Timing of exotic, far-traveled boulder emplacement and paleo-outburst flooding in the central Himalayas
<p>Large boulders, ca. 10 m in diameter or more, commonly linger in Himalayan river channels. In many cases, their lithology is consistent with source areas located more than 10 km upstream, suggesting long transport distances. The mechanisms and timing of “exotic” boulde...
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Copernicus Publications
2020-09-01
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| Series: | Earth Surface Dynamics |
| Online Access: | https://esurf.copernicus.org/articles/8/769/2020/esurf-8-769-2020.pdf |
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doaj-372de89347cc4349ad9f24dd362fc52f2020-11-25T03:26:02ZengCopernicus PublicationsEarth Surface Dynamics2196-63112196-632X2020-09-01876978710.5194/esurf-8-769-2020Timing of exotic, far-traveled boulder emplacement and paleo-outburst flooding in the central HimalayasM. L. Huber0M. L. Huber1M. Lupker2S. F. Gallen3M. Christl4A. P. Gajurel5Geological Institute, Department of Earth Sciences, ETH Zurich, Zurich 8092, Switzerlandcurrent address: Université de Lorraine, CNRS, CRPG, 54000 Nancy, FranceGeological Institute, Department of Earth Sciences, ETH Zurich, Zurich 8092, SwitzerlandDepartment of Geosciences, Colorado State University, Fort Collins, Colorado 80523, USALaboratory of Ion Beam Physics (LIP), Department of Physics, ETH Zurich, Zurich 8093, SwitzerlandDepartment of Geology, Tribhuvan University, Kirtipur, Kathmandu, Nepal<p>Large boulders, ca. 10 m in diameter or more, commonly linger in Himalayan river channels. In many cases, their lithology is consistent with source areas located more than 10 km upstream, suggesting long transport distances. The mechanisms and timing of “exotic” boulder emplacement are poorly constrained, but their presence hints at processes that are relevant for landscape evolution and geohazard assessments in mountainous regions. We surveyed river reaches of the Trishuli and Sunkoshi, two trans-Himalayan rivers in central Nepal, to improve our understanding of the processes responsible for exotic boulder transport and the timing of emplacement. Boulder size and channel hydraulic geometry were used to constrain paleo-flood discharge assuming turbulent, Newtonian fluid flow conditions, and boulder exposure ages were determined using cosmogenic nuclide exposure dating. Modeled discharges required for boulder transport of ca. 10<span class="inline-formula"><sup>3</sup></span> to 10<span class="inline-formula"><sup>5</sup></span> m<span class="inline-formula"><sup>3</sup></span> s<span class="inline-formula"><sup>−1</sup></span> exceed typical monsoonal floods in these river reaches. Exposure ages range between ca. 1.5 and 13.5 ka with a clustering of ages around 4.5 and 5.5 ka in both studied valleys. This later period is coeval with a broader weakening of the Indian summer monsoon and glacial retreat after the Early Holocene Climatic Optimum (EHCO), suggesting glacial lake outburst floods (GLOFs) as a possible cause for boulder transport. We, therefore, propose that exceptional outburst events in the central Himalayan range could be modulated by climate and occur in the wake of transitions to drier climates leading to glacier retreat rather than during wetter periods. Furthermore, the old ages and prolonged preservation of these large boulders in or near the active channels shows that these infrequent events have long-lasting consequences on valley bottoms and channel morphology. Overall, this study sheds light on the possible coupling between large and infrequent events and bedrock incision patterns in Himalayan rivers with broader implications for landscape evolution.</p>https://esurf.copernicus.org/articles/8/769/2020/esurf-8-769-2020.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
M. L. Huber M. L. Huber M. Lupker S. F. Gallen M. Christl A. P. Gajurel |
| spellingShingle |
M. L. Huber M. L. Huber M. Lupker S. F. Gallen M. Christl A. P. Gajurel Timing of exotic, far-traveled boulder emplacement and paleo-outburst flooding in the central Himalayas Earth Surface Dynamics |
| author_facet |
M. L. Huber M. L. Huber M. Lupker S. F. Gallen M. Christl A. P. Gajurel |
| author_sort |
M. L. Huber |
| title |
Timing of exotic, far-traveled boulder emplacement and paleo-outburst flooding in the central Himalayas |
| title_short |
Timing of exotic, far-traveled boulder emplacement and paleo-outburst flooding in the central Himalayas |
| title_full |
Timing of exotic, far-traveled boulder emplacement and paleo-outburst flooding in the central Himalayas |
| title_fullStr |
Timing of exotic, far-traveled boulder emplacement and paleo-outburst flooding in the central Himalayas |
| title_full_unstemmed |
Timing of exotic, far-traveled boulder emplacement and paleo-outburst flooding in the central Himalayas |
| title_sort |
timing of exotic, far-traveled boulder emplacement and paleo-outburst flooding in the central himalayas |
| publisher |
Copernicus Publications |
| series |
Earth Surface Dynamics |
| issn |
2196-6311 2196-632X |
| publishDate |
2020-09-01 |
| description |
<p>Large boulders, ca. 10 m in diameter or more, commonly
linger in Himalayan river channels. In many cases, their lithology is
consistent with source areas located more than 10 km upstream, suggesting
long transport distances. The mechanisms and timing of “exotic” boulder
emplacement are poorly constrained, but their presence hints at processes
that are relevant for landscape evolution and geohazard assessments in
mountainous regions. We surveyed river reaches of the Trishuli and Sunkoshi,
two trans-Himalayan rivers in central Nepal, to improve our understanding of the
processes responsible for exotic boulder transport and the timing of
emplacement. Boulder size and channel hydraulic geometry were used to
constrain paleo-flood discharge assuming turbulent, Newtonian fluid flow
conditions, and boulder exposure ages were determined using cosmogenic
nuclide exposure dating. Modeled discharges required for boulder transport
of ca. 10<span class="inline-formula"><sup>3</sup></span> to 10<span class="inline-formula"><sup>5</sup></span> m<span class="inline-formula"><sup>3</sup></span> s<span class="inline-formula"><sup>−1</sup></span> exceed typical monsoonal floods in
these river reaches. Exposure ages range between ca. 1.5 and 13.5 ka with a clustering of ages around 4.5 and 5.5 ka in both studied valleys.
This later period is coeval with a broader weakening of the Indian summer
monsoon and glacial retreat after the Early Holocene Climatic Optimum
(EHCO), suggesting glacial lake outburst floods (GLOFs) as a possible cause
for boulder transport. We, therefore, propose that exceptional outburst
events in the central Himalayan range could be modulated by climate and
occur in the wake of transitions to drier climates leading to glacier
retreat rather than during wetter periods. Furthermore, the old ages and
prolonged preservation of these large boulders in or near the active
channels shows that these infrequent events have long-lasting consequences
on valley bottoms and channel morphology. Overall, this study sheds light on
the possible coupling between large and infrequent events and bedrock incision
patterns in Himalayan rivers with broader implications for landscape
evolution.</p> |
| url |
https://esurf.copernicus.org/articles/8/769/2020/esurf-8-769-2020.pdf |
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