Planktonic foraminifera census counts from the western South Atlantic

Planktonic foraminifera census data have been widely used to reconstruct changes in ocean ecosystems as well as ocean chemistry and circulation through calibration functions. Here we analyse new core‐top census data from 22 sites in the western South Atlantic, improving the geographical coverage and...

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Bibliographic Details
Main Authors: García Chapori, Natalia Luz, Kucera, Michal
Format: Dataset
Language:English
Published: PANGAEA 2019
Subjects:
Argentine Basin
Beella digitata
Candeina nitida
Center for Marine Environmental Sciences
Counting >150 µm fraction
Depth
bottom/max
sediment/rock
top/min
Elevation of event
Event label
Foraminifera
planktic
planktic indeterminata
GeoB2703-6
GeoB2707-4
GeoB2711-2
GeoB2715-1
GeoB2726-3
GeoB6205-1
GeoB6209-2
GeoB6210-1
GeoB6212-2
GeoB6213-1
GeoB6216-1
GeoB6220-1
GeoB6222-2
GeoB6233-1
GeoB6311-1
GeoB6314-1
GeoB6317-2
GeoB6330-1
GeoB6334-2
GeoB6339-1
Giant box corer
GKG
Globigerina bulloides
Globigerina falconensis
Globigerinella calida
Globigerinella siphonifera
Globigerinita glutinata
Globigerinita uvula
Globigerinoides conglobatus
Globigerinoides ruber pink
Globigerinoides ruber white
Globigerinoides tenellus
Globoconella inflata
Argentine
Planktonic foraminifera
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.907931
https://doi.org/10.1594/PANGAEA.907931
Description
Summary:Planktonic foraminifera census data have been widely used to reconstruct changes in ocean ecosystems as well as ocean chemistry and circulation through calibration functions. Here we analyse new core‐top census data from 22 sites in the western South Atlantic, improving the geographical coverage and spatial resolution of the environmental gradients from the region covered by the Brazil–Malvinas Confluence (~38°S–53°W). We combine them with previous data to provide an up‐to‐date compilation of the western South Atlantic planktonic foraminifera–calibration data set. We study the relationship between the assemblages present in the core‐top samples and the most dynamic environmental variables from the region to establish the environmental variable(s) more resolved by the assemblages. Therefore, we develop and assess a new calibration function using the data set and testing several statistical models at different water depths. Our results reveal that the distribution and abundance of the species in the Brazil–Malvinas Confluence region mainly reflect the influence of two environmental variables: the mixed layer temperature and mixed layer depth (57% of total variance). The most precise reconstructions were obtained when using sub‐surface temperatures between 40 and 50 m water depth. The application of the calibration function to a Holocene sediment core at ~37°S–53°W revealed mean annual sub‐surface temperature reconstructions between 8°C and 11°C, confirming the northward displacement of the Brazil–Malvinas Confluence during the onset of the Holocene and suggesting a major influence of the Malvinas Current during the entire Holocene at the studied site.

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