A Critical Analysis of Possible Natural Disasters in the Himalayan Region and a Detailed Study of the Consequences Thereof

Authors

  • Harikumar Pallathadka Manipur International University, Imphal, Manipur, INDIA.
  • Laxmi Kirana Pallathadka Manipur International University, Imphal, Manipur, INDIA.

DOI:

https://doi.org/10.55544/ijrah.2.6.25

Keywords:

Himalaya Mountainous, mountainous range, Temperature revolution, Uttarakhand, weather hazards, devastating natural, temperature ranges

Abstract

The Himalayan Mountainous region is the world's newest, fastest, and most enormous crumpled mountainous range. It is highly volatile because of the continuous geological process. The entire Himalayas range has been responding to devastating natural hazards, which reflects its fragility and susceptibility. The temperature ranges from low-lying hills and mountains to high-altitude, continuously snow-capped mountainous ranges. According to studies, the temperature revolution had a profound effect on the Mountains, and as a result, weather patterns and disasters have changed substantially. The Mountainous terrain's high frequency magnifies weather hazards, bringing everyone else in the area at risk.

Humans are no strangers to disasters. Since the beginning of civilization, they have been persistent, though unpleasant, companions of humans, leaving trails of rage and disaster of incredible magnitude.

Uttarakhand is susceptible to disasters, glaciers, river flooding, forest fires, cloudbursts, and land degradation, among other disasters.

Downloads

Download data is not yet available.

Metrics

Metrics Loading ...

References

Alcantara-Ayala, I. (2004). Hazard assessment of rainfall-induced land sliding in Mexico. Geomorphology, 61(1-2), 19-40.

Alcantara-Ayala, I., & Goudie, A. (2011). Geomorphological Hazards and Disaster Prevention. The Geographical Journal, 177(3).

Ariyabandu, M. M., & Wickramasinghe, M. (2003). Gender dimensions in disaster management. Colombo: ITDG South Asia Publication.

Babu KV, S., Roy, A., & Prasad, P. R. (2016). Forest fire risk modeling in Uttarakhand Himalaya using TERRA satellite datasets. European Journal of Remote Sensing, 49(1), 381-395.

Bajpai, A., Wadhwa, N., & Mahna, V. (2014). E Yong, C. (2000). Natural Hazards Internal and External Processes. Encyclopedia of Life Support Systems, 1.

Bhandari, B. S., Mehta, J. P., &Semwal, R. L. (2012). Forest Fire in Uttarakhand Himalaya: An Overview. Glimpses of Forestry Research in the Indian Himalayan Region. GB Pant Institute of Himalayan Environment & Development, Almora, 167-176.

Cannon, T. (1994). Vulnerability Analysis and the Explanation of 'Natural' Disasters. In A. Varley, Disasters, Development and Environment (1st ed., pp. 13–30). London: John Wiley & Sons Ltd.

Carreño, M. L., Cardona, O. D., &Barbat, A. H. (2007). A disaster risk management performance index. Natural Hazards, 41(1), 1-20.

Carter, W. N. (2008). Disaster management: A disaster manager's handbook.

Chakrabarti, P. (2017). Managing Risk of Disasters for Sustainable Development. Yojana. (61) 11.

Coppola, D. P. (2006). Introduction to international disaster management. Elsevier.

Cutter, S. L., Boruff, B. J., & Shirley, W. L. (2003). Social vulnerability to environmental hazards. Social science quarterly, 84(2), 242–261.

Cutter, S. L., Burton, C. G., &Emrich, C. T. (2010). Disaster resilience indicators for benchmarking baseline conditions. Journal of Homeland Security and Emergency Management, 7(1).

Al-Nofai, H (2010). 'Estimating Runoff and Flood Hazards in the Upper Basin of Oranah Valley,' East Makkah, through Remote Sensing and Geographic Information Systems, Doctoral dissertation, MSC Thesis, Umm Al-Qura University, Makkah.

Alsop, Ruth (Ed.) 2000, Coalitions of Interest: Partnerships for Processes of Agricultural Change, Sage Publications, New Delhi.

Amr, I, & Ibrahim, H 2003, 'Retrofitting of RC elements using locally available bi-directional Polypropylene fiber from wheat flour sacs,' 2nd International workshop on structural composites, pp. 1-12.

Anwar, N, Aung, TH & Najam, FA 2016, 'Smart systems for structural response control—An overview,' 5th ASEP convention on concrete engineering practice and technology—a concept, Manila, Philippines.

Barrett, SW & Arno, S (1982). 'India Fires as an Ecological Influence in the Northern Rockies,' Journal of Forestry, vol. 80, no.1, pp. 647–651.

Chajlani, J, Kushvaha, S & Hussain, A 2015, 'Analysis of repairs and rehabilitation of RCC Structures', International Journal of Engineering Associates, vol. 4, no. 8, pp- 47–49.

Chandana, SAS, Jayasiri, GP & Hettiarachchi, SSL 2018, 'Investigation of efficiency and effectiveness of the existing disaster management frameworks in Sri Lanka,' Procedia Engineering, vol. 212, pp. 1091-1098.

Chen, HC &Fatemeh, MZ 2013, 'International Journal of Business Continuity and Risk Management, vol. 4, no. 1, pp. 75 – 91.

Chetan, JC &Yogesh NS 2018, 'Study on Causes and Prevention of Cracks in Building,' International Journal for Research in Applied Science & Engineering Technology (IJRASET), vol. 6, no. 3, pp. 453-461.

Ciurean, RL, Schröter, D & Glade, T (2013). 'Conceptual frameworks of vulnerability assessments for natural disasters reduction,' In Approaches to disaster management-Examining the implications of hazards, emergencies, and disasters. IntechOpen.

Aarti, P.G.H. (2001). Guidelines for Programmes: Psychosocial and Mental Health Care Assistance in Post-Disaster and Conflict Areas. Utrecht, The Netherlands: International Centre, Netherlands Institute for Care and Welfare.

Acharya, L., Upadhya, K D., & Kortmann, F. (2006). 'Mental health and psychosocial aspects of disaster preparedness: Nepal.' International Review of Psychiatry, 18 (6), 587–592.

Zamani, A. S., Anand, L., Rane, K. P., Prabhu, P., Mateen Buttar, A., Pallathadka, H., Raghuvanshi, A., & Dugbakie, B. N. (2022). Performance of Machine Learning and Image Processing in Plant Leaf Disease Detection. Journal of Food Quality, 2022(1598796). https://doi.org/10.1155/2022/1598796

Patra, I., Hashim Alghazali, T. A., Sokolova, E. G., Prasad, K. D. v., Pallathadka, H., Hussein, R. A., Shanan, A. J., & Ghaneiarani, S. (2022). Scrutinizing the Effects of e-Learning on Enhancing EFL Learners’ Reading Comprehension and Reading Motivation. Education Research International, 2022, 1–11. https://doi.org/10.1155/2022/4481453

Pallathadka, H., Xie, S., Alikulov, S., Sadruldeen Al-Qubbanchi, H., Hamoud Alshahrani, S., Yunting, Z., & Kargar Behbahani, H. (2022). Word Recognition and Fluency Activities’ Effects on Reading Comprehension: An Iranian EFL Learners’ Experience. Education Research International, 2022, 1–10. https://doi.org/10.1155/2022/4870251

Ahmed, A. A. A., Hassan, I., Pallathadka, H., Keezhatta, M. S., Haryadi, R. N., al Mashhadani, Z. I., Attwan, L. Y., & Rohi, A. (2022). MALL and EFL Learners’ Speaking: Impacts of Duolingo and WhatsApp Applications on Speaking Accuracy and Fluency. Education Research International, Article ID 6716474. https://doi.org/10.1155/2022/6716474

Sriram, V. P., Raj, K. B., Srinivas, K., Pallathadka, H., Sajja, G. S., & Gulati, K. (2021). An Extensive Systematic Review of RFID Technology Role in Supply Chain Management. 2021 IEEE 6th International Conference on Signal Processing, Computing and Control (ISPCC), 789–794. https://doi.org/10.1109/ISPCC53510.2021.9609414

Pallathadka, H. (2020). The Impact Of Excessive Tourism In Mount Everest. European Journal of Molecular & Clinical Medicine, 07(11), 8980–8983.

Pallathadka, H., Sajjar, G. S., Phasinam, K., Ritonga, M., Naved, M., Bansal, R., & Quinonez-Chodquecota, J. (2021). An investigation of various applications and related challenges in cloud computing. Materials Today: Proceedings, xxxx. https://doi.org/10.1016/j.matpr.2021.11.383

Pallathadka, A., Sauer, J., Chang, H., & Grimm, N. B. (2022). Urban flood risk and green infrastructure: Who is exposed to risk and who benefits from investment? A case study of three US Cities. Landscape and Urban Planning, 223, 104417.

Pallathadka, A. K., Chang, H., & Ajibade, I. (2021). The spatial patterns of Pluvial flood risk, blue-green infrastructure, and social vulnerability: A case study from two Alaskan Cities. International Journal of Geospatial and Environmental Research, 8(3), 2.

Pallathadka, A. K., Chang, H., & Han, D. (2022). What explains spatial variations of COVID-19 vaccine hesitancy?: A social-ecological-technological systems approach. Environmental Research: Health.

Pallathadka, A., Pallathadka, L., Rao, S., Chang, H., & Van Dommelen, D. (2021). Using GIS-based spatial analysis to determine urban greenspace accessibility for different racial groups in the backdrop of COVID-19: a case study of four US cities. GeoJournal, 1-21.

Pallathadka, H. (2020). A Survey Of Undergraduate Students On Online Learning During Covid-19 Pandemic In The Indian State Of Manipur. European Journal of Molecular & Clinical Medicine, 07(08), 5914–5927.

Downloads

Published

2022-11-30

How to Cite

Pallathadka, H., & Pallathadka, L. K. (2022). A Critical Analysis of Possible Natural Disasters in the Himalayan Region and a Detailed Study of the Consequences Thereof. Integrated Journal for Research in Arts and Humanities, 2(6), 187–194. https://doi.org/10.55544/ijrah.2.6.25

Most read articles by the same author(s)

<< < 1 2 3 4 > >>