Glaciers are always climate-sensitive and affected by minor changes in temperature and other climatic elements. Past studies on the northern mountain ranges of Pakistan reveal changes in climatic patterns in and around these ranges. In this study, an attempt is made to explore and assess the temporal and spatial fluctuations occurring in the ice cover of the Himalayan Region of Pakistan as a result of changes in climatic pattern. Satellite imageries and meteorological data were used to explore the dynamics of both the ice cover and climatic elements. Remote Sensing and Geographical Information System were used to detect changes in snow cover both spatially and temporally. Various statistical techniques, mainly Mann Kendall Trend Test and Sen’s Slope Estimator, were used to analyze the temporal trend of climatic elements. Moreover, correlation and regression analysis were applied to establish the relationship between climate and ice cover. Analysis of the data reveals that the temporal trend in ice cover is not monotonic as there is glacial advancement in certain years while retreating in others. Moreover, it was found out that climatic elements such as temperature and precipitation have recorded changes during the past few decades.

Akhtar, M., Ahmad, N., & Booij, M. J. (2008). The impact of climate change on the water resources of Hindukush-Karakorum-Himalaya region under different glacier coverage scenarios. Journal of Hydrology, 355, 148–163.

Armstrong, R.L., Rittger, K., Brodzik, M.J. et al. (2019). Runoff from glacier ice and seasonal snow in High Asia: separating melt water sources in river flow. Reg. Environ. Change, 19, 1249–1261.

Atta-ur-Rahman, Dawood, M. (2017). Spatio-statistical analysis of temperature fluctuation using Mann–Kendall and Sen’s slope approach. Clim Dyn 48, 783–797.

Azam, M.F., Wagnon, P., Berthier, E., Vincent, C., Fuijta, K., Kargel, J.S. (2018) Review of the status and mass changes of Himalayan-Karakoram glaciers. Journal of Glaciology, 64, 61–74.

Bishop, W., Olsenholler, M.P., Shroder, J.A., Barry, J.F., Raup, R., Bush, B.H., & Haeberli, A.G. (2004). Global Land Ice Measurements from Space (GLIMS): remote sensing and GIS investigations of the Earth's cryosphere. Geocarto International, 19(2), 57-84.

Bocchiola, G., & Diolaiuti, D. (2013). Recent (1980–2009) evidence of climate change in the upper Karakoram, Pakistan. Theoretical and applied climatology, 113(3-4), 611-641.

Bolch, T., Kulkarni, A., Kääb, A., Huggel, C., Paul, F., Cogley, J.G., & Stoffel, M. (2012). The State and Fate of Himalayan Glaciers. Science, 336, 310-314.

Bolch, T. (2019). Past and Future Glacier Changes in the Indus River Basin. In: Sadiq I. Khan, Thomas E. Adams (Eds). Indus River Basin, Elsevier, 85-97.

Bolch, T., Pieczonka, T., Mukherjee, K., & Shea, J. (2017). Brief communication: Glaciers in the Hunza catchment (Karakoram) have been nearly in balance since the 1970s. Cryosphere, 11, 531–539.

Brun, F., Berthier, E., Wagnon, P., Kääb, A., & Treichler, D.A. (2017). Spatially resolved estimate of High Mountain Asia glacier mass balances from 2000 to 2016. Nat. Geosci, 10, 668–673.

Brun, F., Wagnon, P., Berthier, E. et al. (2019). Heterogeneous influence of glacier morphology on the mass balance variability in High Mountain Asia. J. Geophys. Res. Earth Surf, 124, 1331–1345.

Chen, F.H., Dong, G.H., Zhang, D.J., Liu, X.Y., Jia, X., An, C.B., & Jones, M.K. (2015). Agriculture facilitated permanent human occupation of the Tibetan Plateau after 3600 B.P. Science, 347, 248-250.

Collins, D. (2008). Climatic warming, glacier recession and runoff from Alpine basins after the Little Ice Age maximum. Ann. Glaciol. 48, 119–124.

Dale, C.J., Joyce, V.H., McNulty, L.A., Neilson, S., Ayres, R.P., & Flannigan, M.P. (2001). Climate change and forest disturbances: climate change can affect forests by altering the frequency, intensity, duration, and timing of fire, drought, introduced species, insect and pathogen outbreaks, hurricanes, windstorms, ice storms, or landslides. BioScience, 51(9), 723-734.

Dawood, M., Rahman, Au., Ullah, S. et al. (2020). Spatio-statistical analysis of rainfall fluctuation, anomaly and trend in the Hindu Kush region using ARIMA approach. Nat Hazards, 101, 449–464.

Dimri, A. P., Kumar, D., Choudhary, A., and Maharana, P. (2018). Future changes over the Himalayas: mean temperature. Global Planet Change, 162, 235–251.

Eriksson, M., Jianchu, X., Shresta, A., Vaidya, R., Nepal, S., Sandström, K. (2009) The Changing Himalayas: Impact of Climate Change on Water Resources and Livelihoods in the Greater Himalayas. The International Centre for Integrated Mountain Development (ICIMOD)

Farinotti, D., Immerzeel, W.W., de Kok, R.J. et al. (2020). Manifestations and mechanisms of the Karakoram glacier Anomaly. Nat. Geosci, 13, 8–16.

Forsythe, N., Fowler, H., Li, X.F. et al. (2017). Karakoram temperature and glacial melt driven by regional atmospheric circulation variability. Nature Clim Change, 7, 664–670.

Fowler, H. J. and Archer, D. R. (2006). Conflicting signals of climatic change in the Upper Indus Basin. J. Climate, 19, 4276–4293.

Gardelle, J., Berthier, E., Arnaud, Y., and Kääb, A. (2013). Region-wide glacier mass balances over the Pamir-Karakoram-Himalaya during 1999–2011. The Cryosphere, 7, 1263–1286.

Grove, J.M. (2004). Little Ice Ages: Ancient and Modern. Routledge, London.

Gurung, D.R., Kulkarni, A.V., Giriraj, A., Aung, K.S., Shresstha, B., & Srinivasan, J. (2011). Changes in seasonal snow cover in Hindu Kush-Himalayan region. Cryosphere Discuss, 5, 755-777.

Kääb, A., Treichler, D., Nuth, C., Berthier, E. (2015). Brief Communication: Contending estimates of 2003–2008 glacier mass balance over the Pamir–Karakoram–Himalaya. Cryosphere, 9, 557-570.

Kamp, U., Byrne, M., & Bolch., T. (2011). Glacier Fluctuations between 1975 and 2008 in the Greater Himalaya Range of Zanskar, Southern Ladakh. Journal of Mountain Sciences, 8, 374-389.

Khan, A.A., Pant, N.C., Sarkar, A., Tandon, S.K., & Thamban, M. (2017). The Himalayan cryosphere: A critical assessment and evaluation of glacial melt fraction in the Bhagirathi basin. Geoscience Frontiers, 8(1),107-115.

Kirby, A. (2015). Global glacier melt reaches record levels. from http://climatenewsnetwork.net/global-glacier-melt-reaches-record-levels/.

Liu, Y., Wang, N., Zhang, J., & Wang, L. (2019). Climate change and its impacts on mountain glaciers during 1960–2017 in western China. Journal of Arid Land, 11, 537–550. https://doi.org/10.1007/s40333-019-0025-6

Lutz, A.F., Immerzeel, W.M., Shrestha, A.B., & Bierkens, M.F.P. (2014) Consistent increase in High Asia's runoff due to increasing glacier melt and precipitation. Nature and Climate Change, 4, 587–592.

Mal, S., Mehta, M., Singh, R.B., Schickhoff, U., & Bisht, M.P.S. (2019). Recession and Morphological Changes of the Debris-Covered Milam Glacier in Gori Ganga Valley, Central Himalaya, India, Derived From Satellite Data. Frontiers in Environmental Science, 7, 42-54-. doi: 10.3389/fenvs.2019.00042

Marazi, A., & Romshoo, S.A. (2018). Streamflow response to shrinking glaciers under changing climate in the Lidder Valley, Kashmir Himalayas. Journal of Mountain Science, 15(6), 1241-1253.

Maurer,^, J.M., Schaefer, J.M., Rupper, S., & Corley, A. (2019). Acceleration of ice loss across the Himalayas over the past 40 years. Science Advances, (6), 1-12. DOI: 10.1126/sciadv.aav7266

Oerlemans, J. (2005). Extracting a climate signal from 169 glacier records. Science, 308, 675-677.

Qin, J., Yang, K., Liang, S. L., & Guo, X. F. (2009). The altitudinal dependence of recent rapid warming over the Tibetan Plateau. Climate Change, 97, 321–327.

Radford, T. (2015). Speed of glacier retreat worldwide 'historically unprecedented'. Available online via: https://www.theguardian.com/environment/2015/aug/04/speed-glacier-retreat-worldwide-historically-unprecedented-climate-change

Raina, V.K. (2009). Himalayan Glaciers: a State -of- Art Review of Glacial Studies, Glacial Retreat and Climate Change. Ministry of Environment and Forests. Government of India, New Delhi.

Rasul, G., Chaudhry, Q.Z., Mahmood, A., Hyder, K.W.,& Dahe, Q. (2011). Glaciers and glacial lakes under changing climate in Pakistan. Pakistan Journal of Meteorology, 8(15), 1-8.

Rasul, G., Pasakhala, B., Mishra, A., & Pant, S. (2020). Adaptation to mountain cryosphere change: issues and challenges. Climate and Development, 12, 297-309.

Shiba, P., Chatterjee, C., & Bishop, B. (2017). Himalayas. from https://www.britannica.com/place/Himalayas

Singh S, Kumar R and Dimri AP (2018) Mass Balance Status of Indian Himalayan Glaciers: A Brief Review. Frontiers in Environmental Science, 6, 30-38. doi: 10.3389/fenvs.2018.00030

Tandong, Y., Youqing, W., Shiying, L., Jianchen, P.U., Yongping, S., & Anxin, L.U. (2004). Recent glacial retreat in High Asia in China and its impact on water resource in Northwest China. Earth Sciences, 47(12), 1065-1075.

Thakuri, S., Salerno, F., Smiraglia, C., Bolch, T., D'Agata, C., Viviano, G., et al. (2014). Tracing glacier changes since the 1960s on the south slope of Mt. Everest (central Southern Himalaya) using optical satellite imagery. Cryosphere, 8, 1297–1315.

Thayyen, R. J. (2008). Lower recession rate of Gangotri glacier during 1971-2004. Current Science, 95, 9–10.

Wang, L., Li, Z., Wang, F., & Edwards, R. (2014). Glacier shrinkage in the Ebinur lake basin, Tien Shan, China, during the past 40 years. Journal of Glaciology, 60, 245–254. doi: 10.3189/2014JoG13J023

Wiltshire, A. J. (2014). Climate change implications for the glaciers of the Hindu Kush, Karakoram and Himalayan region. The Cryosphere, 8, 941–958.

WMO. (2016). WMO Statement on the status of the global climate in 2015. World Meteorological Organization.

Wulf, H., Bookhagen, B., & Scherler, D. (2010). Seasonal precipitation gradients and their impact on fluvial sediment flux in the Northwest Himalaya. Geomorphology, 118, 13–21. doi: 10.1016/j.geomorph.2009.12.003

Zemp, M., Hoelzle, M., Haeberli, W. (2009). Six decades of glacier mass-balance observations: a review of theworldwide monitoring network. Annals of Glaciology, 50, 101-111.

Zemp, M., Roer, I., Kääb, A., Hoelzle, M., Paul, F., & Haeberli, W. (2008). WGMS: Global Glacier Changes: facts and figures, UNEP, World Glacier Monitoring Service, Zurich, Switzerland, 8.