Lower Cretaceous clastic dykes in southern Tibet: Characteristics and palaeogeographic significance

Guo, Hao; Chen, Xin; Yao, Hanwei; Han, Kaibo; Garzanti, Eduardo; Liu, Xuan; Fan, Hanhan

doi:10.1002/gj.4020

Cited by 4 publications

(1 citation statement)

References 79 publications

(132 reference statements)

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“…The northwesterly alignment of the Sweet Grass Hills is oblique to the northeast trend of the Montana alkaline province, consistent with the difference in structural grain between the Medicine Hat and Wyoming basement (Lopez, 1995). As such, the Eocene emplacement of the Sweet Grass Hills igneous complex may have been controlled by the reactivation of a pre‐existing, north trending zone of crustal weakness reflected by geophysical anomalies in the Medicine Hat basement and surface faults in the area (Guo et al., 2021; Lopez, 1995).…”

Section: Geological Settingmentioning

confidence: 99%

The Paleogene Eagle Butte meteorite impact and dikes of seismic wave mobilized tuff in western Canada

Broughton

2022

Meteorit & Planetary Scien

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Meteorite impact‐induced mobilization of a volcanic ash tuff resulting in 100s of m long lithified clastic dikes is a novel mechanism in the geologic record. The Paleogene Eagle Butte impact event in southeastern Alberta, western Canada, resulted in a 10–17 km diameter central peak crater, now partially eroded and buried without expression at the surface. Impact shock waves, degraded to elastic waves, mobilized sediment 10s of km beyond the crater and resulted in a cluster of 100s of m long, 10–20 cm thick, dikes consisting of volcanic ash. It is not well understood how effective meteorite impact‐induced waves would be as triggers for sediment mobilization at areas 10s of km distant from an impact crater. Emplacement of the Manyberries dike cluster provides insight into this issue and confirms that shock waves, degraded to elastic waves, can indeed liquefy and mobilize sediments at distances as much as 5 crater radii beyond an impact site. These impact‐induced waves triggered liquefaction and mobilization of a shallowly buried Campanian‐Maastrichtian deposit of volcanic ash and injected the tuff sediment along impact‐induced faults. The lithification of the dike tuff, consisting of the cristobalite–tridymite groundmass, resulted from partial dissolution of glass shards and precipitation of opaline cement. These weathering resistant dikes of indurated tuff sediment extend for as much as 800 m on recessive Campanian‐Maastrichtian shale ridges of the badlands topography.

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Section: Geological Settingmentioning

confidence: 99%

The Paleogene Eagle Butte meteorite impact and dikes of seismic wave mobilized tuff in western Canada

Broughton

2022

Meteorit & Planetary Scien

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Mesozoic-Cenozoic Sedimentary Geology in the Tibetan Himalaya: Continental Collision, Palaeoceanography and Hyperthermal Events

Hu,

Chen,

et al. 2024

Field Trip Guidebook on Chinese Sedimentary Geology

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Chemo- and cyclostratigraphic records of the Albian from the Tethyan Himalaya of southern Tibet, China

Zhang

Han

et al. 2022

Global and Planetary Change

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Lower Cretaceous clastic dykes in southern Tibet: Characteristics and palaeogeographic significance

Cited by 4 publications

References 79 publications

The Paleogene Eagle Butte meteorite impact and dikes of seismic wave mobilized tuff in western Canada

The Paleogene Eagle Butte meteorite impact and dikes of seismic wave mobilized tuff in western Canada

Mesozoic-Cenozoic Sedimentary Geology in the Tibetan Himalaya: Continental Collision, Palaeoceanography and Hyperthermal Events

Chemo- and cyclostratigraphic records of the Albian from the Tethyan Himalaya of southern Tibet, China

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