Add to ORKGThe Bengal Fan has developed as a result of the collision of India with Asia, resulting in the orogeny of the Himalayas. Erosion of the Himalayas since Eocene times had formed the largest submarine fan on Earth today. Accordingly, the Bengal Fan is well suited to study the tectonic and climatic history of the Himalayas, but also to analyze architecture and depositional processes of submarine fans and channel-levee systems in general. In this thesis, the active channel-levee system of the Middle Bengal Fan is described by a combined analysis of Parasound and Hydrosweep data. Morphological parameters of the channel and the structure of the levees are analyzed. The results are used to describe the built-up of the active channel-levee system, w...
A holistic view of the Bengal-Nicobar Fan system requires sampling the full sedimentary section of t...
Three closely spaced sites located 800 km south of Sri Lanka on the distal Bengal Fan were drilled d...
Three deep holes, with a maximum penetration of 960 m below Sea floor, were drilled into the distal ...
The Bengal Fan has developed as a result of the collision of India with Asia, resulting in the oroge...
The Bengal fan is the largest submarine fan in the world that has formed as a result of high sedimen...
Submarine fans are regarded as excellent archives for long- and short-term climate variations and th...
New stratigraphic and high-resolution seismic data from the Bengal Fan indicate that the world's lar...
Bengal Fan is one of the world's largest submarine fans having an area of 2.8-3.0 xl06 sq.km. I...
International audienceWe investigate chronology and age uncertainty for the middle to upper Pleistoc...
International audienceThe Bengal-Nicobar Fan has been long-studied to investigate possible links bet...
The Bengal Fan contains the most complete record of Himalayan climate and tectonics. As the largest ...
The Bengal Fan which extends over a distance of 3000 km from the northern end of the Bay of Bengal b...
International audienceDrill sites in the southern Bay of Bengal at 3 degrees N 91 degrees E (Interna...
International audienceThe eastern levee of the Active Channel in the Bengal fan has been investigate...
We obtained sediment physical properties and geochemical data from 47 piston and gravity cores locat...
A holistic view of the Bengal-Nicobar Fan system requires sampling the full sedimentary section of t...
Three closely spaced sites located 800 km south of Sri Lanka on the distal Bengal Fan were drilled d...
Three deep holes, with a maximum penetration of 960 m below Sea floor, were drilled into the distal ...
The Bengal Fan has developed as a result of the collision of India with Asia, resulting in the oroge...
The Bengal fan is the largest submarine fan in the world that has formed as a result of high sedimen...
Submarine fans are regarded as excellent archives for long- and short-term climate variations and th...
New stratigraphic and high-resolution seismic data from the Bengal Fan indicate that the world's lar...
Bengal Fan is one of the world's largest submarine fans having an area of 2.8-3.0 xl06 sq.km. I...
International audienceWe investigate chronology and age uncertainty for the middle to upper Pleistoc...
International audienceThe Bengal-Nicobar Fan has been long-studied to investigate possible links bet...
The Bengal Fan contains the most complete record of Himalayan climate and tectonics. As the largest ...
The Bengal Fan which extends over a distance of 3000 km from the northern end of the Bay of Bengal b...
International audienceDrill sites in the southern Bay of Bengal at 3 degrees N 91 degrees E (Interna...
International audienceThe eastern levee of the Active Channel in the Bengal fan has been investigate...
We obtained sediment physical properties and geochemical data from 47 piston and gravity cores locat...
A holistic view of the Bengal-Nicobar Fan system requires sampling the full sedimentary section of t...
Three closely spaced sites located 800 km south of Sri Lanka on the distal Bengal Fan were drilled d...
Three deep holes, with a maximum penetration of 960 m below Sea floor, were drilled into the distal ...