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| A model of early to middle Miocene deep ocean circulation for the Atlantic and Indian Oceans Ramsay, A.T.S.; Smart, C.W.; Zachos, J.C. (1998). A model of early to middle Miocene deep ocean circulation for the Atlantic and Indian Oceans, in: Cramp, A. et al. Geological evolution of ocean basins: results from the Ocean Drilling Program. Geological Society Special Publication, 131: pp. 55-70. https://dx.doi.org/10.1144/GSL.SP.1998.131.01.04
In: Cramp, A. et al. (1998). Geological evolution of ocean basins: Results from the Ocean Drilling Program. Geological Society Special Publication, 131. Geological Society: London. ISBN 1-86239-003-7. XI, 323 pp.
In: Hartley, A.J. et al. (Ed.) Geological Society Special Publication. Geological Society of London: Oxford; London; Edinburgh; Boston, Mass.; Carlton, Vic.. ISSN 0305-8719; e-ISSN 2041-4927, meer
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Circulation Geological time > Phanerozoic > Geological time > Cenozoic > Tertiary > Cenozoic > Neogene > Miocene ISW, Indian Ocean Water > Deep water Atlantic Ocean [Marine Regions]; Indische Oceaan [Marine Regions] |
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High δO values recorded in the Atlantic water mass may have originated, in part, from evaporation and the formation of warm, saline water within the Tethys. The southward flowing Atlantic TOW at depths of 2–4.5 km enhanced meridional heat transport. It was overlain by Northern Component Water (NCW) with a lower δC signal. TOW and NCW were replaced by southward flowing North Atlantic Deep Water at c. 13 Ma when cold dense Norwegian—Greenland Sea water flowed across the Greenland—Scotland Ridge. Indian Ocean TOW was restricted laterally by the Chagos—Lacadive Ridge, and vertically (1.3 to 3 km) by overlying intermediate water, characterized by the occurrence of coarse-walled bolivinids, and underlying deep water characterized by high abundances (>10%) of Nuttallides umboniferus. The coarse-walled bolivinid and ‘N. umboniferus’ faunas were associated with lower temperature, salinity and higher oxygen concentrations. Tethyan outflow to the northwest Indian Ocean ended at c. 14.5 Ma, probably in response to the closure of a gateway, and resulted in a two-component deep water mass structure. The coeval increase in the relative abundances of N. umboniferus at Indian Ocean Sites 237 (c. 2 km) and 710 (c. 3.5 km), at c. 13 Ma, probably records the impact of this change on the nature of Indian Ocean deep water at depths between 2 and 4 km. The termination of the Atlantic and, to a lesser extent, Indian Ocean TOW contributed to global cooling and to the expansion of the Antarctic Ice Sheet by limiting the meridional heat transport. |
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