Majorca's 'Meteo-Tsunami': Shocking Video Captures Mega Wave Swallowing Shore Roads in Tourist Resort

Meteo-Tsunami Hits Majorca: Shocking Video Captures Ocean Flooding in Tourist Hotspot

Witness the startling moment when a "meteo-tsunami" surged onto the shores of Majorca, inundating parts of Puerto Alcudia on the northeast coast of the island. The video captures ocean waters engulfing shore roads as tourists cautiously navigated around the deluge to avoid getting soaked.

Spain's national weather agency, AEMET, issued an amber weather alert for Majorca following the phenomenon, forecasting a 40 to 70 percent likelihood of "rissaga" or meteo-tsunami occurring between Wednesday evening and early Thursday morning. Meteotsunamis, triggered by rapid changes in atmospheric pressure from swift-moving weather events such as thunderstorms, cause abrupt sea level fluctuations.

AEMET spokesperson Miquel Gili explained that the meteo-tsunami in Majorca stemmed from atmospheric pressure variations induced by storms: "Pressure changes directly impact sea levels; higher pressure causes the sea to recede, while lower pressure causes it to rise. These changes happen swiftly, with sea levels altering significantly within minutes before returning to normal.

While no significant damage was reported this time, a meteo-tsunami in 2018 wreaked havoc on several holiday resorts, with waves crashing into coastal bars and terraces in Port Andratx. Tragically, a German father-of-two lost his life after being swept out to sea hours after the tsunami struck Majorca's beaches.

In Ciutadella, Menorca, a nearly five-foot wave pounded the port city, leaving yacht owners scrambling to secure their vessels against the strong currents. The historic sailing boat of the Majorca Island Council nearly drifted away, its ropes snapped by the powerful wave before sailors rescued and brought it safely back to port.

Meteo-tsunamis remain rare but significant weather phenomena, resembling large tsunami waves triggered by sudden changes in barometric pressure due to fast-moving weather systems like thunderstorms.

Meteo-tsunamis, unlike their geological counterparts triggered by seabed movement like earthquakes or landslides, arise from rapid atmospheric pressure changes driven by weather. Even minor shifts of a few millibars can alter sea surface elevation by centimeters, a change imperceptible in deep waters but substantial near shorelines. This phenomenon can cause sea levels to surge dramatically, often rising several feet or more.

These events, capable of reaching heights exceeding six feet, have been documented globally, affecting regions such as the Gulf of Mexico, Atlantic Coast, and the Mediterranean. Recently, Majorca experienced severe weather conditions, including torrential rain leading to widespread travel disruptions. Palma de Mallorca airport faced chaos as runways submerged, forcing flight cancellations and diversions amid "zero visibility" conditions. Stranded planes sat on flooded tarmacs while airport staff navigated knee-high waters.

In Murcia, streets turned into waterways with stranded cars and drifting garbage bins amidst ongoing storms. Costa Blanca holiday spots like Benidorm, Valencia, and Alicante also endured flooding, adding to the challenges faced by travelers and locals alike during this turbulent weather period.

In conclusion, the recent events in Majorca and other parts of Spain underscore the disruptive power of meteo-tsunamis and severe weather patterns. These phenomena, triggered by rapid atmospheric pressure changes rather than geological shifts, can lead to significant coastal flooding and travel disruptions. As communities continue to grapple with the aftermath of torrential rains and inundations, the resilience of infrastructure and emergency response efforts becomes crucial in mitigating the impact on residents and travelers. These incidents serve as stark reminders of the unpredictable forces of nature and the importance of preparedness in vulnerable coastal regions.