-
What caused the eruption of Mount Lewotobi?
The eruption of Mount Lewotobi Laki-Laki was triggered by increased seismic activity observed over the past week. This twin-peaked volcano has a history of eruptions, with a previous incident in November resulting in fatalities. The current eruption lasted over 11 minutes and raised concerns about potential lava flows and volcanic mudflows due to heavy rainfall.
-
How many flights were canceled due to the eruption?
At least seven international flights were canceled as a result of the eruption of Mount Lewotobi. The cancellations primarily affected Jetstar and Air Asia routes, significantly disrupting travel plans for many passengers flying from Bali.
-
What precautions are being taken to ensure safety?
In response to the eruption, authorities have raised the alert level and established an exclusion zone around the volcano. While there have been no immediate evacuation orders, residents are advised to remain vigilant and prepared for potential volcanic activity, including lava flows and ash fallout.
-
Are there any reports of damage from the volcanic activity?
As of now, there have been no reports of immediate damage to nearby villages due to the eruption of Mount Lewotobi. However, the situation remains fluid, and authorities are closely monitoring the volcanic activity and its potential impact on local communities.
-
What should travelers do if their flights are canceled?
Travelers whose flights have been canceled due to the eruption should contact their airlines for rebooking options and potential refunds. It's also advisable to stay updated on the situation through official news sources and airline notifications to ensure safety and make informed travel decisions.
-
What is the history of eruptions at Mount Lewotobi?
Mount Lewotobi has a documented history of eruptions, with significant activity noted in the past. The volcano's previous eruption in November resulted in fatalities and widespread flight disruptions, highlighting the ongoing risks associated with its seismic activity.