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Main Authors: Farrell, John W, Raffi, Isabella, Janecek, Thomas R, Murray, David W, Levitan, Mikhail A, Dadey, Kathleen A, Emeis, Kay-Christian, Lyle, Mitchell W, Flores, José-Abel, Hovan, Steven A
Format: Dataset Open Access
Language:en
Published: PANGAEA 1995
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Online Access:https://doi.org/10.1594/PANGAEA.806762
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author Farrell, John W
Raffi, Isabella
Janecek, Thomas R
Murray, David W
Levitan, Mikhail A
Dadey, Kathleen A
Emeis, Kay-Christian
Lyle, Mitchell W
Flores, José-Abel
Hovan, Steven A
author_facet Farrell, John W
Raffi, Isabella
Janecek, Thomas R
Murray, David W
Levitan, Mikhail A
Dadey, Kathleen A
Emeis, Kay-Christian
Lyle, Mitchell W
Flores, José-Abel
Hovan, Steven A
collection Datos científicos de ciencias marinas y ambientales
contents The post-middle Miocene evolution of sedimentary patterns in the eastern equatorial Pacific Ocean has been deduced from a compilation and synthesis of CaCO3, opal, and nannofossil assemblage data from 11 sites drilled during Leg 138. Improvements in stratigraphic correlation and time scale development enabled the construction of lithostratigraphic and chronostratigraphic frameworks of exceptional quality. These frameworks, and the high sedimentation rates (often exceeding 4 cm/k.y.) provided a detailed and synoptic paleoceanographic view of a large and highly productive region. The three highlights that emerge are: (1) a middle late Miocene "carbonate crash" (Lyle et al., this volume); (2) a late Miocene-early Pliocene "biogenic bloom"; and (3) an early Pliocene "opal shift". During the carbonate crash, an interval of dissolution extending from -11.2 to 7.5 Ma, CaCO3 accumulation rates declined to near zero over much of the eastern equatorial Pacific, whereas opal accumulation rates remained substantially unchanged. The crash nadir, near 9.5 Ma, was marked by a brief shoaling of the regional carbonate compensation depth by more than 1400 m. The carbonate crash has been correlated over the entire tropical Pacific Ocean, and has been attributed to tectonically-induced changes in abyssal flow through the Panamanian seaway. The biogenic bloom extended from 6.7 to 4.5 Ma, and was characterized by an overall increase in biogenic accumulation and by a steepening of the latitudinal accumulation gradient toward the equator. The bloom has been observed over a large portion of the global ocean and has been linked to increased productivity. The final highlight, is a distinct and permanent shift in the locus of maximum opal mass accumulation rate at 4.4 Ma. This shift was temporally, and perhaps causally, linked to the final closure of the Panamanian seaway. Before 4.4 Ma, opal accumulation was greatest in the eastern equatorial Pacific Basin (near 0°N, 107°W). Since then, the highest opal fluxes in the equatorial Pacific have occurred in the Galapagos region (near 3°S, 92°W).
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_806762
institution PANGAEA
language en
publishDate 1995
publisher PANGAEA
record_format pangaea
spellingShingle Sedimentation patters in the eastern equatorial Pacific Ocean
Farrell, John W
Raffi, Isabella
Janecek, Thomas R
Murray, David W
Levitan, Mikhail A
Dadey, Kathleen A
Emeis, Kay-Christian
Lyle, Mitchell W
Flores, José-Abel
Hovan, Steven A
Ocean Drilling Program; ODP
The post-middle Miocene evolution of sedimentary patterns in the eastern equatorial Pacific Ocean has been deduced from a compilation and synthesis of CaCO3, opal, and nannofossil assemblage data from 11 sites drilled during Leg 138. Improvements in stratigraphic correlation and time scale development enabled the construction of lithostratigraphic and chronostratigraphic frameworks of exceptional quality. These frameworks, and the high sedimentation rates (often exceeding 4 cm/k.y.) provided a detailed and synoptic paleoceanographic view of a large and highly productive region. The three highlights that emerge are: (1) a middle late Miocene "carbonate crash" (Lyle et al., this volume); (2) a late Miocene-early Pliocene "biogenic bloom"; and (3) an early Pliocene "opal shift". During the carbonate crash, an interval of dissolution extending from -11.2 to 7.5 Ma, CaCO3 accumulation rates declined to near zero over much of the eastern equatorial Pacific, whereas opal accumulation rates remained substantially unchanged. The crash nadir, near 9.5 Ma, was marked by a brief shoaling of the regional carbonate compensation depth by more than 1400 m. The carbonate crash has been correlated over the entire tropical Pacific Ocean, and has been attributed to tectonically-induced changes in abyssal flow through the Panamanian seaway. The biogenic bloom extended from 6.7 to 4.5 Ma, and was characterized by an overall increase in biogenic accumulation and by a steepening of the latitudinal accumulation gradient toward the equator. The bloom has been observed over a large portion of the global ocean and has been linked to increased productivity. The final highlight, is a distinct and permanent shift in the locus of maximum opal mass accumulation rate at 4.4 Ma. This shift was temporally, and perhaps causally, linked to the final closure of the Panamanian seaway. Before 4.4 Ma, opal accumulation was greatest in the eastern equatorial Pacific Basin (near 0°N, 107°W). Since then, the highest opal fluxes in the equatorial Pacific have occurred in the Galapagos region (near 3°S, 92°W).
title Sedimentation patters in the eastern equatorial Pacific Ocean
topic Ocean Drilling Program; ODP
url https://doi.org/10.1594/PANGAEA.806762