Stewart, Joseph A. et al. (2012): Geochemical assessment of the palaeoecology, ontogeny, morphotypic variability and palaeoceanographic utility of "Dentoglobigerina" venezuelana

Leg/Site/Hole:
ODP 154
ODP 177
ODP 177 1090
ODP 154 925
ODP 154 926
Identifier:
2012-045456
georefid

10.1016/j.marmicro.2011.11.003
doi

Creator:
Stewart, Joseph A.
University of Southampton, National Oceanography Centre, Southampton, United Kingdom
author

Wilson, Paul A.
Open University, United Kingdom
author

Edgar, Kirsty M.
author

Anand, Pallavi
author

James, Rachael H.
author

Identification:
Geochemical assessment of the palaeoecology, ontogeny, morphotypic variability and palaeoceanographic utility of "Dentoglobigerina" venezuelana
2012
Marine Micropaleontology
Elsevier, Amsterdam, Netherlands
84-85
74-86
To better understand the links between the carbon cycle and changes in past climate over tectonic timescales we need new geochemical proxy records of secular change in silicate weathering rates. A number of proxies are under development, but some of the most promising (e.g. palaeoseawater records of Li and Nd isotope change) can only be employed on such large samples of mono-specific foraminifera that application to the deep sea sediment core archive becomes highly problematic. "Dentoglobigerina" venezuelana presents a potentially attractive target for circumventing this problem because it is a typically large (>355 mu m diameter), abundant and cosmopolitan planktic foraminifer that ranges from the early Oligocene to early Pliocene. Yet considerable taxonomic and ecological uncertainties associated with this taxon must first be addressed. Here, we assess the taxonomy, palaeoecology, and ontogeny of "D." venezuelana using stable isotope (oxygen and carbon) and Mg/Ca data measured in tests of late Oligocene to early Miocene age from Ocean Drilling Program (ODP) Site 925, on Ceara Rise, in the western equatorial Atlantic. To help constrain the depth habitat of "D." venezuelana relative to other species we report the stable isotope composition of selected planktic foraminifera species within Globigerina, Globigerinoides, Paragloborotalia and Catapsydrax. We define three morphotypes of "D." venezuelana based on the morphology of the final chamber and aperture architecture. We determine the trace element and stable isotope composition of each morphotype for different size fractions, to test the validity of pooling these morphotypes for the purposes of generating geochemical proxy datasets and to assess any ontogenetic variations in depth habitat. Our data indicate that "D." venezuelana maintains a lower thermocline depth habitat at Ceara Rise between 24 and 21 Ma. Comparing our results to published datasets we conclude that this lower thermocline depth ecology for the Oligo-Miocene is part of an Eocene-to-Pliocene evolution of depth habitat from surface to sub-thermocline for "D." venezuelana. Our size fraction data advocate the absence of photosymbionts in "D." venezuelana and suggest that juveniles calcify higher in the water column, descending into slightly deeper water during the later stages of its life cycle. Our morphotype data show that delta (super 18) O and delta (super 13) C variation between morphotypes is no greater than within-morphotype variability. This finding will permit future pooling of morphotypes in the generation of the "sample hungry" palaeoceanographic records. Abstract Copyright (2012) Elsevier, B.V.
English
Serial
Coverage:Geographic coordinates:
North:4.1216
West:-43.2922East: 8.5359
South:-42.5449

Invertebrate paleontology; Isotope geochemistry; alkaline earth metals; Atlantic Ocean; C-13/C-12; calcium; carbon; Ceara Rise; Cenozoic; chemical composition; Dentoglobigerina venezuelana; Equatorial Atlantic; Foraminifera; Invertebrata; isotope ratios; isotopes; Leg 154; Leg 177; lower Miocene; magnesium; metals; Mg/Ca; microfossils; Miocene; morphology; Neogene; North Atlantic; O-18/O-16; Ocean Drilling Program; ODP Site 1090; ODP Site 925; ODP Site 926; Oligocene; ontogeny; oxygen; paleo-oceanography; paleoecology; Paleogene; planktonic taxa; Protista; SEM data; size; South Atlantic; stable isotopes; symbiosis; taxonomy; Tertiary; tests; upper Oligocene;

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