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Spring phytoplankton communities of the Labrador Sea (2005-2014): pigment sig...
The Labrador Sea is an ideal region to study the biogeographical, physiological and biogeochemical implications of phytoplankton communities due to sharp transitions of distinct... -
XRF core scanning results from the top 32 cm of the lake sediment core CFL-3
The data incudes Si, Fe, inc/coh, and the cluster analysis from the selected XRF elements. -
Abundance of epibenthic fauna on a Deep-Sea Cliff offshore Greenland and the ...
Abundance data of the epibenthic fauna annotated on each photograph taken with the ROV Isis (NOC, UK) at a deep-sea wall located offshore the West coast of Greenland (Labrador... -
(Table 3) Average mound aggradation rates
*: one single age.AR: mound aggradation rate.Average mound aggradation rates (ARø; when available minimum and maximum ARs are given as well) calculated for core records obtained... -
Fractional abundances and concentrations of brGMGTs in soils from within and ...
This dataset has no description
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XRF mapping of Luess topsoil samples, ESRF
XRF mapping at Elettra-Sincrotrone Trieste S.C.p.A., Italy. Fluorescence intensity after spectra fitting and dead time correction, given as counts of element intensity at... -
XRF mapping of Luess subsoil samples, ESRF
XRF mapping at Elettra-Sincrotrone Trieste S.C.p.A., Italy. Fluorescence intensity after spectra fitting and dead time correction, given as counts of element intensity at... -
XRF mapping of Bad Brueckenau topsoil samples, ESRF
XRF mapping at Elettra-Sincrotrone Trieste S.C.p.A., Italy. Fluorescence intensity after spectra fitting and dead time correction, given as counts of element intensity at... -
XRF mapping of Bad Brueckenau subsoil samples, ESRF
XRF mapping at Elettra-Sincrotrone Trieste S.C.p.A., Italy. Fluorescence intensity after spectra fitting and dead time correction, given as counts of element intensity at... -
XRF mapping of Luess topsoil samples, Elettra-Sincrotrone
XRF mapping at Elettra-Sincrotrone Trieste S.C.p.A., Italy. Fluorescence intensity after spectra fitting and dead time correction, given as counts of element intensity at... -
XRF mapping of Luess subsoil samples, Elettra-Sincrotrone
XRF mapping at Elettra-Sincrotrone Trieste S.C.p.A., Italy. Fluorescence intensity after spectra fitting and dead time correction, given as counts of element intensity at... -
XRF mapping of Bad Brueckenau topsoil samples, Elettra-Sincrotrone
XRF mapping at Elettra-Sincrotrone Trieste S.C.p.A., Italy. Fluorescence intensity after spectra fitting and dead time correction, given as counts of element intensity at... -
XRF mapping of Bad Brueckenau subsoil samples, Elettra-Sincrotrone
XRF mapping at Elettra-Sincrotrone Trieste S.C.p.A., Italy. Fluorescence intensity after spectra fitting and dead time correction, given as counts of element intensity at... -
NanoSIMS mapping of Luess topsoil samples, measurement 2
Analysed at Technical University of Munich, Germany. Raw count number given as ions at mass spectrometer. -
NanoSIMS mapping of Luess topsoil samples, measurement 1
Analysed at Technical University of Munich, Germany. Raw count number given as ions at mass spectrometer. -
NanoSIMS mapping of Luess subsoil samples
Analysed at Technical University of Munich, Germany. Raw count number given as ions at mass spectrometer. -
NanoSIMS mapping of Bad Brueckenau topsoil samples, measurement 2
Analysed at Technical University of Munich, Germany. Raw count number given as ions at mass spectrometer. -
NanoSIMS mapping of Bad Brueckenau topsoil samples, measurement 1
Analysed at Technical University of Munich, Germany. Raw count number given as ions at mass spectrometer. -
NanoSIMS mapping of Bad Brueckenau subsoil samples, measurement 2
Analysed at Technical University of Munich, Germany. Raw count number given as ions at mass spectrometer. -
NanoSIMS mapping of Bad Brueckenau subsoil samples, measurement 1
Analysed at Technical University of Munich, Germany. Raw count number given as ions at mass spectrometer.