Allalin Glacier

Image:Allalin Glacier - Rimpfischhorn.jpg

The Allalin Glacier ({{langx|de|Allalingletscher}}) is a {{convert|6|km|abbr=on}} long glacier (2005) situated in the Pennine Alps near the Allalinhorn in the canton of Valais in Switzerland. In 1973 it had an area of {{convert|9.9|km2|sqmi|abbr=on}}. The glacier is bordered on the west by the Allalinhorn, Rimpfischhorn and Strahlhorn. It is not to be confused with the Fee Glacier which lies on the northern flank of Allalinhorn.

Physical evolution

Allalin Glacier flows 6.2 km from the north-east face of the Allalinhorn (4,027 m) to a present terminus at ~2,150 m. GLAMOS surveys show the glacier retreated 1,260 m between 1880 and 2022 and its surface area fell from 9.9 km² (1973) to 7.3 km² in 2019. Long-term mass-balance series record a cumulative loss of greater than 33 m water equivalent since 1960, with exceptionally negative years in 2003, 2022 and 2023 when large parts of the ablation zone became snow-free by early July.

Ice avalanches and Mattmark disaster

On 30 August 1965 approximately two million cubic metres of ice detached from the steep tongue during an "active phase" of enhanced basal slip and swept 800 m downvalley, burying construction barracks at the Mattmark dam site and killing 88 workers—the deadliest glacier accident ever recorded in Switzerland. Detailed post-event mapping and photogrammetry revealed that the active phases recur every 1–3 years, driven by seasonal melt-water pressurisation of a thin basal till layer beneath the cold, hanging tongue. A smaller break-off of about 100,000 cubic metres occurred in July 2000 but was successfully forecast days in advance thanks to surface-velocity and icequake monitoring, prompting evacuations along the avalanche path.

Monitoring and modelling

Because of its repeat instabilities Allalin has become a test-bed for early-warning technology. Continuous GPS, radar interferometry and automatic seismic arrays installed since 1998 detect precursory acceleration patterns, log-periodic displacement oscillations and rising icequake rates that typically precede break-off by 2–10 days. Numerical models constrained by these data reproduce the gravity-driven rupture as a transition from distributed creep to localised shear along a temperate–cold ice interface, improving time-to-failure forecasts that are now issued by cantonal authorities whenever sliding speed exceeds 40 cm per day. The glacier is thus one of only a few worldwide where real-time hazard bulletins are routinely disseminated to construction sites, alpine huts and ski lifts in the Saas Valley.

References

{{Reflist|refs=

{{cite report |title=The Swiss Glaciers 2017/18 and 2018/19 |series=Glaciological Report No. 139/140 |publisher=Cryospheric Commission, Swiss Academy of Sciences |year=2020 |pages=66–68 |url=https://doi.glamos.ch/pubs/glrep/glrep_139-140.pdf |access-date=29 April 2025}}

{{cite conference |last1=Röthlisberger |first1=H. |last2=Kasser |first2=P. |title=The readvance of the Allalingletscher after the ice avalanche of 1965 |conference=International Workshop on Mechanism of Glacier Variations, Alma-Ata 1976 |book-title=Materialy Glyatsiologicheskikh Issledovaniy |volume=33 |pages=152–164 |year=1978}}

{{cite journal |last1=Faillettaz |first1=Jérôme |last2=Funk |first2=Martin |last3=Sornette |first3=Didier |year=2012 |title=Instabilities on Alpine temperate glaciers: new insights arising from numerical modelling of Allalingletscher, Switzerland |journal=Natural Hazards and Earth System Sciences |volume=12 |pages=2977–2991 |doi=10.5194/nhess-12-2977-2012 |doi-access=free|hdl=20.500.11850/163348 |hdl-access=free }}

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External links

[http://glaciology.ethz.ch/messnetz/glaciers/allalin.html Swiss glacier monitoring network]

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Category:Glaciers of Valais

Category:Glaciers of the Alps