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Dendrogeomorphic Potential of the Himalaya – Case Studies of Process Dating of Natural Hazards in Kullu Valley, Himachal Pradesh


Affiliations
1 Birbal Sahni Institute of Palaeosciences, 53 University Road, Lucknow 226 007, India
2 Climatic Change Impacts and Risks in the Anthropocene (C-C1A), Institute for Environmental Sciences, University of Geneva, 66 Bvd Carl-Vogt CH-1205 Geneva, Switzerland
 

Trees impacted by the forces of natural processes such as flash floods, snow avalanches, landslides, rockfalls or earthquakes, record these events and exhibit growth disturbances in their growth-ring series. As a consequence, these disturbances provide an excellent signal for the spatio-temporal reconstruction of past natural hazard activity and a means to date and document past disasters. In the context of the Indian Himalayas Climate Change Adaptation Programme (IHCAP; http://www.ihcap.in/), a field trip was carried out in May 2014 to define suitable sites for dendrogeomorphic research in Kullu valley, Himachal Pradesh. Several tree species and sites where recent and past process activity can be reconstructed were inventoried, namely flash floods in the Beas and Sainj rivers as well as snow avalanches in Solang valley. Through this exploratory analysis, we ascertain that tree-ring techniques have wide applicability in the analysis of natural hazards, not only in the Kullu region but also in other geographical contexts of the Himalayas.

Keywords

Dendrogeomorphology, Flash Flood, Himachal Pradesh, Snow Avalanche, Tree-Ring.
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  • Annex, I., Managing the risks of extreme events and disasters to advance climate change adaptation. Sciences, 2012, 10, 97–104.

  • IPCC, Managing the Risks of Extreme Events and Disasters to Advance Climate Change Adaptation. A Special Report of Working Groups I and II of the Intergovernmental Panel on Climate Change (eds Field, C. B. et al.), Cambridge University Press, Cambridge, UK, and New York, USA, 2012, p. 582.

  • Singh, D. S., Surface processes during flash floods in the glaciated terrain of Kedarnath, Garhwal Himalaya and their role in the modification of landforms. Curr. Sci., 2014, 106(4), 59.

  • Allen, S. K., Rastner, P., Arora, M., Huggel, C. and Stoffel, M., Lake outburst and debris flow disaster at Kedarnath, June 2013: hydro-meteorological triggering, and topographic predisposition. Landslides (in press).

  • Richardson, S. D. and Reynolds, J. M., An overview of glacial hazards in the Himalayas. Quat. Int., 2000, 65, 31–47.

  • Gardner, J., Natural hazard risk in the Kullu district, Himachal Pradesh, India. Geogr. Rev., 2002, 92(2), 282–306.

  • Brazdil, R., Kundzewicz, Z. W. and Benito, G., Historical hydrology for studying flood risk in Europe. Hydrol. Sci. J., 2006, 51, 739–764.

  • Stoffel, M., Butler, D. R. and Corona, C., Mass movements and tree ring: a guide to dendrogeomorphic field sampling and dating. Geomorphology, 2013, 200, 106–120.

  • Stoffel, M. and Corona, C., Dendroecological dating of geomorphic disturbance in trees. Tree-Ring Res., 2014, 70, 3–20.

  • Worni, R., Huggel, C. and Stoffel, M., Glacier lakes in the Indian Himalayas – glacier lake inventory, on-site assessment and modeling of critical glacier lakes. Sci. Total Environ., 2013, 468–469, S71–S84.

  • Worni, R., Huggel, C., Clague, J. J., Schaub, Y. and Stoffel, M., Coupling glacial lake impact, dam breach, and flood processes: a modeling perspective. Geomorphology, 2014, 224, 161–176.

  • Mayer, B., Stoffel, M., Bollschweiler, M., Hubl, J. and Rudolf-Miklau, F., Frequency and spread of debris floods on fans: a dendrogeomorphic case study from a dolomite catchment in the Austrian Alps. Geomorphology, 2010, 118(1), 199–206.

  • Fritts, H. C., Tree Rings and Climate, Academic Press, London, 1976, p. 567.

  • Stoffel, M. and Bollschweiler, M., What tree rings can tell about earth-surface processes. Teaching the principles of dendrogeomorphology. Geogr. Compass, 2009, 3, 1013–1037.

  • Stoffel, M. and Bollschweiler, M., Tree-ring analysis in natural hazards research – an overview. Nat. Hazard Earth Syst. Sci., 2008, 8, 187–202.

  • Stoffel, M., Bollschweiler, M., Butler, D. R. and Luckman, B. H., Tree rings and natural hazards: A state-of-the-art. Springer, Heidelberg, Berlin, New York, 2010, p. 505.

  • Alestalo, J., Dendrochronological interpretation of geomorphic processes, Fennia, 1971, 105, 1–140.

  • Ballesteros, J. A., Eguibar, M., Bodoque, J. M., Díez, A., Stoffel, M. and Gutiérrez, I., Estimating flash flood discharge in an ungauged mountain catchment with 2D hydraulic models and dendrogeomorphic paleostage indicators. Hydrol. Process., 2011, 25, 970–979.

  • Shroder, J. F., Dendrogeomorphological analysis of mass movement on Table Cliffs Plateau, Utah. Quaternary Res., 1978, 9, 168–185.

  • Shroder, J. F., Dendrogeomorphology: review and new techniques of tree-ring dating. Prog. Phys. Geogr., 1980, 4, 161–188.

  • Stoffel, M., Butler, D. R. and Corona, C., Mass movements and tree rings: A guide to dendrogeomorphic field sampling and dating. Geomorphology, 2013, 200, 106–120.

  • Shroder, J. F. and Bishop, M. P., Geobotanical assessment in the Great Plains, Rocky Mountains and Himalaya. Geomorphology, 1995, 13, 101–119.

  • Smith, D. J., McCarthy, D. P. and Luckman, B. H., Snowavalanche impact pools in the Canadian Rocky Mountains. Arct. Antarct. Alp. Res., 1994, 26, 116–127.

  • Stoffel, M., Spatio-temporal analysis of rockfall activity into forests – results from tree-ring and tree analysis. Ph D thesis. Department of Geosciences, Geography, University of Fribourg. Geo Focus, 2005, vol. 12, pp. 1–188.

  • Trappmann, D., Corona, C. and Stoffel, M., Rolling stones and tree rings: a state of research on dendrogeomorphic reconstructions of rockfall. Prog. Phys. Geogr., 2013, 37(5), 701–716.

  • Bhattacharyya, A. and Yadav, R. R., Climatic reconstructions using tree-ring data from tropical and temperate regions of India – a review. IAWA J., 1999, 20(3), 311–316.

  • Bhattacharyya, A. and Shah, S. K., Tree-rings studies in India past appraisal, present status and future prospects. IAWA J., 2009, 30(4), 361–370.

  • Laxton, S. C. and Smith, D. J., Dendrochronological reconstruction of snow avalanche activity in the Lahul Himalaya, Northern India. Nat. Hazards, 2009, 49(3), 459–467.

  • Bhattacharyya, A. and Yadav R. R., Dendrochronological reconnaissance of Pinus wallichiana to study glacial behaviour in the western Himalaya. Curr. Sci., 1996. 70, 739–744.

  • Bhattacharyya, A., Chaudhary, V. and Gergan, J. T., Tree ring analysis of Abies pindrow around Dokriani Bamak (Glacier), western Himalayas, in relation to climate and glacial behaviour: Preliminary results. Palaeobot., 2001, 50, 71–75.

  • Borgaonkar, H. P., Ram, S. and Sikder, A. B., Assessment of treering analysis of high-elevation Cedrus deodara D. Don from Western Himalaya (India) in relation to climate and glacier fluctuations. Dendrochronologia, 2009, 27(1), 59–69.

  • Singh, J. and Yadav, R. R., Tree-ring indications of recent glacier fluctuations in Gangotri, Western Himalaya, India. Curr. Sci., 2000, 79(11), 1598–1601.

  • Bhattacharyya, A., Shah, S. K. and Chaudhary, V., Would tree ring data of Betula utilis be potential for the analysis of Himalayan glacial fluctuations? Curr. Sci., 2006, 91, 754–761.

  • Yadav, R. R. and Bhutiyani, M. R., Tree-ring-based snowfall record for cold arid western Himalaya, India since AD 1460. J. Geophys. Res. Atmos., 2013, 118, 7516–7522.

  • Jacoby, G. C., Application of tree ring analysis to paleoseismology. Rev. Geophys., 1997, 35(2), 109–124.

  • Bhattacharyya, A., Shah, S. K. and Chaudhary, V., Feasibility of tree-ring data in palaeoseismic dating in north-east Himalaya. J. Geol. Soc. India, 2008, 71, 419–423.

  • Yadav, R. R. and Bhattacharyya, A., Tree ring evidences of the 1991 earthquake of Uttarkashi, western Himalaya. Curr. Sci., 1994, 66, 862–864.

  • Osti, R., Egashira, S. and Adikari, Y., Prediction and assessment of multiple glacial lake outburst floods scenario in Pho Chu River basin, Bhutan. Hydrol. Process, 2013, 27(2), 262–274.

  • Gardner, J., Natural hazard risk in the Kullu district, Himachal Pradesh, India. Geogr. Rev., 2002, 92(2), 282–306.

  • Buhler, Y., Christen, M., Kowalski, J. and Bartelt, P., Sensitivity of snow avalanche simulations to digital elevation model quality and resolution. Ann. Glaciol., 2011, 52, 72–80.

  • Butler, D. R. and Sawyer, C. F., Dendrogeomorphology and high-magnitude snow avalanches: a review and case study. Nat. Hazards Earth Syst., 2008, 8(2), 303–309.

  • Stoffel, M. and Wilford, D. J., Hydrogeomorphic processes and vegetation: disturbance, process histories, dependencies and interactions. Earth Surf. Proc. Land., 2012, 37(1), 9–22.


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  • Dendrogeomorphic Potential of the Himalaya – Case Studies of Process Dating of Natural Hazards in Kullu Valley, Himachal Pradesh

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Authors

Amalava Bhattacharyya
Birbal Sahni Institute of Palaeosciences, 53 University Road, Lucknow 226 007, India
Markus Stoffel
Climatic Change Impacts and Risks in the Anthropocene (C-C1A), Institute for Environmental Sciences, University of Geneva, 66 Bvd Carl-Vogt CH-1205 Geneva, Switzerland
Mayank Shekhar
Birbal Sahni Institute of Palaeosciences, 53 University Road, Lucknow 226 007, India
Juan Antonio Ballesteros Canovas
Climatic Change Impacts and Risks in the Anthropocene (C-C1A), Institute for Environmental Sciences, University of Geneva, 66 Bvd Carl-Vogt CH-1205 Geneva, Switzerland
Daniel Trappmann
Climatic Change Impacts and Risks in the Anthropocene (C-C1A), Institute for Environmental Sciences, University of Geneva, 66 Bvd Carl-Vogt CH-1205 Geneva, Switzerland

Abstract


Trees impacted by the forces of natural processes such as flash floods, snow avalanches, landslides, rockfalls or earthquakes, record these events and exhibit growth disturbances in their growth-ring series. As a consequence, these disturbances provide an excellent signal for the spatio-temporal reconstruction of past natural hazard activity and a means to date and document past disasters. In the context of the Indian Himalayas Climate Change Adaptation Programme (IHCAP; http://www.ihcap.in/), a field trip was carried out in May 2014 to define suitable sites for dendrogeomorphic research in Kullu valley, Himachal Pradesh. Several tree species and sites where recent and past process activity can be reconstructed were inventoried, namely flash floods in the Beas and Sainj rivers as well as snow avalanches in Solang valley. Through this exploratory analysis, we ascertain that tree-ring techniques have wide applicability in the analysis of natural hazards, not only in the Kullu region but also in other geographical contexts of the Himalayas.

Keywords


Dendrogeomorphology, Flash Flood, Himachal Pradesh, Snow Avalanche, Tree-Ring.

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DOI: https://doi.org/10.18520/cs%2Fv113%2Fi12%2F2317-2324