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Record #199856:

Quantification of geomorphodynamics in glaciated and recently deglaciated terrain based on airborne laser scanning data / Rudolf Sailer, and 5 others.

Title: Quantification of geomorphodynamics in glaciated and recently deglaciated terrain based on airborne laser scanning data / Rudolf Sailer, and 5 others.
Author(s): Sailer, Rudolf.
Date: 2012.
In: Geografiska Annaler. Series A. Physical Geography. (2012.), Vol. 94(1) (2012)
Abstract: Highlights ability of airborne laser scanning (ALS) to detect, map and quantify geomorphological processes in high alpine environments. Since 2001, ALS measurements have been carried out regularly at Hintereisferner (Ötztal Alps). Results show that ALS technology has potential to become important tool in small-scale spatial monitoring and quantification of process-chain related mass reallocations in high alpine terrain.
Notes:

Geografiska Annaler. Series A. Physical Geography. Vol. 94(1) :17-32 (2012).

In thematic issue: Concepts and implications of environmental change and human impact : studies from Austrian geomorphological research.

Keywords: 53.087.23 -- Remote sensing.
551.32 -- Glaciology.
551.324.22 -- Glaciers: Hintereisferner.
551.4 -- Geomorphology.
E7 -- Glaciology: glacial geology and ice ages.
(234.3) -- Alps.
(4) -- Europe.
(436) -- Austria.
SPRI record no.: 199856

MARCXML

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245 10 ‡aQuantification of geomorphodynamics in glaciated and recently deglaciated terrain based on airborne laser scanning data /‡cRudolf Sailer, and 5 others.
260 ## ‡a[S.l.] :‡b[s.n.],‡c2012.
300 ## ‡ap. 17-32 :‡bill., diags., maps.
500 ## ‡aGeografiska Annaler. Series A. Physical Geography. Vol. 94(1) :17-32 (2012).
500 ## ‡aIn thematic issue: Concepts and implications of environmental change and human impact : studies from Austrian geomorphological research.
520 3# ‡aHighlights ability of airborne laser scanning (ALS) to detect, map and quantify geomorphological processes in high alpine environments. Since 2001, ALS measurements have been carried out regularly at Hintereisferner (Ötztal Alps). Results show that ALS technology has potential to become important tool in small-scale spatial monitoring and quantification of process-chain related mass reallocations in high alpine terrain.
530 ## ‡aAlso issued online ‡uurn:doi:10.1111/j.1468-0459.2012.00456.x‡uhttps://dx.doi.org/10.1111/j.1468-0459.2012.00456.x
650 07 ‡a53.087.23 -- Remote sensing.‡2udc
650 07 ‡a551.32 -- Glaciology.‡2udc
650 07 ‡a551.324.22 -- Glaciers: Hintereisferner.‡2udc
650 07 ‡a551.4 -- Geomorphology.‡2udc
650 07 ‡aE7 -- Glaciology: glacial geology and ice ages.‡2local
651 #7 ‡a(234.3) -- Alps.‡2udc
651 #7 ‡a(4) -- Europe.‡2udc
651 #7 ‡a(436) -- Austria.‡2udc
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