Cenozoic Paleoceanography in the Southwest Pacific Ocean, Antarctic Glaciation, and the Development of the Circumantarctic Current

Kennett, James P.; Houtz, Robert E.; Andrews, Peter B.; Edwards, Anthony; Gostin, Victor A.; Hajos, M.; Hampton, Monty A.; Jenkins, D. Graham; Margolis, Stanley V.; Ovenshine, A.T.; Perch-Nielsen, K.

doi:10.2973/dsdp.proc.29.144.1975

Cited by 112 publications

(110 citation statements)

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“…ago). The late Miocene to early Plio- cene also was a time of major increases in upwelling and organic productivity at the Antarctic convergence (Kennett et al, 1974) due to increased bottom-water circulation related to the development of an Antarctic ice sheet that was much thicker than at present (Shackleton and Kennett, 1974a). We did not recover sediments old enough at Site 532 to determine whether upwelling did indeed begin ca.…”

Section: History Of Benguela Upwellingmentioning

confidence: 95%

“…This unconformity apparently was due to the combination of (1) extensive development of shelf ice on Antarctica and concomitant generation and vigorous flow of cold bottom-water leading to development of modern thermohaline circulation Savin et al, 1975;Kennett et al, 1974;Shackleton and Kennett, 1974a;Boersma andShackleton, 1977a and1977b;McCoy and Zimmerman, 1977;van Andel et al, 1977); (2) increased north-south temperature gradients caused by major cooling at high latitudes; (3) stronger circum-polar flow resulting from the complete separation of Antarctica and Australia by later Eocene (Kennett et al, 1974); and (4) a sharp drop in sea level during the Eocene (Fig. 2).…”

Section: Carbonate Compensation and Cenozoic Paleoceanography Of The mentioning

confidence: 99%

“…Active bottom currents with deep-sea erosion (Kennett et al, 1974); high productivity and accumulation of CaCθ3 in the Pacific. Major global cooling; sharpening of latitudinal temperature gradients; extensive production of sea ice on Antarctica; development of present thermohaline deep-water circulation; abrupt increase in depth of CCD world wide (except in Angola Basin) (Heath, 1969;van Andel and Moore, 1974;Berger,1981;Kennett et al, 1974;van Andel et al, 1977) Shoaling of the CCD Maximum depth of the CCD middle Eocene to middle Oligocene section ( Fig.…”

Section: Carbonate Compensation and Cenozoic Paleoceanography Of The mentioning

confidence: 99%

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Geologic Evolution, Sedimentation, and Paleoenvironments of the Angola Basin and Adjacent Walvis Ridge: Synthesis of Results of Deep Sea Drilling Project Leg 75

Dean¹,

Hay²,

Sibuet³

1984

Initial Reports of the Deep Sea Drilling Project

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The section recovered at Site 530 (Holes 53OA and 530B) consists of eight sedimentary units and one basalt unit. The composition of the basalt recovered in Hole 53OA is distinct from typical mid-ocean ridge basalts (MORBs) but is similar to that of Hawaiian tholeiites and basalt from the central part of Walvis Ridge. Throughout most of its history, the southern Angola Basin received large volumes of redeposited material in the form of turbidites and, most recently, debris-flow deposits. Most of this material was derived from Walvis Ridge to the south, but thickness trends of acoustic units suggest that some of the sediment was derived from the African continental margin to the east.The basal sedimentary unit (Albian to Santonian) at Site 530 contains 262 beds of black shale that are interbedded with green and red claystone. Black shale makes up less than 10% of the total section, but in two cores of early Turonian age, black shale beds compose about 50% of the section. The black shales contain up to 19% organic carbon (average of about 5%) that is mainly of autochthonous marine origin but with significant contributions from terrigenous organic matter. The origin of these more-and less-reduced interbedded lithologies with varying amounts and types of organic matter, and variable amounts of pelagic, hemipelagic, and turbiditic sediment is complex and cannot be explained by any one simple process. Many factors affecting the concentration of dissolved oxygen in the bottom waters of the Angola Basin varied throughout the middle Cretaceous to produce bottom-water conditions that fluctuated between mildly oxic and oxygen-deficient, but most of the time bottom-waters and sediment-interstitial waters were sufficiently oxic to permit the accumulation of red oxidized sediment.A relatively complete sedimentary record of the Cretaceous/Tertiary boundary was recovered within a sequence of mudstone and marlstone turbidites in Hole 530A. There is a significant increase in the concentration of iridium above background levels at the boundary. High concentrations of many other elements also occur within the same stratigraphic interval as the iridium anomaly. Furthermore, there is a marked decrease in CaCO 3 in the Tertiary strata above the iridium anomaly which suggests that the production of shallow-water carbonate also may have been affected by whatever caused elevated concentrations of iridium and other elements. These observations are consistent with the asteroid-impact theory proposed to explain the worldwide occurrence of an iridium anomaly at the Cretaceous/Tertiary boundary.The Cenozoic history of the Angola Basin was controlled mainly by (1) restriction of bottom-water flow from the south by Walvis Ridge; (2) development of glaciation on Antarctica; (3) opening of circulation passages in the southern oceans; (4) rapid turnover of cold, nutrient-rich waters that resulted in high productivity of diatoms; (5) influx of terrigenous sediment mainly by turbidity currents; and (6) production and preservation of carbonate...

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Section: History Of Benguela Upwellingmentioning

confidence: 95%

Section: Carbonate Compensation and Cenozoic Paleoceanography Of The mentioning

confidence: 99%

Section: Carbonate Compensation and Cenozoic Paleoceanography Of The mentioning

confidence: 99%

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Geologic Evolution, Sedimentation, and Paleoenvironments of the Angola Basin and Adjacent Walvis Ridge: Synthesis of Results of Deep Sea Drilling Project Leg 75

Dean¹,

Hay²,

Sibuet³

1984

Initial Reports of the Deep Sea Drilling Project

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“…Around New Zealand, magnetometers towed between Lyttelton and Antarctica showed the same magnetic stripes that recorded the opening of the southern ocean (Christoffel & Falconer 1972), and hence the birth of the Southern Ocean Circulation and the science of palaeoceanography (Kennett et al 1975). In the Tasman Sea, the stripes were clearly old and difficult to correlate (van der Linden 1969) but ultimately provided evidence that New Zealand and all its surrounding plateaus had rifted away from the super-continent of Gondwana 80-60 million years ago (Hayes &Ringis 1973).…”

Section: Journal Of Marine and Freshwater Researchmentioning

confidence: 99%

Advances in New Zealand oceanography, 1967–91

Bradford‐Grieve¹,

Lewis²,

Stanton³

1991

New Zealand Journal of Marine and Freshwater Research

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“…By hindering deep water connectivity along the way until 22e17 Ma (Barker, 2001), South Georgia could have played a role in Miocene changes to Antarctic glaciation by acting as the physical arbiter on the onset of Antarctic circumpolar oceanic circulation. This circulation has been suggested as necessary for the onset of continental-scale glaciation of Antarctica, which brought with it a range of global changes (Kennett et al, 1975). Early-onset alternatives leave South Georgia closer to its present-day position, permitting shallow Pacific-to-Atlantic water exchange to play a role in fundamentally changing oceanic circulation patterns in such a way that carbon sequestration sites shifted offshore at around 50 Ma, a change that is suggested to have initiated the long Cenozoic decline in atmospheric CO 2 concentration, and with it global temperature (Eagles et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

South Georgia and Gondwana's Pacific Margin: Lost in translation?

Eagles

2010

Journal of South American Earth Sciences

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Cenozoic Paleoceanography in the Southwest Pacific Ocean, Antarctic Glaciation, and the Development of the Circumantarctic Current

Abstract: Cenozoic deep-sea sedimentation in the southwest Pacific area was controlled by large changes in the patterns of bottom-water circulation and erosion. The circulation patterns were largely controlled by

Cited by 112 publications

References 45 publications

Geologic Evolution, Sedimentation, and Paleoenvironments of the Angola Basin and Adjacent Walvis Ridge: Synthesis of Results of Deep Sea Drilling Project Leg 75

Geologic Evolution, Sedimentation, and Paleoenvironments of the Angola Basin and Adjacent Walvis Ridge: Synthesis of Results of Deep Sea Drilling Project Leg 75

Advances in New Zealand oceanography, 1967–91

South Georgia and Gondwana's Pacific Margin: Lost in translation?

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