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Publication DateAnnual Review of Earth and Planetary Sciences, ISSN 0084-6597, 5/2014, Volume 42, Issue 1, pp. 127 - 149
Detrital zircon geochronology is rapidly developing into an essential tool in Earth science research because of the widespread occurrence of zircon in...
U-Pb geochronology | provenance | tectonics | maximum depositional age | detrital zircons | Detrital zircons | Provenance | Maximum depositional age | Tectonics | JACK HILLS | RECORD | AGES | CALIFORNIA RIVER | CONTINENTAL-CRUST | SEDIMENTARY PROVENANCE | GEOSCIENCES, MULTIDISCIPLINARY | LU-HF | ASTRONOMY & ASTROPHYSICS | LASER-ABLATION ICPMS | GREAT VALLEY GROUP | EARLY EVOLUTION | Environmental aspects | Geochronology | Zirconium | Research | Observations | Tectonics (Geology)
U-Pb geochronology | provenance | tectonics | maximum depositional age | detrital zircons | Detrital zircons | Provenance | Maximum depositional age | Tectonics | JACK HILLS | RECORD | AGES | CALIFORNIA RIVER | CONTINENTAL-CRUST | SEDIMENTARY PROVENANCE | GEOSCIENCES, MULTIDISCIPLINARY | LU-HF | ASTRONOMY & ASTROPHYSICS | LASER-ABLATION ICPMS | GREAT VALLEY GROUP | EARLY EVOLUTION | Environmental aspects | Geochronology | Zirconium | Research | Observations | Tectonics (Geology)
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Loading RightsChemical Geology, ISSN 0009-2541, 06/2017, Volume 460, pp. 106 - 116
This study presents a new laser ablation-inductively coupled plasma mass spectrometry (LA-ICPMS) based U-Pb geochronometric method for dating...
Garnet | U-Pb geochronology | Skarn | LA-ICPMS | Magmatic-hydrothermal systems | Grossular-andradite | ID-TIMS | ZIRCON | FLUID-FLOW | GRANULITE DOMAIN | METAMORPHISM | VOLCANIC-ROCKS | MAGMATIC PROVINCE | GEOCHEMISTRY & GEOPHYSICS | HYDROTHERMAL SYSTEM | SKARN DEPOSIT | ZONED GARNETS | NEW-YORK | Geochronology | Zirconium | Hydrothermal systems (Geology) | Lasers | Mass spectrometry | Analysis | Uranium
Garnet | U-Pb geochronology | Skarn | LA-ICPMS | Magmatic-hydrothermal systems | Grossular-andradite | ID-TIMS | ZIRCON | FLUID-FLOW | GRANULITE DOMAIN | METAMORPHISM | VOLCANIC-ROCKS | MAGMATIC PROVINCE | GEOCHEMISTRY & GEOPHYSICS | HYDROTHERMAL SYSTEM | SKARN DEPOSIT | ZONED GARNETS | NEW-YORK | Geochronology | Zirconium | Hydrothermal systems (Geology) | Lasers | Mass spectrometry | Analysis | Uranium
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Loading RightsScience, ISSN 0036-8075, 5/2013, Volume 340, Issue 6135, pp. 941 - 945
The end-Triassic extinction is characterized by major losses in both terrestrial and marine diversity, setting the stage for dinosaurs to dominate Earth for...
Mass extinction events | Earth | Geochronology | Atmospheric extinction | Paleoclimatology | Geology | RESEARCH ARTICLES | Basalt | Quartz | Astronomical extinction | Normativity | JURASSIC BOUNDARY | SYNCHRONY | VOLCANISM | MULTIDISCIPLINARY SCIENCES | MASS-EXTINCTION | JERSEY | FLOOD BASALTS | ADJACENT | EVENT | ERUPTIONS | CLIMATE | Zirconium | Uranium | Climate Change | Time Factors | Atlantic Ocean | Lead | Earth (Planet) | Silicates | Volcanic Eruptions | Research | Extinction (Biology) | Zircon | Natural history | Climate change | Extinction | Geochemistry | Volcanology | Geological time | Magma | Paleontology
Mass extinction events | Earth | Geochronology | Atmospheric extinction | Paleoclimatology | Geology | RESEARCH ARTICLES | Basalt | Quartz | Astronomical extinction | Normativity | JURASSIC BOUNDARY | SYNCHRONY | VOLCANISM | MULTIDISCIPLINARY SCIENCES | MASS-EXTINCTION | JERSEY | FLOOD BASALTS | ADJACENT | EVENT | ERUPTIONS | CLIMATE | Zirconium | Uranium | Climate Change | Time Factors | Atlantic Ocean | Lead | Earth (Planet) | Silicates | Volcanic Eruptions | Research | Extinction (Biology) | Zircon | Natural history | Climate change | Extinction | Geochemistry | Volcanology | Geological time | Magma | Paleontology
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Loading RightsChemical Geology, ISSN 0009-2541, 2006, Volume 234, Issue 1, pp. 105 - 126
Zircon and baddeleyite U–Pb geochronological dating is widely used in solid Earth sciences and the advent of rapid in-situ methods of analysis, such SIMS and...
U–Pb geochronology | LA-MC-ICPMS | Zircon and baddeleyite | Hf isotopes | U-Pb geochronology | WESTERN-AUSTRALIA | zircon and baddeleyite | CRUSTAL EVOLUTION | SHRIMP BADDELEYITE | MC-ICPMS | RATIO ANALYSIS | TRACE-ELEMENT | GEOCHEMISTRY & GEOPHYSICS | LU-HF | PLASMA-MASS SPECTROMETRY | LASER-ABLATION ICPMS | IN-SITU ANALYSIS | Earth | Geochronology | Zirconium | Analysis | Uranium-lead dating | Standards | Zircon | Age
U–Pb geochronology | LA-MC-ICPMS | Zircon and baddeleyite | Hf isotopes | U-Pb geochronology | WESTERN-AUSTRALIA | zircon and baddeleyite | CRUSTAL EVOLUTION | SHRIMP BADDELEYITE | MC-ICPMS | RATIO ANALYSIS | TRACE-ELEMENT | GEOCHEMISTRY & GEOPHYSICS | LU-HF | PLASMA-MASS SPECTROMETRY | LASER-ABLATION ICPMS | IN-SITU ANALYSIS | Earth | Geochronology | Zirconium | Analysis | Uranium-lead dating | Standards | Zircon | Age
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Loading RightsGeostandards and Geoanalytical Research, ISSN 1639-4488, 09/2012, Volume 36, Issue 3, pp. 247 - 270
VizualAge, a new computer software tool for analysing U‐Pb data obtained by laser ablation‐inductively coupled plasma‐mass spectrometry, was developed. It...
data reduction | U‐Pb geochronology | common Pb | géochronologie U‐Pb | réduction des données | LA‐ICP‐MS | visualisation | Pb commun | Visualisation | U-Pb geochronology | LA-ICP-MS | Common Pb | Data reduction | ZIRCON | BEARTOOTH MOUNTAINS | ROCKS | TH-PB | geochronologie U-Pb | COMMON LEAD | CRUST | GEOSCIENCES, MULTIDISCIPLINARY | SOUTHERN WEST GREENLAND | EVOLUTION | QORQUT GRANITE COMPLEX | reduction des donnees | AGE | Geochronology | Cratons | Mass spectrometry | Analysis
data reduction | U‐Pb geochronology | common Pb | géochronologie U‐Pb | réduction des données | LA‐ICP‐MS | visualisation | Pb commun | Visualisation | U-Pb geochronology | LA-ICP-MS | Common Pb | Data reduction | ZIRCON | BEARTOOTH MOUNTAINS | ROCKS | TH-PB | geochronologie U-Pb | COMMON LEAD | CRUST | GEOSCIENCES, MULTIDISCIPLINARY | SOUTHERN WEST GREENLAND | EVOLUTION | QORQUT GRANITE COMPLEX | reduction des donnees | AGE | Geochronology | Cratons | Mass spectrometry | Analysis
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Loading RightsGeostandards and Geoanalytical Research, ISSN 1639-4488, 09/2016, Volume 40, Issue 3, pp. 311 - 332
The LA‐ICP‐MS U‐(Th‐)Pb geochronology international community has defined new standards for the determination of U‐(Th‐)Pb ages. A new workflow defines the...
la communication des données | laser ablation | propagation des incertitudes | data reporting | U‐(Th‐)Pb geochronology | U‐(Th‐)Pb | ablation laser | ICP‐MS | uncertainty propagation | U-(Th-)Pb geochronology | ICP-MS | U-PB GEOCHRONOLOGY | FEMTOSECOND LASER-ABLATION | ZIRCON GEOCHRONOLOGY | DATA REDUCTION | SQUARED WEIGHTED DEVIATION | STATISTICAL DISTRIBUTION | TH-PB | PRECISION | TRACE-ELEMENT | GEOCHEMISTRY & GEOPHYSICS | PLASMA-MASS SPECTROMETRY | Phosphate minerals | Geochronology | Zirconium | Analysis | Phosphate rock | Standards
la communication des données | laser ablation | propagation des incertitudes | data reporting | U‐(Th‐)Pb geochronology | U‐(Th‐)Pb | ablation laser | ICP‐MS | uncertainty propagation | U-(Th-)Pb geochronology | ICP-MS | U-PB GEOCHRONOLOGY | FEMTOSECOND LASER-ABLATION | ZIRCON GEOCHRONOLOGY | DATA REDUCTION | SQUARED WEIGHTED DEVIATION | STATISTICAL DISTRIBUTION | TH-PB | PRECISION | TRACE-ELEMENT | GEOCHEMISTRY & GEOPHYSICS | PLASMA-MASS SPECTROMETRY | Phosphate minerals | Geochronology | Zirconium | Analysis | Phosphate rock | Standards
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Loading RightsChemical Geology, ISSN 0009-2541, 2009, Volume 262, Issue 3, pp. 229 - 245
During the Mesozoic–Cenozoic, northward Neotethyan subduction and subsequent India–Asia collision gave rise to the extensive Transhimalayan magmatism that...
Gangdese batholith | U–Pb age | Hf isotope | Tibet | Petrogenesis | Zircon | U-Pb age | VOLCANIC-ROCKS | TSANGPO SUTURE ZONE | SPONTANG OPHIOLITE | GEOCHEMISTRY & GEOPHYSICS | EAST-WEST EXTENSION | CONTINENTAL COLLISION | LU-HF | SOUTHEASTERN TIBET | INDIA-ASIA COLLISION | FORE-ARC BASIN | TECTONIC EVOLUTION | Magmatism | Earth | Geochronology | Zirconium | Tracers (Biology) | Analysis | Geophysics | Batholiths | Sediments (Geology) | Age
Gangdese batholith | U–Pb age | Hf isotope | Tibet | Petrogenesis | Zircon | U-Pb age | VOLCANIC-ROCKS | TSANGPO SUTURE ZONE | SPONTANG OPHIOLITE | GEOCHEMISTRY & GEOPHYSICS | EAST-WEST EXTENSION | CONTINENTAL COLLISION | LU-HF | SOUTHEASTERN TIBET | INDIA-ASIA COLLISION | FORE-ARC BASIN | TECTONIC EVOLUTION | Magmatism | Earth | Geochronology | Zirconium | Tracers (Biology) | Analysis | Geophysics | Batholiths | Sediments (Geology) | Age
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Loading RightsChemical Geology, ISSN 0009-2541, 2003, Volume 200, Issue 1, pp. 155 - 170
The role of the standard is critical to the derivation of reliable U-Pb zircon ages by micro-beam analysis. For maximum reliability, it is critically important...
Geochronology | TEMORA 1 | Ion probe | SHRIMP method | Dating standard | Zircon | U–Pb | U-Pb | shrimp method | GEOCHEMISTRY & GEOPHYSICS | geochronology | zircon | ion probe | dating standard | AGES | ICP-MS
Geochronology | TEMORA 1 | Ion probe | SHRIMP method | Dating standard | Zircon | U–Pb | U-Pb | shrimp method | GEOCHEMISTRY & GEOPHYSICS | geochronology | zircon | ion probe | dating standard | AGES | ICP-MS
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