Record Details

Biogenic and terrigenous sedimetations at Ceara rise, western tropical Altantic, supports Pliocene - Pleistocene deep - water linkage between hemispheres

ScholarsArchive at Oregon State University

Field Value
Title Biogenic and terrigenous sedimetations at Ceara rise, western tropical Altantic, supports Pliocene - Pleistocene deep - water linkage between hemispheres
Names Harris, Sara E. (creator)
Mix, Alan C. (creator)
King, Terri (creator)
Date Issued 1997 (iso8601)
Abstract Calcium carbonate percentages at five Ceara Rise sites were estimated at 1- to 2-k.y. intervals over the past 5 m.y., using
reflectance spectroscopy and magnetic susceptibility proxies. From these estimates and detailed correlations between sites, gradients
of calcite and terrigenous sediment accumulation rates in a depth transect of sites reveal variations in local climate and
calcite dissolution related to deep-water masses. Relative to shallow sites on the southern Ceara Rise, accumulation rates of terrigenous
sediments at deeper sites near the Amazon Fan were higher during glacial periods. Analogous variations in terrigenous
sedimentation before the expansion of Northern Hemisphere ice sheets ~3 m.y. ago suggests that tropical climate cycles
occurred independently of polar glaciation. Decreasing accumulation rates of calcite with increasing water depth reveal patterns
of carbonate dissolution, which varied on orbital time-scales (10-
100 k.y. periods) throughout the Pliocene-Pleistocene.
Maximum dissolution at deep relative to shallow sites occurred in the transition from interglacial to glacial conditions, and
maximum preservation occurred during global warming, at all orbital periods. If the local dissolution gradient is linked to relative
contributions of North Atlantic Deep Water and Antarctic Bottom Water, this phasing of events confirms a key prediction
of SPECMAP that deep-water adjustments may translate climate changes between hemispheres. Dissolution and preservation
events, however, may also reflect a transient response to a net flux of organic matter between the continents and the oceans during
ice-age climate transitions.
Genre Article
Identifier Harris, S.E., A.C. Mix, and T. King (1997) Biogenic and terrigenous sedimentation at Ceara Rise, western tropical Atlantic, supports Plio-Pleistocene deep-water linkage between hemispheres. <http://www.coas.oregonstate.edu/facultypages/mix/Harris_Mix_1997_ODP154B.pd f> In: Shackleton, Curry, Richter (eds). /Proceedings of the Ocean Drilling Program, Scientific Results,/ 154, College Station, TX (Ocean Drilling Program), 331-345.

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