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Geochemistry by ICP-OES (batch 1) of major cations in sediment cores from Jam...
Geochemical data for major cations obtained by ICP-OES, batch 1. -
Titrator measurements for total alkalinity in pore waters of sediment cores f...
Total alkalinity data determined by titration against 0.01M HCl on board James Cook. -
Autoanalyzer data for Nutrients in pore waters of sediment cores from James C...
Nutrients data (NOX (NO2+NO3) and NH4) in pore waters measured on a AA3 Autoanalyzer. -
Chromatography data for anions in pore waters of sediment cores from James Co...
Geochemical data for dissolved anions (Cl, Br, NO3 and SO4) in pore waters by ion exchange chromatography using a Dionex ICS2500. -
Paleomagnetism in sediment core JC138-52GC from James Cook cruise JC138
Paleomagnetic data as mean deconvolute relative paleomagnetic intensity (after applying the deconvolution optimization with the UDECON software) in 52GC, as well as comparison... -
Stable oxygen isotopes in sediment cores from James Cook cruise JC138
Stable oxygen isotopes for the cores JC138-27GC, JC138-28GC, JC138-29GC, JC138-38GC, JC138-49GC and JC138-52GC, measured on a Kiel IV Carbonate device coupled to a MAT253... -
Calcium carbonate by coulometry in sediment cores from James Cook cruise JC138
Calcium carbonate concentrations measured on CM5015 coulometer at the SEAPORT laboratories (University of Southampton) for the cores JC138-27GC, JC138-28GC, JC138-29GC,... -
Grain sizes of sediment cores from James Cook cruise JC138
Grain size was measured on 5 carbonate ooze samples and 18 hydrothermal sediment samples with the Malvern Masterize Particle Size Analyser. The instrument measured 5 aliquots of... -
CTD and ADCP hydrothermal plume data from the MomarSat 2023 cruise
This dataset contains measurement profiles for 3D velocity, temperature, pressure, and salinity collected above the Tour Eiffel sulfide structure at the Lucky Strike... -
Structure of hydrothermally grown croesite
This dataset has no description
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Hydrochemical analysis thermal water Insheim, Germany
The main objective of the work package 2 of the REFLECT project is to characterise relevant fluid properties and their reactions for saline fluids (type C). One of the specific... -
Hydrochemical analysis thermal water Balmatt, Belgium
The main objective of the work package 2 of the REFLECT project is to characterise relevant fluid properties and their reactions for saline fluids (type C). One of the specific... -
Hydrochemical analysis thermal water Heemskerk, Netherlands
The main objective of the work package 2 of the REFLECT project is to characterise relevant fluid properties and their reactions for saline fluids (type C). One of the specific... -
Hydrochemichal analysis thermal water Gross Schoenebeck, Germany
The main objective of the work package 2 of the REFLECT project is to characterise relevant fluid properties and their reactions for saline fluids (type C). One of the specific... -
Hydrochemical analysis thermal water Neustadt-Glewe, Germany
The main objective of the work package 2 of the REFLECT project is to characterise relevant fluid properties and their reactions for saline fluids (type C). One of the specific... -
Hydrochemical analysis thermal water Wildbad-Einoed, Austria
The main objective of the work package 2 of the REFLECT project is to characterise relevant fluid properties and their reactions for saline fluids (type C). One of the specific... -
Hydrochemichal analysis thermal water Bad Blumau, Austria
The main objective of the work package 2 of the REFLECT project is to characterise relevant fluid properties and their reactions for saline fluids (type C). One of the specific...
