2001, Reviews in mineralogy and geochemistry, ISBN 0939950553, Volume 43., 662
Book
American Mineralogist, ISSN 0003-004X, 09/2018, Volume 103, Issue 9, pp. 1362 - 1400
The Neoproterozoic sulfur isotope (δ S) record is characterized by anomalously high δ values. Many δ values are higher than the contemporaneous δ (i.e., δ > δ...
secondary ion mass spectrometry (SIMS) | framboidal pyrite | Petrology: Honoring John Valley | thermochemical sulfate reduction (TSR) | sulfur isotopes | Microbial sulfate reduction (MSR) | Minerals | scanning electron microscopy (SEM) | Isotopes | DATANGPO FORMATION | TRIASSIC FEIXIANGUAN FORMATION | SICHUAN BASIN | GEOCHEMISTRY & GEOPHYSICS | ZN-PB-AG | DRIVEN ANAEROBIC OXIDATION | THERMOCHEMICAL SULFATE REDUCTION | CARBONATE GAS-RESERVOIRS | SOUTH CHINA | SULFUR ISOTOPE FRACTIONATION | MINERALOGY | Marine sediments | Low concentrations | Water column | Spatial discrimination | Hydrothermal fields | Sulfur cycle | Sulfates | Sulphur | Earth | Reduction | Ocean models | Microorganisms | Diagenesis | Petrology | Fluids | Disputes | Profiles | Sulfur isotopes | Sulfur | Sulfate reduction | Fractionation | Petrography | Computational fluid dynamics | Mass spectroscopy | Secondary ion mass spectrometry | Sediments | Sulphate reduction | Biogeochemistry | Pyrite | Genesis | Models | Mass spectrometry | Mineralogy | Geochemistry & Geophysics
secondary ion mass spectrometry (SIMS) | framboidal pyrite | Petrology: Honoring John Valley | thermochemical sulfate reduction (TSR) | sulfur isotopes | Microbial sulfate reduction (MSR) | Minerals | scanning electron microscopy (SEM) | Isotopes | DATANGPO FORMATION | TRIASSIC FEIXIANGUAN FORMATION | SICHUAN BASIN | GEOCHEMISTRY & GEOPHYSICS | ZN-PB-AG | DRIVEN ANAEROBIC OXIDATION | THERMOCHEMICAL SULFATE REDUCTION | CARBONATE GAS-RESERVOIRS | SOUTH CHINA | SULFUR ISOTOPE FRACTIONATION | MINERALOGY | Marine sediments | Low concentrations | Water column | Spatial discrimination | Hydrothermal fields | Sulfur cycle | Sulfates | Sulphur | Earth | Reduction | Ocean models | Microorganisms | Diagenesis | Petrology | Fluids | Disputes | Profiles | Sulfur isotopes | Sulfur | Sulfate reduction | Fractionation | Petrography | Computational fluid dynamics | Mass spectroscopy | Secondary ion mass spectrometry | Sediments | Sulphate reduction | Biogeochemistry | Pyrite | Genesis | Models | Mass spectrometry | Mineralogy | Geochemistry & Geophysics
Journal Article
1986, ISBN 9780939950201, Volume 16., xvi, 570
Book
Chemical Geology, ISSN 0009-2541, 01/2020, Volume 531, p. 119327
Journal Article
American Mineralogist, ISSN 0003-004X, 07/2015, Volume 100, Issue 7, pp. 1355 - 1377
Atom-probe tomography (APT) and secondary ion mass spectrometry (SIMS) provide complementary in situ element and isotope data in minerals such as zircon. SIMS...
nano-geochronology | zircon | APT | radiation damage | Hadean | SIMS | Atom-probe tomography | oxygen isotopes
nano-geochronology | zircon | APT | radiation damage | Hadean | SIMS | Atom-probe tomography | oxygen isotopes
Journal Article
Elements, ISSN 1811-5209, 04/2015, Volume 11, Issue 2, pp. 83 - 84
Journal Article
Journal of Petrology, ISSN 0022-3530, 7/2008, Volume 49, Issue 7, pp. 1397 - 1426
Values of δ18O of zircon from the central Sierra Nevada batholith (SNB), California, yield fresh insight into the magmatic evolution and alteration history of...
Magma systems | Granitoids | Supracrustal | Crustal growth | Zircon | Sierra Nevada | magma systems | granitoids | YOSEMITE-NATIONAL-PARK | EASTERN CALIFORNIA | supracrustal | GRANITIC-ROCKS | FOOTHILLS METAMORPHIC BELT | CENTRAL WHITE MOUNTAINS | GEOCHEMISTRY & GEOPHYSICS | crustal growth | zircon | TUOLUMNE INTRUSIVE SUITE | PENINSULAR RANGES | ACCESSORY MINERALS | HIGH-PRECISION | (U-TH)/HE AGES
Magma systems | Granitoids | Supracrustal | Crustal growth | Zircon | Sierra Nevada | magma systems | granitoids | YOSEMITE-NATIONAL-PARK | EASTERN CALIFORNIA | supracrustal | GRANITIC-ROCKS | FOOTHILLS METAMORPHIC BELT | CENTRAL WHITE MOUNTAINS | GEOCHEMISTRY & GEOPHYSICS | crustal growth | zircon | TUOLUMNE INTRUSIVE SUITE | PENINSULAR RANGES | ACCESSORY MINERALS | HIGH-PRECISION | (U-TH)/HE AGES
Journal Article
Chemical Geology, ISSN 0009-2541, 11/2019, p. 119429
Journal Article
Geology, ISSN 0091-7613, 07/2018, Volume 46, Issue 7, pp. 611 - 614
Journal Article
Geology, ISSN 0091-7613, 2002, Volume 30, Issue 4, pp. 351 - 354
No known rocks have survived from the first 500 m.y. of Earth history, but studies of single zircons suggest that some continental crust formed as early as 4.4...
Impacts | Oxygen | Meteorites | Archean | Isotopes | Zircon | meteorites | MOON | ROCKS | LUNAR CATACLYSM | WEST GREENLAND | AGES | impacts | ZIRCONS | IMPACT | zircon | GEOLOGY | isotopes | ACCRETION | ISOTOPE | oxygen | WATER | Earth temperature | Earth | Historical geology | Research | Natural history
Impacts | Oxygen | Meteorites | Archean | Isotopes | Zircon | meteorites | MOON | ROCKS | LUNAR CATACLYSM | WEST GREENLAND | AGES | impacts | ZIRCONS | IMPACT | zircon | GEOLOGY | isotopes | ACCRETION | ISOTOPE | oxygen | WATER | Earth temperature | Earth | Historical geology | Research | Natural history
Journal Article
GSA Bulletin, ISSN 0016-7606, 07/2019, Volume 131, Issue 7-8, pp. 1133 - 1156
Successive caldera-forming eruptions from ca. 30 to 25 Ma generated a large nested caldera complex in western Nevada that was subsequently dissected by Basin...
Mesozoic | Cycles | Range extension | Canyons | Tuff | Basement rock | Oxygen isotopes | Zircon | Strontium | Mountains | Eruptions | Basins | Cenozoic | Rhyolites | Isotopes | Oceanic crust | Composition | Oxygen | Lava | Regional analysis | Strontium isotopes | Igneous rocks | Rhyolite | Cretaceous | Magma | Meteoric water | Calderas | Rocks | Plutons
Mesozoic | Cycles | Range extension | Canyons | Tuff | Basement rock | Oxygen isotopes | Zircon | Strontium | Mountains | Eruptions | Basins | Cenozoic | Rhyolites | Isotopes | Oceanic crust | Composition | Oxygen | Lava | Regional analysis | Strontium isotopes | Igneous rocks | Rhyolite | Cretaceous | Magma | Meteoric water | Calderas | Rocks | Plutons
Journal Article
GSA Bulletin, ISSN 0016-7606, 11/2019
Oxygen isotope analyses of diagenetic cements can provide detailed evidence of sedimentary burial processes and conditions, as the δ18O values of precipitating...
Journal Article
Rapid Communications in Mass Spectrometry, ISSN 0951-4198, 10/2018, Volume 32, Issue 20, pp. 1781 - 1790
Rationale Stable oxygen isotope ratios (δ18O values) measured in fish otoliths can provide valuable detailed information on fish life history, fish age...
Spectroscopy | Migration | Secondary ion mass spectrometry | Isotope ratios | Oxygen isotopes | Annual variations | Virtual reality | Fish | Scientific imaging | Chronology | Signatures | Sampling | Mass spectrometry | Isotopes | Age | Thermography
Spectroscopy | Migration | Secondary ion mass spectrometry | Isotope ratios | Oxygen isotopes | Annual variations | Virtual reality | Fish | Scientific imaging | Chronology | Signatures | Sampling | Mass spectrometry | Isotopes | Age | Thermography
Journal Article
Astrobiology, ISSN 1531-1074, 05/2018, Volume 18, Issue 5, pp. 519 - 538
Sedimentological observations from the Paleoproterozoic Huronian Supergroup are suggested to mark the rise in atmospheric oxygen at that time, which is...
Research Articles | Paleoproterozoic | Sulfur isotopes | Mass independent fractionation (MIF) | Great Oxidation Event (GOE) | Secondary ion mass spectrometer (SIMS) | PYRITE | ENVIRONMENT | IRON | PYRRHOTITE | ATMOSPHERE | RISE | GEOSCIENCES, MULTIDISCIPLINARY | EVOLUTION | ASTRONOMY & ASTROPHYSICS | BIOLOGY | SULFATE REDUCTION | ISOTOPE FRACTIONATION | AGE | Analytical methods | Scale (corrosion) | Sulphur | Fluids | Petrology | Diagenesis | Metamorphism | Basins | Profiles | Drills | Oxidation | Stratigraphy | Metamorphism (geology) | Sulfur | Isotopes | Scanning electron microscopy | Fractionation | Petrography | Astrobiology | Regional analysis | Mass spectroscopy | Secondary ion mass spectrometry | Electron microscopy | Cores | Dilution | Pyrite | Pyrrhotite | Mass spectrometry
Research Articles | Paleoproterozoic | Sulfur isotopes | Mass independent fractionation (MIF) | Great Oxidation Event (GOE) | Secondary ion mass spectrometer (SIMS) | PYRITE | ENVIRONMENT | IRON | PYRRHOTITE | ATMOSPHERE | RISE | GEOSCIENCES, MULTIDISCIPLINARY | EVOLUTION | ASTRONOMY & ASTROPHYSICS | BIOLOGY | SULFATE REDUCTION | ISOTOPE FRACTIONATION | AGE | Analytical methods | Scale (corrosion) | Sulphur | Fluids | Petrology | Diagenesis | Metamorphism | Basins | Profiles | Drills | Oxidation | Stratigraphy | Metamorphism (geology) | Sulfur | Isotopes | Scanning electron microscopy | Fractionation | Petrography | Astrobiology | Regional analysis | Mass spectroscopy | Secondary ion mass spectrometry | Electron microscopy | Cores | Dilution | Pyrite | Pyrrhotite | Mass spectrometry
Journal Article
Geochemistry, Geophysics, Geosystems, ISSN 1525-2027, 11/2018, Volume 19, Issue 11, pp. 4487 - 4501
Oxygen isotope ratios (δ18O) measured from planktic foraminifer shells are commonly used to reconstruct past surface ocean conditions, yet the shells of many...
secondary ion mass spectrometry | oxygen isotopes | foraminifera | Climatic analysis | Sea surface | Foraminifera | Analytical techniques | Deep sea sediments | Oxygen isotopes | Echoes | Heterogeneity | Life cycle | Ratios | Basins | Carbonates | Isotopes | Palaeo studies | Oxygen | Oceans | Ocean basins | Shells | Ions | Mass spectroscopy | Climatic changes | Sediments | Temperature (air-sea) | Calcite | Dissolution | Climate change | Mixed layer | Calcification | Marine organisms | Scientific imaging | Ocean-atmosphere system | Holocene | Mass spectrometry
secondary ion mass spectrometry | oxygen isotopes | foraminifera | Climatic analysis | Sea surface | Foraminifera | Analytical techniques | Deep sea sediments | Oxygen isotopes | Echoes | Heterogeneity | Life cycle | Ratios | Basins | Carbonates | Isotopes | Palaeo studies | Oxygen | Oceans | Ocean basins | Shells | Ions | Mass spectroscopy | Climatic changes | Sediments | Temperature (air-sea) | Calcite | Dissolution | Climate change | Mixed layer | Calcification | Marine organisms | Scientific imaging | Ocean-atmosphere system | Holocene | Mass spectrometry
Journal Article