Keyphrases
Geochemical Approach
100%
Central Pyrenees
100%
South Central
100%
Paleoenvironmental Evolution
100%
Early Cretaceous
100%
Depositional Evolution
100%
Profundal
100%
Foraminiferans
66%
Anoxic Conditions
66%
Littoral
66%
Micrite
66%
Miliolid
66%
Europe
33%
Low Energy
33%
Paleoenvironmental
33%
Environmental Conditions
33%
Shallow Water
33%
In Situ
33%
Multi-proxy Approach
33%
NE Spain
33%
Isotopic Data
33%
Inductively Coupled Plasma Mass Spectrometry
33%
Paleosalinity
33%
Water Circulation
33%
Petrography
33%
Barremian
33%
Deposition Conditions
33%
Sedimentological Studies
33%
Geochemical Data
33%
Stable Isotope Ratios
33%
Multi-proxy
33%
Ostracods
33%
Primary Productivity
33%
Infill
33%
Barium
33%
Meteoric Water
33%
Isotopic Signature
33%
Vertical Shift
33%
Strontium
33%
Dysoxic
33%
Depositional Setting
33%
Charophytes
33%
Stable Isotope Geochemistry
33%
Physicochemical Processes
33%
Lake Productivity
33%
Littoral Area
33%
Mudstone
33%
Paleoenvironmental Conditions
33%
Terrigenous Input
33%
Exceptional Preservation
33%
Final Cause
33%
Lacustrine System
33%
SEM-EDX
33%
Marine Input
33%
Rock Sample
33%
Restricted Waters
33%
Rare Earth Element Distribution
33%
Elemental Proxies
33%
In Situ Precipitation
33%
Semi-closed
33%
Paleoredox
33%
Paleoproductivity Proxies
33%
Elemental Geochemistry
33%
Lithographic Limestones
33%
Earth and Planetary Sciences
Foraminifera
100%
Micrite
100%
Early Cretaceous
100%
Petrography
50%
Shallow Water
50%
Water Circulation
50%
Barremian
50%
Salinity
50%
Ostracod
50%
Scanning Electron Microscopy
50%
Mudstone
50%
Meteoric Water
50%
Fossil Preservation
50%
X-Ray Fluorescence Spectroscopy
50%
X Ray Diffraction
50%
Paleoproductivity
50%
Europe
50%
Spain
50%
Isotope Geochemistry
50%
Paleosalinity
50%
Elemental Geochemistry
50%
Charophyta
50%
Stable Isotope
50%
Chemical Element
50%
Inductively Coupled Plasma Method
50%
Chemical Process
50%
Rare Earth Element
50%