Zur Gletscher-, Vegetations- und Klimageschichte der Schweiz seit der Späteiszeit

A Statistical analysis of published and compilated snowline data for the late-glacial Stades of Gschnitz, Clavadel, Daun and Egesen is presented. The calculation of snowline and snowline-depression (compared to the extent of 1850) is based on the 2: 1 -equilibrium line method. The Interpretation doe...

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Published in:Geographica Helvetica
Main Authors: Furrer, G., Burga, C., Gamper, M., Holzhauser, H.-P., Maisch, M.
Format: Text
Language:English
Published: 2018
Subjects:
Mont Blanc
Betula nana
Online Access:https://doi.org/10.5194/gh-42-61-1987
https://gh.copernicus.org/articles/42/61/1987/
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record_format openpolar
spelling ftcopernicus:oai:publications.copernicus.org:gh44742 2023-05-15T15:44:29+02:00 Zur Gletscher-, Vegetations- und Klimageschichte der Schweiz seit der Späteiszeit Furrer, G. Burga, C. Gamper, M. Holzhauser, H.-P. Maisch, M. 2018-01-15 application/pdf https://doi.org/10.5194/gh-42-61-1987 https://gh.copernicus.org/articles/42/61/1987/ eng eng doi:10.5194/gh-42-61-1987 https://gh.copernicus.org/articles/42/61/1987/ eISSN: 2194-8798 Text 2018 ftcopernicus https://doi.org/10.5194/gh-42-61-1987 2020-07-20T16:28:23Z A Statistical analysis of published and compilated snowline data for the late-glacial Stades of Gschnitz, Clavadel, Daun and Egesen is presented. The calculation of snowline and snowline-depression (compared to the extent of 1850) is based on the 2: 1 -equilibrium line method. The Interpretation does not show significant differences in snowline-depression between the Lower Engadin (Eastern Alps) and the Mont Blanc area (Western Alps). The larger deviations from the averages can be explained by the glacier individuality (morphology, topography of the ice surfaces) and the rarely considered variations ot the "constant" 2 :1-ration. Geographical patterns, which could imply changes in paleo-precipitation, cannot be found in the investigated area. The Quaternary Vegetation history provides evidence for climatic changes and timberline fluctuations which took place during the Late-Glacial and Holocene and also provides a framework for biostratigraphical results. During the Oldest Dryas a heliophile Artemisia-Chenopodiceae-Helianthemum- Thalictrum-Ephedra-Juniperus-Betula nana pioneer Vegetation covered the icefree areas in Switzerland. The oldest pollen spectra found in clay gyttja Sediments are dated between 13,000 and 14,000 y BP by the radiocarbon method. The development of the Swiss Central Alpine wood belt since the Late-Glacial is shown in Fig. 11. Postglacial alterations of the geomorphological activity in the Alps can be reconstructed by radiocarbon dating of fossil soils found in moraines. earth-flows and talus deposits. The results show that the geomorphological activity was very slow up to 4500 y BP; but the second part of the postglacial period was marked by often changing phases of activity and stability. Differing qualities of the evidence relating to glacial history and the absence of glacier advances within several periods of the Holocene make it impossible to reconstruct a complete curve of the glacier movements. With the aid of a graphical diagram which includes both evidence on glacier fluctuations and dendroclimatological analysis, it will be shown that the Alpine glaciers probably oscillated inside different "levels". Text Betula nana Copernicus Publications: E-Journals Mont Blanc ENVELOPE(69.468,69.468,-49.461,-49.461) Geographica Helvetica 42 2 61 91
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description A Statistical analysis of published and compilated snowline data for the late-glacial Stades of Gschnitz, Clavadel, Daun and Egesen is presented. The calculation of snowline and snowline-depression (compared to the extent of 1850) is based on the 2: 1 -equilibrium line method. The Interpretation does not show significant differences in snowline-depression between the Lower Engadin (Eastern Alps) and the Mont Blanc area (Western Alps). The larger deviations from the averages can be explained by the glacier individuality (morphology, topography of the ice surfaces) and the rarely considered variations ot the "constant" 2 :1-ration. Geographical patterns, which could imply changes in paleo-precipitation, cannot be found in the investigated area. The Quaternary Vegetation history provides evidence for climatic changes and timberline fluctuations which took place during the Late-Glacial and Holocene and also provides a framework for biostratigraphical results. During the Oldest Dryas a heliophile Artemisia-Chenopodiceae-Helianthemum- Thalictrum-Ephedra-Juniperus-Betula nana pioneer Vegetation covered the icefree areas in Switzerland. The oldest pollen spectra found in clay gyttja Sediments are dated between 13,000 and 14,000 y BP by the radiocarbon method. The development of the Swiss Central Alpine wood belt since the Late-Glacial is shown in Fig. 11. Postglacial alterations of the geomorphological activity in the Alps can be reconstructed by radiocarbon dating of fossil soils found in moraines. earth-flows and talus deposits. The results show that the geomorphological activity was very slow up to 4500 y BP; but the second part of the postglacial period was marked by often changing phases of activity and stability. Differing qualities of the evidence relating to glacial history and the absence of glacier advances within several periods of the Holocene make it impossible to reconstruct a complete curve of the glacier movements. With the aid of a graphical diagram which includes both evidence on glacier fluctuations and dendroclimatological analysis, it will be shown that the Alpine glaciers probably oscillated inside different "levels".
format Text
author Furrer, G.
Burga, C.
Gamper, M.
Holzhauser, H.-P.
Maisch, M.
spellingShingle Furrer, G.
Burga, C.
Gamper, M.
Holzhauser, H.-P.
Maisch, M.
Zur Gletscher-, Vegetations- und Klimageschichte der Schweiz seit der Späteiszeit
author_facet Furrer, G.
Burga, C.
Gamper, M.
Holzhauser, H.-P.
Maisch, M.
author_sort Furrer, G.
title Zur Gletscher-, Vegetations- und Klimageschichte der Schweiz seit der Späteiszeit
title_short Zur Gletscher-, Vegetations- und Klimageschichte der Schweiz seit der Späteiszeit
title_full Zur Gletscher-, Vegetations- und Klimageschichte der Schweiz seit der Späteiszeit
title_fullStr Zur Gletscher-, Vegetations- und Klimageschichte der Schweiz seit der Späteiszeit
title_full_unstemmed Zur Gletscher-, Vegetations- und Klimageschichte der Schweiz seit der Späteiszeit
title_sort zur gletscher-, vegetations- und klimageschichte der schweiz seit der späteiszeit
publishDate 2018
url https://doi.org/10.5194/gh-42-61-1987
https://gh.copernicus.org/articles/42/61/1987/
long_lat ENVELOPE(69.468,69.468,-49.461,-49.461)
geographic Mont Blanc
geographic_facet Mont Blanc
genre Betula nana
genre_facet Betula nana
op_source eISSN: 2194-8798
op_relation doi:10.5194/gh-42-61-1987
https://gh.copernicus.org/articles/42/61/1987/
op_doi https://doi.org/10.5194/gh-42-61-1987
container_title Geographica Helvetica
container_volume 42
container_issue 2
container_start_page 61
op_container_end_page 91
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