Bolton, Clara T. et al. (2011): Biotic and geochemical evidence for a global latitudinal shift in ocean biogeochemistry and export productivity during the late Pliocene

Leg/Site/Hole:
ODP 138
ODP 162
ODP 138 846
ODP 162 982
Identifier:
2011-102300
georefid

10.1016/j.epsl.2011.05.046
doi

Creator:
Bolton, Clara T.
University of Southampton, National Oceanography Centre Southampton, Southampton, United Kingdom
author

Lawrence, Kira T.
Lafayette College, United States
author

Gibbs, Samantha J.
Brown University, United States
author

Wilson, Paul A.
author

Herbert, Timothy D.
author

Identification:
Biotic and geochemical evidence for a global latitudinal shift in ocean biogeochemistry and export productivity during the late Pliocene
2011
Earth and Planetary Science Letters
Elsevier, Amsterdam, Netherlands
308
1-2
200-210
During the late Pliocene ( approximately 3 to 2.5 Ma), oceanic records of opal and C (sub 37) alkenone accumulation from around the world show a secular shift towards lower values in the high latitudes and higher values in the low and mid latitudes. These shifts are broadly coincident with the intensification of northern hemisphere glaciation and are suggestive of changes in export productivity, with potential implications for Pliocene atmospheric carbon dioxide concentrations. The interpretation of a global latitudinal shift in productivity, however, requires testing because of the potential uncertainties associated with site to site comparisons of records that can be influenced by highly nonlinear processes associated with production, export, and preservation. Here, we assess the inferred Pliocene latitudinal productivity shift interpretation by presenting new records of C (sub 37) alkenone accumulation from Ocean Drilling Program (ODP) Site 982 in the North Atlantic and biotic assemblages (calcareous nannoplankton) from this site and ODP Site 846 in the eastern tropical Pacific. Our results corroborate the interpretation of C (sub 37) alkenone accumulation as a proxy for gross export productivity at these sites, indicating that large-scale productivity decreases at high latitudes and increases at tropical sites are recorded robustly. We conclude that the intensification of northern hemisphere glaciation during the late Pliocene was associated with a profound reorganisation of ocean biogeochemistry. Abstract Copyright (2011) Elsevier, B.V.
English
Serial
Coverage:Geographic coordinates:
North:57.3100
West:-90.4906East: -15.5200
South:-3.0549

Stratigraphy; algae; alkenones; assemblages; Atlantic Ocean; atmosphere; biochemistry; carbon dioxide; Cenozoic; East Pacific; Equatorial Pacific; framework silicates; glaciation; ketones; latitude; Leg 138; Leg 162; microfossils; nannofossils; Neogene; North Atlantic; nutrients; Ocean Drilling Program; ODP Site 846; ODP Site 982; opal; organic compounds; Pacific Ocean; paleo-oceanography; planktonic taxa; Plantae; Pliocene; productivity; Rockall Bank; silica minerals; silicates; South Pacific; Southeast Pacific; Tertiary; upper Pliocene;

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