scholarly article | Q13442814 |
P819 | ADS bibcode | 2002PPP...182..241D |
P356 | DOI | 10.1016/S0031-0182(01)00498-9 |
P50 | author | Gerhard Kuhn | Q56968785 |
Bernhard Diekmann | Q57084930 | ||
P2860 | cites work | The 100,000-year ice-Age cycle identified and found to lag temperature, carbon dioxide, and orbital eccentricity | Q28138776 |
Diatoms and the ocean carbon cycle | Q28139156 | ||
Variations in the Earth's Orbit: Pacemaker of the Ice Ages | Q28245451 | ||
Sea ice as the glacial cycles’ Climate switch: role of seasonal and orbital forcing | Q30050629 | ||
Local orbital forcing of antarctic climate change during the last interglacial | Q32066122 | ||
The influence of Antarctic sea ice on glacial-interglacial CO2 variations | Q33895071 | ||
Plio-Pleistocene African climate. | Q34296409 | ||
Particle size of the Saharan dust which fell in Britain in July 1968. | Q39359018 | ||
Early onset and tropical forcing of 100,000-year Pleistocene glacial cycles | Q39415135 | ||
Climate and atmospheric history of the past 420,000 years from the Vostok ice core, Antarctica | Q55880358 | ||
On the meridional extent and fronts of the Antarctic Circumpolar Current | Q56038454 | ||
Glacial-interglacial CO2 change: The Iron Hypothesis | Q56455131 | ||
The role of ocean-atmosphere reorganizations in glacial cycles | Q56502306 | ||
Northern Hemisphere Ice-Sheet Influences on Global Climate Change | Q56553648 | ||
Late Quaternary variability of ocean circulation in the southeastern South Atlantic inferred from the terrigenous sediment record of a drift deposit in the southern Cape Basin (ODP Site 1089) | Q57084862 | ||
Terrigenous sediment supply in the Scotia Sea (Southern Ocean): response to Late Quaternary ice dynamics in Patagonia and on the Antarctic Peninsula | Q57084873 | ||
Silica cycle in surface sediments of the South Atlantic | Q57084876 | ||
Significance of clay mineral assemblages in the Antarctic Ocean | Q57084889 | ||
Asynchrony of Antarctic and Greenland climate change during the last glacial period | Q58265585 | ||
A line in the sea | Q58471293 | ||
Increased biological productivity and export production in the glacial Southern Ocean | Q59091342 | ||
Evidence from Southern Ocean sediments for the effect of North Atlantic deep-water flux on climate | Q59098964 | ||
Late-Quaternary changes in productivity of the Southern Ocean | Q59768399 | ||
Origin of Diatom Ooze Belt in the Southern Ocean: Implications for Late Quaternary Paleoceanography | Q60017403 | ||
Quaternary time scale for the Ontong Java Plateau: Milankovitch template for Ocean Drilling Program Site 806 | Q61662641 | ||
Upper-level circulation in the South Atlantic Ocean | Q63443918 | ||
The cause of the glacial to interglacial atmospheric CO2change: A Polar Alkalinity Hypothesis | Q73801739 | ||
On the structure and origin of major glaciation cycles 2. The 100,000-year cycle | Q94591214 | ||
Does an asymmetric thermohaline-ice-sheet oscillator drive 100 000-yr glacial cycles? | Q107105058 | ||
Evolution of the Norwegian Current and the Scandinavian Ice Sheets during the past 2.6 m.y.: evidence from ODP Leg 104 biogenic carbonate and terrigenous records | Q107105166 | ||
P433 | issue | 3-4 | |
P304 | page(s) | 241-258 | |
P577 | publication date | 2002-07-01 | |
P1433 | published in | Palaeogeography, Palaeoclimatology, Palaeoecology | Q7126415 |
P1476 | title | Sedimentary record of the mid-Pleistocene climate transition in the southeastern South Atlantic (ODP Site 1090) | |
P478 | volume | 182 |
Q58413640 | A transient deep-sea circulation switch during Eocene Thermal Maximum 2 |
Q56461387 | Afro-Eurasia and the Americas present barriers to gene flow for the cosmopolitan neustonic nudibranch Glaucus atlanticus |
Q57494306 | Cyclic magnetite dissolution in Pleistocene sediments of the abyssal northwest Pacific Ocean: Evidence for glacial oxygen depletion and carbon trapping |
Q57084860 | Environmental history of the south-eastern South Atlantic since the Middle Miocene: evidence from the sedimentological records of ODP Sites 1088 and 1092 |
Q94474068 | Exceptionally high biosphere productivity at the beginning of Marine Isotopic Stage 11 |
Q116201860 | Historical perspectives on population genetics and conservation of three marine turtle species |
Q57658268 | Links between iron supply, marine productivity, sea surface temperature, and CO2 over the last 1.1 Ma |
Q34436406 | Re-examination of population structure and phylogeography of hawksbill turtles in the wider Caribbean using longer mtDNA sequences |
Q28293145 | The biogeography of the yeti crabs (Kiwaidae) with notes on the phylogeny of the Chirostyloidea (Decapoda: Anomura) |
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