Lyle, Mitchell et al. (2001): Interglacial theme and variations; 500 k.y. of orbital forcing and associated responses from the terrestrial and marine biosphere, U.S. Pacific Northwest
Leg/Site/Hole:
Related Expeditions:
ODP 167
Identifier:
ID:
2001-075882
Type:
georefid
Creator:
Name:
Lyle, Mitchell
Affiliation:
Boise State University, Center for Geophysical Investigation of the Shallow Subsurface, Boise, ID, United States
Role:
author
Name:
Heusser, Linda
Affiliation:
Lamont-Doherty Earth Observatory, United States
Role:
author
Name:
Herbert, Timothy
Affiliation:
Brown University, United States
Role:
author
Name:
Mix, Alan
Affiliation:
Oregon State University, United States
Role:
author
Name:
Barron, John A.
Affiliation:
U. S. Geological Survey, United States
Role:
author
Identification:
Title:
Interglacial theme and variations; 500 k.y. of orbital forcing and associated responses from the terrestrial and marine biosphere, U.S. Pacific Northwest
Year:
2001
Source:
Geology (Boulder)
Publisher:
Geological Society of America (GSA), Boulder, CO, United States
Volume:
29
Issue:
12
Pages:
1115-1118
Abstract:
Sediments collected off northern California by Ocean Drilling Program Leg 167 contain time series that show strong, orbitally driven insolation forcing of surface oceanographic conditions. Orbital forcing caused a strong response in the distribution of major terrestrial vegetation but a less predictable response for primary productivity offshore. Terrestrial vegetation responded primarily to regional sea surface temperature (SST). Coastal ocean productivity appears highest when SST is moderately high, not during peak interglacial conditions nor during insolation maxima. When individual interglacial intervals are examined closely, each has a different signature. Two of six interglacials (MIS [marine isotope stage] 5 and MIS 11) have higher SST than modern conditions, but each elicits a different response from the terrestrial and marine communities. The type of vegetation and the strength of upwelling vary between interglacials, depending on the relative strength of factors that drive the warming, including insolation, ice-cap size, and level of greenhouse gases.
Language:
English
Genre:
Serial
Rights:
URL:
Coverage: Geographic coordinates: North:41.0003 West:-126.2604 East:
-126.2604 South:41.0003
Keywords: Quaternary geology; alkenones; biosphere; calcium carbonate; California; carbon; Cenozoic; climate forcing; East Pacific; greenhouse effect; insolation; interglacial environment; isotope ratios; isotopes; ketones; Leg 167; marine environment; marine sediments; microfossils; miospores; North Pacific; Northeast Pacific; Northern California; O-18/O-16; Ocean Drilling Program; ODP Site 1020; orbital forcing; Oregon; organic carbon; organic compounds; oxygen; Pacific Northwest; Pacific Ocean; paleo-oceanography; paleoclimatology; paleoecology; palynomorphs; Pleistocene; pollen; productivity; Quaternary; sea-surface temperature; sediments; stable isotopes; statistical analysis; terrestrial environment; time series analysis; United States; upwelling; vegetation; Washington;
.