Paleoglacial footprint and fluvial terraces of the Shaluli Shan, SE Tibetan Plateau

Paleoglacial footprint and fluvial terraces of the Shaluli Shan, SE Tibetan Plateau

This study provides mapping of glacial and fluvial geomorphology in the Shaluli Shan region on the eastern margin of the south-eastern Tibetan Plateau. Based on TanDEM-X 12 m elevation data and GoogleEarth imagery, glacial valleys, ice-marginal moraines, glacial lineations, scoured terrain and fluvi...

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Main Authors: R. A. A. Schneider, R. Blomdin, P. Fu, X.K. Xu, A. P. Stroeven
Format: Article
Language:English
Published: Taylor & Francis Group 2021-07-01
Series:Journal of Maps
Subjects:
tandem-x
se tibetan plateau
paleoglaciology
fluvial terrace
ice-marginal moraine
glacial valley
Online Access:http://dx.doi.org/10.1080/17445647.2021.1946443
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spelling doaj-1a07c0c8cb9f4bb4b23439686ca1086e2021-08-09T15:50:07ZengTaylor & Francis GroupJournal of Maps1744-56472021-07-010011410.1080/17445647.2021.19464431946443Paleoglacial footprint and fluvial terraces of the Shaluli Shan, SE Tibetan PlateauR. A. A. Schneider0R. Blomdin1P. Fu2X.K. Xu3A. P. Stroeven4Stockholm UniversityGeological Survey of SwedenUniversity of Nottingham Ningbo ChinaInstitute of Tibetan Plateau Research and Center for Excellence in Tibetan Plateau Earth Sciences, Chinese Academy of Sciences, Beijing, People’s Republic of ChinaStockholm UniversityThis study provides mapping of glacial and fluvial geomorphology in the Shaluli Shan region on the eastern margin of the south-eastern Tibetan Plateau. Based on TanDEM-X 12 m elevation data and GoogleEarth imagery, glacial valleys, ice-marginal moraines, glacial lineations, scoured terrain and fluvial terraces were mapped. Covering around 11,000 km2, this map is the first for this region to display geomorphology at a spatial resolution of 0.4 arcsec (= c. 11 m) and to include fluvial terraces. Its glacial landform distribution is largely consistent with previous mapping. The substantially higher level of detail in this study is reflected in an approximately tenfold number and smaller median sizes of individual landforms such as moraines and glacial lineations. These results underscore the importance of high-resolution DEM data such as TanDEM-X for the identification of glacial and fluvial geomorphology. The map presented here will be used for detailed paleoglacial reconstructions and landscape evolution studies combining both glacial and fluvial landforms.http://dx.doi.org/10.1080/17445647.2021.1946443tandem-xse tibetan plateaupaleoglaciologyfluvial terraceice-marginal moraineglacial valley
collection DOAJ
language English
format Article
sources DOAJ
author R. A. A. Schneider
R. Blomdin
P. Fu
X.K. Xu
A. P. Stroeven
spellingShingle R. A. A. Schneider
R. Blomdin
P. Fu
X.K. Xu
A. P. Stroeven
Paleoglacial footprint and fluvial terraces of the Shaluli Shan, SE Tibetan Plateau
Journal of Maps
tandem-x
se tibetan plateau
paleoglaciology
fluvial terrace
ice-marginal moraine
glacial valley
author_facet R. A. A. Schneider
R. Blomdin
P. Fu
X.K. Xu
A. P. Stroeven
author_sort R. A. A. Schneider
title Paleoglacial footprint and fluvial terraces of the Shaluli Shan, SE Tibetan Plateau
title_short Paleoglacial footprint and fluvial terraces of the Shaluli Shan, SE Tibetan Plateau
title_full Paleoglacial footprint and fluvial terraces of the Shaluli Shan, SE Tibetan Plateau
title_fullStr Paleoglacial footprint and fluvial terraces of the Shaluli Shan, SE Tibetan Plateau
title_full_unstemmed Paleoglacial footprint and fluvial terraces of the Shaluli Shan, SE Tibetan Plateau
title_sort paleoglacial footprint and fluvial terraces of the shaluli shan, se tibetan plateau
publisher Taylor & Francis Group
series Journal of Maps
issn 1744-5647
publishDate 2021-07-01
description This study provides mapping of glacial and fluvial geomorphology in the Shaluli Shan region on the eastern margin of the south-eastern Tibetan Plateau. Based on TanDEM-X 12 m elevation data and GoogleEarth imagery, glacial valleys, ice-marginal moraines, glacial lineations, scoured terrain and fluvial terraces were mapped. Covering around 11,000 km2, this map is the first for this region to display geomorphology at a spatial resolution of 0.4 arcsec (= c. 11 m) and to include fluvial terraces. Its glacial landform distribution is largely consistent with previous mapping. The substantially higher level of detail in this study is reflected in an approximately tenfold number and smaller median sizes of individual landforms such as moraines and glacial lineations. These results underscore the importance of high-resolution DEM data such as TanDEM-X for the identification of glacial and fluvial geomorphology. The map presented here will be used for detailed paleoglacial reconstructions and landscape evolution studies combining both glacial and fluvial landforms.
topic tandem-x
se tibetan plateau
paleoglaciology
fluvial terrace
ice-marginal moraine
glacial valley
url http://dx.doi.org/10.1080/17445647.2021.1946443
work_keys_str_mv AT raaschneider paleoglacialfootprintandfluvialterracesoftheshalulishansetibetanplateau
AT rblomdin paleoglacialfootprintandfluvialterracesoftheshalulishansetibetanplateau
AT pfu paleoglacialfootprintandfluvialterracesoftheshalulishansetibetanplateau
AT xkxu paleoglacialfootprintandfluvialterracesoftheshalulishansetibetanplateau
AT apstroeven paleoglacialfootprintandfluvialterracesoftheshalulishansetibetanplateau
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