Abstract
Climate change has drastic impacts on the patterns of precipitation across the world. These changes have greatly affected the mountainous regions where the frequency of disasters have increased rapidly. Flash floods, Glacier Lake outburst floods (GLOF), Snow avalanches, Landslides, and Landslide Lake Outburst floods (LLOF) all are increasing in the number as well as in the magnitude of their adverse consequences. One phenomenon describes the climate of one region and the other has dominance at other parts of the region. However, the precipitation over the Indian region hinge on the monsoon, where the southwest monsoon has a major role as it dominates a larger area. On the other hand Himalayan region is mostly dominated by the western disturbances. Precipitation extremes have increased by almost 77.52% per unit increase in temperature over India from last 113 years which have resulted in the surge of disasters. Air temperatures show increasing trends over the Himalayan region, and are consistent with the decrease in the snowfall. In the Himalayan region, approximately 25% decrease in snowfall has been linked with the increase in the minimum temperatures. This has greatly influenced the snow depth, and as such there is 71 ± 24% decline in it in the region. Warming due to climate change has dire consequences, over the Himalayas. The increased occurrences of extreme/heavy precipitation events due to warming climate is the most impact-relevant consequence as it directly impacts the sustainability of these regions. The climate models predict intensification of extreme rain events including intensification of cyclones. So, estimating the precipitation precisely is of utmost importance.
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References
Altaf F, Meraj G, Romshoo SA (2013) Morphometric analysis to infer hydrological behaviour of Lidder watershed, Western Himalaya, India. Geogr J
Altaf S, Gowhar M, Romshoo SA (2014) Morphometry and land cover based multi-criteria analysis for assessing the soil erosion susceptibility of the western Himalayan watershed. Environ Monitor Assessm 186(12):8391–8412
Azam MF, Wagnon P, Berthier E, Vincent C, Fujita K, Kargel JS (2018) Review of the status and mass changes of Himalayan-Karakoram glaciers. J Glaciol 64(243):61–74
Bahuguna IM, Kulkarni AV, Nayak S, Rathore BP, Negi HS, Mathur P (2007) Himalayan glacier retreat using IRS 1C PAN stereo data. Int J Remote Sens 28(2):437–442
Bhat MA, Romshoo SA, Beig G (2017) Aerosol black carbon at an urban site-Srinagar, Northwestern Himalaya, India: seasonality, sources, meteorology and radiative forcing. Atmos Environ 165:336–348
Bhatt CM et al (2017) Satellite-based assessment of the catastrophic Jhelum floods of September 2014, Jammu & Kashmir, India. Geomat Nat Haz Risk 8(2):309–327
Dar RA, Rashid I, Romshoo SA, Marazi A (2014) Sustainability of winter tourism in a changing climate over Kashmir Himalaya. Environ Monit Assess 186(4):2549–2562
Donat MG, Lowry AL, Alexander LV, O’Gorman PA, Maher N (2016) More extreme precipitation in the world’s dry and wet regions. Nat Clim Chang 6(5):508–513
Dortch JM, Owen LA, Haneberg WC, Caffee MW, Dietsch C, Kamp U (2009) Nature and timing of large landslides in the himalaya and Trans himalaya of Northern India. Quatern Sci Rev 28(11–12):1037–1054
Gujree I et al (2017) Evaluating the variability and trends in extreme climate events in the Kashmir Valley using PRECIS RCM simulations. Model Earth Syst Environ 3(4):1647–1662
Ives JD, Shrestha RB, Mool PK (2010) Formation of glacial lakes in the Hindu Kush-Himalayas and GLOF risk assessment. ICIMOD; May, Kathmandu
Joy J, Shruti K, Singh SK (2019) Kerala flood 2018: flood mapping by participatory GIS approach, Meloor Panchayat. Int J Emerg Techn 10(1):197–205
Kanga S, Singh SK (2017b) Forest fire simulation modeling using remote sensing & GIS. Int J Adv Res Comput Sci 8(5)
Kanga S et al (2020) Modeling the spatial pattern of sediment flow in lower Hugli Estuary, West Bengal, India by quantifying suspended sediment concentration (SSC) and depth conditions using geoinformatics. Appl Comput Geosci 100043
Kanga S, Kumar S, Singh SK (2017a) Climate induced variation in forest fire using remote sensing and GIS in Bilaspur District of Himachal Pradesh. Int J Eng Comput Sci 6(6):21695–21702
Kaushik S, Rafiq M, Joshi PK, Singh T (2020) Examining the glacial lake dynamics in a warming climate and GLOF modelling in parts of Chandra basin, Himachal Pradesh, India. Sci Total Environ 714:136455
Lawrence WR (1895) The valley of Kashmir. Asian Educational Services, New Delhi
Li X, Cheng G, Jin H, Kang E, Che T, Jin R, Wu L, Nan Z, Wang J, Shen Y (2008) Cryospheric change in China. Global Planet Change 1, 62(3–4):210–218
Meraj G, Romshoo SA, Yousuf AR, Altaf S, Altaf F (2015) Assessing the influence of watershed characteristics on the flood vulnerability of Jhelum basin in Kashmir Himalaya: reply to comment by Shah 2015. Nat Hazards 78(1):1–5
Meraj G et al (2015a) Assessing the influence of watershed characteristics on the flood vulnerability of Jhelum basin in Kashmir Himalaya. Nat Hazards 77.1:153–175
Meraj G, Romshoo SA, Altaf S (2016) Inferring land surface processes from watershed characterization. Geostatistical and geospatial approaches for the characterization of natural resources in the environment. Springer, Cham, 741–744
Mishra A, Liu SC (2014) Changes in precipitation pattern and risk of drought over India in the context of global warming. J Geophys Res Atmos 119(13):7833–7841
Mishra A, Rafiq M (2017) Towards combining GPM and MFG observations to monitor near real time heavy precipitation at fine scale over India and nearby oceanic regions. Dyn Atmos Oceans 80:62–74
Mishra AK (2015) A study on the occurrence of flood events over Jammu and Kashmir during September 2014 using satellite remote sensing. Nat Hazards 78(2):1463–1467
Mishra AK, Rafiq M (2017) Analyzing snowfall variability over two locations in Kashmir, India in the context of warming climate. Dyn Atmos Oceans 1(79):1–9
Meraj G, Romshoo SA, Altaf S (2016) Inferring land surface processes from watershed characterization. In: Geostatistical and geospatial approaches for the characterization of natural resources in the environment. Springer, Cham, pp 741–744
O’Gorman PA (2012) Sensitivity of tropical precipitation extremes to climate change. Nat Geosci 5(10):697–700
Pall IA, Meraj G, Romshoo SA (2019) Applying integrated remote sensing and field-based approach to map glacial landform features of the Machoi Glacier valley. NW Himalaya. SN Appl Sci 1(5):1–11
Parshad R, Kumar P, Srivastva PK (2019) Seismically induced snow avalanches at Nubra-Shyok region of Western Himalaya. India. Nat Hazards 99(2):843–855
Rafiq M, Mishra A (2016) Investigating changes in Himalayan glacier in warming environment: a case study of Kolahoi glacier. Environ Earth Sci 75(23):1–9
Rafiq M, Mishra AK (2018) A study of heavy snowfall in Kashmir, India in January 2017. Weather 73(1):15–17
Rafiq M, Mishra AK, Meer MS (2018) On land-use and land-cover changes over Lidder Valley in changing environment. Ann GIS 24(4):275–285
Rafiq M, Rashid I, Romshoo SA (2014) Estimation and validation of remotely sensed land surface temperature in Kashmir valley. J Himalayan Ecol Sustain Dev 9:1–3
Rafiq M, Rashid I, Romshoo SA (2016) Estimating land surface temperature and its lapse rate over Kashmir Valley Using MODIS Data. In: Geostatistical and geospatial approaches for the characterization of natural resources in the environment. Springer, Cham, pp 723–728
Rafiq M, Romshoo SA, Mishra AK, Jalal F (2019) Modelling Chorabari Lake outburst flood, Kedarnath, India. J Mountain Sci 1;16(1):64–76
Rafiq M, Javid P, Kesarkar AP, Lotus S (2021) A Study of extreme snowfall during 2019 and 2020 across the Kashmir Himalaya. Weather 76. https://doi.org/10.1002/wea.3938
Rasmussen KL, Houze RA (2012) A flash-flooding storm at the steep edge of high terrain: disaster in the Himalayas. Bull Am Meteor Soc 93(11):1713–1724
Romshoo SA, Dar RA, Rashid I, Marazi A, Ali N, Zaz SN (2015) Implications of shrinking cryosphere under changing climate on the stream flows in the Lidder catchment in the Upper Indus Basin, India. Arct Antarct Alp Res 47(4):627–644
Romshoo SA, Rafiq M, Rashid I (2018) Spatio-temporal variation of land surface temperature and temperature lapse rate over mountainous Kashmir Himalaya. J Mt Sci 15(3):563–576
Romshoo SA, Fayaz M, Meraj G, Bahuguna IM (2020) Satellite-observed glacier recession in the Kashmir Himalaya, India, from 1980 to 2018. Environ Monit Assess 192(9):1–17
Ruiz-Villanueva V, Allen S, Arora M, Goel NK, Stoffel M (2017) Recent catastrophic landslide lake outburst floods in the Himalayan mountain range. Prog Phys Geogr 41(1):3–28
Trenberth KE, Dai A, Rasmussen RM, Parsons DB (2003) The changing character of precipitation. Bull Am Meteor Soc 84(9):1205–1218
Villarini G, Smith JA, Vecchi GA (2013) Changing frequency of heavy rainfall over the central United States. J Clim 26(1):351–357
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Rafiq, M., Meraj, G., Kesarkar, A. ., Farooq, M., Singh, S.K., Kanga, S. (2022). Hazard Mitigation and Climate Change in the Himalayas–Policy and Decision Making. In: Kanga, S., Meraj, G., Farooq, M., Singh, S.K., Nathawat, M.S. (eds) Disaster Management in the Complex Himalayan Terrains . Geography of the Physical Environment. Springer, Cham. https://doi.org/10.1007/978-3-030-89308-8_12
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