A 250-metre-long fracture on a mountainside in canton Valais is widening at a rate of 2-4 millimetres daily, sparking concerns of a potential collapse that could dam the Navizence River and trigger floods in the village of Chippis.

"Growth has been relatively constant: between 2-4 millimetres a day."
"Itâs a considerable amount of material and potentially a substantial cascading hazard."
A staggering 250-metre-long scar is tearing through the Val dâAnniviers, and it is moving with terrifying persistence. The 'Faille des Fios' is no longer a static geological feature; it is a living, widening threat that expands by 2 to 4 millimetres every single day. While such movements are often glacial in pace, geologists warn this rate is exceptionally fast for the region. The primary fissure now gapes up to one metre wide, slicing through the mountainside like a jagged wound. This is not a distant threatâit is a present reality for the canton of Valais, where the earth itself seems to be losing its grip. As the fracture stretches, secondary cracks are appearing like dark tributaries, signaling a broader destabilization of the slope. The mountain is speaking, and its message is one of imminent instability.
Nearly 500,000 cubic metres of rock and debris hang in a precarious balance above the Rhone Valley. To put this in perspective, this is a volume capable of burying entire neighborhoods, yet it represents a 'cascading hazard' that extends far beyond the initial impact. Engineering geologist Raffaelle Spielmann from ETH Zurich describes the situation as critical. If the mass collapses, it will not simply stop at the base of the mountain; it will likely dam the Navizence River. This natural blockade would create a temporary reservoir that, upon breaching, would send a catastrophic surge of water and debris downstream. While this volume is smaller than the historic 30-million-cubic-metre Randa slide of 1991, its proximity to infrastructure makes it a high-stakes gamble with nature. The danger is not just the fallâit is the flood that follows.
The Alpine landscape is reeling from the dual assault of extreme precipitation and rapid snowmelt. Geologist Michael Digout points to the devastating floods of 2018 and 2024 as the primary catalysts for this crisis. These 'once-in-a-generation' weather events eroded the Navizence riverbed by several metres, effectively 'decapitating' the support at the foot of the slope. Without this structural foundation, the rock above has succumbed to gravity. This is the new face of climate adaptation in Switzerland: a landscape destabilized by intensifying water cycles. As temperatures rise, melting snow at higher altitudes infiltrates these new cracks, acting as a lubricant that further accelerates the slide. The mountain is caught in a vicious cycle where every rainstorm increases the hydraulic pressure within the fracture, pushing the mass closer to the breaking point.
For the 1,500 residents of Chippis, the mountain's movement has transformed daily life into a state of high-alert readiness. Authorities are leaving nothing to chance, having already finalized emergency evacuation plans and secured spots in local civil protection shelters. While experts like Digout suggest the mountain may collapse in successive, smaller phases rather than one singular event, the 'extreme scenario' remains the blueprint for public safety. This proactive stance is a hallmark of Swiss disaster management, yet the tension in the Rhone Valley is palpable. As spring brings warmer weather and increased runoff, the window for monitoring narrows. The village of Chippis now stands as a symbol of Alpine resilience, confronting a future where the very mountains that define the region also pose its greatest threat. The watch is on, and the evacuation sirens are ready.