A. T. S. Ramsay scite author profile

Tethyan Outflow Water (TOW), characterized by high benthic 513C values, was a component of the early Miocene deep water mass of the Atlantic (c. 20 and c. 13 Ma) and Indian (c. 20 and c. 14.5 Ma) Oceans. Fluctuations in temperature, salinity and quantity of dissolved oxygen coincided with high abundances of infaunal, smooth-walled bolivinids within the Atlantic and Indian Ocean TOW between 19.5 and 16.5 Ma.High 5180 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 513C 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

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Middle–late Miocene benthic foraminifera in a western equatorial Indian Ocean depth transect: Paleoceanographic implications

Smart

Thomas

Ramsay

2007

Palaeogeography, Palaeoclimatology, Palaeoecology

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Climatically Controlled Sediments, the Geomagnetic Field, and Trade Wind Belts in Phanerozoic Time

Drewry¹,

Ramsay²,

Smith³

1974

The Journal of Geology

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Characterizing uncertainties for quantifying bathymetry change between time-separated multibeam echo-sounder surveys

Schmitt

Mitchell

Ramsay

2008

Continental Shelf Research

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A. T. S. Ramsay

The geology and formation of King's Trough, northeast Atlantic Ocean

A Model of early to middle Miocene Deep Ocean circulation for the Atlantic and Indian Oceans

Middle–late Miocene benthic foraminifera in a western equatorial Indian Ocean depth transect: Paleoceanographic implications

Climatically Controlled Sediments, the Geomagnetic Field, and Trade Wind Belts in Phanerozoic Time

Characterizing uncertainties for quantifying bathymetry change between time-separated multibeam echo-sounder surveys

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