Your search keyword '"Paul, Omar Jaan"' showing total 3 results

1. Cirque development in the Pir Panjal Range of North Western Himalaya, India

Author

Paul, Omar Jaan, Dar, Reyaz Ahmad, and Romshoo, Shakil Ahmad

Published

2022

2. Paleo-glacial and paleo-equilibrium line altitude reconstruction from the Late Quaternary glacier features in the Pir Panjal Range, NW Himalayas.

Author

Paul, Omar Jaan, Dar, Reyaz Ahmad, and Romshoo, Shakil Ahmad

Subjects

*GLACIERS, *LAST Glacial Maximum, *CLIMATE change, *ALTITUDES, *TEMPERATE climate, TROPICAL climate

Abstract

Paleoclimatic constraints from mountain ranges separating major climate systems are important in understanding past climatic changes. Using the present-day glacial geomorphology combined with the GlaRe model, the last glacial maximum (LGM) of seven representative valley glaciers of the Pir Panjal Range (PPR), Kashmir Himalaya was reconstructed. The Range lies at the interface of the tropical and temperate climates in the NW Himalayas. The glacier reconstructions showed that the glaciers in the Range advanced ~10 km down the present-day cirque margins and attained a thickness of more than 200 m during the LGM. Using six different methods, the equilibrium line altitude (ELA) changes in the selected valleys of the PPR were estimated for which the LGM was reconstructed. ELA depressions calculated for the LGM vary from 374 m to 416 m with a mean of 395 m. The weighted average ELA of the Range lies at an altitude of 3922 m a.s.l showing a general increasing trend from SE to NW of the Range. The published chronology of the loess deposits, a proxy for glacial aridity, shows the evidence of significant glacial advances starting around 350 kya in the valley, which is consistent with the evidence of both the pre- and post-LGM advances observed in this study. The presence of extensive glacier features all across the PPR and the presence of a few small heavily debris-covered glaciers in the Range points towards the rapid deglaciation in the area. [ABSTRACT FROM AUTHOR]

Published

2022

3. Glacial geomorphology and recent glacial recession of the Harmukh Range, NW Himalaya.

Author

Murtaza, Khalid Omar, Dar, Reyaz A., Paul, Omar Jaan, Bhat, Nisar A., and Romshoo, Shakil A.

Subjects

*GLACIAL landforms, *GEOMORPHOLOGY, *ALPINE glaciers, *ROCK glaciers, *CLIMATE change, *RECESSIONS, *ALTITUDES

Abstract

A comprehensive description of the glaciation and glacial geomorphology of the Harmukh range, northwest Himalaya is reported first time in this study. The geomorphic system of the range is dominated by glaciation and provides an excellent opportunity to assess the glacial fluctuations from the Late Quaternary to the present. Using a time series of the satellite data from 1992 to 2018, the glacier area, snout and equilibrium line altitude (ELA) changes of the existing glaciers in the Harmukh Range were estimated. The glacier cover has receded from 7.47 ± 0.58 km2 in 1992 to 6.24 ± 0.62 km2 in 2018, a deglaciation of 16.46 ± 0.24%. The glaciers showed an upward shift in ELA from 47 m to 80 m during the last two and a half decade. The observations revealed that, other than the climatic factors, the ELA change and glacier recessions are influenced by the glacier size, mean altitude, and the aspect of the glaciers. Further, the high-resolution Google Earth images, supplemented by field observations, were used for mapping various glacial-geomorphic landforms. The nature of glacial grooves, overdeepenings, the height of the lateral moraine deposits and trimlines indicated appreciable thickness of the former glaciers. The pattern of the glaciated valleys revealed that the area has predominantly experienced alpine type of glaciation with most of the glaciers centred on the Harmukh peak. Based on the shape and the number of lateral moraine ridges present, it is suggested that the area has witnessed three major glacial advances. By tracing the outer limits of the glacial valleys, moraine boulders, and ice scoured terrain, it was estimated that the glaciers in the range covered 629 km2 during the glacial maxima. The presence of numerous rock glaciers and debris-free cirque glaciers on the north-eastern slopes of the range indicated a strong climatic and topographical control on the pattern, situation and extent of glaciers. However, there is a need for detailed field-based mapping of the glacial-geomorphology and geochronological study in order to better understand the nature and extent of paleo-glaciation, the observed glacier recession and the past climatic variations in this hitherto understudied glaciated region of the Kashmir Himalaya. [ABSTRACT FROM AUTHOR]

Published

2021