Is Typhoon Rai in the Philippines a foretaste of the future?

The peak of typhoon activity, in number and intensity, is usually in August. This is only the third Category 5 typhoon to form in the South China Sea, with the other two dating from 2014 (Rammasun) and 1954 (Pamela).

If the force of the winds impresses, these are the precipitation which generally cause the most damage and victims, and that for all cyclones of the world (typhoons and hurricanes). The meteorologists ^{estimate that 30% of annual precipitation in the Philippines comes from typhoons. Cyclonic phenomena are responsible for a third of the total number of victims of climatic disasters in the world for 50 years according to the World Meteorological Organization.}

Heat, humidity, sea level: the ingredients of typhoons

In recent years, a probable link has been shown between an increase in ocean surface temperatures and stronger cyclonic phenomena. Even if all the secrets have not been pierced as to the link between climate change and the intensity of cyclones, the latest studies agree on the same projections: warmer water gives more energy ^{typhoons to intensify, but not necessarily to multiply. We are therefore heading towards more intense cyclonic phenomena (category 4 and 5), but not necessarily more numerous.}

Some climatologists ^{even think that there could be less cyclonic phenomena in the future, but much more intense. Associated with an increasing human population and more} constructions ^{on coasts, the impact of more intense typhoons and hurricanes looks devastating in the future. Over} heat ^{in the atmosphere also leads to more intense precipitation and these two ingredients} weather report – heat and humidity – in turn feed cyclones, providing them with the fuel they need to intensify. And by intensifying, cyclones generate even more precipitation, a veritable vicious circle!

But the heat of the oceans and the humidity of the atmosphere are not the only worrying factors to consider.

Indeed, the rise in sea level is the most determining parameter in the destructive capacity of typhoons. A higher water level inevitably leads to a higher great submersion of the coasts , a consequence much more serious than that caused by the force of the winds.

Other climatic factors, such as the circulation of atmospheric currents, also influence the development of cyclonic phenomena.

The consequences of certain other climatic phenomena, which lead to the development of these cyclones, are even contradictory with the current conclusions on the intensity of the cyclones. This is why it is very difficult to perform forecasts precise and reliable on the evolution and dangerousness of these phenomena in the future.

Much more violent typhoons and hurricanes from of 2050

During the last 30 years, marked by an acceleration of

global warming , climatologists have nevertheless recorded an increase in the average intensity of cyclones: according to Climate Signals , cyclonic phenomena are more powerful 2 km / h on average than 30 years ago. Likewise, once formed, cyclonic phenomena reach category 3 more quickly than they did 25 years ago: 9 hours earlier on average, and even a day earlier for hurricanes off the coast of North America. North.

According to Professor Kerry Manuel of the University of Massachusetts Institute of Technology (MIT, USA), the intensification of cyclonic phenomena, linked to climate change, will not be really visible until 2050. The super-typhoons that we are currently experiencing would not be only weak clues, almost anecdotal on the scale of weather, compared to projections over the next 30 years.

If climate change seems irreversible until 2050, it is necessary to develop means of adaptation which involve a radical change in the urbanization of coastal areas.

A few days ago, China just launched a research group on typhoons in Asia and the Pacific ( Asia Pacific Typhoon Collaborative Research Center ^{) in Shanghai, in order to better anticipate the typhoons of the future and their consequences.}