Author(s)

M. N. Koul^1*, I. M. Bahuguna²,   Ajai², A. S. Rajawat², Sadiq Ali¹, Sumit Koul³

¹Department of Geography, University of Jammu, Jammu, India.
²Space Application Centre, Ahmadabad, India.
³Department of Statistics, University of Jammu, Jammu, India.

Glaciers are dynamic reservoirs of constantly exchanging mass with parts of global hydrological system, process by which glaciers gain or lose snow and ice and establish a link between climate, glacier mass and glacier fluvial dynamics related directly to the behaviour of climate. Here, we report on glacier status over the past 50 years (1962-2013) on remotely-sensed volumetric changes of glaciers in Drass glacier basin, Ladakh Mountain, North-West Himalaya. Drass basin houses 150 glaciers of different dimensions predominantly (nearly 75%) by small sized glaciers. The glaciers monitored on multi-temporal satellite images of the year’s 2001, 2013 for short-term basis, and, Survey of India topographic sheets of 1965 (surveyed in 1963) on long-term basis. Machoi glacier has been selected for detailed study to assess health and fluctuation record on which observation has been made since the year 1875. The long-term monitoring (1965-2001) of 81 glaciers shows that 12.5% of glaciers have gained the area whereas 14% of large glaciers lost area 5% to 15%, and remaining 73% glaciers lost area marginally (<5%). The short-term monitoring shows that 80% glaciers do not show any change in area; even large glaciers vacated 0.64% - 2.6% area and small glaciers 1.68% - 9% glacier area. The trends in annual, seasonal and monthly maximum/minimum temperature and precipitation (snowfall and rainfall) of Drass for period 1987-2013 show that two different patterns of weather conditions: 1988-2001, cold moist winters with dry summers, and 2002-2013, a period of long winters and cool and moist summers, corroborate with transitional phase of glacier behaviour. This phenomenon has resulted in incorporating no change in area of 80% of glacier (120 glaciers) and remaining 20 percentage of glaciers show marginal loss in area. The positive balance mass for last four years (2011-2014) in benchmark Machoi glacier with cumulative specific balance +0.16 m w.e/km2/yr further indicates about the stability phase of the glaciers.

Climate Change, Stability of Himalayan Glaciers, Remote Sensing GIS, Glacier Mass Balance, Benchmark Glacier

Koul, M. , Bahuguna, I. , Ajai,  . , Rajawat, A. , Ali, S. and Koul, S. (2016) Glacier Area Change over Past 50 Years to Stable Phase in Drass Valley, Ladakh Himalaya (India). American Journal of Climate Change, 5, 88-102. doi: 10.4236/ajcc.2016.51010.