A study reveals that Cyclone Chido’s intensity was heightened due to climate change, suggesting a 40% increased likelihood of similar storms. This cyclone was the most destructive to hit Mayotte in 90 years, demonstrating the severe impacts of global warming on tropical storm dynamics. Using advanced simulations, scientists indicated increased wind speeds in storms, correlating the heightened intensity with human-induced climate changes.
A recent preliminary study conducted by scientists from Imperial College London has determined that climate change significantly increased the intensity of Cyclone Chido, which recently impacted the Indian Ocean archipelago of Mayotte. This storm, classified as a category four, caused substantial damage upon its landfall, marking it as the most devastating cyclone to strike the region in nearly a century. The research indicates that cyclones of similar intensity are now 40 percent more likely to occur due to the warming climate.
The study utilized advanced computer simulations to analyze how global warming has altered wind speeds and storm intensity. It found that near the location where Cyclone Chido made landfall, wind speeds have increased by approximately three miles per second due to climate change effects. Furthermore, even though not all meteorological institutions presently attribute the storm’s strength solely to global warming, the consensus among scientists emphasizes that warmer oceans enhance the violence of storms. The notable rise in the planet’s temperature, nearly 1.3 degrees Celsius compared to pre-industrial levels, is believed to exacerbate the frequency and severity of severe weather events throughout the globe. Based on these findings, it is evident that climate change has direct implications for the burgeoning intensity of tropical storms like Cyclone Chido.
The recent study surrounding Cyclone Chido emerges against the backdrop of ongoing global concerns regarding climate change and its impact on weather patterns. As global temperatures rise, the capability of the atmosphere to hold more moisture increases, which consequently affects precipitation and storm intensification. Cyclone Chido serves as a critical case study within this context, illustrating how tropical cyclones are not only becoming more intense but also more frequent as a result of anthropogenic climate shifts.
Cyclone Chido’s unprecedented strength underlines the urgent realities of climate change, which is reshaping tropical storm patterns and intensities. It is crucial to understand that increasing global temperatures lead to more severe weather occurrences, forcing policymakers and communities to reckon with the implications of these findings. The assessment further emphasizes the necessity for comprehensive climate action to mitigate future risks associated with such catastrophic weather events.
Original Source: www.france24.com
