Panta Rhei: Movement Change of Tschadinhorn Rock Glacier (Hohe Tauern Range, Austria), 1954–2017 https://doi.org/10.32909/kg.18.31.1

In this paper we present a reconstruction of the kinematics of the Tschadinhorn rock glacier using multi-temporal conventional (metric) aerial photographs (1954–2015) and additional non-metric aerial photographs (2016, 2017) taken with in-house unmanned aerial vehicles (UAVs). A rotary-wing aircraft...

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Bibliographic Details
Main Authors: Kaufmann, Viktor, Sulzer, Wolfgang, Seier, Gernot, Wecht, Matthias
Format: Article in Journal/Newspaper
Language:Croatian
English
Published: Croatian Cartographic Society - Hrvatsko kartografsko društvo 2019
Subjects:
Cartography
Geoinformatics
Geography
Geology
Geosciences
permafrost
rock glacier
flow velocity
photogrammetry
UAV
environmental change
Tschadinhorn
kartografija
geoinformacije
geografija
geologija
geoznanosti
kameni glečer
brzina kretanja
fotogrametrija
promjena okoliša
Online Access:http://kig.kartografija.hr/index.php/kig/article/view/854
id ftjkig:oai:ojs.kig.kartografija.hr:article/854
record_format openpolar
spelling ftjkig:oai:ojs.kig.kartografija.hr:article/854 2023-05-15T17:58:20+02:00 Panta Rhei: Movement Change of Tschadinhorn Rock Glacier (Hohe Tauern Range, Austria), 1954–2017 https://doi.org/10.32909/kg.18.31.1 Panta Rhei: promjena kretanja kamenog glečera Tschadinhorn (planinski lanac Hohe Tauern, Austrija), 1954–2017 https://doi.org/10.32909/kg.18.31.1 Kaufmann, Viktor Sulzer, Wolfgang Seier, Gernot Wecht, Matthias 2019-04-19 application/pdf http://kig.kartografija.hr/index.php/kig/article/view/854 hrv eng hrv eng Croatian Cartographic Society - Hrvatsko kartografsko društvo http://kig.kartografija.hr/index.php/kig/article/view/854/1566 http://kig.kartografija.hr/index.php/kig/article/view/854/1567 http://kig.kartografija.hr/index.php/kig/article/view/854 Copyright (c) 2019 Viktor Kaufmann, Wolfgang Sulzer, Gernot Seier, Matthias Wecht http://creativecommons.org/licenses/by-sa/4.0 CC-BY-SA Kartografija i Geoinformacije; Vol 18, No 31 (2019); 4-24 Kartografija i geoinformacije (Cartography and Geoinformation); Vol 18, No 31 (2019); 4-24 1848-0713 1333-896X Cartography Geoinformatics Geography Geology Geosciences permafrost rock glacier flow velocity photogrammetry UAV environmental change Tschadinhorn kartografija geoinformacije geografija geologija geoznanosti kameni glečer brzina kretanja fotogrametrija promjena okoliša info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article Recenzirani članak 2019 ftjkig 2022-12-29T07:38:05Z In this paper we present a reconstruction of the kinematics of the Tschadinhorn rock glacier using multi-temporal conventional (metric) aerial photographs (1954–2015) and additional non-metric aerial photographs (2016, 2017) taken with in-house unmanned aerial vehicles (UAVs). A rotary-wing aircraft (hexacopter twinHEX v.3.0) was used in 2016 and a fixed-wing aircraft (QuestUAV) in 2017. The historical image data was acquired from the Austrian Federal Office of Metrology and Surveying (BEV). Both a digital orthophoto (DOP) and a digital terrain model (DTM) were computed for each given epoch. Precise georeferencing of the image data was carried out in the Austrian Gauss-Krüger M31 coordinate system using available aerotriangulations (ATs) of BEV and additional ground control points (GCPs) measured geodetically during both UAV campaigns. Change detection analysis provided multi-temporal 2D flow velocity fields. Subsequently, these data were collated to produce a simpler velocity graph showing clearly the temporal evolution of the flow velocity of Tschadinhorn rock glacier: A maximum mean annual flow velocity of 3.28 m/year was obtained for 2014–2015, while the lowest annual flow velocity of 0.16 m/year was observed for 1969–1974. The velocity graph also revealed that 1954–2009 was characterized by generally moderate activity (0.16 – 0.79 m/year) and that much higher flow velocities have prevailed since 2009. The present value for 2016–2017 is 1.92 m/year. U radu se prikazuje rekonstrukcija kinematike kamenog glečera Tschadinhorn upotrebom viševremenskih konvencionalnih (mjernih) fotografija snimljenih iz zraka (1954–2015) i dodatnih nemjernih fotografija snimljenih iz zraka (2016, 2017) bespilotnim letjelicama (unmanned aerial vehicles – UAV). Letjelica s rotirajućim krilima (hexacopter twinHEX v.3.0) upotrebljena je 2016. godine, a letjelica s nepokretnim krilima (QuestUAV) upotrebljena je 2017. Povijesni slikovni podaci dobiveni su od Austri­jskog federalnog ureda za metrologiju i izmjeru (Bundesamt für Eich- ... Article in Journal/Newspaper permafrost Cartography and Geoinformation (Journal of the Croatian Cartographic Society)
institution Open Polar
collection Cartography and Geoinformation (Journal of the Croatian Cartographic Society)
op_collection_id ftjkig
language Croatian
English
topic Cartography
Geoinformatics
Geography
Geology
Geosciences
permafrost
rock glacier
flow velocity
photogrammetry
UAV
environmental change
Tschadinhorn
kartografija
geoinformacije
geografija
geologija
geoznanosti
kameni glečer
brzina kretanja
fotogrametrija
promjena okoliša
spellingShingle Cartography
Geoinformatics
Geography
Geology
Geosciences
permafrost
rock glacier
flow velocity
photogrammetry
UAV
environmental change
Tschadinhorn
kartografija
geoinformacije
geografija
geologija
geoznanosti
kameni glečer
brzina kretanja
fotogrametrija
promjena okoliša
Kaufmann, Viktor
Sulzer, Wolfgang
Seier, Gernot
Wecht, Matthias
Panta Rhei: Movement Change of Tschadinhorn Rock Glacier (Hohe Tauern Range, Austria), 1954–2017 https://doi.org/10.32909/kg.18.31.1
topic_facet Cartography
Geoinformatics
Geography
Geology
Geosciences
permafrost
rock glacier
flow velocity
photogrammetry
UAV
environmental change
Tschadinhorn
kartografija
geoinformacije
geografija
geologija
geoznanosti
kameni glečer
brzina kretanja
fotogrametrija
promjena okoliša
description In this paper we present a reconstruction of the kinematics of the Tschadinhorn rock glacier using multi-temporal conventional (metric) aerial photographs (1954–2015) and additional non-metric aerial photographs (2016, 2017) taken with in-house unmanned aerial vehicles (UAVs). A rotary-wing aircraft (hexacopter twinHEX v.3.0) was used in 2016 and a fixed-wing aircraft (QuestUAV) in 2017. The historical image data was acquired from the Austrian Federal Office of Metrology and Surveying (BEV). Both a digital orthophoto (DOP) and a digital terrain model (DTM) were computed for each given epoch. Precise georeferencing of the image data was carried out in the Austrian Gauss-Krüger M31 coordinate system using available aerotriangulations (ATs) of BEV and additional ground control points (GCPs) measured geodetically during both UAV campaigns. Change detection analysis provided multi-temporal 2D flow velocity fields. Subsequently, these data were collated to produce a simpler velocity graph showing clearly the temporal evolution of the flow velocity of Tschadinhorn rock glacier: A maximum mean annual flow velocity of 3.28 m/year was obtained for 2014–2015, while the lowest annual flow velocity of 0.16 m/year was observed for 1969–1974. The velocity graph also revealed that 1954–2009 was characterized by generally moderate activity (0.16 – 0.79 m/year) and that much higher flow velocities have prevailed since 2009. The present value for 2016–2017 is 1.92 m/year. U radu se prikazuje rekonstrukcija kinematike kamenog glečera Tschadinhorn upotrebom viševremenskih konvencionalnih (mjernih) fotografija snimljenih iz zraka (1954–2015) i dodatnih nemjernih fotografija snimljenih iz zraka (2016, 2017) bespilotnim letjelicama (unmanned aerial vehicles – UAV). Letjelica s rotirajućim krilima (hexacopter twinHEX v.3.0) upotrebljena je 2016. godine, a letjelica s nepokretnim krilima (QuestUAV) upotrebljena je 2017. Povijesni slikovni podaci dobiveni su od Austri­jskog federalnog ureda za metrologiju i izmjeru (Bundesamt für Eich- ...
format Article in Journal/Newspaper
author Kaufmann, Viktor
Sulzer, Wolfgang
Seier, Gernot
Wecht, Matthias
author_facet Kaufmann, Viktor
Sulzer, Wolfgang
Seier, Gernot
Wecht, Matthias
author_sort Kaufmann, Viktor
title Panta Rhei: Movement Change of Tschadinhorn Rock Glacier (Hohe Tauern Range, Austria), 1954–2017 https://doi.org/10.32909/kg.18.31.1
title_short Panta Rhei: Movement Change of Tschadinhorn Rock Glacier (Hohe Tauern Range, Austria), 1954–2017 https://doi.org/10.32909/kg.18.31.1
title_full Panta Rhei: Movement Change of Tschadinhorn Rock Glacier (Hohe Tauern Range, Austria), 1954–2017 https://doi.org/10.32909/kg.18.31.1
title_fullStr Panta Rhei: Movement Change of Tschadinhorn Rock Glacier (Hohe Tauern Range, Austria), 1954–2017 https://doi.org/10.32909/kg.18.31.1
title_full_unstemmed Panta Rhei: Movement Change of Tschadinhorn Rock Glacier (Hohe Tauern Range, Austria), 1954–2017 https://doi.org/10.32909/kg.18.31.1
title_sort panta rhei: movement change of tschadinhorn rock glacier (hohe tauern range, austria), 1954–2017 https://doi.org/10.32909/kg.18.31.1
publisher Croatian Cartographic Society - Hrvatsko kartografsko društvo
publishDate 2019
url http://kig.kartografija.hr/index.php/kig/article/view/854
genre permafrost
genre_facet permafrost
op_source Kartografija i Geoinformacije; Vol 18, No 31 (2019); 4-24
Kartografija i geoinformacije (Cartography and Geoinformation); Vol 18, No 31 (2019); 4-24
1848-0713
1333-896X
op_relation http://kig.kartografija.hr/index.php/kig/article/view/854/1566
http://kig.kartografija.hr/index.php/kig/article/view/854/1567
http://kig.kartografija.hr/index.php/kig/article/view/854
op_rights Copyright (c) 2019 Viktor Kaufmann, Wolfgang Sulzer, Gernot Seier, Matthias Wecht
http://creativecommons.org/licenses/by-sa/4.0
op_rightsnorm CC-BY-SA
_version_ 1766166926726266880

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