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Cloudbursts Strike over Foothills Himalaya of Uttarakhand, India: A Case Study from Maldeota, Dehradun District

Year 2024, Volume: 5 Issue: 1, 30 - 45, 30.06.2024
https://doi.org/10.52114/apjhad.1434612

Abstract

The present study highlights the cloudburst issues that occurred in Raipur area of Dehradun City. On the night of August 20, 2022, the Raipur area of Uttarakhand state capital Dehradun was lashed by excessive rainfall or cloudbursts resulting in the water level of sub-watersheds of the Song River rising enormously, particularly Bandal Nadi and Song river. Bhaiswar and Sarkhet villages came in limelight which are situated on the Bandal valley due to loss of human lives and property. 5 people were killed while 3 people were injured and 24 animals lost whereas about 8.25 ha of agricultural fields were damaged and 12 families became homeless in these incidences. The transport connectivity of the Sarkhet and adjoining areas was disrupted due to washing off the road in several places. A detailed investigation was carried out in the affected areas to ascertain the causes and impacts of the disaster and the feasibility of rehabilitation land. Geologically, the devastated area is observed to be fragile due to its proximity to Main Boundary Thrust (MBT) and subsequent Fault as also lies to the Eastern fringe of the Mussoorie Syncline. It was also observed that untraditionally ways of habitation patterns in the region and economic opportunities due to increasing tourist inflow in the area are responsible for the enhanced devastating potential of disaster. This work mainly concentrates on future risk and suggestions for future risk mitigation within the area.

References

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  • [12] Khanduri, S., Sajwan, K.S., Rawat, A., Dhyani, C., & Kapoor S. (2018). Disaster in Rudraprayag District of Uttarakhand Himalaya: A Special Emphasis on Geomorphic Changes and Slope Instability. Journal of Geography and Natural Disaster, 8(1), 1-9.
  • [13] Dikshit, A., Sarkar, R., Pradhan, B., Segoni, S., & Alamri, A. M. (2020). Rainfall induced landslides studies in Indian Himalayan region: A Critical review, Applied Sciences, 10, 2466, 1-24.
  • [14] Kansal, M.L., & Singh, S. (2022). Flood Management Issues in hilly region of Uttarakhand (India) under changing climate conditions. Water, 14, 1879, 1-24.
  • [15] Mandal, P., Prathigadapa, R., Srinivas, D., Saha, S., & Saha G. (2023). Evidence of structural segmentation of the Uttarakhand Himalaya and its implications for earthquake hazard. Scientific reports, 13, 2079, 1- 15.
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  • [18] Khanduri, S. (2022). Disastrous events of 2021 in Uttarakhand Province of India: Causes, Consequences and Suggestions for Disaster Risk Reduction (DRR). International Journal of Earth Sciences Knowledge and Applications, 4(2), 178-188.
  • [19] Khanduri, S. (2022). Rain-induced Slope instability: Case study of Monsoon 2020 affected Villages in Pithoragarh District of Uttarakhand, India. International Journal of Earth Sciences Knowledge and Applications, 4(1), 1-18.
  • [20] Khanduri, S. (2021). Formation and failure of natural dams in Uttarakhand Himalaya: An observation from Lwarkha, Chamba Tehsil of Tehri Garhwal district, India. International Journal of Earth Sciences Knowledge and Applications, 3(1), 12-22.
  • [21] Khanduri, S. (2021). Flash flood struck Dhauliganga valley on February 7, 2021: A Case study of Chamoli district of Uttarakhand Himalaya in India. Academic Platform Journal of Natural Hazards and Disaster Management, 2(1), 1-15.
  • [22] Khanduri, S., Saklani, R. D., & Chetry, B. M. (2023). Increasing risk of silent disaster in Uttarakhand Himalaya: An example from Higher Himalaya. Journal of Disaster and Risk, 6(3), 870-889.
  • [23] Sundriyal, Y., Kumar, V., Chauhan, N., Kaushik, S., Ranjan, R., & Punia, M.K. (2023). Brief communication: The northwest Himalaya towns slipping towards potential disaster. Natural Hazards and Earth System Science, 23, 1425–1431.
  • [24] Bahuguna, H., Kaistha, M. K., Singh, B., Das, S., Ahmad, T., & Rana, H. (2023). Preliminary Report on the Recent Event of Ground Subsidence at Joshimath, District Chamoli, Uttarakhand. Geological Survey of India, Government of India, 52.
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  • [27] Singh, A. K., Parkash B., Mohindra R., Thomas J. V., & Singvi, A. K. (2001). Quaternary alluvial fan sedimentation in the Dehradun Valley Piggyback Basin, NW-Himalaya.
  • [28] Valdiya, K. S. (1980). Geology of the Kumaun Lesser Himalaya. Wadia Institute of Himalayan Geology, Dehra Dun, India. 249.
  • [29] Thakur, V.C., Pandey, A.K., & Suresh, N. (2007). Late Quaternary–Holocene evolution of dun structure and the Himalayan Frontal fault zone of the Garhwal sub-Himalaya, NW India. Journal of Asian Earth Sciences, 29(2), 305-319.
  • [30] Gansser, A. (1964). Geology of the Himalayas. Interscience Publications. Wiley, London, New York, 298.
  • [31] Parkash, B., Sharma, R., & Roy, A. K. (1980). The Siwalik Group (Molasse) sedimentation shed by collision of continental plates. Sedimentary Geology, 25, 127-159.
  • [32] Singh, A. K., Parkash B., Mohindra R., Thomas J. V., & Singhvi, A. K. (2001). Quaternary alluvial fan sedimentation in the Dehradun Valley Piggyback Basin, NW-Himalaya. Basin Research, 13(4), 449-471.
  • [33] Nossin, J. J. (1971). Outline of the geomorphology of the Doon valley, northern U.P., India. Z. Geomorph. N.F. Suppl. Bd. 12. Berlin. Stuttgart, 18-50.
  • [34] Nakata, T. (1972). Geomorphic history and crustal movement of the foothills of the Himalaya. Scientific report, Tohoku University Japan, 7th Series (Geography), 22, 39-177.
  • [35] Rupke, N.A. (1975). Deposition of fine-grained sediments in the abyssal environment of the Algero-Balearic Basin, Western Mediterranean Sea.Sedimentology 22, 95–109.
  • [36] Philip, G. (1995). Active tectonics in Doon valley. Journal of Himalayan Geology, 6, 55-61.
  • [37] Pankaj, A. & Kumar, P. (2009). GIS-based Morphometric analysis of five major sub-waters of Song River, Dehradun District, Uttarakhand with Special reference to landslide incidences. J. Indian Soc. Remote Sens., 37, 157-166.
  • [38] Sain, K., Mehta, M., Kumar, V., Gupta, V. & Chauhan, P. (2023). A climate surdprise- Slope instability triggered by heavy rain in Maldevta region, Dehradun, Uttarakhand, on 20 August, 2022. Journal of Geological Society of India, 99, 317-320.
  • [39] Gupta V., Dobhal, D. P. & Vaideswaran, S. C. (2013). August 2012 cloudburst and subsequent flash flood in the Asi Ganga, a tributary of the Bhagirathi River, Garhwal Himalaya, India. Current Science, 105(2), 249-253.
  • [40] htpp://wmo.int/activities/flash-flood-guidance-system-global-coverage-ffgs
Year 2024, Volume: 5 Issue: 1, 30 - 45, 30.06.2024
https://doi.org/10.52114/apjhad.1434612

Abstract

References

  • [1] Furtak, K., & Wolinska, A. (2023). The impact of extreme events as a consequence of climate change on the Soil moisture and on the quality of the soil environment and agriculture- A review. Catena, 231, 1-15.
  • [2] Sati, V.P., & Kumar, S. (2022). Environmental and economic impact of cloudburst-triggered debris flows and flash floods in Uttarakhand Himalaya: a case study. Geoenvironmental Disasters, 9(5), 1-11.
  • [3] Vijaykumar, P., Abhilash, S., Sreenath, A.V., Athira, U.N., Mohanakumar K., Mapes, B.E., Chakrapani, B., Sahai, A.K., Niyas, T.N., & Sreejith, O.P. (2021). Kerala floods in consecutive years - Its association with mesoscale cloudburst and structural changes in monsoon clouds over the west coast of India. Weather and Climate Extremes, 33, 1-14.
  • [4] Wang, X.J., Zhang, J.Y., Shahid, S., Guan, E.H., Wu, Y.X., Gao, J., & He, R.M. (2014). Adaptation to climate change impacts on water demand. Mitig. Adapt. Strat. G. L. https://doi.org/10.1007/s11027-014-9571-6.
  • [5] Li, Z., Gao, S., Chen, M., Gourley, J. J., Liu, C., Prein, A. F. & Hong, Y. (2022). The conterminous United States are projected to become more prone to flash floods in a high-end emissions scenario. Communications earth and environment, 86(3), 1-9.
  • [6] Yang, Q., Liu, T., Zhai, J. & Wang, X. (2021). Numerical Investigation of a Flash flood process that occurred in Zhongdu river, Sichuan, China. Frontiers in Earth Science, 9, 1-11.
  • [7] Ceribasi, G., & Ceyhunlu, A. I. (2021). Generation of 1D and 2D flood maps of Sakarya river passing through Geyve district of Sakarya city in Turkey. Natural Hazards, 105, 631-642.
  • [8] Abdelkareem, M., & Mansour, A. M. (2023). Risk assessment and management of vulnerable areas to flash flood hazards in arid regions using remote sensing and GIS-based knowledge-driven techniques. Natural Hazards, 117(3), 2269-2295.
  • [9] Umut, E. R. O. L., Kizmaz, Y., Özden, A., & Ceyhunlu, A. I. (2022). Evaluation of the Transportation Infrastructure Vulnerability in Kaynarca, Sakarya Basin from a Flood Spread Risk Perspective. Academic Platform Journal of Natural Hazards and Disaster Management, 3(1), 20-31.
  • [10] Asthana, A.K.L., & Asthana, H. (2014). Geomorphic Control of Cloud Bursts and Flash floods in Himalaya with Special Reference to Kedarnath Area of Uttarakhand, India. International Journal of Advancement in Earth and Environmental Sciences, 2(1), 16- 24.
  • [11] Khanduri, S. (2018). Landslide Distribution and Damages during 2013 Deluge: A Case Study of Chamoli District, Uttarakhand. Journal of Geography and Natural Disaster, 8(2), 1-10.
  • [12] Khanduri, S., Sajwan, K.S., Rawat, A., Dhyani, C., & Kapoor S. (2018). Disaster in Rudraprayag District of Uttarakhand Himalaya: A Special Emphasis on Geomorphic Changes and Slope Instability. Journal of Geography and Natural Disaster, 8(1), 1-9.
  • [13] Dikshit, A., Sarkar, R., Pradhan, B., Segoni, S., & Alamri, A. M. (2020). Rainfall induced landslides studies in Indian Himalayan region: A Critical review, Applied Sciences, 10, 2466, 1-24.
  • [14] Kansal, M.L., & Singh, S. (2022). Flood Management Issues in hilly region of Uttarakhand (India) under changing climate conditions. Water, 14, 1879, 1-24.
  • [15] Mandal, P., Prathigadapa, R., Srinivas, D., Saha, S., & Saha G. (2023). Evidence of structural segmentation of the Uttarakhand Himalaya and its implications for earthquake hazard. Scientific reports, 13, 2079, 1- 15.
  • [16] Siddique, T., Haris, P. M., & Pradhan, S. P. (2022). Unraveling the geological and meteorological interplay during the 2021 Chamoli disaster, India. Natural Hazards Research, 2, 75–83.
  • [17] Khanduri, S. (2020). Cloudbursts over Indian Sub-continent of Uttarakhand Himalaya: A Traditional Habitation Input from Bansoli, District- Chamoli, India. International Journal of Earth Sciences Knowledge and Applications, 2(2), 48-63.
  • [18] Khanduri, S. (2022). Disastrous events of 2021 in Uttarakhand Province of India: Causes, Consequences and Suggestions for Disaster Risk Reduction (DRR). International Journal of Earth Sciences Knowledge and Applications, 4(2), 178-188.
  • [19] Khanduri, S. (2022). Rain-induced Slope instability: Case study of Monsoon 2020 affected Villages in Pithoragarh District of Uttarakhand, India. International Journal of Earth Sciences Knowledge and Applications, 4(1), 1-18.
  • [20] Khanduri, S. (2021). Formation and failure of natural dams in Uttarakhand Himalaya: An observation from Lwarkha, Chamba Tehsil of Tehri Garhwal district, India. International Journal of Earth Sciences Knowledge and Applications, 3(1), 12-22.
  • [21] Khanduri, S. (2021). Flash flood struck Dhauliganga valley on February 7, 2021: A Case study of Chamoli district of Uttarakhand Himalaya in India. Academic Platform Journal of Natural Hazards and Disaster Management, 2(1), 1-15.
  • [22] Khanduri, S., Saklani, R. D., & Chetry, B. M. (2023). Increasing risk of silent disaster in Uttarakhand Himalaya: An example from Higher Himalaya. Journal of Disaster and Risk, 6(3), 870-889.
  • [23] Sundriyal, Y., Kumar, V., Chauhan, N., Kaushik, S., Ranjan, R., & Punia, M.K. (2023). Brief communication: The northwest Himalaya towns slipping towards potential disaster. Natural Hazards and Earth System Science, 23, 1425–1431.
  • [24] Bahuguna, H., Kaistha, M. K., Singh, B., Das, S., Ahmad, T., & Rana, H. (2023). Preliminary Report on the Recent Event of Ground Subsidence at Joshimath, District Chamoli, Uttarakhand. Geological Survey of India, Government of India, 52.
  • [25] Indian Standard (IS):1893, Part 1 (2002). Criteria for earthquake resistant design of structures, Bureau of Indian Standards, New Delhi.
  • [26] Auden, J.B. (1934). The geology of the Krol belt. Rec. Geol. Surv. India, 67, 357-454.
  • [27] Singh, A. K., Parkash B., Mohindra R., Thomas J. V., & Singvi, A. K. (2001). Quaternary alluvial fan sedimentation in the Dehradun Valley Piggyback Basin, NW-Himalaya.
  • [28] Valdiya, K. S. (1980). Geology of the Kumaun Lesser Himalaya. Wadia Institute of Himalayan Geology, Dehra Dun, India. 249.
  • [29] Thakur, V.C., Pandey, A.K., & Suresh, N. (2007). Late Quaternary–Holocene evolution of dun structure and the Himalayan Frontal fault zone of the Garhwal sub-Himalaya, NW India. Journal of Asian Earth Sciences, 29(2), 305-319.
  • [30] Gansser, A. (1964). Geology of the Himalayas. Interscience Publications. Wiley, London, New York, 298.
  • [31] Parkash, B., Sharma, R., & Roy, A. K. (1980). The Siwalik Group (Molasse) sedimentation shed by collision of continental plates. Sedimentary Geology, 25, 127-159.
  • [32] Singh, A. K., Parkash B., Mohindra R., Thomas J. V., & Singhvi, A. K. (2001). Quaternary alluvial fan sedimentation in the Dehradun Valley Piggyback Basin, NW-Himalaya. Basin Research, 13(4), 449-471.
  • [33] Nossin, J. J. (1971). Outline of the geomorphology of the Doon valley, northern U.P., India. Z. Geomorph. N.F. Suppl. Bd. 12. Berlin. Stuttgart, 18-50.
  • [34] Nakata, T. (1972). Geomorphic history and crustal movement of the foothills of the Himalaya. Scientific report, Tohoku University Japan, 7th Series (Geography), 22, 39-177.
  • [35] Rupke, N.A. (1975). Deposition of fine-grained sediments in the abyssal environment of the Algero-Balearic Basin, Western Mediterranean Sea.Sedimentology 22, 95–109.
  • [36] Philip, G. (1995). Active tectonics in Doon valley. Journal of Himalayan Geology, 6, 55-61.
  • [37] Pankaj, A. & Kumar, P. (2009). GIS-based Morphometric analysis of five major sub-waters of Song River, Dehradun District, Uttarakhand with Special reference to landslide incidences. J. Indian Soc. Remote Sens., 37, 157-166.
  • [38] Sain, K., Mehta, M., Kumar, V., Gupta, V. & Chauhan, P. (2023). A climate surdprise- Slope instability triggered by heavy rain in Maldevta region, Dehradun, Uttarakhand, on 20 August, 2022. Journal of Geological Society of India, 99, 317-320.
  • [39] Gupta V., Dobhal, D. P. & Vaideswaran, S. C. (2013). August 2012 cloudburst and subsequent flash flood in the Asi Ganga, a tributary of the Bhagirathi River, Garhwal Himalaya, India. Current Science, 105(2), 249-253.
  • [40] htpp://wmo.int/activities/flash-flood-guidance-system-global-coverage-ffgs
There are 40 citations in total.

Details

Primary Language English
Subjects Geological Sciences and Engineering (Other), Geology (Other)
Journal Section Research Articles
Authors

Sushil Khanduri 0000-0002-2787-8337

Publication Date June 30, 2024
Submission Date February 16, 2024
Acceptance Date June 11, 2024
Published in Issue Year 2024 Volume: 5 Issue: 1

Cite

IEEE S. Khanduri, “Cloudbursts Strike over Foothills Himalaya of Uttarakhand, India: A Case Study from Maldeota, Dehradun District”, APJHAD, vol. 5, no. 1, pp. 30–45, 2024, doi: 10.52114/apjhad.1434612.
Academic Platform Journal of Natural Hazards and Disaster Management (APJHAD)