Naresh Rana scite author profile

The present study aims to explain the spatial and temporal variability in phases of aggradation/incision in response to changes in climate and seismicity during the late Quaternary in the Alaknanda River valley (a major tributary of the river Ganges or Ganga). Geomorphology, stratigraphy and optical dating of the fluvial sediment reveal that the oldest fluvial landforms preserved in the south of the Main Central Thrust are debris flow terraces developed during the early part of pluvial Marine Isotopic Stage 3. Following this, a period of accelerated incision/erosion owing to an increase in uplift rate and more intense rainfall occurred. In the Lesser Himalaya, three phases of valley fill aggradation around 26 AE 3 ka, 18 AE 2 ka and 15 AE 1 ka and 8 AE 1 ka occurred in response to changes in monsoon intensity and sediment flux. The last phase was regionally extensive and corresponds to a strengthening of the early Holocene Indian Summer Monsoon. A gradual decline in the monsoon strength after 8 AE 1 ka resulted in reduced fluvial discharge and lower sediment transport capacity of the Alaknanda River, leading to valley fill incision and the development of terraces. The study suggests that fluvial dynamics in the Alaknanda valley were modulated by monsoon variability and the role of tectonics was subordinate, limited to providing accommodation space and post-deposition modification of the fluvial landforms.

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High-resolution millennial and centennial scale Holocene monsoon variability in the Higher Central Himalayas

Bhushan

Sati

Rana³

et al. 2018

Palaeogeography, Palaeoclimatology, Palaeoecology

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8000-year monsoonal record from Himalaya revealing reinforcement of tropical and global climate systems since mid-Holocene

Srivastava

Agnihotri

Sharma

et al. 2017

Sci Rep

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We provide the first continuous Indian Summer Monsoon (ISM) climate record for the higher Himalayas (Kedarnath, India) by analyzing a 14C-dated peat sequence covering the last ~8000 years, with ~50 years temporal resolution. The ISM variability inferred using various proxies reveal striking similarity with the Greenland ice core (GISP2) temperature record and rapid denitrification changes recorded in the sediments off Peru. The Kedarnath record provides compelling evidence for a reorganization of the global climate system taking place at ~5.5 ka BP possibly after sea level stabilization and the advent of inter-annual climate variability governed by the modern ENSO phenomenon. The ISM record also captures warm-wet and cold-dry conditions during the Medieval Climate Anomaly and Little Ice Age, respectively.

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Paleofloods records in Himalaya

et al. 2017

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Timing and extent of Holocene glaciations in the monsoon dominated Dunagiri valley (Bangni glacier), Central Himalaya, India

Sati

Ali

Rana

et al. 2014

Journal of Asian Earth Sciences

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Naresh Rana

Late Quaternary fluvial aggradation and incision in the monsoon‐dominated Alaknanda valley, Central Himalaya, Uttrakhand, India

High-resolution millennial and centennial scale Holocene monsoon variability in the Higher Central Himalayas

8000-year monsoonal record from Himalaya revealing reinforcement of tropical and global climate systems since mid-Holocene

Paleofloods records in Himalaya

Timing and extent of Holocene glaciations in the monsoon dominated Dunagiri valley (Bangni glacier), Central Himalaya, India

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