Study: Mild Floods Are Declining, but Intense Floods Are On The Rise

It is well known that humans are causing the Earth to warm.  We also know that a warmer atmosphere has more water vapor.  Just like the air is more humid when it is warm, and less humid when cold.  The more humid air leads to more intense precipitation and potentially more flooding.  But how much change we will see is an open scientific question.

This question is made complex by the fact that flooding isn’t just about rain.  It reflects a dependence on evaporation, rain, the ability of land and water management to handle water surges, and other factors.  Fortunately, a very recent study out of Science Advances has helped advance our understanding of the confluence of global warming, intense rain, and flooding.

The authors, Conrad Wasko and Ashish Sharma, from the University of New South Wales, investigated various non-urban catchments.  These are regions where precipitation drains to a common site.  We know that in many places the rainfall is increasing.  What these authors wanted to know was whether there was a coincident increase in floods found in these various catchments.

This study isn’t as simple as it might sound.  The authors had to make choices about which rainfall event and which temperature peak corresponded to each other and to a potential water flow peak.  According to the paper, “precipitation events were identified where the precipitation was separated by five days of zero rainfall.”  That is, it had to be dry ahead of time. Streamflow and flooding events were selected as peaks separated by more than seven days.  The authors then picked the largest peak from the precipitation and the streamflow observations and matched them to a coincident temperature measurement.

The tough part is that there can be a delay in temperatures and precipitation.  Furthermore, there can be a physical distance between the source of the storm and the location of precipitation.  Finally, many times we see flooding without the required five-day dry period.  So admittedly this study has real limitations.  On the other hand, the authors had to make some choices of selection and these are as good as any others.  And, they compensated for these limitations by using extensive rainfall, temperature, and streamflow data, data that represented the entire world and allows confident conclusions to be drawn.

What they found was that in most cases there is no direct link.  That is, higher temperatures does not generally cause an increase in water flow or flood risk.

So this begs the question, why not?  Why isn’t there a clear direct relationship between the temperature peaks and flooding?  Well, the authors explain that there is an important role of hydrologic loss (water loss due to evaporation for instance).  When the authors separated the results by size of catchment, they found that the importance of these water losses was reduced for smaller catchment areas.  They write:

if the catchment or region capturing the precipitation is smaller, but the precipitation event intensity remains the same, the potential for losses is less.  In large catchments, the peak streamflow is more likely to be influenced by the catchment wetness conditions preceding the storm event.

When they broke the analysis into different catchment sizes, the authors found that for extreme rainfalls, the flooding and temperature move together.  The authors also broke analysis into different geographical zones and found that their conclusions held true, regardless of the zone location.

Read more at Study:  Mild Floods Are Declining, but Intense Floods Are On The Rise