Cite abstracts as Eos Trans. AGU, 83(47), Fall Meet. Suppl., Abstract xxxxx-xx, 2002
Your query was:
"PP21D-05"
The selected databases contain one document matching your query:
------------------------------
HR: 09:50h
AN: PP21D-05 INVITED
TI: The Eocene and Oligocene Pacific Equatorial Region from ODP Leg 199 Drilling
AU: * Lyle, M
EM: mlyle@cgiss.boisestate.edu
AF: CGISS, Boise State University, MS 1536
1910 University Drive, Boise, ID 83725-1536
United States
AU: Wilson, P A
EM: paw1@soc.soton.ac.uk
AF: Southampton Oceanography Centre, School of Ocean and Earth Science, European Way
, Southampton, SO14 3ZH
United Kingdom
AU: ODP Leg 199 Shipboard Scientific Party, .
AF: Ocean Drilling Program, 1000 Discovery Drive, College Station, TX 77845-9547
United States
AB:
ODP Leg 199 drilled a latitudinal transect of sites across the position of the early Eocene equator, designed to study the
evolution of the equatorial Pacific current and wind system as the Earth went from maximum Cenozoic warmth to initial
Antarctic glaciations. The cruise recovered a biogenic sedimentary record of equatorial processes from the early Miocene to
the late Paleocene, roughly from 18 to 56 Ma. Above the biogenic sediments are 10 m or more of nonfossiliferous clay,
representing most of the Neogene interval.
We found that equatorial deposition patterns were stable for the Eocene but very different from those of the Neogene. The
Eocene is marked by a very shallow carbonate compensation depth (CCD) and radiolarian ooze sediments. In contrast,
Pleistocene equatorial sediments are carbonate and diatom rich. The Eocene equatorial sedimentation regime was also much
wider than modern, expanding in the middle Eocene to about 10 degrees north of the paleoequator. We interpret the Eocene
sedimentary environment to indicate significantly more diffuse upwelling than is found in the modern ocean and a
deeper-than-modern eastern Pacific thermocline. Eocene deep waters appear to have been well-oxygenated despite being much
warmer than modern deep waters.
There is an abrupt sedimentological transition from the Eocene equatorial state to proto-modern conditions coincident with
the first major glaciation of Antarctica in the early Oligocene. Over a time period of about 120 kyr the CCD dropped by more
than 1.3 km and sedimentation focused into a narrow equatorial band similar to equatorial sedimentation in the Holocene
equatorial Pacific. We interpret the change to mark the first Cenozoic appearance of the modern Pacific equatorial upwelling
system.
We also recovered examples of the Paleocene-Eocene boundary at 3 different drillsites from about 1 degree south of the 55 Ma
paleoequator to 11 degrees north of it. The P-E boundary event, one of the largest carbon-isotope excursions of the Cenozoic,
is represented by a carbonate-poor multi-colored sediment interval. Consistent banding between two sites more than 200 km
apart suggest significant changes in deep ocean chemistry during this time interval.
DE: 3000 MARINE GEOLOGY AND GEOPHYSICS
DE: 4231 Equatorial oceanography
DE: 4267 Paleoceanography
DE: 4806 Carbon cycling
DE: 9355 Pacific Ocean
SC: Paleoceanography and Paleoclimatology [PP]
MN: 2002 Fall Meeting