor. Vertical shifts in meiofauna distribution between December and January may be related to changing pore-water oxygen concentration, total sediment fatty acid content, and pigment profiles measured during our study. Higher oxygen consumption after the phytoplankton bloom may have resulted from an enhanced respiratory activity of the living benthic component, as neither meiofauna nor bacteria reacted with an increase in individual numbers to the food input from the water column. Based on our results, we infer that low temperatures and ecological strategies are the underlying factors for the delayed response of benthic deep-sea copepods, in terms of egg and larval production, to the modified environmental situation.

Keywords: ANDEEP-SYSTCO; Priority Programme 1158 Antarctic Research with Comparable Investigations in Arctic Sea Ice Areas; SPP1158

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Format: application/zip, 4 datasets

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Sedimentological analysis of sediments from Amundsen and Bellingshausen Seas, Southern Ocean (2000)

Hillenbrand, Claus-Dieter

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In: Supplement to: Hillenbrand, Claus-Dieter (2000): Glazialmarine Sedimentationsentwicklung am westantarktischen Kontinentalrand im Amundsen- und Bellingshausenmeer - Hinweise auf Paläoumweltveränderungen während der quartären Klimazyklen (Glaciomarine sedimentation on the continental margins of the Amundsen and Bellingshausen Seas, West Antarctica - indications for paleoenvironmental changes during the Quaternary climatic cycles). Berichte zur Polarforschung = Reports on Polar Research, 346, 182 pp, https://doi.org/10.2312/BzP_0346_2000

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Publication Date: 2024-06-28

Description: Glaciomarine deposits at the Antarctic continental margin represent an important paleoglaciological and paleoceanographical record of environmental changes in both Antarctica and the adjacent Southern Ocean. In order to reconstruct the climatic-controlled sedimentation history in the Amundsen and Bellingshausen Seas during Quaternary glacial cycles, sedimentological, geochemical and clay mineralogical investigations were carried out on 34 surface sediment samples and On 7 sediment cores. The study of the surface sediment samples allows one to decipher the recent sediment supply and transportation processes. The input of glacial debris is highest in the eastern Bellingshausen Sea because of the subpolar climatic conditions prevailing over the adjacent Antarctic Peninsula. Fine sediment pathways of transport in the Amundsen and Bellingshausen Seas were recon- structed by analysing the clay mineralogical composition of the surface sediments and connecting it with specific source rocks in the West Antarctic hinterland. Grain size data show a complex dispersal Pattern of ice-rafted debris (IRD). According to these data, redeposition by currents plays a major role near the shelf break both in marginal seas and on the continental rise in the eastern Bellingshausen Sea. ff

Keywords: Amundsen Sea; Antarctic Peninsula; ANT-VI/2; ANT-XI/3; AWI_Paleo; Bellingshausen Sea; Gravity corer (Kiel type); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS12; PS12/201; PS1565-2; PS2547-1; PS2547-3; PS2548-1; PS2549-1; PS2550-1; PS2551-1; PS2552-1; PS2553-3; PS29; PS29/063; PS29/064; PS29/065; PS29/066; PS29/067; PS29/068; PS29/070; SL

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Format: application/zip, 14 datasets

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Data compilation of VEINS (2005)

VEINS Members ; Ahagon, Naokazu ; Alvarez, J ; [et al.]

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In: International Council for the Exploration of the Sea, Copenhagen

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Publication Date: 2024-06-28

Description: This data collection contains physical oceanographic and hydrochemistry data from 82 cruises in the frame of the project VEINS -Variability of Exchanges in the Northern Seas.

Keywords: 06MT39_5; 06MT39_5/506-1; 06MT39_5/507-1; 06MT39_5/508-1; 06MT39_5/509-1; 06MT39_5/510-1; 06MT39_5/511-1; 06MT39_5/512-2; 06MT39_5/513-1; 06MT39_5/514-1; 06MT39_5/515-1; 06MT39_5/516-1; 06MT39_5/517-1; 06MT39_5/518-1; 06MT39_5/519-1; 06MT39_5/520-1; 06MT39_5/521-1; 06MT39_5/522-1; 06MT39_5/523-1; A09/98; A09/98_286; A09/98_288; A09/98_291; A09/98_292; A09/98_294; A09/98_296; A09/98_300; A09/98_302; A09/98_317; A09/98_319; A09/98_322; A09/98_324; A09/98_325; A09/98_327; A09/98_330; A09/98_331; A09/98_335; A09/98_356; A09/98_377; A09/98_379; A09/98_381; A09/98_383; A09/98_385; A09/98_387; A09/98_401; A09/98_424; A09/98_427; A09/98_430; A09/98_449; A09/98_451; A09/98_454; A09/98_456; A09/98_458; A09/98_461; A09/98_462; A09/98_465; A09/98_467; A09/98_470; A09/98_471; A09/98_477; A09/98_480; A09/98_483; A09/98_497; A09/98_499; A09/98_502; A09/98_504; A09/98_506; A09/98_519; A09/98_521; A09/98_522; A09/98_523; A09/98_525; A09/98_527; A09/98_534; A09/98_537; A09/98_539; A09/98_542; A09/98_544; A09/98_548; A09/98_549; A09/98_566; A09/98_569; A09/98_572; A09/98_574; A09/98_576; A09/98_578; A09/98_585; A09/98_588; A09/98_590; A09/98_591; A09/98_594; A09/98_597; A09/98_598; A09/98_599; A09/98_602; A09/98_603; A09/98_604; A09/98_606; A09/98_608; A09/98_610; A09/98_612; A10/99; A10/99_364-1; A10/99_366-1; A10/99_368-1; A10/99_370-1; A10/99_372-1; A10/99_374-1; A10/99_376-1; A10/99_379-1; A10/99_382-1; A10/99_384-1; A10/99_394-1; A10/99_396-1; A10/99_398-1; A10/99_400-1; A10/99_401-1; A10/99_403-1; A10/99_404-1; A10/99_406-1; A10/99_409-1; A10/99_444-1; A10/99_446-1; A10/99_448-1; A10/99_452-1; A10/99_454-1; A10/99_457-1; A10/99_481-1; A10/99_483-1; A10/99_486-1; A10/99_488-1; A10/99_490-1; A10/99_491-1; A10/99_509-1; A10/99_511-1; A10/99_513-1; A10/99_515-1; A10/99_517-1; A10/99_521-1; A10/99_522-1; A10/99_525-1; A10/99_529-1; A10/99_531-1; A10/99_534-1; A10/99_536-1; A10/99_551-1; A10/99_557-1; A10/99_559-1; A10/99_561-1; A10/99_564-1; A10/99_566-1; A10/99_568-1; A10/99_580-1; A10/99_582-1; A10/99_584-1; A10/99_586-1; A10/99_589-1; A10/99_592-1; A10/99_595-1; A10/99_597-1; A10/99_599-1; A10/99_600-1; A10/99_602-1; A10/99_603-1; A10/99_604-1; A10/99_606-1; A10/99_608-1; A10/99_612-1; A10/99_615-1; A10/99_618-1; A10/99_620-1; A10/99_640-1; A10/99_643-1; A10/99_646-1; A10/99_648-1; A10/99_650-1; A10/99_653-1; A10/99_655-1; A10/99_656-1; A10/99_658-1; A10/99_662-1; A10/99_664-1; A10/99_667-1; A10/99_670-1; A10/99_673-1; A10/99_676-1; A10/99_678-1; A10/99_680-1; A10/99_682-1; A10/99_685-1; A10/99_687-1; A10/99_689-1; A10/99_697-1; A10/99_698-1; A10/99_700-1; A10/99_702-1; A10/99_704-1; A10/99_705-1; A10/99_707-1; A14/97; A14/97_446; A14/97_448; A14/97_450; A14/97_452; A14/97_453; A14/97_455; A14/97_457; A14/97_458; A14/97_460; A14/97_467; A14/97_507; A14/97_509; A14/97_510; A14/97_514; A14/97_515; A14/97_517; A14/97_546; A14/97_548; A14/97_551; A14/97_556; A14/97_558; A14/97_576; A14/97_580; A14/97_582; A14/97_584; A14/97_586; A14/97_589; A14/97_592; A14/97_594; A14/97_597; A14/97_622; A14/97_624; A14/97_627; A14/97_641; A14/97_643; A14/97_644; A14/97_645; A14/97_648; A14/97_651; A14/97_658; A14/97_660; A14/97_663; A14/97_666; A14/97_668; A14/97_671; A14/97_672; A14/97_689; A14/97_691; A14/97_694; A14/97_696; A14/97_698; A14/97_700; A14/97_710; A14/97_711; A14/97_712; A14/97_714; A14/97_717; A14/97_720; A14/97_722; A14/97_723; A14/97_726; A14/97_729; A14/97_734; A14/97_739; A14/97_741; A14/97_742; A14/97_744; A14/97_746; A14/97_748; A14/97_759; ARA-12-1/97; ARA-12-1/97_398; ARA-12-1/97_399; ARA-12-1/97_400; ARA-12-1/97_401; ARA-12-1/97_402; ARA-12-1/97_403; ARA-12-1/97_404; ARA-12-1/97_405; ARA-12-1/97_406; ARA-12-1/97_407; ARA-12-1/97_408; ARA-12-1/97_409; ARA-12-1/97_410; ARA-12-1/97_411; ARA-12-1/97_412; ARA-12-1/97_413; ARA-12-1/97_414; ARA-12-1/97_415; ARA-12-1/97_416; ARA-12-1/97_417; ARA-12-1/97_418; ARA-12-1/97_419; ARA-12-1/97_420; ARA-12-1/97_421; ARA-12-1/97_422; ARA-12-1/97_423; ARA-12-1/97_424; ARA-12-1/97_425; ARA-12-2/97; ARA-12-2/97_426; ARA-12-2/97_427; ARA-12-2/97_428; ARA-12-2/97_429; ARA-12-2/97_430; ARA-12-2/97_431; ARA-12-2/97_432; ARA-12-2/97_433; ARA-12-2/97_434; ARA-12-2/97_435; ARA-12-2/97_436; ARA-12-2/97_437; ARA-12-2/97_438; ARA-12-2/97_439; ARA-12-2/97_440; ARA-12-2/97_441; ARA-12-2/97_442; ARA-12-2/97_443; ARA-12-2/97_444; ARA-12-2/97_445; ARA-12-2/97_446; ARA-12-2/97_447; ARA-12-2/97_448; ARA-12-2/97_449; ARA-12-2/97_450; ARA-12-2/97_451; ARA-12-2/97_452; ARA-12-2/97_453; ARA-12-2/97_454; ARA-12-2/97_455; ARA-12-2/97_456; ARA-12-2/97_457; ARA-12-2/97_458; ARA-12-2/97_459; ARA-12-2/97_460; ARA-12-2/97_461; ARA-12-2/97_462; ARA-12-2/97_463; ARA-12-2/97_464; ARA-12-2/97_465; ARA-12-2/97_466; ARA-12-2/97_467; ARA-12-2/97_468; ARA-12-2/97_469; ARA-12-2/97_470; ARA-12-2/97_471; ARA-12-2/97_472; ARA-12-2/97_473; ARA-12-2/97_474; ARA-12-2/97_475; ARA-12-2/97_476; ARA-12-2/97_477; ARA-12-2/97_478; ARA-12-2/97_479; ARA-12-2/97_480; ARA-12-2/97_481; ARA-12-2/97_482; ARA-12-2/97_483; ARA-12-2/97_484; ARA-12-2/97_485; ARA-12-2/97_486; ARA-12-2/97_487; ARA-12-2/97_488; ARA-12-2/97_489; ARA-12-2/97_490; ARA-12-2/97_491; ARA-12-2/97_492; ARA-12-2/97_493; ARA-12-2/97_494; ARA-12-2/97_495; ARA-12-2/97_496; ARA-12-2/97_497; ARA-12-3/97; ARA-12-3/97_498; ARA-12-3/97_499; ARA-12-3/97_500; ARA-12-3/97_501; ARA-12-3/97_502; ARA-12-3/97_503; ARA-12-3/97_504; ARA-12-3/97_505; ARA-12-3/97_506; ARA-12-3/97_507; ARA-12-3/97_508; ARA-12-3/97_509; ARA-12-3/97_510; ARA-12-3/97_511; ARA-12-3/97_512; ARA-12-3/97_513; ARA-12-3/97_514; ARA-12-3/97_515; ARA-12-3/97_516; ARA-12-3/97_517; ARA-12-3/97_518; ARA-12-3/97_519; ARA-12-3/97_521; ARA-12-3/97_522; ARA-12-3/97_523; ARA-12-3/97_524; ARA-12-3/97_525; ARA-12-3/97_526; ARA-12-3/97_527; ARA-12-3/97_528; ARA-12-3/97_529; ARA-12-3/97_530; ARA-12-3/97_531; ARA-12-3/97_532; ARA-12-3/97_533; ARA-12-3/97_534; ARA-12-3/97_535; ARA-12-3/97_536; ARA-12-3/97_537; ARA-12-3/97_538; ARA-12-3/97_539; ARA-12-3/97_540; ARA-12-3/97_541; ARA-12-3/97_542; ARA-12-3/97_543; ARA-12-3/97_544; ARA-12-3/97_545; ARA-12-3/97_546; ARA-12-3/97_547; ARA-12-3/97_548; ARA-12-3/97_549; ARA-12-3/97_550; ARA-12-3/97_551; ARA-12-3/97_552; ARA-12-3/97_553; ARA-12-3/97_554; ARA-12-3/97_555; ARA-12-3/97_556; ARA-12-3/97_557; ARA-12-3/97_558; ARA-12-3/97_559; ARA-12-3/97_560; ARA-12-3/97_561; ARA-12-3/97_562; ARA-12-3/97_563; ARA-12-3/97_564; ARA-12-3/97_565; ARA-12-3/97_566; ARA-12-3/97_567; ARA-12-3/97_568; ARA-12-3/97_569; ARA-12-3/97_570; ARA-12-3/97_571; ARA-12-3/97_572; ARA-12-3/97_573; ARA-12-3/97_574; ARA-12-3/97_575; ARA-12-3/97_576; ARA-12-3/97_577; ARA-12-3/97_578; Aranda (1989); ARK-XIV/2; ARK-XV/3; Arni Fridriksson; B02/98; B02/98-1001; B02/98-1011; B02/98-1021; B02/98-1031; B02/98-1061; B02/98-1062; B02/98-1071; B02/98-1081; B02/98-1101; B02/98-1111; B02/98-1121; B02/98-1131; B02/98-1141; B02/98-1151; B02/98-1181; B02/98-1191; B02/98-1221; B02/98-1222; B02/98-1231; B02/98-1241; B02/98-1251; B02/98-1261; B02/98-1271; B02/98-1281; B02/98-1291; B02/98-1292; B02/98-1293; B02/98-1301; B02/98-1311; B02/98-1321; B02/98-1341; B02/98-1342; B02/98-1361; B02/98-1371; B02/98-1381; B02/98-1391; B02/98-1401; B02/98-1411; B02/98-1421; B02/98-1431; B02/98-1441; B02/98-1451; B02/98-1461; B02/98-1471; B02/98-1481; B02/98-1491; B02/98-1501; B02/98-1511; B02/98-1521; B02/98-1531; B02/98-1541; B02/98-1551; B02/98-1561; B02/98-1571; B02/98-1581; B02/98-1591; B02/98-1601; B02/98-1611; B02/98-1622; B02/98-531; B02/98-541; B02/98-551; B02/98-561; B02/98-571; B02/98-581; B02/98-591; B02/98-601; B02/98-621; B02/98-622; B02/98-631; B02/98-641; B02/98-651; B02/98-661; B02/98-671; B02/98-681; B02/98-691; B02/98-701; B02/98-711; B02/98-721; B02/98-731; B02/98-741; B02/98-751; B02/98-761; B02/98-771; B02/98-781; B02/98-791; B02/98-801; B02/98-811; B02/98-821; B02/98-831; B02/98-841; B02/98-842; B02/98-843; B02/98-844; B02/98-845; B02/98-851; B02/98-861; B02/98-891; B02/98-901; B02/98-911; B02/98-921; B02/98-931; B02/98-941; B02/98-961; B02/98-971; B02/98-972; B02/98-973; B02/

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Format: application/zip, 93 datasets

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Composition of coarce fraction of surface sediments, Tab A17a (2000)

Lackschewitz, Klas Sven ; Thiede, Jörn

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Publication Date: 2024-06-28

Keywords: 403; 406; 414; 415; 416; 423; 424; 428; 429; 431; 432; 433; 434; 440; 442; 443; 449; 451; 452; 455; 460; ARK-V/1; ARK-VII/1; Biogenic particles; Coarse fraction/modal analysis; DEPTH, sediment/rock; Event label; GEOMAR; Giant box corer; GIK21845-2 PS17/010; GIK21852-1 PS17/018; GIK21855-1 PS17/022; GIK21856-1 PS17/023; GKG; Helmholtz Centre for Ocean Research Kiel; Kolbeinsey Ridge; PO158/A; Polarstern; POS158/1; POS158/1_0001/1; POS158/1_0002/1; POS158/1_0003/1; POS158/1_0004/1; POS158/1_0005/1; POS158/1_0006/1; POS158/1_0007/1; POS158/1_0008/1; POS158/1_0009/1; POS158/1_0010/2; POS158/1_0011/1; POS158/1_0012/1; POS158/1_0013/1; POS158/1_0015/1; POS158/1_0016/2; POS158/1_0017/1; POS158/1_0018/1; POS158/1_0019/1; POS158/1_0020/1; POS158/1_0021/1; POS158/1_0023/1; Poseidon; PS13; PS13/015; PS13/016; PS13/018; PS13/019; PS17; PS1845-2; PS1852-1; PS1855-1; PS1856-1; Quaternary Environment of the Eurasian North; QUEEN; Terrigenous; Volcanite

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Format: text/tab-separated-values, 87 data points

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Grain size and coarse fraction composition of surface sediments, Tab A1, A3 (2000)

Lackschewitz, Klas Sven ; Thiede, Jörn

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Publication Date: 2024-06-28

Keywords: 403; 406; 414; 415; 416; 423; 424; 428; 429; 431; 432; 433; 434; 440; 442; 443; 449; 451; 452; 455; 460; Aggregates; ARK-V/1; ARK-VII/1; Authigenic minerals; AWI_Paleo; Coarse fraction/modal analysis; Counting 〉63 µm fraction; DEPTH, sediment/rock; Diatoms; Elevation of event; Event label; Feldspar; Foraminifera, benthic agglutinated; Foraminifera, benthic calcareous marine; Foraminifera, planktic; GEOMAR; Giant box corer; GIK21845-2 PS17/010; GIK21852-1 PS17/018; GIK21855-1 PS17/022; GKG; Grain size, sieving; Heavy minerals; Helmholtz Centre for Ocean Research Kiel; Kolbeinsey Ridge; Latitude of event; Longitude of event; Mica; Ostracoda; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; PO158/A; Polarstern; POS158/1; POS158/1_0001/1; POS158/1_0002/1; POS158/1_0003/1; POS158/1_0004/1; POS158/1_0005/1; POS158/1_0006/1; POS158/1_0007/1; POS158/1_0008/1; POS158/1_0009/1; POS158/1_0010/2; POS158/1_0011/1; POS158/1_0012/1; POS158/1_0013/1; POS158/1_0015/1; POS158/1_0016/2; POS158/1_0017/1; POS158/1_0018/1; POS158/1_0019/1; POS158/1_0020/1; POS158/1_0021/1; POS158/1_0023/1; Poseidon; PS13; PS13/014; PS13/015; PS13/016; PS13/018; PS13/019; PS17; PS1845-2; PS1852-1; PS1855-1; Quartz; Quaternary Environment of the Eurasian North; QUEEN; Radiolarians; Rock fragments; Size fraction 〈 0.063 mm, mud, silt+clay; Size fraction 〉 0.063 mm, sand; Size fraction 〉 1 mm, gravel; Size fraction 0.125-0.063 mm, 3.0-4.0 phi, very fine sand; Size fraction 0.250-0.125 mm, 2.0-3.0 phi, fine sand; Size fraction 0.500-0.250 mm, 1.0-2.0 phi, medium sand; Size fraction 1.000-0.500 mm, 0.0-1.0 phi, coarse sand; Sponge spiculae; Volcanic glass, brown; Volcanic glass, clear; Volcanite

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Format: text/tab-separated-values, 696 data points

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Silt fraction analysis of sediment core PS1728-1 (2000)

Grobe, Hannes

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In: Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven

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Publication Date: 2024-06-28

Keywords: ARK-V/3b; AWI_Paleo; DEPTH, sediment/rock; GIK21728-1 PS13/205; Grain size, SEDIGRAPH 5000; Gravity corer (Kiel type); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS13 GRÖKORT; PS1728-1; Scoresby Sund; Size fraction 10.309-9.618 µm, 6.6-6.7 phi; Size fraction 11.049-10.309 µm, 6.5-6.6 phi; Size fraction 11.842-11.049 µm, 6.4-6.5 phi; Size fraction 12.691-11.842 µm, 6.3-6.4 phi; Size fraction 13.602-12.691 µm, 6.2-6.3 phi; Size fraction 14.579-13.602 µm, 6.1-6.2 phi; Size fraction 15.625-14.579 µm, 6.0-6.1 phi; Size fraction 16.746-15.625 µm, 5.9-6.0 phi; Size fraction 17.948-16.746 µm, 5.8-5.9 phi; Size fraction 19.237-17.948 µm, 5.7-5.8 phi; Size fraction 2.093-1.953 µm, 8.9-9.0 phi; Size fraction 2.244-2.093 µm, 8.8-8.9 phi; Size fraction 2.405-2.244 µm, 8.7-8.8 phi; Size fraction 2.577-2.405 µm, 8.6-8.7 phi; Size fraction 2.762-2.577 µm, 8.5-8.6 phi; Size fraction 2.960-2.762 µm, 8.4-8.5 phi; Size fraction 20.617-19.237 µm, 5.6-5.7 phi; Size fraction 22.097-20.617 µm, 5.5-5.6 phi; Size fraction 23.683-22.097 µm, 5.4-5.5 phi; Size fraction 25.383-23.683 µm, 5.3-5.4 phi; Size fraction 27.205-25.383 µm, 5.2-5.3 phi; Size fraction 29.157-27.205 µm, 5.1-5.2 phi; Size fraction 3.173-2.960 µm, 8.3-8.4 phi; Size fraction 3.401-3.173 µm, 8.2-8.3 phi; Size fraction 3.645-3.401 µm, 8.1-8.2 phi; Size fraction 3.906-3.645 µm, 8.0-8.1 phi; Size fraction 31.250-29.157 µm, 5.0-5.1 phi; Size fraction 33.493-31.250 µm, 4.9-5.0 phi; Size fraction 35.897-33.493 µm, 4.8-4.9 phi; Size fraction 38.473-35.897 µm, 4.7-4.8 phi; Size fraction 4.187-3.906 µm, 7.9-8.0 phi; Size fraction 4.487-4.187 µm, 7.8-7.9 phi; Size fraction 4.809-4.487 µm, 7.7-7.8 phi; Size fraction 41.235-38.473 µm, 4.6-4.7 phi; Size fraction 44.194-41.235 µm, 4.5-4.6 phi; Size fraction 47.366-44.194 µm, 4.4-4.5 phi; Size fraction 5.154-4.809 µm, 7.6-7.7 phi; Size fraction 5.524-5.154 µm, 7.5-7.6 phi; Size fraction 5.921-5.524 µm, 7.4-7.5 phi; Size fraction 50.766-47.366 µm, 4.3-4.4 phi; Size fraction 54.409-50.766 µm, 4.2-4.3 phi; Size fraction 58.315-54.409 µm, 4.1-4.2 phi; Size fraction 6.346-5.921 µm, 7.3-7.4 phi; Size fraction 6.801-6.346 µm, 7.2-7.3 phi; Size fraction 62.500-58.315 µm, 4.0-4.1 phi; Size fraction 7.289-6.801 µm, 7.1-7.2 phi; Size fraction 7.813-7.289 µm, 7.0-7.1 phi; Size fraction 8.373-7.813 µm, 6.9-7.0 phi; Size fraction 8.974-8.373 µm, 6.8-6.9 phi; Size fraction 9.618-8.974 µm, 6.7-6.8 phi; SL

Type: Dataset

Format: text/tab-separated-values, 1200 data points

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Silt fraction analysis of sediment core PS1727-1 (2000)

Grobe, Hannes

PANGAEA

In: Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven

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Publication Date: 2024-06-28

Keywords: ARK-V/3b; AWI_Paleo; DEPTH, sediment/rock; GIK21727-1 PS13/204; Grain size, SEDIGRAPH 5000; Gravity corer (Kiel type); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS13 GRÖKORT; PS1727-1; Scoresby Sund; Size fraction 10.309-9.618 µm, 6.6-6.7 phi; Size fraction 11.049-10.309 µm, 6.5-6.6 phi; Size fraction 11.842-11.049 µm, 6.4-6.5 phi; Size fraction 12.691-11.842 µm, 6.3-6.4 phi; Size fraction 13.602-12.691 µm, 6.2-6.3 phi; Size fraction 14.579-13.602 µm, 6.1-6.2 phi; Size fraction 15.625-14.579 µm, 6.0-6.1 phi; Size fraction 16.746-15.625 µm, 5.9-6.0 phi; Size fraction 17.948-16.746 µm, 5.8-5.9 phi; Size fraction 19.237-17.948 µm, 5.7-5.8 phi; Size fraction 2.093-1.953 µm, 8.9-9.0 phi; Size fraction 2.244-2.093 µm, 8.8-8.9 phi; Size fraction 2.405-2.244 µm, 8.7-8.8 phi; Size fraction 2.577-2.405 µm, 8.6-8.7 phi; Size fraction 2.762-2.577 µm, 8.5-8.6 phi; Size fraction 2.960-2.762 µm, 8.4-8.5 phi; Size fraction 20.617-19.237 µm, 5.6-5.7 phi; Size fraction 22.097-20.617 µm, 5.5-5.6 phi; Size fraction 23.683-22.097 µm, 5.4-5.5 phi; Size fraction 25.383-23.683 µm, 5.3-5.4 phi; Size fraction 27.205-25.383 µm, 5.2-5.3 phi; Size fraction 29.157-27.205 µm, 5.1-5.2 phi; Size fraction 3.173-2.960 µm, 8.3-8.4 phi; Size fraction 3.401-3.173 µm, 8.2-8.3 phi; Size fraction 3.645-3.401 µm, 8.1-8.2 phi; Size fraction 3.906-3.645 µm, 8.0-8.1 phi; Size fraction 31.250-29.157 µm, 5.0-5.1 phi; Size fraction 33.493-31.250 µm, 4.9-5.0 phi; Size fraction 35.897-33.493 µm, 4.8-4.9 phi; Size fraction 38.473-35.897 µm, 4.7-4.8 phi; Size fraction 4.187-3.906 µm, 7.9-8.0 phi; Size fraction 4.487-4.187 µm, 7.8-7.9 phi; Size fraction 4.809-4.487 µm, 7.7-7.8 phi; Size fraction 41.235-38.473 µm, 4.6-4.7 phi; Size fraction 44.194-41.235 µm, 4.5-4.6 phi; Size fraction 47.366-44.194 µm, 4.4-4.5 phi; Size fraction 5.154-4.809 µm, 7.6-7.7 phi; Size fraction 5.524-5.154 µm, 7.5-7.6 phi; Size fraction 5.921-5.524 µm, 7.4-7.5 phi; Size fraction 50.766-47.366 µm, 4.3-4.4 phi; Size fraction 54.409-50.766 µm, 4.2-4.3 phi; Size fraction 58.315-54.409 µm, 4.1-4.2 phi; Size fraction 6.346-5.921 µm, 7.3-7.4 phi; Size fraction 6.801-6.346 µm, 7.2-7.3 phi; Size fraction 62.500-58.315 µm, 4.0-4.1 phi; Size fraction 7.289-6.801 µm, 7.1-7.2 phi; Size fraction 7.813-7.289 µm, 7.0-7.1 phi; Size fraction 8.373-7.813 µm, 6.9-7.0 phi; Size fraction 8.974-8.373 µm, 6.8-6.9 phi; Size fraction 9.618-8.974 µm, 6.7-6.8 phi; SL

Type: Dataset

Format: text/tab-separated-values, 1250 data points

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Silt fraction analysis of sediment core PS1722-1 (2000)

Grobe, Hannes

PANGAEA

In: Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven

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Publication Date: 2024-06-28

Keywords: ARK-V/3b; AWI_Paleo; DEPTH, sediment/rock; GIK21722-1 PS13/186; Grain size, SEDIGRAPH 5000; Gravity corer (Kiel type); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS13 GRÖKORT; PS1722-1; Scoresby Sund; Size fraction 10.309-9.618 µm, 6.6-6.7 phi; Size fraction 11.049-10.309 µm, 6.5-6.6 phi; Size fraction 11.842-11.049 µm, 6.4-6.5 phi; Size fraction 12.691-11.842 µm, 6.3-6.4 phi; Size fraction 13.602-12.691 µm, 6.2-6.3 phi; Size fraction 14.579-13.602 µm, 6.1-6.2 phi; Size fraction 15.625-14.579 µm, 6.0-6.1 phi; Size fraction 16.746-15.625 µm, 5.9-6.0 phi; Size fraction 17.948-16.746 µm, 5.8-5.9 phi; Size fraction 19.237-17.948 µm, 5.7-5.8 phi; Size fraction 2.093-1.953 µm, 8.9-9.0 phi; Size fraction 2.244-2.093 µm, 8.8-8.9 phi; Size fraction 2.405-2.244 µm, 8.7-8.8 phi; Size fraction 2.577-2.405 µm, 8.6-8.7 phi; Size fraction 2.762-2.577 µm, 8.5-8.6 phi; Size fraction 2.960-2.762 µm, 8.4-8.5 phi; Size fraction 20.617-19.237 µm, 5.6-5.7 phi; Size fraction 22.097-20.617 µm, 5.5-5.6 phi; Size fraction 23.683-22.097 µm, 5.4-5.5 phi; Size fraction 25.383-23.683 µm, 5.3-5.4 phi; Size fraction 27.205-25.383 µm, 5.2-5.3 phi; Size fraction 29.157-27.205 µm, 5.1-5.2 phi; Size fraction 3.173-2.960 µm, 8.3-8.4 phi; Size fraction 3.401-3.173 µm, 8.2-8.3 phi; Size fraction 3.645-3.401 µm, 8.1-8.2 phi; Size fraction 3.906-3.645 µm, 8.0-8.1 phi; Size fraction 31.250-29.157 µm, 5.0-5.1 phi; Size fraction 33.493-31.250 µm, 4.9-5.0 phi; Size fraction 35.897-33.493 µm, 4.8-4.9 phi; Size fraction 38.473-35.897 µm, 4.7-4.8 phi; Size fraction 4.187-3.906 µm, 7.9-8.0 phi; Size fraction 4.487-4.187 µm, 7.8-7.9 phi; Size fraction 4.809-4.487 µm, 7.7-7.8 phi; Size fraction 41.235-38.473 µm, 4.6-4.7 phi; Size fraction 44.194-41.235 µm, 4.5-4.6 phi; Size fraction 47.366-44.194 µm, 4.4-4.5 phi; Size fraction 5.154-4.809 µm, 7.6-7.7 phi; Size fraction 5.524-5.154 µm, 7.5-7.6 phi; Size fraction 5.921-5.524 µm, 7.4-7.5 phi; Size fraction 50.766-47.366 µm, 4.3-4.4 phi; Size fraction 54.409-50.766 µm, 4.2-4.3 phi; Size fraction 58.315-54.409 µm, 4.1-4.2 phi; Size fraction 6.346-5.921 µm, 7.3-7.4 phi; Size fraction 6.801-6.346 µm, 7.2-7.3 phi; Size fraction 62.500-58.315 µm, 4.0-4.1 phi; Size fraction 7.289-6.801 µm, 7.1-7.2 phi; Size fraction 7.813-7.289 µm, 7.0-7.1 phi; Size fraction 8.373-7.813 µm, 6.9-7.0 phi; Size fraction 8.974-8.373 µm, 6.8-6.9 phi; Size fraction 9.618-8.974 µm, 6.7-6.8 phi; SL

Type: Dataset

Format: text/tab-separated-values, 1500 data points

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Silt fraction analysis of sediment core PS1720-1 (2000)

Grobe, Hannes

PANGAEA

In: Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven

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Publication Date: 2024-06-28

Keywords: ARK-V/3b; AWI_Paleo; DEPTH, sediment/rock; GIK21720-1 PS13/173; Grain size, SEDIGRAPH 5000; Gravity corer (Kiel type); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS13 GRÖKORT; PS1720-1; Scoresby Sund; Size fraction 10.309-9.618 µm, 6.6-6.7 phi; Size fraction 11.049-10.309 µm, 6.5-6.6 phi; Size fraction 11.842-11.049 µm, 6.4-6.5 phi; Size fraction 12.691-11.842 µm, 6.3-6.4 phi; Size fraction 13.602-12.691 µm, 6.2-6.3 phi; Size fraction 14.579-13.602 µm, 6.1-6.2 phi; Size fraction 15.625-14.579 µm, 6.0-6.1 phi; Size fraction 16.746-15.625 µm, 5.9-6.0 phi; Size fraction 17.948-16.746 µm, 5.8-5.9 phi; Size fraction 19.237-17.948 µm, 5.7-5.8 phi; Size fraction 2.093-1.953 µm, 8.9-9.0 phi; Size fraction 2.244-2.093 µm, 8.8-8.9 phi; Size fraction 2.405-2.244 µm, 8.7-8.8 phi; Size fraction 2.577-2.405 µm, 8.6-8.7 phi; Size fraction 2.762-2.577 µm, 8.5-8.6 phi; Size fraction 2.960-2.762 µm, 8.4-8.5 phi; Size fraction 20.617-19.237 µm, 5.6-5.7 phi; Size fraction 22.097-20.617 µm, 5.5-5.6 phi; Size fraction 23.683-22.097 µm, 5.4-5.5 phi; Size fraction 25.383-23.683 µm, 5.3-5.4 phi; Size fraction 27.205-25.383 µm, 5.2-5.3 phi; Size fraction 29.157-27.205 µm, 5.1-5.2 phi; Size fraction 3.173-2.960 µm, 8.3-8.4 phi; Size fraction 3.401-3.173 µm, 8.2-8.3 phi; Size fraction 3.645-3.401 µm, 8.1-8.2 phi; Size fraction 3.906-3.645 µm, 8.0-8.1 phi; Size fraction 31.250-29.157 µm, 5.0-5.1 phi; Size fraction 33.493-31.250 µm, 4.9-5.0 phi; Size fraction 35.897-33.493 µm, 4.8-4.9 phi; Size fraction 38.473-35.897 µm, 4.7-4.8 phi; Size fraction 4.187-3.906 µm, 7.9-8.0 phi; Size fraction 4.487-4.187 µm, 7.8-7.9 phi; Size fraction 4.809-4.487 µm, 7.7-7.8 phi; Size fraction 41.235-38.473 µm, 4.6-4.7 phi; Size fraction 44.194-41.235 µm, 4.5-4.6 phi; Size fraction 47.366-44.194 µm, 4.4-4.5 phi; Size fraction 5.154-4.809 µm, 7.6-7.7 phi; Size fraction 5.524-5.154 µm, 7.5-7.6 phi; Size fraction 5.921-5.524 µm, 7.4-7.5 phi; Size fraction 50.766-47.366 µm, 4.3-4.4 phi; Size fraction 54.409-50.766 µm, 4.2-4.3 phi; Size fraction 58.315-54.409 µm, 4.1-4.2 phi; Size fraction 6.346-5.921 µm, 7.3-7.4 phi; Size fraction 6.801-6.346 µm, 7.2-7.3 phi; Size fraction 62.500-58.315 µm, 4.0-4.1 phi; Size fraction 7.289-6.801 µm, 7.1-7.2 phi; Size fraction 7.813-7.289 µm, 7.0-7.1 phi; Size fraction 8.373-7.813 µm, 6.9-7.0 phi; Size fraction 8.974-8.373 µm, 6.8-6.9 phi; Size fraction 9.618-8.974 µm, 6.7-6.8 phi; SL

Type: Dataset

Format: text/tab-separated-values, 750 data points

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Documentation of sediment core PS1712-2 (2003)

Weigel, Wilfried ; Grobe, Hannes

PANGAEA

In: Alfred Wegener Institute - Polarstern core repository

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Publication Date: 2024-06-28

Keywords: ARK-V/3b; AWI_Paleo; GIK21712-2 PS13/160; Gravity corer (Kiel type); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS13 GRÖKORT; PS1712-2; Scoresby Sund; SL

Type: Dataset

Format: unknown

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