Skip to Main Content
Skip Nav Destination

High-precision dating of the Kalkarindji large igneous province, Australia, and synchrony with the Early–Middle Cambrian (Stage 4–5) extinction

Geology (2014) 42 (6): 543–546.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
The quest for an Australian Cambrian stage scale
Alcheringa: An Australasian Journal of Palaeontology (2024) 1.
Tectonic trigger to the first major extinction of the Phanerozoic: The early Cambrian Sinsk event
Science Advances (2024) 10 (13)
Rhythmic iron‐oxide bands of Navajo Sandstone concretions and Kimberley banded claystone: Formation process and buffering reaction rate by diagenetic alteration
Sedimentology (2024) 71 (1): 241.
Speculations on the Paleozoic legacy of Gondwana amalgamation
Gondwana Research (2024) 129: 107.
Sixteen mass extinctions of the past 541 My correlated with 15 pulses of Large Igneous Province (LIP) volcanism and the 4 largest extraterrestrial impacts
Global and Planetary Change (2024) 234: 104369.
Geochemical and Isotopic (Nd, Sr) Tracing of the Origin of REE Enrichment in the Cambrian Georgina Basin Phosphorites
Geochemistry, Geophysics, Geosystems (2024) 25 (2)
Syn-emplacement ophiolites and relationship to supercontinent cycle
Earth and Planetary Science Letters (2024) 641: 118810.
A review of the Intraplate Mafic Magmatic Record of the Greater Congo craton
Earth-Science Reviews (2024) 249: 104649.
Seismically constrained gravity inversions reveal magmatic and metamorphic processes at a major lithospheric boundary in northwestern Australia
Tectonophysics (2023) 863: 230003.
Analysis of the environmental impacts affecting Cambrian reef building and carbonate settings during the Miaolingian and Furongian epochs: A hypothesis for consideration
Evolving Earth (2023) 1: 100002.
Mineralogy and geochemistry of pattern formation in zebra rock from the East Kimberley, Australia
Chemical Geology (2023) 622: 121336.
Cycles of ∼32.5 My and ∼26.2 My in correlated episodes of continental flood basalts (CFBs), hyper-thermal climate pulses, anoxic oceans, and mass extinctions over the last 260 My: Connections between geological and astronomical cycles
Earth-Science Reviews (2023) 246: 104548.
Early Cambrian evaporite deposits in the North China Craton and their event stratigraphic, paleogeographic, and paleoenvironmental implications
Journal of Asian Earth Sciences (2023) 242: 105489.
Cambrian ocean floor crust preserved in the Takaka Terrane, New Zealand
New Zealand Journal of Geology and Geophysics (2023) 66 (3): 405.
Amplectobeluid Radiodont Guanshancaris gen. nov. from the Lower Cambrian (Stage 4) Guanshan Lagerstätte of South China: Biostratigraphic and Paleobiogeographic Implications
Biology (2023) 12 (4): 583.
Extensive occurrences of lower Cambrian red beds in South China: Composition, characteristics, and implications for global environmental change
Marine and Petroleum Geology (2023) 157: 106475.
An appraisal of the ages of Phanerozoic large igneous provinces
Earth-Science Reviews (2023) 237: 104314.
Low‐temperature thermal history of the McArthur Basin: Influence of the Cambrian Kalkarindji Large Igneous Province on hydrocarbon maturation
Basin Research (2022) 34 (6): 1936.
Hydrothermal formation of Fe-oxide bands in zebra rocks from northern Western Australia
Chemical Geology (2022) 590: 120699.
Inter-cratonic geochronological and geochemical correlations of the Derim Derim–Galiwinku/Yanliao reconstructed Large Igneous Province across the North Australian and North China cratons
Gondwana Research (2022) 103: 473.
Tonian and Cryogenian 40Ar/39Ar hornblende and muscovite ages for the São Gabriel Terrane, Dom Feliciano Belt, southern Brazil
Geological Journal (2022) 57 (3): 1137.
Constraining the geothermal parameters of in situ Rb–Sr dating on Proterozoic shales and their subsequent applications
Geochronology (2022) 4 (2): 577.
40Ar/39Ar dating of basaltic rocks and the pitfalls of plagioclase alteration
Geochimica et Cosmochimica Acta (2021) 314: 334.
Houcaris gen. nov. from the early Cambrian (Stage 3) Chengjiang Lagerstätte expanded the palaeogeographical distribution of tamisiocaridids (Panarthropoda: Radiodonta)
PalZ (2021) 95 (2): 209.
An atypical Burgess Shale-type fossil assemblage from Cambrian Stage 4 of the Jingshan area, South China: Taphonomy, palaeoecology, and global correlations
Global and Planetary Change (2021) 206: 103640.
Zebra rock and other Ediacaran paleosols from Western Australia
Australian Journal of Earth Sciences (2021) 68 (4): 532.
Pannotia: in defence of its existence and geodynamic significance
Geological Society, London, Special Publications (2021) 503 (1): 13.
Mercury and sulfur isotopic evidence for the linkages between the ca. 510 Ma Kalkarindji large igneous province and trilobite crisis
Earth and Planetary Science Letters (2021) 566: 116947.
Quantifying the middle–late Cambrian trilobite diversity pattern in South China
Palaeogeography, Palaeoclimatology, Palaeoecology (2021) 570: 110361.
Resolving the age of the Puchezh-Katunki impact structure (Russia) against alteration and inherited 40Ar* – No link with extinctions
Geochimica et Cosmochimica Acta (2021) 301: 116.
Two types of hyperthermal events in the Mesozoic-Cenozoic: Environmental impacts, biotic effects, and driving mechanisms
Science China Earth Sciences (2020) 63 (8): 1041.
Evidence for a local reef eclipse in a shallow marine carbonate environment following the regional extinction of archaeocyaths in Laurentia (Stage 4, Cambrian)
Facies (2020) 66 (1)
A paired carbonate–organic δ13C approach to understanding the Cambrian Drumian carbon isotope excursion (DICE)
Precambrian Research (2020) 349: 105503.
Using Mesoproterozoic sedimentary geochemistry to reconstruct basin tectonic geography and link organic carbon productivity to nutrient flux from a Northern Australian large igneous Province
Basin Research (2020) 32 (6): 1734.
Cascading trend of Early Paleozoic marine radiations paused by Late Ordovician extinctions
Proceedings of the National Academy of Sciences (2019) 116 (15): 7207.
Geology and geochronology of the Paleoproterozoic Hart Dolerite, Western Australia
Precambrian Research (2019) 335: 105482.
40Ar/39Ar ages and geological significance of Neoproterozoic–Cambrian mafic rocks in the Aksu–Wushi area, NW Tarim Craton
Geological Journal (2019) 54 (6): 3803.
Pyroxene 40Ar/39Ar Dating of Basalt and Applications to Large Igneous Provinces and Precambrian Stratigraphic Correlations
Journal of Geophysical Research: Solid Earth (2019) 124 (8): 8313.
Nitrogen isotope evidence for an oligotrophic shallow ocean during the Cambrian Stage 4
Geochimica et Cosmochimica Acta (2019) 257: 49.
Mercury evidence from the Sino-Korean block for Emeishan volcanism during the Capitanian mass extinction
Geological Magazine (2019) 156 (06): 1105.
Dating Clinopyroxene Phenocrysts in Submarine Basalts Using 40Ar/39Ar Geochronology
Geochemistry, Geophysics, Geosystems (2019) 20 (2): 1041.
The eogenetic karst of the Cambrian Longwangmiao Formation in the Yangtze Platform: Implications for the eustatic and stratigraphic correlations of Toyonian (Cambrian)
Geological Journal (2019) 54 (6): 3720.
Mercury chemostratigraphy across the Cambrian Series 2 – Series 3 boundary: evidence for increased volcanic activity coincident with extinction?
Chemical Geology (2019) 510: 188.
Differentiated evolution of coal macromolecules in localized igneous intrusion zone: A case study of Zhuxianzhuang colliery, Huaibei coalfield, China
Fuel (2019) 254: 115692.
Cambrian integrative stratigraphy and timescale of China
Science China Earth Sciences (2019) 62 (1): 25.
Gondwana Large Igneous Provinces: plate reconstructions, volcanic basins and sill volumes
Geological Society, London, Special Publications (2018) 463 (1): 17.
Gondwana Large Igneous Provinces (LIPs): distribution, diversity and significance
Geological Society, London, Special Publications (2018) 463 (1): 1.
​40Ar/39Ar geochronology of terrestrial pyroxene
Geochimica et Cosmochimica Acta (2018) 230: 112.
Comparison of the ages of large-body impacts, flood-basalt eruptions, ocean-anoxic events and extinctions over the last 260 million years: a statistical study
International Journal of Earth Sciences (2018) 107 (2): 601.
Marine oxygenation, lithistid sponges, and the early history of Paleozoic skeletal reefs
Earth-Science Reviews (2018) 181: 98.
Close Modal

or Create an Account

Close Modal
Close Modal