Earth and Planetary Sciences
Xiamaling Formation
100%
Carbon 14
93%
Iron
86%
Mass Extinction
69%
Paleolatitude
64%
New Jersey
64%
Shallow Water
64%
Diagenesis
64%
Water Column
61%
Continental Shelf
58%
Atmospherics
55%
Hirnantian
51%
Sea Level
50%
Chemostratigraphy
48%
Carbon Cycle
46%
Deep Water
45%
Organic Carbon
43%
Organic Matter
40%
Passive Margin
38%
Nevada
37%
Ordovician
37%
Miocene
37%
Bioturbation
32%
Ediacaran
32%
Redox Condition
32%
Sulfur Cycle
32%
X-Ray Fluorescence Spectroscopy
32%
Biological Evolution
32%
North Sea
32%
Central Atlantic
32%
Europe
32%
Systems Tract
32%
Dolostone
32%
Carbonate Sediment
32%
Peru
32%
Chromium Isotope
32%
Campanian
32%
Chemical Evolution
32%
Late Ordovician
32%
Iron Oxide
32%
Sulfide
29%
Paleoceanography
26%
Global Carbon Cycle
26%
Lithofacies
26%
Bottom Water
25%
Denitrification
24%
Nitrate Reduction
24%
Sea Level Rise
23%
Depositional Environment
23%
Earth Surface
19%
Keyphrases
Hirnantian
64%
Continental Shelf
56%
Water Column
55%
Diagenesis
45%
Molybdenum
42%
Euxinia
42%
Glaciation
42%
Euxinic Conditions
41%
Mixed Layer
40%
Nevada
38%
Carbon Cycle
38%
Sulfidic
38%
Oxygen Minimum Zone
36%
Xiamaling Formation
36%
Ordovician
35%
Triassic-Jurassic Boundary
32%
Nitrogen Cycle
32%
Coastal Upwelling System
32%
Phosphorus Adsorption
32%
Ediacaran
32%
Sulfur Cycle
32%
Cap Dolostone
32%
X-ray Fluorescence Spectrometry
32%
Cretaceous Oceanic Anoxic Events
32%
Peru
32%
Redox Conditions
32%
Marine Settings
32%
Sequence Stratigraphic Model
32%
Surface Albedo
32%
Archean Atmosphere
32%
Chemical Evolution
32%
End-Triassic Mass Extinction
32%
Central Atlantic Magmatic Province
32%
Palaeolatitude
32%
Nuussuaq Basin
32%
Chemostratigraphy
32%
Eon
32%
Organic Carbon
32%
Deglacial
32%
Orbital Forcing
32%
Lithofacies
32%
Carbonate Sediments
32%
Seawater Chemistry
32%
Late Neoproterozoic
32%
End-Ordovician Mass Extinction
32%
NW Europe
32%
Shallow-water Carbonates
32%
Respiration
32%
Climate Fluctuations
32%
Paleoenvironmental Proxies
32%
