Add to ORKGPossible links between orogenic uplift and the strengthening of the South Asian monsoon are best examined in the Arabian Sea, where the erosional flux is not dominated by the High Himalaya, as in the Bengal Fan, but is controlled by Tibet, the Karakoram, and the Hindu Kush. The erosional flux from these mountains into a basin where the monsoon is well dated allows a direct comparison of erosional, tectonic, and climatic processes. New seismic data from the proximal Indus Fan permit the thickest part of this system to be dated for the first time through correlation to drilling sites. After converting time sections to depth and then accounting for sediment compaction, the data show a two-to threefold increase in mass flux to the upper fan and...
Correlation of new multichannel seismic profiles across the upper Indus Fan and Murray Ridge with a ...
International audienceCenozoic evolution of South Asian Monsoon and mechanisms driving changes recor...
Testing models that link climate and solid Earth tectonics in mountain belts requires independent er...
The Indus Fan records the erosion of the western Himalayas and Karakoram since India began to collid...
Correlation of new multichannel seismic profiles across the upper Indus Fan and Murray Ridge with a ...
How well do deep-sea sedimentary archives track erosion in upland sources, driven by climatic change...
The Indus Delta is constructed of sediment eroded from the western Himalaya and since 20 ka has been...
The geological history of the South Asian monsoon (SAM) before the Pleistocene is not well-constrain...
Abstract ᅟ Sedimentary archives in the Himalayan foreland basin and Indus submarine fan provide the ...
Three closely spaced sites located 800 km south of Sri Lanka on the distal Bengal Fan were drilled d...
Subsidence in foreland basins is modulated by the size of the flexural load, the elastic thickness o...
The Bengal Basin preserves the erosional signals of coupled tectonic-climatic change during late Cen...
International audienceIODP Expedition 354 in the Bengal fan [1] generated a comprehensive record of ...
The Indus River is the only major drainage in the western Himalaya and delivers a long geological re...
Correlation of new multichannel seismic profiles across the upper Indus Fan and Murray Ridge with a ...
International audienceCenozoic evolution of South Asian Monsoon and mechanisms driving changes recor...
Testing models that link climate and solid Earth tectonics in mountain belts requires independent er...
The Indus Fan records the erosion of the western Himalayas and Karakoram since India began to collid...
Correlation of new multichannel seismic profiles across the upper Indus Fan and Murray Ridge with a ...
How well do deep-sea sedimentary archives track erosion in upland sources, driven by climatic change...
The Indus Delta is constructed of sediment eroded from the western Himalaya and since 20 ka has been...
The geological history of the South Asian monsoon (SAM) before the Pleistocene is not well-constrain...
Abstract ᅟ Sedimentary archives in the Himalayan foreland basin and Indus submarine fan provide the ...
Three closely spaced sites located 800 km south of Sri Lanka on the distal Bengal Fan were drilled d...
Subsidence in foreland basins is modulated by the size of the flexural load, the elastic thickness o...
The Bengal Basin preserves the erosional signals of coupled tectonic-climatic change during late Cen...
International audienceIODP Expedition 354 in the Bengal fan [1] generated a comprehensive record of ...
The Indus River is the only major drainage in the western Himalaya and delivers a long geological re...
Correlation of new multichannel seismic profiles across the upper Indus Fan and Murray Ridge with a ...
International audienceCenozoic evolution of South Asian Monsoon and mechanisms driving changes recor...
Testing models that link climate and solid Earth tectonics in mountain belts requires independent er...