http://www.cnr.it/ontology/cnr/individuo/prodotto/ID323893
Recently deglaciated areas, permafrost and natural instability in the Orco and Lanzo valleys (NW Italy) (Abstract/Poster in atti di convegno)
- Type
- Label
- Recently deglaciated areas, permafrost and natural instability in the Orco and Lanzo valleys (NW Italy) (Abstract/Poster in atti di convegno) (literal)
- Anno
- 2014-01-01T00:00:00+01:00 (literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#doi
- 10.3301/ROL.2014.140 (literal)
- Alternative label
Lucchesi S. (1), Chiarle M. (1), Bertotto S. (1,2), Fioraso G. (3), Nigrelli G. (1) (2014)
Recently deglaciated areas, permafrost and natural instability in the Orco and Lanzo valleys (NW Italy)
in 87° Congresso della Società Geologica Italiana e 90° Congresso della Società Italiana di Mineralogia e Petrologia, Milano, 10-12 settembre 2014
(literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#autori
- Lucchesi S. (1), Chiarle M. (1), Bertotto S. (1,2), Fioraso G. (3), Nigrelli G. (1) (literal)
- Pagina inizio
- Pagina fine
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- The Future of the Italian Geosciences -The Italian Geosciences of the Future (literal)
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- Rivista
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- Note
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- (1) CNR-IRPI UOS Torino
(2) Università di Torino, DST
(3) CNR-IGG UOS Torino (literal)
- Titolo
- Recently deglaciated areas, permafrost and natural instability in the Orco and Lanzo valleys (NW Italy) (literal)
- Abstract
- The radical changes caused by glacial masses in the past and still present are accompanied by equally important
morphological changes in the previously glaciated areas.
A first attempt of quantifying the effects of climate change in the Anthropocene was carried out for the Orco and
Lanzo Valleys, through a detailed geomorphological analysis and interpretation of traditional aerial photos and digital
orthophotos, available at a variety of scales and for different years.
This analysis showed that between 1850 and 2006 the overall number of glaciers in the studied area has decreased
by 64% which correspond to a reduction of glaciated area of 78% compared with the glacier extent during the peak of
the LIA (58.8 km2) (Lucchesi et al., 2014).
The areas of recent deglacialization are currently characterized by the outcropping of new large rock surfaces, by
extensive and impressive moraines and till, or by the presence of lakes. Overall 13.5 km2 (corresponding to 28%) of the
areas of recent deglacialization are characterized by the outcropping of rock, 33.9 km2 (71%) are covered by glacial
deposits (till), fluvioglacial or gravitational sediments (slope debris, landslides) and 0.6 km2 (1.3%) are occupied by
lakes in 2006.
The environment of recent deglacialization is morphologically very young and dynamic, more exposed than others
to extremely fast remodeling processes, especially for the areas covered by glacigenic deposits. For instance, on 24
September 1993, after an intense rainstorm, a large portion (800,000 m3) of the frontal moraine of the Mulinet Glacier
was removed by a huge debris flow that traveled 4.5 km downstream.
Nevertheless, recently deglaciated areas are in part affected by the presence of a more or less pervasive and
continuous permafrost (Mair et al., 2011). The presence of permafrost has a stabilizing effect on rock and debris slopes.
Under a warming climate, permafrost degradation can become one of the most relevant factors contributing to the
development of instability processes (in particular rock falls and debris flows).
For this work, we met the geomorphological information obtained for the deglaciated areas (type and extent of
outcropping materials), with the permafrost distribution map realized in the framework of the PermaNet project for the
European Alps. As a result, we were able to make a first estimate of debris areas and volumes prone to instability, or
ready to be mobilized by surface water runoff. (literal)
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