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Bibliographic Details
Main Author: deMenocal, Peter B
Format: Dataset Open Access
Language:en
Published: PANGAEA 1993
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Online Access:https://doi.org/10.1594/PANGAEA.208129
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author deMenocal, Peter B
author_facet deMenocal, Peter B
collection Datos científicos de ciencias marinas y ambientales
contents High- and low-latitude forcing of terrestrial African paleoclimate variability is demonstrated using 900 ka eolian and biogenic component records from Ocean Drilling Program site 663 in the eastern equatorial Atlantic. Terrigenous (eolian dust) and phytolith (savannah grass cuticle) accumulation rate records vary predominantly at 100 and 41 kyr periodicities and spectral phase estimates implicate high-latitude forcing. The abundance of freshwater diatoms (Melosira) transported from dry African lake beds varies coherently at 23-19 kyr orbital periodicities and at a phasing which implicates low-latitude precessional monsoon forcing. Modeling studies demonstrate that African climate is sensitive to both high- and low-latitude boundary conditions. African monsoon intensity is modulated by direct insolation variations due to orbital precession, whereas remote high-latitude forcing can be related to cool North Atlantic sea surface temperatures (SSTs) which promote African aridity and enhance dust-transporting wind speeds. The site 663 terrigenous and phytolith records covary with North Atlantic SST variability at 41 °N (site 607). We suggest that Pleistocene African climate has responded to both high-latitude North Atlantic SST variability as well as low-latitude precessional monsoon forcing; the high-latitude influence dominates the sedimentary record. Prior to circa 2.4 Ma, terrigenous variations occurred primarily at precessional periodicities (23-19 kyr), indicating that African climate was largely controlled by low-latitude insolation variations prior to the onset of high-amplitude glacial-interglacial climate change.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_208129
institution PANGAEA
language en
publishDate 1993
publisher PANGAEA
record_format pangaea
spellingShingle Stable isotopes, CaCO3, opal and terrigeneous of ODP Site 108-663 (Table A1)
deMenocal, Peter B
108-663; AGE; Calcium carbonate; COMPCORE; Composite Core; Density, dry bulk; Depth, composite; DSDP/ODP/IODP sample designation; Globigerinoides ruber white, δ18O; Intercore correlation; Joides Resolution; Leg108; Melosira; Ocean Drilling Program; ODP; Opal, biogenic silica; Phytoliths; Sample code/label; Sedimentation rate; South Atlantic Ocean; Terrigenous
High- and low-latitude forcing of terrestrial African paleoclimate variability is demonstrated using 900 ka eolian and biogenic component records from Ocean Drilling Program site 663 in the eastern equatorial Atlantic. Terrigenous (eolian dust) and phytolith (savannah grass cuticle) accumulation rate records vary predominantly at 100 and 41 kyr periodicities and spectral phase estimates implicate high-latitude forcing. The abundance of freshwater diatoms (Melosira) transported from dry African lake beds varies coherently at 23-19 kyr orbital periodicities and at a phasing which implicates low-latitude precessional monsoon forcing. Modeling studies demonstrate that African climate is sensitive to both high- and low-latitude boundary conditions. African monsoon intensity is modulated by direct insolation variations due to orbital precession, whereas remote high-latitude forcing can be related to cool North Atlantic sea surface temperatures (SSTs) which promote African aridity and enhance dust-transporting wind speeds. The site 663 terrigenous and phytolith records covary with North Atlantic SST variability at 41 °N (site 607). We suggest that Pleistocene African climate has responded to both high-latitude North Atlantic SST variability as well as low-latitude precessional monsoon forcing; the high-latitude influence dominates the sedimentary record. Prior to circa 2.4 Ma, terrigenous variations occurred primarily at precessional periodicities (23-19 kyr), indicating that African climate was largely controlled by low-latitude insolation variations prior to the onset of high-amplitude glacial-interglacial climate change.
title Stable isotopes, CaCO3, opal and terrigeneous of ODP Site 108-663 (Table A1)
topic 108-663; AGE; Calcium carbonate; COMPCORE; Composite Core; Density, dry bulk; Depth, composite; DSDP/ODP/IODP sample designation; Globigerinoides ruber white, δ18O; Intercore correlation; Joides Resolution; Leg108; Melosira; Ocean Drilling Program; ODP; Opal, biogenic silica; Phytoliths; Sample code/label; Sedimentation rate; South Atlantic Ocean; Terrigenous
url https://doi.org/10.1594/PANGAEA.208129