XRF and light reflectance data from sediment core MSM45/19_2

The presented data originates from the 1306cm long gravity core MSM45-19-2 (58°45.68 N, 61°56.25 W, 202m water depth) taken during R/V Maria S. Merian cruise MSM45 in August 2015 at 202 m water depth on the northern Labrador Shelf, northeast Canada, northwest Atlantic. Here, we present a high-resolu...

Full description

Bibliographic Details
Main Authors: Lochte, Annalena Antonia, Schneider, Ralph R
Format: Dataset
Language:English
Published: PANGAEA 2022
Subjects:
8.2 ka event
AGE
Calcium
Calcium/Strontium ratio
Color
a*
DEPTH
sediment/rock
GC
Gravity corer
Labrador Sea
Light reflectance (RGB)
Maria S. Merian
MSM45
MSM45_418-2
MSM45-19-2
Paleoceanography
Spectrophotometer Konica Minolta CM-600d
Strontium
X-ray fluorescence core scanner (XRF)
Avaatech
XRF core scanner
Hudson Bay
Canada
Hudson
Labrador Shelf
Northwest Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.945720
https://doi.org/10.1594/PANGAEA.945720
Description
Summary:The presented data originates from the 1306cm long gravity core MSM45-19-2 (58°45.68 N, 61°56.25 W, 202m water depth) taken during R/V Maria S. Merian cruise MSM45 in August 2015 at 202 m water depth on the northern Labrador Shelf, northeast Canada, northwest Atlantic. Here, we present a high-resolution and well-dated sediment record from the northern Labrador Shelf that provides new evidence of the freshwater signature and the mechanisms involved in the Hudson Bay Ice Saddle collapse. Elemental composition and color reflectance data reveal sediment dispersal characteristic of the subglacial drainage of LAO. The light reflectance was measured in 1-cm intervals on the foil-covered, air-bubble-free, core surface with a hand-held Konica Minolta CM 600d spectrophotometer on board the research vessel. The spectrum of the reflected light was detected by a multi-segment light sensor at a 20 nm pitch between wavelengths of 400–700 nm. The a*(D65) value reflects the ratio of magenta (700 nm) and green (500 nm). The bulk sediment elemental composition was analyzed at Kiel University, using an Avaatech XRF core scanner. The archive half of the core was carefully scraped to create a smooth surface before covering it with a 4-μm-thin SPEXCertiPrepUltralene foil to avoid contamination (Richter et al., 2006). Each section was successively scanned with voltages of 10 kV (10 s, 750 μA, no filter), 30 kV (20 s, 500 μA, Pd-Thin filter), and 50 kV (40 s, 1750 μA, Cu filter) to measure the full suite of elements between Al and Ba in 1-cm resolution. Instrumental variance was monitored by measuring a set of standards (SARM4, JGa-1, JR-1, KGa-1) prior to each section and at the end of daily scanning. Sedimentological changes associated with the LAO drainage event are determined by characteristic peaks in both redness of bulk sediment (color reflectance a*D65 values) and relative content of detrital carbonate inferred from elemental Ca/Sr ratios measured by X-ray fluorescence (XRF) core scanning. The most pronounced peak in Ca/Sr ...

Similar Items