Rack, Frank R. et al. (2000): Linking ocean and continental records of paleoclimate; determining accord and discord in the records

Leg/Site/Hole:
ODP 132
ODP 132 810
Identifier:
2000-063866
georefid

Creator:
Rack, Frank R.
Joint Oceanographic Institutions, Washington, DC, United States
author

Rutter, Nathaniel W.
University of Alberta, Canada
author

Bush, Andrew
Academica Sinica, China
author

Rokosh, Dean
author

Ding Zhongli
author

Identification:
Linking ocean and continental records of paleoclimate; determining accord and discord in the records
2000
In: Peltier, W. Richard (editor), The Climate System History and Dynamics Program; CSHD--Le programme Historique et dynamique du systeme climatique
National Research Council of Canada, Ottawa, ON, Canada
37
5
831-848
Climate forcing at Milankovitch and sub-Milankovitch frequencies are evaluated by linking climate proxy data from terrestrial and ocean records at two scales of temporal resolution: (1) relatively coarse resolution over the last 500 ka, and (2) higher resolution over the last 200 ka. We determine that climate proxy data from Hole 810C represent regional atmospheric and oceanic processes by comparison to core V21-146, both from the northwest Pacific Ocean. We then compare records that represent regional deposition from China and the western Pacific Ocean to focus on determining Milankovitch-type periodicities. Grain-size and magnetic susceptibility data from Hole 810C and Baoji, China are contrasted using a time-sensitive wavelet analysis. The analyses indicate a general correspondence to Milankovitch frequencies, although there is no specific frequency that dominates throughout the records. Additionally, the dominant 100 000 year frequency does not occur at the same time in the records. These factors suggest that differences in the physical mechanisms of deposition may influence the preserved apparent periodicities in these environments. Lastly, climate events over the last 200 000 years in marine and terrestrial records are correlated at a high resolution in the depth domain. The last interglacial-glacial boundary is consistently placed at the base of a cold period (C20) in the terrestrial and marine records. However, the cold period in the ocean data (delta (super 18) O) is very subdued relative to terrestrial records. Additionally, over the last 200 ka, periods of minimum insolation intensity do not correspond linearly to periods of maximum grain-size and ice volume variations revealed in the loess and ocean records, respectively. However, during the warm interstadials of the last two glaciations, peaks in insolation intensity compare favourably with the times of strongest pedogenic development in the continental records and minimum ice volume in the ocean records.
English
Serial
Coverage:Geographic coordinates:
North:32.2524
West:157.5043East: 157.5045
South:32.2521

Quaternary geology; Asia; Cenozoic; China; clastic sediments; cores; Far East; glacial environment; glaciomarine environment; insolation; interglacial environment; Leg 132; loess; Loess Plateau; magnetic susceptibility; marine environment; marine sediments; Milankovitch theory; North Pacific; Northwest Pacific; Ocean Drilling Program; ODP Site 810; Pacific Ocean; paleo-oceanography; paleoclimatology; pedogenesis; periodicity; Quaternary; sedimentation rates; sediments; terrestrial environment; West Pacific;

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