February 5, 2013
Intense Rainfall In The Ebro Basin Is Becoming Less Frequent
FECYT - Spanish Foundation for Science and Technology
Researchers from CSIC's Aula Dei Experimental Station in Zaragoza, Spain have confirmed that the frequency of intense rainfall has been decreasing in the Ebro basin since 1955.
Santiago BeguerÃa, one of the authors of both studies, explained to SINC that here we are not dealing with torrential rainfall like recent deluges that have caused great increases in the Ebro: "These are extraordinary events and their sporadic and elusive nature makes it difficult to make concrete conclusions. They are therefore harder to study."
In fact, according to a third study published in 2011 in the 'International Journal of Climatology', in which BeguerÃa also participated, "we cannot say in general terms that there is an annual trend in one sense or another for the maximum intensity of these extreme precipitations," outlines the author himself.
There is the hypothesis that more violent and frequent rains are caused due to climate change, which is then followed by more intense droughts. Many studies state that this effect can already be seen in the weather of recent decades.
However, according to BeguerÃa "this type of global affirmations has regional nuances."
More specifically, "different studies on the Iberian Peninsula show that the predicted increase of extreme rain is not actually occurring," ensures the expert.
BeguerÃa's studies focus on the northeast of Spain and the researchers have reached the same conclusion after analyzing rainfall erosivity (the capacity of a downpour to cause erosion) between 1955 and 2006.
For this purpose, use was made of an erosivity database developed from records belonging to the Spanish Meteorological Agency (AEMAT) and the Ebro Hydrographic Confederation and a generalized decrease in this parameter was observed both on an annual and season level.
This tendency can be explained by the decrease in the amount of intense rain.
"This is a significant finding since it could be indicative of persistent long-term climate changes that have a regional effect," outlines BeguerÃa.
The author clarifies that his work focuses on identifying these tendencies but states that it is difficult to "explain their causes given that climate is a chaotic system." Furthermore, he states that whereas for some phenomena, such as global warming, there is a high consensus regarding the causes, this is not the case for many other variables."
"As we do not know the causes, we are in no position to predict whether these tendencies will continue in the future. It is very difficult to link tendencies as we have seen with more general patterns, such as global warming. It may be possible that what we have found is a consequence of natural climate variability," explains the researcher.
"However, given the significant consequences of such a change on the frequency and magnitude of rainfall, our study proves the need to continue researching this phenomenon," concludes the expert.
On The Net: