One of the enduring debates in the study of the Himalayan orogen (and continental collision zones in general) is whether the salient observed features are explained (a) by localized deformation along discrete, narrow fault zones/ductile shear zones separating individual blocks or slices (e.g. critical taper or wedge tectonic models), or (b) by distributed deformation dominated by wide zones of visco-plastic flow in the solid or a partially molten state (e.g. channel flow models). A balanced cross-section from Sikkim in the eastern Himalaya that is based on structural data and is drawn to satisfy petrological and geophysical constraints as well, is used in combination with information from petrology, geochronology, geospeedometry and microst...
A specific question about the Himalayas is whether the orogeny grew by distributed extrusion or disc...
The Higher Himalayan Crystalline (HHC) in the Bhagirathi river section (India) on fieldwork reveals ...
Recent suggestions that the Greater Himalayan Sequence (GHS) represents a mid-crustal channel of low...
One of the enduring debates in the study of the Himalayan orogen (and continental collision zones in...
The geology of the Kangchenjunga-Darjeeling profile in west Sikkim and north Bengal is consistent wi...
The channel flow model aims to explain features common to metamorphic hinterlands of some collisiona...
Abstract: The channel flow model aims to explain features common to metamorphic hinterlands of some ...
Himalayan orogenesis is commonly explained with models of channel flow, in which the metamorphic cor...
The channel-flow model for the Greater Himalayan Sequence (GHS) of the Himalayan orogen involves a p...
The channel-flow model for the Greater Himalayan Sequence (GHS) of the Himalayan orogen involves a p...
The channel-flow model for the Greater Himalayan Sequence (GHS) of the Himalayan orogen involves a p...
The movement of a low-viscosity crustal layer in response to topographic loading provides a potentia...
Constraining magnitudes of mechanical and thermo-mechanical parameters of rocks and shear zones are ...
The Greater Himalayan Sequence (GHS) is the main metamorphic unit of the Himalayan belt, stretching ...
The Greater Himalayan Sequence (GHS) is the main metamorphic unit of the Himalayan belt, stretching ...
A specific question about the Himalayas is whether the orogeny grew by distributed extrusion or disc...
The Higher Himalayan Crystalline (HHC) in the Bhagirathi river section (India) on fieldwork reveals ...
Recent suggestions that the Greater Himalayan Sequence (GHS) represents a mid-crustal channel of low...
One of the enduring debates in the study of the Himalayan orogen (and continental collision zones in...
The geology of the Kangchenjunga-Darjeeling profile in west Sikkim and north Bengal is consistent wi...
The channel flow model aims to explain features common to metamorphic hinterlands of some collisiona...
Abstract: The channel flow model aims to explain features common to metamorphic hinterlands of some ...
Himalayan orogenesis is commonly explained with models of channel flow, in which the metamorphic cor...
The channel-flow model for the Greater Himalayan Sequence (GHS) of the Himalayan orogen involves a p...
The channel-flow model for the Greater Himalayan Sequence (GHS) of the Himalayan orogen involves a p...
The channel-flow model for the Greater Himalayan Sequence (GHS) of the Himalayan orogen involves a p...
The movement of a low-viscosity crustal layer in response to topographic loading provides a potentia...
Constraining magnitudes of mechanical and thermo-mechanical parameters of rocks and shear zones are ...
The Greater Himalayan Sequence (GHS) is the main metamorphic unit of the Himalayan belt, stretching ...
The Greater Himalayan Sequence (GHS) is the main metamorphic unit of the Himalayan belt, stretching ...
A specific question about the Himalayas is whether the orogeny grew by distributed extrusion or disc...
The Higher Himalayan Crystalline (HHC) in the Bhagirathi river section (India) on fieldwork reveals ...
Recent suggestions that the Greater Himalayan Sequence (GHS) represents a mid-crustal channel of low...